int UtcDaliHoverActorBecomesInsensitive(void)
{
TestApplication application;
Actor actor = Actor::New();
actor.SetSize(100.0f, 100.0f);
actor.SetAnchorPoint(AnchorPoint::TOP_LEFT);
Stage::GetCurrent().Add(actor);
// Render and notify
application.SendNotification();
application.Render();
// Connect to actor's hovered signal
SignalData data;
HoverEventFunctor functor( data );
actor.HoveredSignal().Connect( &application, functor );
// Emit a started signal
application.ProcessEvent( GenerateSingleHover( TouchPoint::Started, Vector2( 10.0f, 10.0f ) ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( TouchPoint::Started, data.hoverEvent.points[0].state, TEST_LOCATION );
data.Reset();
// Change actor to insensitive
actor.SetSensitive( false );
// Emit a motion signal, signalled with an interrupted
application.ProcessEvent( GenerateSingleHover( TouchPoint::Motion, Vector2 ( 200.0f, 200.0f )) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( TouchPoint::Interrupted, data.hoverEvent.points[0].state, TEST_LOCATION );
data.Reset();
END_TEST;
}
void WorkspaceSerializer::Write(const QString& fileName, const SignalData& data, const PlotInfo& plotInfo, bool writeValues /*= true*/)
{
QJsonObject json;
json["background"] = plotInfo.getBackgroundColor().name();
if (writeValues)
{
if (auto domain = data.getDomain())
json["domain"] = domain->name;
}
QJsonArray signArray;
data.onSignals([&](const Signal& signal){
QJsonObject signObj;
signObj["name"] = signal.name;
signObj["color"] = signal.graphic.color.name();
signObj["visible"] = signal.graphic.visible;
signObj["range"] = ToJsonArray(QVector < qreal > {signal.graphic.rangeLower, signal.graphic.rangeUpper});
if (writeValues)
signObj["values"] = ToJsonArray(signal.y);
signObj["ticks"] = ToJsonArray(signal.graphic.ticks);
signObj["tickLabels"] = ToJsonArray(signal.graphic.tickLabels);
signArray.push_back(std::move(signObj));
});
json["signals"] = signArray;
QJsonDocument saveDoc(json);
QFile outF(fileName);
outF.open(QIODevice::WriteOnly);
outF.write(saveDoc.toJson(QJsonDocument::Indented));
}
int UtcDaliHoverInterrupted(void)
{
TestApplication application;
Actor actor = Actor::New();
actor.SetSize(100.0f, 100.0f);
actor.SetAnchorPoint(AnchorPoint::TOP_LEFT);
Stage::GetCurrent().Add(actor);
// Render and notify
application.SendNotification();
application.Render();
// Connect to actor's hovered signal
SignalData data;
HoverEventFunctor functor( data );
actor.HoveredSignal().Connect( &application, functor );
// Emit a started signal
application.ProcessEvent( GenerateSingleHover( TouchPoint::Started, Vector2( 10.0f, 10.0f ) ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( TouchPoint::Started, data.hoverEvent.points[0].state, TEST_LOCATION );
data.Reset();
// Emit an interrupted signal, we should be signalled regardless of whether there is a hit or not.
application.ProcessEvent( GenerateSingleHover( TouchPoint::Interrupted, Vector2( 200.0f, 200.0f /* Outside actor */ ) ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( TouchPoint::Interrupted, data.hoverEvent.points[0].state, TEST_LOCATION );
data.Reset();
// Emit another interrupted signal, our signal handler should not be called.
application.ProcessEvent( GenerateSingleHover( TouchPoint::Interrupted, Vector2( 200.0f, 200.0f ) ) );
DALI_TEST_EQUALS( false, data.functorCalled, TEST_LOCATION );
END_TEST;
}
static void UtcDaliKeyInputFocusManagerSignalUnhandledKeyEvent()
{
ToolkitTestApplication application;
tet_infoline("UtcDaliKeyInputFocusManagerSignalUnhandledKeyEvent");
SignalData data;
SignalUnhandledKeyEventCallback callback( data );
KeyInputFocusManager manager = KeyInputFocusManager::Get();
manager.UnhandledKeyEventSignal().Connect( &callback, &SignalUnhandledKeyEventCallback::Callback );
Integration::KeyEvent event("a", "a", 0, 0, 0, Integration::KeyEvent::Up);
application.ProcessEvent(event);
DALI_TEST_CHECK(data.functorCalled);
DALI_TEST_CHECK(event.keyName == data.receivedKeyEvent.keyPressedName );
DALI_TEST_CHECK(event.keyCode == data.receivedKeyEvent.keyCode);
DALI_TEST_CHECK(event.keyString == data.receivedKeyEvent.keyPressed );
DALI_TEST_CHECK(event.state == data.receivedKeyEvent.state );
data.Reset();
Integration::KeyEvent event2("v", "v", 0, 0, 0, Integration::KeyEvent::Up);
application.ProcessEvent(event2);
DALI_TEST_CHECK(data.functorCalled);
DALI_TEST_CHECK(event2.keyName == data.receivedKeyEvent.keyPressedName );
DALI_TEST_CHECK(event2.keyCode == data.receivedKeyEvent.keyCode);
DALI_TEST_CHECK(event2.keyString == data.receivedKeyEvent.keyPressed );
}
int UtcDaliTapGestureSignalReceptionAttachDetachMany(void)
{
TestApplication application;
Actor first = Actor::New();
first.SetSize(100.0f, 100.0f);
first.SetAnchorPoint(AnchorPoint::TOP_LEFT);
Stage::GetCurrent().Add(first);
Actor second = Actor::New();
second.SetSize(100.0f, 100.0f);
second.SetX(100.0f);
second.SetAnchorPoint(AnchorPoint::TOP_LEFT);
Stage::GetCurrent().Add(second);
// Render and notify
application.SendNotification();
application.Render();
SignalData data;
GestureReceivedFunctor functor(data);
TapGestureDetector detector = TapGestureDetector::New();
detector.Attach(first);
detector.Attach(second);
detector.DetectedSignal().Connect(&application, functor);
// Tap within second actor's area
application.ProcessEvent(GenerateTap(Gesture::Possible, 1u, 1u, Vector2(120.0f, 10.0f)));
application.ProcessEvent(GenerateTap(Gesture::Started, 1u, 1u, Vector2(120.0f, 10.0f)));
DALI_TEST_EQUALS(true, data.functorCalled, TEST_LOCATION);
DALI_TEST_EQUALS(true, second == data.tappedActor, TEST_LOCATION);
// Tap within first actor's area
data.Reset();
application.ProcessEvent(GenerateTap(Gesture::Possible, 1u, 1u, Vector2(20.0f, 10.0f)));
application.ProcessEvent(GenerateTap(Gesture::Started, 1u, 1u, Vector2(20.0f, 10.0f)));
DALI_TEST_EQUALS(true, data.functorCalled, TEST_LOCATION);
DALI_TEST_EQUALS(true, first == data.tappedActor, TEST_LOCATION);
// Detach the second actor
detector.Detach(second);
// second actor shouldn't receive event
data.Reset();
application.ProcessEvent(GenerateTap(Gesture::Possible, 1u, 1u, Vector2(120.0f, 10.0f)));
application.ProcessEvent(GenerateTap(Gesture::Started, 1u, 1u, Vector2(120.0f, 10.0f)));
DALI_TEST_EQUALS(false, data.functorCalled, TEST_LOCATION);
// first actor should continue receiving event
data.Reset();
application.ProcessEvent(GenerateTap(Gesture::Possible, 1u, 1u, Vector2(20.0f, 10.0f)));
application.ProcessEvent(GenerateTap(Gesture::Started, 1u, 1u, Vector2(20.0f, 10.0f)));
DALI_TEST_EQUALS(true, data.functorCalled, TEST_LOCATION);
END_TEST;
}
int UtcDaliTapGestureSignalReceptionRotatedActor(void)
{
TestApplication application;
Actor actor = Actor::New();
actor.SetSize(100.0f, 100.0f);
actor.SetOrientation(Dali::Degree(90.0f), Vector3::ZAXIS);
Stage::GetCurrent().Add(actor);
// Render and notify
application.SendNotification();
application.Render();
SignalData data;
GestureReceivedFunctor functor(data);
TapGestureDetector detector = TapGestureDetector::New();
detector.Attach(actor);
detector.DetectedSignal().Connect(&application, functor);
// Do tap, only check finished value
application.ProcessEvent(GenerateTap(Gesture::Possible, 1u, 1u, Vector2(5.0f, 5.0f)));
