/*
- * Copyright (c) 2014 Samsung Electronics Co., Ltd.
+ * Copyright (c) 2018 Samsung Electronics Co., Ltd.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
#include <stdlib.h>
#include <dali/public-api/dali-core.h>
+#include <dali/devel-api/common/stage-devel.h>
#include <dali/integration-api/context-notifier.h>
#include <dali/integration-api/events/key-event-integ.h>
+#include <dali/public-api/events/key-event.h>
#include <dali/integration-api/events/touch-event-integ.h>
+#include <dali/integration-api/events/wheel-event-integ.h>
#include <dali-test-suite-utils.h>
namespace
{
-/**
- * Functor for EventProcessingFinished signal
- */
+const std::string DEFAULT_DEVICE_NAME("hwKeyboard");
+
+// Functor for EventProcessingFinished signal
struct EventProcessingFinishedFunctor
{
/**
bool& mEventProcessingFinished;
};
+// Stores data that is populated in the KeyEventGeneratedSignal callback and will be read by the TET cases
+struct KeyEventGeneratedSignalData
+{
+ KeyEventGeneratedSignalData()
+ : functorCalled(false)
+ {}
+
+ void Reset()
+ {
+ functorCalled = false;
+
+ receivedKeyEvent.keyModifier = 0;
+ receivedKeyEvent.keyPressedName.clear();
+ receivedKeyEvent.keyPressed.clear();
+ }
+
+ bool functorCalled;
+ KeyEvent receivedKeyEvent;
+};
+
+// Functor that sets the data when called
+struct KeyEventGeneratedReceivedFunctor
+{
+ KeyEventGeneratedReceivedFunctor( KeyEventGeneratedSignalData& data )
+ : signalData( data )
+ {}
+
+ bool operator()( const KeyEvent& keyEvent )
+ {
+ signalData.functorCalled = true;
+ signalData.receivedKeyEvent = keyEvent;
+
+ return true;
+ }
+
+ bool operator()()
+ {
+ signalData.functorCalled = true;
+ return true;
+ }
+
+ KeyEventGeneratedSignalData& signalData;
+};
+
// Stores data that is populated in the key-event callback and will be read by the TET cases
struct KeyEventSignalData
{
receivedTouchEvent.points.clear();
receivedTouchEvent.time = 0;
+
+ receivedTouchData.Reset();
}
bool functorCalled;
TouchEvent receivedTouchEvent;
+ TouchData receivedTouchData;
};
// Functor that sets the data when touched signal is received
TouchedSignalData& signalData;
};
+
+// Functor that sets the data when touched signal is received
+struct TouchFunctor
+{
+ TouchFunctor( TouchedSignalData& data ) : signalData( data ) { }
+
+ void operator()( const TouchData& touch )
+ {
+ signalData.functorCalled = true;
+ signalData.receivedTouchData = touch;
+ }
+
+ void operator()()
+ {
+ signalData.functorCalled = true;
+ }
+
+ TouchedSignalData& signalData;
+};
+
+// Stores data that is populated in the wheel-event callback and will be read by the TET cases
+struct WheelEventSignalData
+{
+ WheelEventSignalData()
+ : functorCalled(false)
+ {}
+
+ void Reset()
+ {
+ functorCalled = false;
+ }
+
+ bool functorCalled;
+ WheelEvent receivedWheelEvent;
+};
+
+// Functor that sets the data when wheel-event signal is received
+struct WheelEventReceivedFunctor
+{
+ WheelEventReceivedFunctor( WheelEventSignalData& data ) : signalData( data ) { }
+
+ bool operator()( const WheelEvent& wheelEvent )
+ {
+ signalData.functorCalled = true;
+ signalData.receivedWheelEvent = wheelEvent;
+
+ return true;
+ }
+
+ WheelEventSignalData& signalData;
+};
+
bool DummyTouchCallback( Actor actor, const TouchEvent& touch )
{
return true;
}
-
struct ContextStatusFunctor
{
ContextStatusFunctor(bool& calledFlag) : mCalledFlag( calledFlag )
bool& mCalledFlag;
};
+struct SceneCreatedStatusFunctor
+{
+ SceneCreatedStatusFunctor(bool& calledFlag) : mCalledFlag( calledFlag )
+ {
+ mCalledFlag = false;
+ }
+
+ void operator()()
+ {
+ mCalledFlag = true;
+ }
+ void Reset()
+ {
+ mCalledFlag = false;
+ }
+
+ bool& mCalledFlag;
+};
+
+struct ActorCreatedFunctor
+{
+ ActorCreatedFunctor( bool& signalReceived )
+ : mSignalVerified( signalReceived )
+ {
+ }
+
+ void operator()( BaseHandle object )
+ {
+ tet_infoline( "Verifying TestActorCallback()" );
+ Actor actor = Actor::DownCast( object );
+ if( actor )
+ {
+ mSignalVerified = true;
+ }
+ }
+
+ bool& mSignalVerified;
+};
+
+void GenerateTouch( TestApplication& application, PointState::Type state, const Vector2& screenPosition )
+{
+ Integration::TouchEvent touchEvent;
+ Integration::Point point;
+ point.SetState( state );
+ point.SetScreenPosition( screenPosition );
+ touchEvent.points.push_back( point );
+ application.ProcessEvent( touchEvent );
+}
+
} // unnamed namespace
-int UtcDaliStageDefaultConstructor(void)
+int UtcDaliStageDefaultConstructorP(void)
{
TestApplication application;
Stage stage;
- DALI_TEST_CHECK(!stage);
+ DALI_TEST_CHECK( !stage );
END_TEST;
}
-int UtcDaliStageDestructor(void)
+// Note: No negative test for default constructor.
+
+int UtcDaliStageDestructorP(void)
{
TestApplication application;
Stage* stage = new Stage();
END_TEST;
}
-int UtcDaliStageGetCurrent(void)
+// Note: No negative test for default destructor.
+
+int UtcDaliStageGetCurrentP(void)
{
TestApplication application;
Stage stage = Stage::GetCurrent();
- DALI_TEST_CHECK(stage);
+ DALI_TEST_CHECK( stage );
END_TEST;
}
-int UtcDaliStageIsInstalled(void)
+int UtcDaliStageGetCurrentN(void)
{
- DALI_TEST_CHECK(!Stage::IsInstalled());
+ bool asserted = false;
+ try
+ {
+ Stage stage = Stage::GetCurrent();
+ }
+ catch( Dali::DaliException& e )
+ {
+ DALI_TEST_PRINT_ASSERT( e );
+ DALI_TEST_ASSERT( e, "stage && \"Stage doesn't exist\"", TEST_LOCATION );
+ asserted = true;
+ }
+
+ DALI_TEST_CHECK( asserted );
+ END_TEST;
+}
+int UtcDaliStageIsInstalledP(void)
+{
TestApplication application;
Stage::GetCurrent();
- DALI_TEST_CHECK(Stage::IsInstalled());
+ DALI_TEST_CHECK( Stage::IsInstalled() );
+ END_TEST;
+}
+
+int UtcDaliStageIsInstalledN(void)
+{
+ DALI_TEST_CHECK( !Stage::IsInstalled() );
+
+ END_TEST;
+}
+
+int UtcDaliStageCopyConstructorP(void)
+{
+ TestApplication application;
+ Stage stage = Stage::GetCurrent();
+
+ Stage copyStage( stage );
+
+ DALI_TEST_CHECK( copyStage );
+ DALI_TEST_CHECK( copyStage.GetRootLayer() == stage.GetRootLayer() );
+
+ END_TEST;
+}
+
+// Note: no negative test for UtcDaliStageCopyConstructor.
+
+int UtcDaliStageAssignmentOperatorP(void)
+{
+ TestApplication application;
+ const Stage stage = Stage::GetCurrent();
+
+ Stage copyStage = stage;
+
+ DALI_TEST_CHECK( copyStage );
+ DALI_TEST_CHECK( copyStage.GetRootLayer() == stage.GetRootLayer() );
+
END_TEST;
}
-int UtcDaliStageAdd(void)
+// Note: No negative test for UtcDaliStageAssignmentOperator.
+
+int UtcDaliStageAddP(void)
{
TestApplication application;
Stage stage = Stage::GetCurrent();
Actor actor = Actor::New();
- DALI_TEST_CHECK(!actor.OnStage());
+ DALI_TEST_CHECK( !actor.OnStage() );
+
+ stage.Add( actor );
+ DALI_TEST_CHECK( actor.OnStage() );
+ END_TEST;
+}
+
+int UtcDaliStageAddN(void)
+{
+ TestApplication application;
+
+ Stage stage = Stage::GetCurrent();
+ Actor actor;
+
+ bool asserted = false;
+ try
+ {
+ stage.Add( actor );
+ }
+ catch( Dali::DaliException& e )
+ {
+ DALI_TEST_PRINT_ASSERT( e );
+ DALI_TEST_ASSERT( e, "actor && \"Actor handle is empty\"", TEST_LOCATION );
+ asserted = true;
+ }
+
+ DALI_TEST_CHECK( asserted );
- stage.Add(actor);
- DALI_TEST_CHECK(actor.OnStage());
END_TEST;
}
-int UtcDaliStageRemove(void)
+int UtcDaliStageRemoveP(void)
{
TestApplication application;
Stage stage = Stage::GetCurrent();
Actor actor = Actor::New();
- DALI_TEST_CHECK(!actor.OnStage());
+ DALI_TEST_CHECK( !actor.OnStage() );
- stage.Add(actor);
- DALI_TEST_CHECK(actor.OnStage());
+ stage.Add( actor );
+ DALI_TEST_CHECK( actor.OnStage() );
stage.Remove(actor);
- DALI_TEST_CHECK(!actor.OnStage());
+ DALI_TEST_CHECK( !actor.OnStage() );
+ END_TEST;
+}
+
+int UtcDaliStageRemoveN1(void)
+{
+ TestApplication application;
+
+ Stage stage = Stage::GetCurrent();
+ Actor actor;
+
+ bool asserted = false;
+ try
+ {
+ // Actor is not valid, confirm a removal attempt does assert.
+ stage.Remove( actor );
+ }
+ catch( Dali::DaliException& e )
+ {
+ DALI_TEST_PRINT_ASSERT( e );
+ DALI_TEST_ASSERT( e, "actor && \"Actor handle is empty\"", TEST_LOCATION );
+ asserted = true;
+ }
+
+ DALI_TEST_CHECK( asserted );
+ END_TEST;
+}
+
+int UtcDaliStageRemoveN2(void)
+{
+ TestApplication application;
+
+ Stage stage = Stage::GetCurrent();
+ Actor actor = Actor::New();
+ DALI_TEST_CHECK( !actor.OnStage() );
+
+ bool asserted = false;
+ try
+ {
+ // Actor is not on stage, confirm a removal attempt does not assert / segfault.
+ stage.Remove( actor );
+ }
+ catch( Dali::DaliException& e )
+ {
+ DALI_TEST_PRINT_ASSERT( e );
+ asserted = true;
+ }
+
+ DALI_TEST_CHECK( !asserted );
+ END_TEST;
+}
+
+int UtcDaliStageRemoveN3(void)
+{
+ TestApplication application;
+
+ Stage stage = Stage::GetCurrent();
+
+ // Initially we have a default layer
+ DALI_TEST_EQUALS( stage.GetLayerCount(), 1u, TEST_LOCATION );
+
+ // Check we cannot remove the root layer from the stage.