application.ProcessEvent(GenerateTap(Gesture::Started, 1u, 1u, Vector2(5.0f, 5.0f)));
DALI_TEST_EQUALS(true, data.functorCalled, TEST_LOCATION);
DALI_TEST_EQUALS(1u, data.receivedGesture.numberOfTaps, TEST_LOCATION);
DALI_TEST_EQUALS(1u, data.receivedGesture.numberOfTouches, TEST_LOCATION);
DALI_TEST_EQUALS( Vector2(5.0f, 5.0f), data.receivedGesture.screenPoint, 0.1, TEST_LOCATION);
// Rotate actor again and render
actor.SetOrientation(Dali::Degree(180.0f), Vector3::ZAXIS);
application.SendNotification();
application.Render();
// Do tap, should still receive event
data.Reset();
application.ProcessEvent(GenerateTap(Gesture::Possible, 1u, 1u, Vector2(5.0f, 5.0f)));
application.ProcessEvent(GenerateTap(Gesture::Started, 1u, 1u, Vector2(5.0f, 5.0f)));
DALI_TEST_EQUALS(true, data.functorCalled, TEST_LOCATION);
DALI_TEST_EQUALS(1u, data.receivedGesture.numberOfTaps, TEST_LOCATION);
DALI_TEST_EQUALS(1u, data.receivedGesture.numberOfTouches, TEST_LOCATION);
DALI_TEST_EQUALS( Vector2(5.0f, 5.0f), data.receivedGesture.screenPoint, 0.1, TEST_LOCATION);
// Rotate actor again and render
actor.SetOrientation(Dali::Degree(90.0f), Vector3::YAXIS);
application.SendNotification();
application.Render();
// Do tap, inside the actor's area (area if it is not rotated), Should not receive the event
data.Reset();
application.ProcessEvent(GenerateTap(Gesture::Possible, 1u, 1u, Vector2(70.0f, 70.0f)));
application.ProcessEvent(GenerateTap(Gesture::Started, 1u, 1u, Vector2(70.0f, 70.0f)));
DALI_TEST_EQUALS(false, data.functorCalled, TEST_LOCATION);
END_TEST;
}
int UtcDaliTapGestureSignalReceptionChildHit(void)
{
TestApplication application;
Actor parent = Actor::New();
parent.SetSize(100.0f, 100.0f);
parent.SetAnchorPoint(AnchorPoint::TOP_LEFT);
Stage::GetCurrent().Add(parent);
// Set child to completely cover parent.
// Change rotation of child to be different from parent so that we can check if our local coordinate
// conversion of the parent actor is correct.
Actor child = Actor::New();
child.SetSize(100.0f, 100.0f);
child.SetAnchorPoint(AnchorPoint::CENTER);
child.SetParentOrigin(ParentOrigin::CENTER);
child.SetOrientation(Dali::Degree(90.0f), Vector3::ZAXIS);
parent.Add(child);
TouchEventFunctor touchFunctor;
child.TouchedSignal().Connect(&application, touchFunctor);
// Render and notify
application.SendNotification();
application.Render();
SignalData data;
GestureReceivedFunctor functor(data);
TapGestureDetector detector = TapGestureDetector::New();
detector.Attach(parent);
detector.DetectedSignal().Connect(&application, functor);
// Do tap - hits child area but parent should still receive it
application.ProcessEvent(GenerateTap(Gesture::Possible, 1u, 1u, Vector2(50.0f, 50.0f)));
application.ProcessEvent(GenerateTap(Gesture::Started, 1u, 1u, Vector2(50.0f, 50.0f)));
DALI_TEST_EQUALS(true, data.functorCalled, TEST_LOCATION);
DALI_TEST_EQUALS(true, parent == data.tappedActor, TEST_LOCATION);
DALI_TEST_EQUALS(Vector2(50.0f, 50.0f), data.receivedGesture.screenPoint, 0.01f, TEST_LOCATION);
// Attach child and generate same touch points
// (Also proves that you can detach and then re-attach another actor)
detector.Attach(child);
detector.Detach(parent);
// Do an entire tap, only check finished value
data.Reset();
application.ProcessEvent(GenerateTap(Gesture::Possible, 1u, 1u, Vector2(51.0f, 51.0f)));
application.ProcessEvent(GenerateTap(Gesture::Started, 1u, 1u, Vector2(51.0f, 51.0f)));
DALI_TEST_EQUALS(true, data.functorCalled, TEST_LOCATION);
DALI_TEST_EQUALS(true, child == data.tappedActor, TEST_LOCATION);
DALI_TEST_EQUALS(Vector2(51.0f, 51.0f), data.receivedGesture.screenPoint, 0.01f, TEST_LOCATION);
END_TEST;
}
int UtcDaliTapGestureTouchBehindGesturedSystemOverlay(void)
{
TestApplication application;
Dali::Integration::Core& core = application.GetCore();
Dali::Integration::SystemOverlay& systemOverlay( core.GetSystemOverlay() );
systemOverlay.GetOverlayRenderTasks().CreateTask();
// SystemOverlay actor
Actor systemOverlayActor = Actor::New();
systemOverlayActor.SetSize(100.0f, 100.0f);
systemOverlayActor.SetAnchorPoint(AnchorPoint::TOP_LEFT);
systemOverlay.Add(systemOverlayActor);
// Stage actor
Actor stageActor = Actor::New();
stageActor.SetSize(100.0f, 100.0f);
stageActor.SetAnchorPoint(AnchorPoint::TOP_LEFT);
Stage::GetCurrent().Add(stageActor);
// Render and notify
application.SendNotification();
application.Render();
// Set stage actor to touchable
TouchEventData touchData;
TouchEventDataFunctor touchFunctor( touchData );
stageActor.TouchedSignal().Connect(&application, touchFunctor);
// Set system-overlay actor to have the gesture
SignalData data;
GestureReceivedFunctor functor(data);
TapGestureDetector detector = TapGestureDetector::New();
detector.Attach(systemOverlayActor);
detector.DetectedSignal().Connect(&application, functor);
Vector2 screenCoords( 50.0f, 50.0f );
// Do a tap inside both actors' area
application.ProcessEvent( GenerateTap( Gesture::Possible, 1u, 1u, screenCoords ) );
application.ProcessEvent( GenerateTap( Gesture::Started, 1u, 1u, screenCoords ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( false, touchData.functorCalled, TEST_LOCATION );
data.Reset();
touchData.Reset();
// Do touch in the same area
application.ProcessEvent( touchFunctor.GenerateSingleTouch( PointState::DOWN, screenCoords ) );
DALI_TEST_EQUALS( false, data.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( true, touchData.functorCalled, TEST_LOCATION );
END_TEST;
}
int UtcDaliHoverActorBecomesInsensitiveParentConsumer(void)
{
TestApplication application;
Actor rootActor( Stage::GetCurrent().GetRootLayer() );
Actor actor = Actor::New();
actor.SetSize(100.0f, 100.0f);
actor.SetAnchorPoint(AnchorPoint::TOP_LEFT);
Stage::GetCurrent().Add(actor);
// Render and notify
application.SendNotification();
application.Render();
// Connect to actor's hovered signal
SignalData data;
HoverEventFunctor functor( data, false );
actor.HoveredSignal().Connect( &application, functor );
// Connect to root actor's hovered signal
SignalData rootData;
HoverEventFunctor rootFunctor( rootData ); // Consumes signal
rootActor.HoveredSignal().Connect( &application, rootFunctor );
// Emit a started signal
application.ProcessEvent( GenerateSingleHover( TouchPoint::Started, Vector2( 10.0f, 10.0f ) ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( true, rootData.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( TouchPoint::Started, data.hoverEvent.points[0].state, TEST_LOCATION );
DALI_TEST_EQUALS( TouchPoint::Started, rootData.hoverEvent.points[0].state, TEST_LOCATION );
DALI_TEST_CHECK( actor == data.hoverEvent.points[0].hitActor );
DALI_TEST_CHECK( actor == rootData.hoverEvent.points[0].hitActor );
data.Reset();
rootData.Reset();
// Remove actor from Stage
Stage::GetCurrent().Remove( actor );
// Render and notify
application.SendNotification();
application.Render();
// Make root actor insensitive
rootActor.SetSensitive( false );
// Emit a motion signal, signalled with an interrupted (should get interrupted even if within root actor)
application.ProcessEvent( GenerateSingleHover( TouchPoint::Motion, Vector2 ( 200.0f, 200.0f )) );