+ Layer layer = stage.GetRootLayer();
+ bool asserted = true;
+ try
+ {
+ stage.Remove( layer );
+ }
+ catch( Dali::DaliException& e )
+ {
+ DALI_TEST_PRINT_ASSERT( e );
+ DALI_TEST_ASSERT( e, "this != &child && \"Cannot remove actor from itself\"", TEST_LOCATION );
+ asserted = true;
+ }
+
+ DALI_TEST_CHECK( asserted );
+ DALI_TEST_EQUALS( stage.GetLayerCount(), 1u, TEST_LOCATION );
END_TEST;
}
-int UtcDaliStageGetSize(void)
+int UtcDaliStageGetSizeP(void)
{
TestApplication application;
Vector2 size = stage.GetSize();
- DALI_TEST_EQUALS(size.width, static_cast<float>(TestApplication::DEFAULT_SURFACE_WIDTH), TEST_LOCATION);
- DALI_TEST_EQUALS(size.height, static_cast<float>(TestApplication::DEFAULT_SURFACE_HEIGHT), TEST_LOCATION);
+ DALI_TEST_EQUALS( size.width, static_cast<float>( TestApplication::DEFAULT_SURFACE_WIDTH ), TEST_LOCATION );
+ DALI_TEST_EQUALS( size.height, static_cast<float>( TestApplication::DEFAULT_SURFACE_HEIGHT ), TEST_LOCATION );
+ END_TEST;
+}
+
+int UtcDaliStageGetSizeN(void)
+{
+ TestApplication application;
+
+ Stage stage;
+
+ bool asserted = false;
+ Vector2 size;
+ try
+ {
+ size = stage.GetSize();
+ }
+ catch( Dali::DaliException& e )
+ {
+ DALI_TEST_PRINT_ASSERT( e );
+ DALI_TEST_ASSERT( e, "stage && \"Stage handle is empty\"", TEST_LOCATION );
+ asserted = true;
+ }
+
+ DALI_TEST_CHECK( asserted );
END_TEST;
}
-int UtcDaliStageGetDpi01(void)
+int UtcDaliStageGetDpiP1(void)
{
TestApplication application; // Initializes core DPI to default values
// Test the default DPI.
Vector2 dpi = stage.GetDpi();
- DALI_TEST_EQUALS(dpi.x, static_cast<float>(TestApplication::DEFAULT_HORIZONTAL_DPI), TEST_LOCATION);
- DALI_TEST_EQUALS(dpi.y, static_cast<float>(TestApplication::DEFAULT_VERTICAL_DPI), TEST_LOCATION);
+ DALI_TEST_EQUALS( dpi.x, static_cast<float>( TestApplication::DEFAULT_HORIZONTAL_DPI ), TEST_LOCATION );
+ DALI_TEST_EQUALS( dpi.y, static_cast<float>( TestApplication::DEFAULT_VERTICAL_DPI ), TEST_LOCATION );
END_TEST;
}
-int UtcDaliStageGetDpi02(void)
+int UtcDaliStageGetDpiP2(void)
{
TestApplication application; // Initializes core DPI to default values
// Test that setting core DPI explicitly also sets up the Stage's DPI.
- application.GetCore().SetDpi(200, 180);
+ Dali::Integration::Scene scene = application.GetScene();
+ scene.SetDpi( Vector2(200.0f, 180.0f) );
Stage stage = Stage::GetCurrent();
Vector2 dpi = stage.GetDpi();
- DALI_TEST_EQUALS(dpi.x, 200.0f, TEST_LOCATION);
- DALI_TEST_EQUALS(dpi.y, 180.0f, TEST_LOCATION);
+ DALI_TEST_EQUALS( dpi.x, 200.0f, TEST_LOCATION );
+ DALI_TEST_EQUALS( dpi.y, 180.0f, TEST_LOCATION );
END_TEST;
}
-
-int UtcDaliStageGetDpi03(void)
+int UtcDaliStageGetDpiP3(void)
{
- TestApplication application(480, 800, 72.0f, 120.0f); // Initializes core DPI with specific values
+ TestApplication application( 480, 800, 72, 120 ); // Initializes core DPI with specific values
Stage stage = Stage::GetCurrent();
// Test that setting core DPI explicitly also sets up the Stage's DPI.
Vector2 dpi = stage.GetDpi();
- DALI_TEST_EQUALS(dpi.x, 72.0f, TEST_LOCATION);
- DALI_TEST_EQUALS(dpi.y, 120.0f, TEST_LOCATION);
+ DALI_TEST_EQUALS( dpi.x, 72.0f, TEST_LOCATION );
+ DALI_TEST_EQUALS( dpi.y, 120.0f, TEST_LOCATION) ;
+ END_TEST;
+}
+
+/*
+ * This is not a true negative test, we are checking the DPI if it has not been set.
+ * A test for setting negative DPI values would be part of the application core utc tests.
+ */
+int UtcDaliStageGetDpiN(void)
+{
+ TestApplication application; // Initializes core DPI to default values
+
+ Stage stage = Stage::GetCurrent();
+ Vector2 dpi = stage.GetDpi();
+
+ DALI_TEST_EQUALS( dpi.x, 220.0f, TEST_LOCATION );
+ DALI_TEST_EQUALS( dpi.y, 217.0f, TEST_LOCATION );
END_TEST;
}
-int UtcDaliStageGetLayerCount(void)
+int UtcDaliStageGetLayerCountP(void)
{
TestApplication application;
Stage stage = Stage::GetCurrent();
// Initially we have a default layer
- DALI_TEST_EQUALS(stage.GetLayerCount(), 1u, TEST_LOCATION);
+ DALI_TEST_EQUALS( stage.GetLayerCount(), 1u, TEST_LOCATION );
Layer layer = Layer::New();
- stage.Add(layer);
+ stage.Add( layer );
- DALI_TEST_EQUALS(stage.GetLayerCount(), 2u, TEST_LOCATION);
+ DALI_TEST_EQUALS( stage.GetLayerCount(), 2u, TEST_LOCATION );
END_TEST;
}
-int UtcDaliStageGetLayer(void)
+/*
+ * Not a true negative test, but confirms layer count is not affected by an invalid removal.
+ */
+int UtcDaliStageGetLayerCountN(void)
{
TestApplication application;
Stage stage = Stage::GetCurrent();
- Layer rootLayer = stage.GetLayer(0);
- DALI_TEST_CHECK(rootLayer);
+ // Initially we have a default layer
+ DALI_TEST_EQUALS( stage.GetLayerCount(), 1u, TEST_LOCATION );
Layer layer = Layer::New();
- stage.Add(layer);
+ stage.Remove( layer );
- Layer sameLayer = stage.GetLayer(1);
- DALI_TEST_CHECK(layer == sameLayer);
+ // Still have 1 layer.
+ DALI_TEST_EQUALS( stage.GetLayerCount(), 1u, TEST_LOCATION );
END_TEST;
}
-
-int UtcDaliStageGetRootLayer(void)
+int UtcDaliStageGetLayerP(void)
{
TestApplication application;
Stage stage = Stage::GetCurrent();
- Layer rootLayer = stage.GetLayer(0);
+ Layer rootLayer = stage.GetLayer( 0 );
DALI_TEST_CHECK( rootLayer );
Layer layer = Layer::New();
stage.Add( layer );
- layer.LowerToBottom();
- DALI_TEST_CHECK( stage.GetRootLayer() == rootLayer );
+ Layer sameLayer = stage.GetLayer( 1 );
+ DALI_TEST_CHECK( layer == sameLayer );
END_TEST;
}
-int UtcDaliStageSetBackgroundColor(void)
+int UtcDaliStageGetLayerN(void)
{
TestApplication application;
Stage stage = Stage::GetCurrent();
- Vector4 testColor(0.1f, 0.2f, 0.3f, 1.0f);
- stage.SetBackgroundColor(testColor);
+ bool asserted = false;
+ try
+ {
+ // Try to get a layer that doesn't exist (note: 0 is the root layer).
+ Layer layer = stage.GetLayer( 1 );
+ }
+ catch( Dali::DaliException& e )
+ {
+ DALI_TEST_PRINT_ASSERT( e );
+ DALI_TEST_ASSERT( e, "depth < mLayers.size()", TEST_LOCATION );
+ asserted = true;
+ }
- DALI_TEST_EQUALS(testColor, stage.GetBackgroundColor(), TEST_LOCATION);
+ DALI_TEST_CHECK( asserted );
END_TEST;
}
-int UtcDaliStageGetBackgroundColor(void)
+int UtcDaliStageGetRootLayerP(void)
{
TestApplication application;
Stage stage = Stage::GetCurrent();
- DALI_TEST_EQUALS(Stage::DEFAULT_BACKGROUND_COLOR, stage.GetBackgroundColor(), TEST_LOCATION);
+ Layer layer = stage.GetLayer( 0 );
+ DALI_TEST_CHECK( layer );
+
+ // Check that GetRootLayer() correctly retreived layer 0.
+ DALI_TEST_CHECK( stage.GetRootLayer() == layer );
+
END_TEST;
}
-int UtcDaliStageKeepRendering(void)
+int UtcDaliStageGetRootLayerN(void)
{
TestApplication application;
Stage stage = Stage::GetCurrent();
- // Run core until it wants to sleep
- bool keepUpdating( true );
- while ( keepUpdating )
- {
- application.SendNotification();
- keepUpdating = application.Render(1000.0f /*1 second*/);
- }
+ Layer rootLayer = stage.GetLayer( 0 );
+ DALI_TEST_CHECK( rootLayer );
+ DALI_TEST_CHECK( stage.GetRootLayer() == rootLayer );
- // Force rendering for the next 5 seconds
- stage.KeepRendering( 5.0f );
+ // Create a new layer and attempt to lower it below the root layer.
+ Layer layer = Layer::New();
+ stage.Add( layer );
+ layer.LowerToBottom();
- application.SendNotification();
+ // Check that GetRootLayer still retrieves the same original layer.
+ DALI_TEST_CHECK( stage.GetRootLayer() == rootLayer );
- // Test that core wants to sleep after 10 seconds
- keepUpdating = application.Render(1000.0f /*1 second*/);
- DALI_TEST_CHECK( keepUpdating );
- keepUpdating = application.Render(1000.0f /*2 seconds*/);
- DALI_TEST_CHECK( keepUpdating );
- keepUpdating = application.Render(1000.0f /*3 seconds*/);
- DALI_TEST_CHECK( keepUpdating );
- keepUpdating = application.Render(1000.0f /*4 seconds*/);
+ // Check modifying the root layer is also blocked.
+ rootLayer.RaiseToTop();
+ DALI_TEST_CHECK( stage.GetRootLayer() == rootLayer );
+
+ END_TEST;
+}
+
+int UtcDaliStageSetBackgroundColorP(void)
+{
+ TestApplication application;
+
+ Stage stage = Stage::GetCurrent();
+
+ Vector4 testColor( 0.1f, 0.2f, 0.3f, 1.0f );
+ stage.SetBackgroundColor( testColor );
+
+ DALI_TEST_EQUALS( testColor, stage.GetBackgroundColor(), TEST_LOCATION );
+ END_TEST;
+}
+
+// Note: No negative test for UtcDaliStageSetBackgroundColor as we do not wish to implement
+// range checking for colors due to speed. Colors are clamped with glclampf within GL anyway.
+
+int UtcDaliStageGetBackgroundColorP(void)
+{
+ TestApplication application;
+
+ Stage stage = Stage::GetCurrent();
+
+ DALI_TEST_EQUALS( Stage::DEFAULT_BACKGROUND_COLOR, stage.GetBackgroundColor(), TEST_LOCATION );
+ END_TEST;
+}
+
+// Note: No negative test for UtcDaliStageGetBackgroundColor as this is covered by UtcDaliStageSetBackgroundColorN.