DALI_TEST_EQUALS( false, data.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( true, rootData.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( TouchPoint::Interrupted, rootData.hoverEvent.points[0].state, TEST_LOCATION );
END_TEST;
}
int UtcDaliHoverMultipleRenderTasksWithChildLayer(void)
{
TestApplication application;
Stage stage ( Stage::GetCurrent() );
Vector2 stageSize ( stage.GetSize() );
Actor actor = Actor::New();
actor.SetSize(100.0f, 100.0f);
actor.SetAnchorPoint(AnchorPoint::TOP_LEFT);
stage.Add(actor);
Layer layer = Layer::New();
layer.SetSize(100.0f, 100.0f);
layer.SetAnchorPoint(AnchorPoint::TOP_LEFT);
actor.Add(layer);
// Create render task
Viewport viewport( stageSize.width * 0.5f, stageSize.height * 0.5f, stageSize.width * 0.5f, stageSize.height * 0.5f );
RenderTask renderTask ( Stage::GetCurrent().GetRenderTaskList().CreateTask() );
renderTask.SetViewport( viewport );
renderTask.SetInputEnabled( true );
renderTask.SetSourceActor( actor );
// Render and notify
application.SendNotification();
application.Render();
// Connect to layer's hovered signal
SignalData data;
HoverEventFunctor functor( data );
actor.HoveredSignal().Connect( &application, functor );
layer.HoveredSignal().Connect( &application, functor );
// Emit a started signal
application.ProcessEvent( GenerateSingleHover( TouchPoint::Started, Vector2( 10.0f, 10.0f ) ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
data.Reset();
// Ensure renderTask actor can be hit too.
application.ProcessEvent( GenerateSingleHover( TouchPoint::Started, Vector2( viewport.x + 5.0f, viewport.y + 5.0f ) ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
data.Reset();
// Disable input on renderTask, should not be hittable
renderTask.SetInputEnabled( false );
application.ProcessEvent( GenerateSingleHover( TouchPoint::Started, Vector2( viewport.x + 5.0f, viewport.y + 5.0f ) ) );
DALI_TEST_EQUALS( false, data.functorCalled, TEST_LOCATION );
data.Reset();
END_TEST;
}
int UtcDaliTapGestureSignalReceptionDetach(void)
{
TestApplication application;
Actor actor = Actor::New();
actor.SetSize(100.0f, 100.0f);
actor.SetAnchorPoint(AnchorPoint::TOP_LEFT);
Stage::GetCurrent().Add(actor);
// Render and notify
application.SendNotification();
application.Render();
SignalData data;
GestureReceivedFunctor functor(data);
TapGestureDetector detector = TapGestureDetector::New();
detector.Attach(actor);
detector.DetectedSignal().Connect(&application, functor);
// Start tap within the actor's area
application.ProcessEvent(GenerateTap(Gesture::Possible, 1u, 1u, Vector2(20.0f, 20.0f)));
application.ProcessEvent(GenerateTap(Gesture::Started, 1u, 1u, Vector2(20.0f, 20.0f)));
DALI_TEST_EQUALS(true, data.functorCalled, TEST_LOCATION);
DALI_TEST_EQUALS(1u, data.receivedGesture.numberOfTaps, TEST_LOCATION);
DALI_TEST_EQUALS(1u, data.receivedGesture.numberOfTouches, TEST_LOCATION);
DALI_TEST_EQUALS( Vector2(20.0f, 20.0f), data.receivedGesture.localPoint, 0.1, TEST_LOCATION);
// repeat the tap within the actor's area - we should still receive the signal
data.Reset();
application.ProcessEvent(GenerateTap(Gesture::Possible, 1u, 1u, Vector2(50.0f, 50.0f)));
application.ProcessEvent(GenerateTap(Gesture::Started, 1u, 1u, Vector2(50.0f, 50.0f)));
DALI_TEST_EQUALS(true, data.functorCalled, TEST_LOCATION);
DALI_TEST_EQUALS(1u, data.receivedGesture.numberOfTaps, TEST_LOCATION);
DALI_TEST_EQUALS(1u, data.receivedGesture.numberOfTouches, TEST_LOCATION);
DALI_TEST_EQUALS( Vector2(50.0f, 50.0f), data.receivedGesture.localPoint, 0.1, TEST_LOCATION);
// Detach actor
detector.DetachAll();
// Ensure we are no longer signalled
data.Reset();
application.ProcessEvent(GenerateTap(Gesture::Possible, 1u, 1u, Vector2(20.0f, 20.0f)));
application.ProcessEvent(GenerateTap(Gesture::Started, 1u, 1u, Vector2(20.0f, 20.0f)));
DALI_TEST_EQUALS(false, data.functorCalled, TEST_LOCATION);
application.ProcessEvent(GenerateTap(Gesture::Possible, 1u, 1u, Vector2(50.0f, 50.0f)));
application.ProcessEvent(GenerateTap(Gesture::Started, 1u, 1u, Vector2(50.0f, 50.0f)));
DALI_TEST_EQUALS(false, data.functorCalled, TEST_LOCATION);
END_TEST;
}
int UtcDaliTapGestureLayerConsumesTouch(void)
{
TestApplication application;
Actor actor = Actor::New();
actor.SetSize(100.0f, 100.0f);
actor.SetAnchorPoint(AnchorPoint::TOP_LEFT);
Stage::GetCurrent().Add(actor);
// Add a detector
SignalData data;
GestureReceivedFunctor functor(data);
TapGestureDetector detector = TapGestureDetector::New();
detector.Attach(actor);
detector.DetectedSignal().Connect( &application, functor );
// Add a layer to overlap the actor
Layer layer = Layer::New();
layer.SetSize(100.0f, 100.0f);
layer.SetAnchorPoint(AnchorPoint::TOP_LEFT);
Stage::GetCurrent().Add( layer );
layer.RaiseToTop();
// Render and notify
application.SendNotification();
application.Render();
Vector2 screenCoords( 50.0f, 50.0f );
// Emit signals, should receive
application.ProcessEvent( GenerateTap( Gesture::Possible, 1u, 1u, screenCoords ) );
application.ProcessEvent( GenerateTap( Gesture::Started, 1u, 1u, screenCoords ) );
DALI_TEST_EQUALS(true, data.functorCalled, TEST_LOCATION);
data.Reset();
// Set layer to consume all touch
layer.SetTouchConsumed( true );
// Render and notify
application.SendNotification();
application.Render();
// Emit the same signals again, should not receive
application.ProcessEvent( GenerateTap( Gesture::Possible, 1u, 1u, screenCoords ) );
application.ProcessEvent( GenerateTap( Gesture::Started, 1u, 1u, screenCoords ) );
DALI_TEST_EQUALS(false, data.functorCalled, TEST_LOCATION);
data.Reset();
END_TEST;
}
int UtcDaliHoverOffscreenRenderTasks(void)
{
TestApplication application;
Stage stage ( Stage::GetCurrent() );
Vector2 stageSize ( stage.GetSize() );
// FrameBufferImage for offscreen RenderTask
FrameBufferImage frameBufferImage( FrameBufferImage::New( stageSize.width, stageSize.height, Pixel::RGBA8888 ) );
// Create a renderable actor to display the FrameBufferImage
Actor renderableActor = CreateRenderableActor( frameBufferImage );
renderableActor.SetParentOrigin(ParentOrigin::CENTER);
renderableActor.SetSize( stageSize.x, stageSize.y );
renderableActor.ScaleBy( Vector3(1.0f, -1.0f, 1.0f) ); // FIXME
stage.Add( renderableActor );
Actor actor = Actor::New();
actor.SetSize(100.0f, 100.0f);
actor.SetAnchorPoint(AnchorPoint::TOP_LEFT);
stage.Add( actor );
application.GetGlAbstraction().SetCheckFramebufferStatusResult( GL_FRAMEBUFFER_COMPLETE ); // Ensure framebuffer connects
stage.GetRenderTaskList().GetTask( 0u ).SetScreenToFrameBufferFunction( RenderTask::FULLSCREEN_FRAMEBUFFER_FUNCTION );
// Create a RenderTask
RenderTask renderTask = stage.GetRenderTaskList().CreateTask();
renderTask.SetSourceActor( actor );
renderTask.SetTargetFrameBuffer( frameBufferImage );
renderTask.SetInputEnabled( true );
// Create another RenderTask
RenderTask renderTask2( stage.GetRenderTaskList().CreateTask() );
renderTask2.SetInputEnabled( true );
// Render and notify
application.SendNotification();
application.Render();
// Connect to actor's hovered signal
SignalData data;
HoverEventFunctor functor( data );
actor.HoveredSignal().Connect( &application, functor );
// Emit a started signal
application.ProcessEvent( GenerateSingleHover( TouchPoint::Started, Vector2( 10.0f, 10.0f ) ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