+
+int UtcDaliStageKeepRenderingP(void)
+{
+ TestApplication application;
+
+ Stage stage = Stage::GetCurrent();
+
+ // Run core until it wants to sleep
+ bool keepUpdating( true );
+ while ( keepUpdating )
+ {
+ application.SendNotification();
+ keepUpdating = application.Render( 1000.0f /*1 second*/ );
+ }
+
+ // Force rendering for the next 5 seconds
+ stage.KeepRendering( 5.0f );
+
+ application.SendNotification();
+
+ // Test that core wants to sleep after 10 seconds
+ keepUpdating = application.Render( 1000.0f /*1 second*/ );
+ DALI_TEST_CHECK( keepUpdating );
+ keepUpdating = application.Render( 1000.0f /*2 seconds*/ );
DALI_TEST_CHECK( keepUpdating );
- keepUpdating = application.Render(1000.0f /*5 seconds*/);
+ keepUpdating = application.Render( 1000.0f /*3 seconds*/ );
+ DALI_TEST_CHECK( keepUpdating );
+ keepUpdating = application.Render( 1000.0f /*4 seconds*/ );
+ DALI_TEST_CHECK( keepUpdating );
+ keepUpdating = application.Render( 1000.0f /*5 seconds*/ );
DALI_TEST_CHECK( !keepUpdating );
END_TEST;
}
-int UtcDaliStageEventProcessingFinished(void)
+int UtcDaliStageKeepRenderingN(void)
+{
+ TestApplication application;
+
+ Stage stage = Stage::GetCurrent();
+
+ // Run core until it wants to sleep
+ bool keepUpdating( true );
+ while ( keepUpdating )
+ {
+ application.SendNotification();
+ keepUpdating = application.Render( 1000.0f /*1 second*/ );
+ }
+
+ // Force rendering for the next 5 seconds
+ stage.KeepRendering( -1.0f );
+
+ application.SendNotification();
+
+ // Test that core wants to sleep after 10 seconds
+ keepUpdating = application.Render( 1000.0f /*1 second*/ );
+ DALI_TEST_CHECK( !keepUpdating );
+
+ END_TEST;
+}
+
+int UtcDaliStageEventProcessingFinishedP(void)
{
TestApplication application;
Stage stage = Stage::GetCurrent();
END_TEST;
}
-int UtcDaliStageSignalKeyEvent(void)
+int UtcDaliStageEventProcessingFinishedN(void)
+{
+ TestApplication application;
+ Stage stage = Stage::GetCurrent();
+
+ bool eventProcessingFinished = false;
+ EventProcessingFinishedFunctor functor( eventProcessingFinished );
+ stage.EventProcessingFinishedSignal().Connect( &application, functor );
+
+ Actor actor( Actor::New() );
+ stage.Add( actor );
+
+ // Do not complete event processing and confirm the signal has not been emitted.
+ DALI_TEST_CHECK( !eventProcessingFinished );
+
+ END_TEST;
+}
+
+int UtcDaliStageKeyEventGeneratedSignalP(void)
+{
+ TestApplication application;
+ Stage stage = Stage::GetCurrent();
+
+ KeyEventGeneratedSignalData data;
+ KeyEventGeneratedReceivedFunctor functor( data );
+ DevelStage::KeyEventGeneratedSignal( stage ).Connect( &application, functor );
+
+ KeyEventGeneratedSignalData data2;
+ KeyEventGeneratedReceivedFunctor functor2( data2 );
+ GetImplementation( stage ).ConnectSignal( &application, "keyEventGenerated", functor2 );
+
+ Integration::KeyEvent event( "a", "", "a", 0, 0, 0, Integration::KeyEvent::Up, "a", DEFAULT_DEVICE_NAME, Device::Class::NONE, Device::Subclass::NONE );
+ application.ProcessEvent( event );
+
+ DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
+ DALI_TEST_CHECK( event.keyModifier == data.receivedKeyEvent.keyModifier );
+ DALI_TEST_CHECK( event.keyName == data.receivedKeyEvent.keyPressedName );
+ DALI_TEST_CHECK( event.keyString == data.receivedKeyEvent.keyPressed );
+ DALI_TEST_CHECK( event.state == static_cast<Integration::KeyEvent::State>( data.receivedKeyEvent.state ) );
+
+ data.Reset();
+
+ Integration::KeyEvent event2( "i", "", "i", 0, 0, 0, Integration::KeyEvent::Up, "i", DEFAULT_DEVICE_NAME, Device::Class::NONE, Device::Subclass::NONE );
+ application.ProcessEvent( event2 );
+
+ DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
+ DALI_TEST_CHECK( event2.keyModifier == data.receivedKeyEvent.keyModifier );
+ DALI_TEST_CHECK( event2.keyName == data.receivedKeyEvent.keyPressedName );
+ DALI_TEST_CHECK( event2.keyString == data.receivedKeyEvent.keyPressed );
+ DALI_TEST_CHECK( event2.state == static_cast<Integration::KeyEvent::State>( data.receivedKeyEvent.state ) );
+
+ data.Reset();
+
+ Integration::KeyEvent event3( "a", "", "a", 0, 0, 0, Integration::KeyEvent::Down, "a", DEFAULT_DEVICE_NAME, Device::Class::NONE, Device::Subclass::NONE );
+ application.ProcessEvent( event3 );
+
+ DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
+ DALI_TEST_CHECK( event3.keyModifier == data.receivedKeyEvent.keyModifier );
+ DALI_TEST_CHECK( event3.keyName == data.receivedKeyEvent.keyPressedName );
+ DALI_TEST_CHECK( event3.keyString == data.receivedKeyEvent.keyPressed );
+ DALI_TEST_CHECK( event3.state == static_cast<Integration::KeyEvent::State>( data.receivedKeyEvent.state ) );
+
+ data.Reset();
+
+ Integration::KeyEvent event4( "a", "", "a", 0, 0, 0, Integration::KeyEvent::Up, "a", DEFAULT_DEVICE_NAME, Device::Class::NONE, Device::Subclass::NONE );
+ application.ProcessEvent( event4 );
+
+ DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
+ DALI_TEST_CHECK( event4.keyModifier == data.receivedKeyEvent.keyModifier );
+ DALI_TEST_CHECK( event4.keyName == data.receivedKeyEvent.keyPressedName );
+ DALI_TEST_CHECK( event4.keyString == data.receivedKeyEvent.keyPressed );
+ DALI_TEST_CHECK( event4.state == static_cast<Integration::KeyEvent::State>( data.receivedKeyEvent.state ) );
+ END_TEST;
+}
+
+int UtcDaliStageSignalKeyEventP(void)
{
TestApplication application;
Stage stage = Stage::GetCurrent();
KeyEventReceivedFunctor functor( data );
stage.KeyEventSignal().Connect( &application, functor );
- Integration::KeyEvent event( "i","i", 0, 0, 0, Integration::KeyEvent::Down );
+ Integration::KeyEvent event( "i", "", "i", 0, 0, 0, Integration::KeyEvent::Down, "i", DEFAULT_DEVICE_NAME, Device::Class::NONE, Device::Subclass::NONE );
application.ProcessEvent( event );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
DALI_TEST_CHECK( event.keyModifier == data.receivedKeyEvent.keyModifier );
DALI_TEST_CHECK( event.keyName == data.receivedKeyEvent.keyPressedName );
DALI_TEST_CHECK( event.keyString == data.receivedKeyEvent.keyPressed );
- DALI_TEST_CHECK( event.state == static_cast<Integration::KeyEvent::State>(data.receivedKeyEvent.state) );
+ DALI_TEST_CHECK( event.state == static_cast<Integration::KeyEvent::State>( data.receivedKeyEvent.state ) );
data.Reset();
- Integration::KeyEvent event2( "i","i", 0, 0, 0, Integration::KeyEvent::Up );
+ Integration::KeyEvent event2( "i", "", "i", 0, 0, 0, Integration::KeyEvent::Up, "i", DEFAULT_DEVICE_NAME, Device::Class::NONE, Device::Subclass::NONE );
application.ProcessEvent( event2 );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
DALI_TEST_CHECK( event2.keyModifier == data.receivedKeyEvent.keyModifier );
DALI_TEST_CHECK( event2.keyName == data.receivedKeyEvent.keyPressedName );
DALI_TEST_CHECK( event2.keyString == data.receivedKeyEvent.keyPressed );
- DALI_TEST_CHECK( event2.state == static_cast<Integration::KeyEvent::State>(data.receivedKeyEvent.state) );
+ DALI_TEST_CHECK( event2.state == static_cast<Integration::KeyEvent::State>( data.receivedKeyEvent.state ) );
data.Reset();
- Integration::KeyEvent event3( "a","a", 0, 0, 0, Integration::KeyEvent::Down );
+ Integration::KeyEvent event3( "a", "", "a", 0, 0, 0, Integration::KeyEvent::Down, "a", DEFAULT_DEVICE_NAME, Device::Class::NONE, Device::Subclass::NONE );
application.ProcessEvent( event3 );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
DALI_TEST_CHECK( event3.keyModifier == data.receivedKeyEvent.keyModifier );
DALI_TEST_CHECK( event3.keyName == data.receivedKeyEvent.keyPressedName );
DALI_TEST_CHECK( event3.keyString == data.receivedKeyEvent.keyPressed );
- DALI_TEST_CHECK( event3.state == static_cast<Integration::KeyEvent::State>(data.receivedKeyEvent.state) );
+ DALI_TEST_CHECK( event3.state == static_cast<Integration::KeyEvent::State>( data.receivedKeyEvent.state ) );
data.Reset();
- Integration::KeyEvent event4( "a","a", 0, 0, 0, Integration::KeyEvent::Up );
+ Integration::KeyEvent event4( "a", "", "a", 0, 0, 0, Integration::KeyEvent::Up, "a", DEFAULT_DEVICE_NAME, Device::Class::NONE, Device::Subclass::NONE );
application.ProcessEvent( event4 );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
DALI_TEST_CHECK( event4.keyModifier == data.receivedKeyEvent.keyModifier );
DALI_TEST_CHECK( event4.keyName == data.receivedKeyEvent.keyPressedName );
DALI_TEST_CHECK( event4.keyString == data.receivedKeyEvent.keyPressed );
- DALI_TEST_CHECK( event4.state == static_cast<Integration::KeyEvent::State>(data.receivedKeyEvent.state) );
+ DALI_TEST_CHECK( event4.state == static_cast<Integration::KeyEvent::State>( data.receivedKeyEvent.state ) );
+ END_TEST;
+}
+
+int UtcDaliStageSignalKeyEventN(void)
+{
+ TestApplication application;
+ Stage stage = Stage::GetCurrent();
+
+ KeyEventSignalData data;
+ KeyEventReceivedFunctor functor( data );
+ stage.KeyEventSignal().Connect( &application, functor );
+
+ // Check that a non-pressed key events data is not modified.
+ DALI_TEST_EQUALS( false, data.functorCalled, TEST_LOCATION );
+
END_TEST;
}
-int UtcDaliStageTouchedSignal(void)
+int UtcDaliStageTouchedSignalP(void)
{
TestApplication application;
Stage stage = Stage::GetCurrent();
TouchedFunctor functor( data );
stage.TouchedSignal().Connect( &application, functor );
- // Render and notify
+ // Render and notify.
application.SendNotification();
application.Render();
- // NO ACTORS, SINGLE TOUCH, DOWN, MOTION THEN UP
+ // Basic test: No actors, single touch (down then up).
{
- Integration::TouchEvent touchEvent;
- touchEvent.points.push_back( TouchPoint( 0, TouchPoint::Down, 10.0f, 10.0f ) );
- application.ProcessEvent( touchEvent );
+ GenerateTouch( application, PointState::DOWN, Vector2( 10.0f, 10.0f ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
- DALI_TEST_CHECK( data.receivedTouchEvent.GetPointCount() != 0 );
+ DALI_TEST_CHECK( data.receivedTouchEvent.GetPointCount() != 0u );
DALI_TEST_CHECK( !data.receivedTouchEvent.points[0].hitActor );
data.Reset();
- touchEvent.points[0].state = TouchPoint::Motion;
- touchEvent.points[0].screen.x = 12.0f; // Some motion
- application.ProcessEvent( touchEvent );
-
- DALI_TEST_EQUALS( false, data.functorCalled, TEST_LOCATION );
- data.Reset();
-
- touchEvent.points[0].state = TouchPoint::Up;
- application.ProcessEvent( touchEvent );
+ GenerateTouch( application, PointState::UP, Vector2( 10.0f, 10.0f ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
- DALI_TEST_CHECK( data.receivedTouchEvent.GetPointCount() != 0 );
+ DALI_TEST_CHECK( data.receivedTouchEvent.GetPointCount() != 0u );
DALI_TEST_CHECK( !data.receivedTouchEvent.points[0].hitActor );
data.Reset();
}
- // Add an actor to the scene
-
+ // Add an actor to the scene.