data.Reset();
END_TEST;
}
int UtcDaliHoverLeaveActorReadded(void)
{
TestApplication application;
Stage stage = Stage::GetCurrent();
Actor actor = Actor::New();
actor.SetSize(100.0f, 100.0f);
actor.SetAnchorPoint(AnchorPoint::TOP_LEFT);
stage.Add(actor);
// Set actor to receive hover-events
actor.SetLeaveRequired( true );
// Render and notify
application.SendNotification();
application.Render();
// Connect to actor's hovered signal
SignalData data;
HoverEventFunctor functor( data );
actor.HoveredSignal().Connect( &application, functor );
// Emit a started and motion
application.ProcessEvent( GenerateSingleHover( TouchPoint::Started, Vector2( 10.0f, 10.0f ) ) );
application.ProcessEvent( GenerateSingleHover( TouchPoint::Motion, Vector2( 11.0f, 10.0f ) ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
data.Reset();
// Remove actor from stage and add again
stage.Remove( actor );
stage.Add( actor );
// Emit a motion within the actor's bounds
application.ProcessEvent( GenerateSingleHover( TouchPoint::Motion, Vector2( 12.0f, 10.0f ) ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
data.Reset();
// Emit a motion outside the actor's bounds
application.ProcessEvent( GenerateSingleHover( TouchPoint::Motion, Vector2( 200.0f, 200.0f ) ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( TouchPoint::Leave, data.hoverEvent.points[0].state, TEST_LOCATION );
data.Reset();
END_TEST;
}
int UtcDaliTapGestureSignalReceptionActorDestroyedWhileTapping(void)
{
TestApplication application;
SignalData data;
GestureReceivedFunctor functor(data);
TapGestureDetector detector = TapGestureDetector::New();
detector.DetectedSignal().Connect(&application, functor);
// Actor lifetime is scoped
{
Actor actor = Actor::New();
actor.SetSize(100.0f, 100.0f);
actor.SetAnchorPoint(AnchorPoint::TOP_LEFT);
Stage::GetCurrent().Add(actor);
// Render and notify
application.SendNotification();
application.Render();
detector.Attach(actor);
// Start tap within the actor's area
application.ProcessEvent(GenerateTap(Gesture::Possible, 1u, 1u, Vector2(20.0f, 20.0f)));
application.ProcessEvent(GenerateTap(Gesture::Started, 1u, 1u, Vector2(20.0f, 20.0f)));
DALI_TEST_EQUALS(true, data.functorCalled, TEST_LOCATION);
// Remove the actor from stage and reset the data
Stage::GetCurrent().Remove(actor);
// Render and notify
application.SendNotification();
application.Render();
}
// Actor should now have been destroyed
data.Reset();
application.ProcessEvent(GenerateTap(Gesture::Possible, 1u, 1u, Vector2(20.0f, 20.0f)));
application.ProcessEvent(GenerateTap(Gesture::Started, 1u, 1u, Vector2(20.0f, 20.0f)));
DALI_TEST_EQUALS(false, data.functorCalled, TEST_LOCATION);
END_TEST;
}
void WorkspaceSerializer::Read(const QString& fileName, SignalData& data, PlotInfo& plotInfo)
{
DataMap newData;
::Read(fileName, data, plotInfo, [&](Signal&& signal){
auto signalName = signal.name;
newData.emplace(std::move(signalName), std::move(signal));
}, [&]{
data.add(std::move(newData));
});
}
DataToReplay PrepareReplay(const QString& file, SignalData& signalData)
{
SignalData data; PlotInfo info;
WorkspaceSerializer::Read(file, data, info);
DataMap toSet;
vector < pair<QString, QVector<qreal>>> toSend;
data.onSignals([&](const Signal& signal){
toSet.emplace(signal.name, Signal{ signal.name, {}, signal.graphic });
toSend.emplace_back(make_pair(signal.name, std::move(signal.y)));
});
for (auto& signal : toSet)
{
signalData.addIfNotExists(std::move(signal.second));
}
signalData.setAsDomain(data.getDomain()->name);
return toSend;
}
void WorkspaceSerializerTests::VerifyActualDataAndPersistedFile(const QString& file, const DataMap& expectedDataMap, const QString& expectedDomain, const QColor& expectedBackground)
{
SignalData actualSignalData;
PlotInfo actualPlotInfo;
QSignalSpy dataSpy(&actualSignalData, SIGNAL(DataAdded(const DataMap&)));
QSignalSpy plotSpy(&actualPlotInfo, SIGNAL(BackgroundColorChanged(const QColor&)));
WorkspaceSerializer::Read(file, actualSignalData, actualPlotInfo);
QCOMPARE(1, dataSpy.count());
QCOMPARE(1, plotSpy.count());
auto actualdata = dataSpy.takeFirst().takeFirst().value<DataMap>();
QCOMPARE(actualdata, expectedDataMap);
QCOMPARE(actualSignalData.getDomain()->name, expectedDomain);
auto actualColor = plotSpy.takeFirst().takeFirst().value<QColor>();
QCOMPARE(actualColor, expectedBackground);
}
int UtcDaliTapGestureSignalReceptionActorBecomesUntouchable(void)
{
TestApplication application;
Actor actor = Actor::New();
actor.SetSize(100.0f, 100.0f);
actor.SetAnchorPoint(AnchorPoint::TOP_LEFT);
Stage::GetCurrent().Add(actor);
// Render and notify
application.SendNotification();
application.Render();
SignalData data;
GestureReceivedFunctor functor(data);
TapGestureDetector detector = TapGestureDetector::New();
detector.Attach(actor);
detector.DetectedSignal().Connect(&application, functor);
// Tap in actor's area
application.ProcessEvent(GenerateTap(Gesture::Possible, 1u, 1u, Vector2(50.0f, 10.0f)));
application.ProcessEvent(GenerateTap(Gesture::Started, 1u, 1u, Vector2(50.0f, 10.0f)));
DALI_TEST_EQUALS(true, data.functorCalled, TEST_LOCATION);
// Actor become invisible - actor should not receive the next pan
actor.SetVisible(false);
// Render and notify
application.SendNotification();
application.Render();
// Tap in the same area, shouldn't receive event
data.Reset();
application.ProcessEvent(GenerateTap(Gesture::Possible, 1u, 1u, Vector2(50.0f, 10.0f)));
application.ProcessEvent(GenerateTap(Gesture::Started, 1u, 1u, Vector2(50.0f, 10.0f)));
DALI_TEST_EQUALS(false, data.functorCalled, TEST_LOCATION);
END_TEST;
}
void WorkspaceSerializerTests::WriteTest()
{
DataMap dataMap = {
{ "cubic",
{
"cubic", { 1, 8, 27, 64, 125, 216, 343, 512, 729, 1000 }, { "#008000", true, 1, 1000 }
}
},
{ "line",
{
"line", { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 }, { "#ffff00", false, 1, 10 }
}
}
};
PlotInfo plot;
plot.setBackgroundColor("red");
SignalData data;
data.add(dataMap);
data.setAsDomain("line");
QString tmpFileName = std::tmpnam(nullptr);
struct guard
{
guard(const QString& fileName)
: fileName(fileName)
{
}
~guard()
{
QFile f(fileName);
f.remove();
}
const QString& fileName;
} fileDeleter(tmpFileName);
WorkspaceSerializer::Write(tmpFileName, data, plot);
VerifyActualDataAndPersistedFile(tmpFileName, dataMap, "line", "red");
}
int UtcDaliTapGestureRepeatedState(void)
{
TestApplication application;
Actor actor = Actor::New();
actor.SetSize(100.0f, 100.0f);
actor.SetAnchorPoint(AnchorPoint::TOP_LEFT);
Stage::GetCurrent().Add(actor);
// Render and notify
application.SendNotification();
application.Render();
// Attach actor to detector
SignalData data;
GestureReceivedFunctor functor( data );
TapGestureDetector detector = TapGestureDetector::New();
detector.Attach(actor);
detector.DetectedSignal().Connect( &application, functor );
// Emit two possibles
application.ProcessEvent(GenerateTap(Gesture::Possible, 1u, 1u, Vector2(50.0f, 10.0f)));
application.ProcessEvent(GenerateTap(Gesture::Possible, 1u, 1u, Vector2(50.0f, 10.0f)));
DALI_TEST_EQUALS(false, data.functorCalled, TEST_LOCATION);
// Send a couple of Started states, only first one should be received.