Actor actor = Actor::New();
actor.SetSize( 100.0f, 100.0f );
actor.SetAnchorPoint( AnchorPoint::TOP_LEFT );
actor.TouchedSignal().Connect( &DummyTouchCallback );
stage.Add( actor );
- // Render and notify
+ // Render and notify.
application.SendNotification();
application.Render();
- // ACTOR ON SCENE, SINGLE TOUCH, DOWN IN ACTOR, MOTION THEN UP OUTSIDE ACTOR
+ // Actor on scene, single touch, down in actor, motion, then up outside actor.
{
- Integration::TouchEvent touchEvent;
- touchEvent.points.push_back( TouchPoint( 0, TouchPoint::Down, 10.0f, 10.0f ) );
- application.ProcessEvent( touchEvent );
+ GenerateTouch( application, PointState::DOWN, Vector2( 10.0f, 10.0f ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
- DALI_TEST_CHECK( data.receivedTouchEvent.GetPointCount() != 0 );
+ DALI_TEST_CHECK( data.receivedTouchEvent.GetPointCount() != 0u );
DALI_TEST_CHECK( data.receivedTouchEvent.points[0].hitActor == actor );
data.Reset();
- touchEvent.points[0].state = TouchPoint::Motion;
- touchEvent.points[0].screen.x = 150.0f; // Some motion
- application.ProcessEvent( touchEvent );
+ GenerateTouch( application, PointState::MOTION, Vector2( 150.0f, 10.0f ) ); // Some motion
DALI_TEST_EQUALS( false, data.functorCalled, TEST_LOCATION );
data.Reset();
- touchEvent.points[0].state = TouchPoint::Up;
- application.ProcessEvent( touchEvent );
+ GenerateTouch( application, PointState::UP, Vector2( 150.0f, 10.0f ) ); // Some motion
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
- DALI_TEST_CHECK( data.receivedTouchEvent.GetPointCount() != 0 );
+ DALI_TEST_CHECK( data.receivedTouchEvent.GetPointCount() != 0u );
DALI_TEST_CHECK( !data.receivedTouchEvent.points[0].hitActor );
data.Reset();
}
- // INTERRUPTED BEFORE DOWN AND INTERRUPTED AFTER DOWN
+ // Multiple touch. Should only receive a touch on first down and last up.
{
Integration::TouchEvent touchEvent;
- touchEvent.points.push_back( TouchPoint( 0, TouchPoint::Interrupted, 10.0f, 10.0f ) );
+ Integration::Point point;
+
+ // 1st point
+ point.SetState( PointState::DOWN );
+ point.SetScreenPosition( Vector2( 10.0f, 10.0f ) );
+ touchEvent.points.push_back( point );
application.ProcessEvent( touchEvent );
+ DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
+ DALI_TEST_EQUALS( data.receivedTouchEvent.GetPointCount(), 1u, TEST_LOCATION );
+ data.Reset();
+
+ // 2nd point
+ touchEvent.points[0].SetState( PointState::STATIONARY );
+ point.SetDeviceId( 1 );
+ point.SetScreenPosition( Vector2( 50.0f, 50.0f ) );
+ touchEvent.points.push_back( point );
+ application.ProcessEvent( touchEvent );
+ DALI_TEST_EQUALS( false, data.functorCalled, TEST_LOCATION );
+ DALI_TEST_EQUALS( data.receivedTouchEvent.GetPointCount(), 0u, TEST_LOCATION );
+ data.Reset();
+
+ // Primary point is up
+ touchEvent.points[0].SetState( PointState::UP );
+ touchEvent.points[1].SetState( PointState::STATIONARY );
+ application.ProcessEvent( touchEvent );
+ DALI_TEST_EQUALS( false, data.functorCalled, TEST_LOCATION );
+ DALI_TEST_EQUALS( data.receivedTouchEvent.GetPointCount(), 0u, TEST_LOCATION );
+ data.Reset();
+
+ // Remove 1st point now, 2nd point is now in motion
+ touchEvent.points.erase( touchEvent.points.begin() );
+ touchEvent.points[0].SetState( PointState::MOTION );
+ touchEvent.points[0].SetScreenPosition( Vector2( 150.0f, 50.0f ) );
+ application.ProcessEvent( touchEvent );
+ DALI_TEST_EQUALS( false, data.functorCalled, TEST_LOCATION );
+ DALI_TEST_EQUALS( data.receivedTouchEvent.GetPointCount(), 0u, TEST_LOCATION );
+ data.Reset();
+
+ // Final point Up
+ touchEvent.points[0].SetState( PointState::UP );
+ application.ProcessEvent( touchEvent );
+ DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
+ DALI_TEST_EQUALS( data.receivedTouchEvent.GetPointCount(), 1u, TEST_LOCATION );
+ data.Reset();
+ }
+ END_TEST;
+}
+
+int UtcDaliStageTouchedSignalN(void)
+{
+ TestApplication application;
+ Stage stage = Stage::GetCurrent();
+
+ TouchedSignalData data;
+ TouchedFunctor functor( data );
+ stage.TouchedSignal().Connect( &application, functor );
+
+ // Render and notify.
+ application.SendNotification();
+ application.Render();
+
+ // Confirm functor not called before there has been any touch event.
+ DALI_TEST_EQUALS( false, data.functorCalled, TEST_LOCATION );
+
+ // No actors, single touch, down, motion then up.
+ {
+ GenerateTouch( application, PointState::DOWN, Vector2( 10.0f, 10.0f ) );
+
+ DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
+ DALI_TEST_CHECK( data.receivedTouchEvent.GetPointCount() != 0u );
+ DALI_TEST_CHECK( !data.receivedTouchEvent.points[0].hitActor );
+ data.Reset();
+
+ // Confirm there is no signal when the touchpoint is only moved.
+ GenerateTouch( application, PointState::MOTION, Vector2( 1200.0f, 10.0f ) ); // Some motion
+
+ DALI_TEST_EQUALS( false, data.functorCalled, TEST_LOCATION );
+ data.Reset();
+
+ // Confirm a following up event generates a signal.
+ GenerateTouch( application, PointState::UP, Vector2( 1200.0f, 10.0f ) );
+
+ DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
+ DALI_TEST_CHECK( data.receivedTouchEvent.GetPointCount() != 0u );
+ DALI_TEST_CHECK( !data.receivedTouchEvent.points[0].hitActor );
+ data.Reset();
+ }
+
+ // Add an actor to the scene.