application.ProcessEvent(GenerateTap(Gesture::Started, 1u, 1u, Vector2(50.0f, 10.0f)));
DALI_TEST_EQUALS(true, data.functorCalled, TEST_LOCATION);
data.Reset();
application.ProcessEvent(GenerateTap(Gesture::Started, 1u, 1u, Vector2(50.0f, 10.0f)));
DALI_TEST_EQUALS(false, data.functorCalled, TEST_LOCATION);
// Send a couple of cancelled states, no reception
application.ProcessEvent(GenerateTap(Gesture::Cancelled, 1u, 1u, Vector2(50.0f, 10.0f)));
application.ProcessEvent(GenerateTap(Gesture::Cancelled, 1u, 1u, Vector2(50.0f, 10.0f)));
DALI_TEST_EQUALS(false, data.functorCalled, TEST_LOCATION);
END_TEST;
}
int UtcDaliHoverStencilNonRenderableActor(void)
{
TestApplication application;
Stage stage = Stage::GetCurrent();
Actor actor = Actor::New();
actor.SetSize(100.0f, 100.0f);
actor.SetAnchorPoint(AnchorPoint::TOP_LEFT);
stage.Add(actor);
Actor stencil = Actor::New();
stencil.SetSize(50.0f, 50.0f);
stencil.SetAnchorPoint(AnchorPoint::TOP_LEFT);
stencil.SetDrawMode( DrawMode::STENCIL );
stage.Add(stencil);
// Render and notify
application.SendNotification();
application.Render();
// Connect to actor's hovered signal
SignalData data;
HoverEventFunctor functor( data );
actor.HoveredSignal().Connect( &application, functor );
// Emit an event within stencil area
application.ProcessEvent( GenerateSingleHover( TouchPoint::Started, Vector2( 10.0f, 10.0f ) ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
data.Reset();
// Emit an event outside the stencil area but within the actor area, we should have a hit!
application.ProcessEvent( GenerateSingleHover( TouchPoint::Started, Vector2( 60.0f, 60.0f ) ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
data.Reset();
END_TEST;
}
int UtcDaliHoverActorUnStaged(void)
{
TestApplication application;
Actor actor = Actor::New();
actor.SetSize(100.0f, 100.0f);
actor.SetAnchorPoint(AnchorPoint::TOP_LEFT);
Stage::GetCurrent().Add(actor);
// Render and notify
application.SendNotification();
application.Render();
// Connect to actor's hovered signal
SignalData data;
HoverEventFunctor functor( data );
actor.HoveredSignal().Connect( &application, functor );
// Emit a started signal
application.ProcessEvent( GenerateSingleHover( TouchPoint::Started, Vector2( 10.0f, 10.0f ) ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
data.Reset();
// Remove actor from stage
Stage::GetCurrent().Remove( actor );
// Render and notify
application.SendNotification();
application.Render();
// Emit a move at the same point, we should not be signalled.
application.ProcessEvent( GenerateSingleHover( TouchPoint::Motion, Vector2( 10.0f, 10.0f ) ) );
DALI_TEST_EQUALS( false, data.functorCalled, TEST_LOCATION );
data.Reset();
END_TEST;
}
int UtcDaliHoverLeave(void)
{
TestApplication application;
Actor actor = Actor::New();
actor.SetSize(100.0f, 100.0f);
actor.SetAnchorPoint(AnchorPoint::TOP_LEFT);
Stage::GetCurrent().Add(actor);
// Render and notify
application.SendNotification();
application.Render();
// Connect to actor's hovered signal
SignalData data;
HoverEventFunctor functor( data );
actor.HoveredSignal().Connect( &application, functor );
// Set actor to require leave events
actor.SetLeaveRequired( true );
// Emit a started signal
application.ProcessEvent( GenerateSingleHover( TouchPoint::Started, Vector2( 10.0f, 10.0f ) ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( TouchPoint::Started, data.hoverEvent.points[0].state, TEST_LOCATION );
data.Reset();
// Emit a motion signal outside of actor, should be signalled with a Leave
application.ProcessEvent( GenerateSingleHover( TouchPoint::Motion, Vector2 ( 200.0f, 200.0f )) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( TouchPoint::Leave, data.hoverEvent.points[0].state, TEST_LOCATION );
data.Reset();
// Another motion outside of actor, no signalling
application.ProcessEvent( GenerateSingleHover( TouchPoint::Motion, Vector2 ( 201.0f, 201.0f )) );
DALI_TEST_EQUALS( false, data.functorCalled, TEST_LOCATION );
data.Reset();
// Another motion event inside actor, signalled with motion
application.ProcessEvent( GenerateSingleHover( TouchPoint::Motion, Vector2 ( 10.0f, 10.0f )) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( TouchPoint::Motion, data.hoverEvent.points[0].state, TEST_LOCATION );
data.Reset();
// We do not want to listen to leave events anymore
actor.SetLeaveRequired( false );
// Another motion event outside of actor, no signalling
application.ProcessEvent( GenerateSingleHover( TouchPoint::Motion, Vector2 ( 200.0f, 200.0f )) );
DALI_TEST_EQUALS( false, data.functorCalled, TEST_LOCATION );
data.Reset();
END_TEST;
}
void Read(const QString& fileName, SignalData& data, PlotInfo& plotInfo, std::function<void(Signal&&)> onSignal, std::function<void()> onAfterSignalRead)
{
QFile in(fileName);
if (!in.open(QIODevice::ReadOnly | QFile::Text))
{
auto mex = QString("Cannot open specified file -> %1").arg(fileName);
QMessageBox::critical(nullptr, "Anvedi", mex);
throw std::exception(mex.toUtf8().data());
}
const auto json = QJsonDocument::fromJson(in.readAll()).object();
auto backgroundIt = json.find("background");
if (backgroundIt != json.end())
{
plotInfo.setBackgroundColor(backgroundIt->toString());
}
auto graphIt = json.find("signals");
if ((graphIt != json.end()) && graphIt->isArray())
{
for (const auto& elem : graphIt->toArray())
{
if (elem.isObject())
{
onSignal(ReadGraph(elem.toObject()));
}
}
}
onAfterSignalRead();
auto domainIt = json.find("domain");
if (domainIt != json.end())
{
const auto domainName = domainIt->toString();
try
{
data.setAsDomain(domainName);
}
catch (const std::exception&){}
}
}
int UtcDaliTapGestureSignalReceptionMultipleGestureDetectors(void)
{
TestApplication application;
Dali::TestGestureManager& gestureManager = application.GetGestureManager();
Actor first = Actor::New();
first.SetSize(100.0f, 100.0f);
first.SetAnchorPoint(AnchorPoint::TOP_LEFT);
Stage::GetCurrent().Add(first);
Actor second = Actor::New();
second.SetSize(100.0f, 100.0f);
second.SetAnchorPoint(AnchorPoint::TOP_LEFT);
second.SetX(100.0f);
first.Add(second);
// Render and notify
application.SendNotification();
application.Render();
SignalData data;
GestureReceivedFunctor functor(data);
TapGestureDetector firstDetector = TapGestureDetector::New();
firstDetector.Attach(first);
firstDetector.DetectedSignal().Connect(&application, functor);
// secondDetector is scoped
{
// Reset gestureManager statistics
gestureManager.Initialize();
TapGestureDetector secondDetector = TapGestureDetector::New( 2 );
secondDetector.Attach(second);
secondDetector.DetectedSignal().Connect(&application, functor);
DALI_TEST_EQUALS(true, gestureManager.WasCalled(TestGestureManager::UpdateType), TEST_LOCATION);
DALI_TEST_EQUALS(false, gestureManager.WasCalled(TestGestureManager::RegisterType), TEST_LOCATION);
DALI_TEST_EQUALS(false, gestureManager.WasCalled(TestGestureManager::UnregisterType), TEST_LOCATION);
// Tap within second actor's area
application.ProcessEvent(GenerateTap(Gesture::Possible, 2u, 1u, Vector2(150.0f, 10.0f)));
application.ProcessEvent(GenerateTap(Gesture::Started, 2u, 1u, Vector2(150.0f, 10.0f)));
DALI_TEST_EQUALS(true, data.functorCalled, TEST_LOCATION);
DALI_TEST_EQUALS(true, second == data.tappedActor, TEST_LOCATION);
// Tap continues as single touch gesture - we should not receive any gesture
data.Reset();
application.ProcessEvent(GenerateTap(Gesture::Possible, 1u, 1u, Vector2(150.0f, 10.0f)));
application.ProcessEvent(GenerateTap(Gesture::Started, 1u, 1u, Vector2(150.0f, 10.0f)));
DALI_TEST_EQUALS(false, data.functorCalled, TEST_LOCATION);
// Single touch tap starts - first actor should be panned
data.Reset();
application.ProcessEvent(GenerateTap(Gesture::Possible, 1u, 1u, Vector2(50.0f, 10.0f)));
application.ProcessEvent(GenerateTap(Gesture::Started, 1u, 1u, Vector2(50.0f, 10.0f)));
DALI_TEST_EQUALS(true, data.functorCalled, TEST_LOCATION);
DALI_TEST_EQUALS(true, first == data.tappedActor, TEST_LOCATION);
// Pan changes to double-touch - we shouldn't receive event
data.Reset();
application.ProcessEvent(GenerateTap(Gesture::Possible, 2u, 2u, Vector2(50.0f, 10.0f)));
application.ProcessEvent(GenerateTap(Gesture::Started, 2u, 2u, Vector2(50.0f, 10.0f)));
DALI_TEST_EQUALS(false, data.functorCalled, TEST_LOCATION);
// Reset gesture manager statistics
gestureManager.Initialize();
}
// secondDetector has now been deleted. Gesture detection should have been updated only
DALI_TEST_EQUALS(true, gestureManager.WasCalled(TestGestureManager::UpdateType), TEST_LOCATION);
DALI_TEST_EQUALS(false, gestureManager.WasCalled(TestGestureManager::RegisterType), TEST_LOCATION);
DALI_TEST_EQUALS(false, gestureManager.WasCalled(TestGestureManager::UnregisterType), TEST_LOCATION);
END_TEST;
}
int UtcDaliHoverParentConsumer(void)
{
TestApplication application;
Actor rootActor( Stage::GetCurrent().GetRootLayer() );
Actor actor = Actor::New();
actor.SetSize(100.0f, 100.0f);
actor.SetAnchorPoint(AnchorPoint::TOP_LEFT);
Stage::GetCurrent().Add(actor);
// Render and notify
application.SendNotification();
application.Render();
// Connect to actor's hovered signal
SignalData data;
HoverEventFunctor functor( data, false );
actor.HoveredSignal().Connect( &application, functor );
// Connect to root actor's hovered signal
SignalData rootData;
HoverEventFunctor rootFunctor( rootData ); // Consumes signal
rootActor.HoveredSignal().Connect( &application, rootFunctor );
Vector2 screenCoordinates( 10.0f, 10.0f );
Vector2 actorCoordinates, rootCoordinates;
actor.ScreenToLocal( actorCoordinates.x, actorCoordinates.y, screenCoordinates.x, screenCoordinates.y );
rootActor.ScreenToLocal( rootCoordinates.x, rootCoordinates.y, screenCoordinates.x, screenCoordinates.y );
// Emit a started signal
application.ProcessEvent( GenerateSingleHover( TouchPoint::Started, screenCoordinates ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( true, rootData.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( 1u, data.hoverEvent.GetPointCount(), TEST_LOCATION );
DALI_TEST_EQUALS( 1u, rootData.hoverEvent.GetPointCount(), TEST_LOCATION );
DALI_TEST_EQUALS( TouchPoint::Started, data.hoverEvent.points[0].state, TEST_LOCATION );
DALI_TEST_EQUALS( TouchPoint::Started, rootData.hoverEvent.points[0].state, TEST_LOCATION );
DALI_TEST_EQUALS( screenCoordinates, data.hoverEvent.points[0].screen, TEST_LOCATION );
DALI_TEST_EQUALS( screenCoordinates, rootData.hoverEvent.points[0].screen, TEST_LOCATION );
DALI_TEST_EQUALS( actorCoordinates, data.hoverEvent.points[0].local, 0.1f, TEST_LOCATION );
DALI_TEST_EQUALS( rootCoordinates, rootData.hoverEvent.points[0].local, 0.1f, TEST_LOCATION );
DALI_TEST_CHECK( actor == data.hoverEvent.points[0].hitActor );
DALI_TEST_CHECK( actor == rootData.hoverEvent.points[0].hitActor );
data.Reset();
rootData.Reset();
// Emit a motion signal
screenCoordinates.x = screenCoordinates.y = 11.0f;
actor.ScreenToLocal( actorCoordinates.x, actorCoordinates.y, screenCoordinates.x, screenCoordinates.y );
rootActor.ScreenToLocal( rootCoordinates.x, rootCoordinates.y, screenCoordinates.x, screenCoordinates.y );
application.ProcessEvent( GenerateSingleHover( TouchPoint::Motion, screenCoordinates ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( true, rootData.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( 1u, data.hoverEvent.GetPointCount(), TEST_LOCATION );
DALI_TEST_EQUALS( 1u, rootData.hoverEvent.GetPointCount(), TEST_LOCATION );
DALI_TEST_EQUALS( TouchPoint::Motion, data.hoverEvent.points[0].state, TEST_LOCATION );
DALI_TEST_EQUALS( TouchPoint::Motion, rootData.hoverEvent.points[0].state, TEST_LOCATION );
DALI_TEST_EQUALS( screenCoordinates, data.hoverEvent.points[0].screen, TEST_LOCATION );
DALI_TEST_EQUALS( screenCoordinates, rootData.hoverEvent.points[0].screen, TEST_LOCATION );
DALI_TEST_EQUALS( actorCoordinates, data.hoverEvent.points[0].local, 0.1f, TEST_LOCATION );
DALI_TEST_EQUALS( rootCoordinates, rootData.hoverEvent.points[0].local, 0.1f, TEST_LOCATION );
DALI_TEST_CHECK( actor == data.hoverEvent.points[0].hitActor );
DALI_TEST_CHECK( actor == rootData.hoverEvent.points[0].hitActor );
data.Reset();
rootData.Reset();
// Emit a finished signal
screenCoordinates.x = screenCoordinates.y = 12.0f;
actor.ScreenToLocal( actorCoordinates.x, actorCoordinates.y, screenCoordinates.x, screenCoordinates.y );
rootActor.ScreenToLocal( rootCoordinates.x, rootCoordinates.y, screenCoordinates.x, screenCoordinates.y );
application.ProcessEvent( GenerateSingleHover( TouchPoint::Finished, screenCoordinates ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( true, rootData.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( 1u, data.hoverEvent.GetPointCount(), TEST_LOCATION );
DALI_TEST_EQUALS( 1u, rootData.hoverEvent.GetPointCount(), TEST_LOCATION );
DALI_TEST_EQUALS( TouchPoint::Finished, data.hoverEvent.points[0].state, TEST_LOCATION );
DALI_TEST_EQUALS( TouchPoint::Finished, rootData.hoverEvent.points[0].state, TEST_LOCATION );
DALI_TEST_EQUALS( screenCoordinates, data.hoverEvent.points[0].screen, TEST_LOCATION );
DALI_TEST_EQUALS( screenCoordinates, rootData.hoverEvent.points[0].screen, TEST_LOCATION );
DALI_TEST_EQUALS( actorCoordinates, data.hoverEvent.points[0].local, 0.1f, TEST_LOCATION );
DALI_TEST_EQUALS( rootCoordinates, rootData.hoverEvent.points[0].local, 0.1f, TEST_LOCATION );
DALI_TEST_CHECK( actor == data.hoverEvent.points[0].hitActor );
DALI_TEST_CHECK( actor == rootData.hoverEvent.points[0].hitActor );
data.Reset();
rootData.Reset();
// Emit a started signal where the actor is not present, will hit the root actor though
screenCoordinates.x = screenCoordinates.y = 200.0f;
rootActor.ScreenToLocal( rootCoordinates.x, rootCoordinates.y, screenCoordinates.x, screenCoordinates.y );
application.ProcessEvent( GenerateSingleHover( TouchPoint::Started, screenCoordinates ) );
DALI_TEST_EQUALS( false, data.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( true, rootData.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( 1u, rootData.hoverEvent.GetPointCount(), TEST_LOCATION );
DALI_TEST_EQUALS( TouchPoint::Started, rootData.hoverEvent.points[0].state, TEST_LOCATION );
DALI_TEST_EQUALS( screenCoordinates, rootData.hoverEvent.points[0].screen, TEST_LOCATION );
DALI_TEST_EQUALS( rootCoordinates, rootData.hoverEvent.points[0].local, 0.1f, TEST_LOCATION );
DALI_TEST_CHECK( rootActor == rootData.hoverEvent.points[0].hitActor );
END_TEST;
}
int UtcDaliHoverInterruptedParentConsumer(void)
{
TestApplication application;
Actor rootActor( Stage::GetCurrent().GetRootLayer() );
Actor actor = Actor::New();
actor.SetSize(100.0f, 100.0f);
actor.SetAnchorPoint(AnchorPoint::TOP_LEFT);
Stage::GetCurrent().Add(actor);
// Render and notify
application.SendNotification();
application.Render();
// Connect to actor's hovered signal
SignalData data;
HoverEventFunctor functor( data, false );
actor.HoveredSignal().Connect( &application, functor );
// Connect to root actor's hovered signal
SignalData rootData;
HoverEventFunctor rootFunctor( rootData ); // Consumes signal
rootActor.HoveredSignal().Connect( &application, rootFunctor );
// Emit a started signal
application.ProcessEvent( GenerateSingleHover( TouchPoint::Started, Vector2( 10.0f, 10.0f ) ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( true, rootData.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( TouchPoint::Started, data.hoverEvent.points[0].state, TEST_LOCATION );
DALI_TEST_EQUALS( TouchPoint::Started, rootData.hoverEvent.points[0].state, TEST_LOCATION );
DALI_TEST_CHECK( actor == data.hoverEvent.points[0].hitActor );
DALI_TEST_CHECK( actor == rootData.hoverEvent.points[0].hitActor );
data.Reset();
rootData.Reset();
// Emit an interrupted signal
application.ProcessEvent( GenerateSingleHover( TouchPoint::Interrupted, Vector2( 200.0f, 200.0f ) ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( true, rootData.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( TouchPoint::Interrupted, data.hoverEvent.points[0].state, TEST_LOCATION );
DALI_TEST_EQUALS( TouchPoint::Interrupted, rootData.hoverEvent.points[0].state, TEST_LOCATION );
DALI_TEST_CHECK( actor == data.hoverEvent.points[0].hitActor );
DALI_TEST_CHECK( actor == rootData.hoverEvent.points[0].hitActor );
data.Reset();
rootData.Reset();
// Emit another started signal
application.ProcessEvent( GenerateSingleHover( TouchPoint::Started, Vector2( 10.0f, 10.0f ) ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( true, rootData.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( TouchPoint::Started, data.hoverEvent.points[0].state, TEST_LOCATION );
DALI_TEST_EQUALS( TouchPoint::Started, rootData.hoverEvent.points[0].state, TEST_LOCATION );
data.Reset();
rootData.Reset();
// Remove actor from Stage
Stage::GetCurrent().Remove( actor );
// Render and notify
application.SendNotification();
application.Render();
// Emit an interrupted signal, only root actor's signal should be called.
application.ProcessEvent( GenerateSingleHover( TouchPoint::Interrupted, Vector2( 200.0f, 200.0f /* Outside actor */ ) ) );
DALI_TEST_EQUALS( false, data.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( true, rootData.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( TouchPoint::Interrupted, rootData.hoverEvent.points[0].state, TEST_LOCATION );
DALI_TEST_CHECK( rootActor == rootData.hoverEvent.points[0].hitActor );
data.Reset();
rootData.Reset();
// Emit another interrupted state, none of the signal's should be called.
application.ProcessEvent( GenerateSingleHover( TouchPoint::Interrupted, Vector2( 200.0f, 200.0f ) ) );
DALI_TEST_EQUALS( false, data.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( false, rootData.functorCalled, TEST_LOCATION );
END_TEST;
}
int UtcDaliHoverMultipleLayers(void)
{
TestApplication application;
Actor rootActor( Stage::GetCurrent().GetRootLayer() );
// Connect to actor's hovered signal
SignalData data;
HoverEventFunctor functor( data );
Layer layer1 ( Layer::New() );
layer1.SetSize(100.0f, 100.0f);
layer1.SetAnchorPoint(AnchorPoint::TOP_LEFT);
Stage::GetCurrent().Add( layer1 );
Actor actor1 ( Actor::New() );
actor1.SetSize( 100.0f, 100.0f );
actor1.SetAnchorPoint(AnchorPoint::TOP_LEFT);
actor1.SetZ( 1.0f ); // Should hit actor1 in this layer
layer1.Add( actor1 );
// Render and notify
application.SendNotification();
application.Render();
// Connect to layer1 and actor1
layer1.HoveredSignal().Connect( &application, functor );
actor1.HoveredSignal().Connect( &application, functor );
// Hit in hittable area, actor1 should be hit
application.ProcessEvent( GenerateSingleHover( TouchPoint::Started, Vector2( 10.0f, 10.0f ) ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
DALI_TEST_CHECK( data.hoveredActor == actor1 );
data.Reset();
// Make layer1 insensitive, nothing should be hit
layer1.SetSensitive( false );
application.ProcessEvent( GenerateSingleHover( TouchPoint::Started, Vector2( 10.0f, 10.0f ) ) );
DALI_TEST_EQUALS( false, data.functorCalled, TEST_LOCATION );
data.Reset();
// Make layer1 sensitive again, again actor1 will be hit
layer1.SetSensitive( true );
application.ProcessEvent( GenerateSingleHover( TouchPoint::Started, Vector2( 10.0f, 10.0f ) ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
DALI_TEST_CHECK( data.hoveredActor == actor1 );
data.Reset();
// Make rootActor insensitive, nothing should be hit
rootActor.SetSensitive( false );
application.ProcessEvent( GenerateSingleHover( TouchPoint::Started, Vector2( 10.0f, 10.0f ) ) );
DALI_TEST_EQUALS( false, data.functorCalled, TEST_LOCATION );
data.Reset();
// Make rootActor sensitive
rootActor.SetSensitive( true );
// Add another layer
Layer layer2 ( Layer::New() );
layer2.SetSize(100.0f, 100.0f );
layer2.SetAnchorPoint(AnchorPoint::TOP_LEFT);
layer2.SetZ( 10.0f ); // Should hit layer2 in this layer rather than actor2
Stage::GetCurrent().Add( layer2 );
Actor actor2 ( Actor::New() );
actor2.SetSize(100.0f, 100.0f);
actor2.SetAnchorPoint(AnchorPoint::TOP_LEFT);
layer2.Add( actor2 );
// Render and notify
application.SendNotification();
application.Render();
// Connect to layer2 and actor2
layer2.HoveredSignal().Connect( &application, functor );
actor2.HoveredSignal().Connect( &application, functor );
// Emit an event, should hit layer2
application.ProcessEvent( GenerateSingleHover( TouchPoint::Started, Vector2( 10.0f, 10.0f ) ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
//DALI_TEST_CHECK( data.hoveredActor == layer2 ); // TODO: Uncomment this after removing renderable hack!
data.Reset();
// Make layer2 insensitive, should hit actor1
layer2.SetSensitive( false );
application.ProcessEvent( GenerateSingleHover( TouchPoint::Started, Vector2( 10.0f, 10.0f ) ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
DALI_TEST_CHECK( data.hoveredActor == actor1 );
data.Reset();
// Make layer2 sensitive again, should hit layer2
layer2.SetSensitive( true );
application.ProcessEvent( GenerateSingleHover( TouchPoint::Started, Vector2( 10.0f, 10.0f ) ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
//DALI_TEST_CHECK( data.hoveredActor == layer2 ); // TODO: Uncomment this after removing renderable hack!
data.Reset();
// Make layer2 invisible, render and notify
layer2.SetVisible( false );
application.SendNotification();
application.Render();
// Should hit actor1
application.ProcessEvent( GenerateSingleHover( TouchPoint::Started, Vector2( 10.0f, 10.0f ) ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
DALI_TEST_CHECK( data.hoveredActor == actor1 );
data.Reset();
// Make rootActor invisible, render and notify
rootActor.SetVisible( false );
application.SendNotification();
application.Render();
// Should not hit anything
application.ProcessEvent( GenerateSingleHover( TouchPoint::Started, Vector2( 10.0f, 10.0f ) ) );
DALI_TEST_EQUALS( false, data.functorCalled, TEST_LOCATION );
data.Reset();
END_TEST;
}
int UtcDaliTapGestureSetTapsRequired(void)
{
TestApplication application;
TapGestureDetector detector = TapGestureDetector::New();
const unsigned int minTaps = 3;
const unsigned int maxTaps = 7;
DALI_TEST_CHECK( minTaps != detector.GetMinimumTapsRequired() );
DALI_TEST_CHECK( maxTaps != detector.GetMaximumTapsRequired() );
detector.SetMinimumTapsRequired( minTaps );
detector.SetMaximumTapsRequired( maxTaps );
DALI_TEST_EQUALS( minTaps, detector.GetMinimumTapsRequired(), TEST_LOCATION );
DALI_TEST_EQUALS( maxTaps, detector.GetMaximumTapsRequired(), TEST_LOCATION );
// Attach an actor and change the required touches
Actor actor = Actor::New();
actor.SetSize(100.0f, 100.0f);
actor.SetAnchorPoint(AnchorPoint::TOP_LEFT);
Stage::GetCurrent().Add(actor);
// Render and notify
application.SendNotification();
application.Render();
SignalData data;
GestureReceivedFunctor functor(data);
detector.Attach(actor);
detector.DetectedSignal().Connect( &application, functor );
// Ensure signal is emitted if minimum taps received
application.ProcessEvent(GenerateTap(Gesture::Possible, minTaps, 1u, Vector2(50.0f, 50.0f)));
application.ProcessEvent(GenerateTap(Gesture::Started, minTaps, 1u, Vector2(50.0f, 50.0f)));
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( minTaps, data.receivedGesture.numberOfTaps, TEST_LOCATION );
data.Reset();
// Ensure signal is emitted if maximum taps received
application.ProcessEvent(GenerateTap(Gesture::Possible, maxTaps, 1u, Vector2(50.0f, 50.0f)));
application.ProcessEvent(GenerateTap(Gesture::Started, maxTaps, 1u, Vector2(50.0f, 50.0f)));
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
DALI_TEST_EQUALS( maxTaps, data.receivedGesture.numberOfTaps, TEST_LOCATION );
data.Reset();
// Ensure signal is NOT emitted if outside the range
application.ProcessEvent(GenerateTap(Gesture::Possible, minTaps - 1, 1u, Vector2(50.0f, 50.0f)));
application.ProcessEvent(GenerateTap(Gesture::Started, minTaps - 1, 1u, Vector2(50.0f, 50.0f)));
DALI_TEST_EQUALS( false, data.functorCalled, TEST_LOCATION );
data.Reset();
application.ProcessEvent(GenerateTap(Gesture::Possible, maxTaps + 1, 1u, Vector2(50.0f, 50.0f)));
application.ProcessEvent(GenerateTap(Gesture::Started, maxTaps + 1, 1u, Vector2(50.0f, 50.0f)));
DALI_TEST_EQUALS( false, data.functorCalled, TEST_LOCATION );
data.Reset();
TestGestureManager& gestureManager = application.GetGestureManager();
gestureManager.Initialize();
detector.SetMinimumTapsRequired(4);
// Gesture detection should have been updated only
DALI_TEST_EQUALS(true, gestureManager.WasCalled(TestGestureManager::UpdateType), TEST_LOCATION);
DALI_TEST_EQUALS(false, gestureManager.WasCalled(TestGestureManager::RegisterType), TEST_LOCATION);
DALI_TEST_EQUALS(false, gestureManager.WasCalled(TestGestureManager::UnregisterType), TEST_LOCATION);
// Reset values
gestureManager.Initialize();
detector.SetMaximumTapsRequired(maxTaps);
// Gesture detection should NOT have been updated
DALI_TEST_EQUALS(false, gestureManager.WasCalled(TestGestureManager::UpdateType), TEST_LOCATION);
DALI_TEST_EQUALS(false, gestureManager.WasCalled(TestGestureManager::RegisterType), TEST_LOCATION);
DALI_TEST_EQUALS(false, gestureManager.WasCalled(TestGestureManager::UnregisterType), TEST_LOCATION);
// Reset values
gestureManager.Initialize();
// Create a second gesture detector that requires even less maximum touches
TapGestureDetector secondDetector = TapGestureDetector::New();
secondDetector.Attach(actor);
// Gesture detection should have been updated
DALI_TEST_EQUALS(true, gestureManager.WasCalled(TestGestureManager::UpdateType), TEST_LOCATION);
DALI_TEST_EQUALS(false, gestureManager.WasCalled(TestGestureManager::RegisterType), TEST_LOCATION);
DALI_TEST_EQUALS(false, gestureManager.WasCalled(TestGestureManager::UnregisterType), TEST_LOCATION);
// Reset values
gestureManager.Initialize();
// Delete the second detector so that our detection is updated again
secondDetector.Reset();
DALI_TEST_EQUALS(true, gestureManager.WasCalled(TestGestureManager::UpdateType), TEST_LOCATION);
DALI_TEST_EQUALS(false, gestureManager.WasCalled(TestGestureManager::RegisterType), TEST_LOCATION);
DALI_TEST_EQUALS(false, gestureManager.WasCalled(TestGestureManager::UnregisterType), TEST_LOCATION);
// Set the minimum to be greater than the maximum, should Assert
try
{
detector.SetMinimumTapsRequired( maxTaps );
detector.SetMaximumTapsRequired( minTaps );
DALI_TEST_CHECK( false ); // Should not get here
}
catch ( DaliException& e )
{
DALI_TEST_CHECK( true );
}
END_TEST;
}