+ Actor actor = Actor::New();
+ actor.SetSize( 100.0f, 100.0f );
+ actor.SetAnchorPoint( AnchorPoint::TOP_LEFT );
+ actor.SetParentOrigin( ParentOrigin::TOP_LEFT );
+ actor.TouchedSignal().Connect( &DummyTouchCallback );
+ stage.Add( actor );
+
+ // Render and notify.
+ application.SendNotification();
+ application.Render();
+
+ // Actor on scene. Interrupted before down and interrupted after down.
+ {
+ GenerateTouch( application, PointState::INTERRUPTED, Vector2( 10.0f, 10.0f ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
- DALI_TEST_CHECK( data.receivedTouchEvent.GetPointCount() != 0 );
+ DALI_TEST_CHECK( data.receivedTouchEvent.GetPointCount() != 0u );
DALI_TEST_CHECK( !data.receivedTouchEvent.points[0].hitActor );
DALI_TEST_CHECK( data.receivedTouchEvent.points[0].state == TouchPoint::Interrupted );
data.Reset();
- touchEvent.points[0].state = TouchPoint::Down;
- application.ProcessEvent( touchEvent );
+ GenerateTouch( application, PointState::DOWN, Vector2( 10.0f, 10.0f ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
- DALI_TEST_CHECK( data.receivedTouchEvent.GetPointCount() != 0 );
+ DALI_TEST_CHECK( data.receivedTouchEvent.GetPointCount() != 0u );
DALI_TEST_CHECK( data.receivedTouchEvent.points[0].hitActor == actor );
DALI_TEST_CHECK( data.receivedTouchEvent.points[0].state == TouchPoint::Down );
data.Reset();
- touchEvent.points[0].state = TouchPoint::Interrupted;
- application.ProcessEvent( touchEvent );
+ GenerateTouch( application, PointState::INTERRUPTED, Vector2( 10.0f, 10.0f ) );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
- DALI_TEST_CHECK( data.receivedTouchEvent.GetPointCount() != 0 );
+ DALI_TEST_CHECK( data.receivedTouchEvent.GetPointCount() != 0u );
DALI_TEST_CHECK( !data.receivedTouchEvent.points[0].hitActor );
DALI_TEST_CHECK( data.receivedTouchEvent.points[0].state == TouchPoint::Interrupted );
+
+ DALI_TEST_EQUALS( data.receivedTouchEvent.GetPointCount(), 1u, TEST_LOCATION );
+
+ // Check that getting info about a non-existent point causes an assert.
+ bool asserted = false;
+ try
+ {
+ data.receivedTouchEvent.GetPoint( 1 );
+ }
+ catch( Dali::DaliException& e )
+ {
+ DALI_TEST_PRINT_ASSERT( e );
+ DALI_TEST_ASSERT( e, "point < points.size() && \"No point at index\"", TEST_LOCATION );
+ asserted = true;
+ }
+ DALI_TEST_CHECK( asserted );
+
+ data.Reset();
+ }
+
+ END_TEST;
+}
+
+
+int UtcDaliStageTouchSignalP(void)
+{
+ TestApplication application;
+ Stage stage = Stage::GetCurrent();
+
+ TouchedSignalData data;
+ TouchFunctor functor( data );
+ stage.TouchSignal().Connect( &application, functor );
+
+ // Render and notify.
+ application.SendNotification();
+ application.Render();
+
+ // Basic test: No actors, single touch (down then up).
+ {
+ GenerateTouch( application, PointState::DOWN, Vector2( 10.0f, 10.0f ) );
+
+ DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
+ DALI_TEST_CHECK( data.receivedTouchData.GetPointCount() != 0u );
+ DALI_TEST_CHECK( !data.receivedTouchData.GetHitActor(0) );
+ data.Reset();
+
+ GenerateTouch( application, PointState::UP, Vector2( 10.0f, 10.0f ) );
+
+ DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
+ DALI_TEST_CHECK( data.receivedTouchData.GetPointCount() != 0u );
+ DALI_TEST_CHECK( !data.receivedTouchData.GetHitActor(0) );
data.Reset();
}
- // MULTIPLE TOUCH, SHOULD ONLY RECEIVE TOUCH ON FIRST DOWN AND LAST UP
+ // Add an actor to the scene.
+ Actor actor = Actor::New();
+ actor.SetSize( 100.0f, 100.0f );
+ actor.SetAnchorPoint( AnchorPoint::TOP_LEFT );
+ actor.SetParentOrigin( ParentOrigin::TOP_LEFT );
+ actor.TouchedSignal().Connect( &DummyTouchCallback );
+ stage.Add( actor );
+
+ // Render and notify.
+ application.SendNotification();
+ application.Render();
+
+ // Actor on scene, single touch, down in actor, motion, then up outside actor.
+ {
+ GenerateTouch( application, PointState::DOWN, Vector2( 10.0f, 10.0f ) );
+
+ DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
+ DALI_TEST_CHECK( data.receivedTouchData.GetPointCount() != 0u );
+ DALI_TEST_CHECK( data.receivedTouchData.GetHitActor(0) == actor );
+ data.Reset();
+
+ GenerateTouch( application, PointState::MOTION, Vector2( 150.0f, 10.0f ) ); // Some motion
+
+ DALI_TEST_EQUALS( false, data.functorCalled, TEST_LOCATION );
+ data.Reset();
+
+ GenerateTouch( application, PointState::UP, Vector2( 150.0f, 10.0f ) ); // Some motion
+
+ DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
+ DALI_TEST_CHECK( data.receivedTouchData.GetPointCount() != 0u );
+ DALI_TEST_CHECK( !data.receivedTouchData.GetHitActor(0) );
+ data.Reset();
+ }
+
+ // Multiple touch. Should only receive a touch on first down and last up.
{
Integration::TouchEvent touchEvent;
+ Integration::Point point;
// 1st point
- touchEvent.points.push_back( TouchPoint( 0, TouchPoint::Down, 10.0f, 10.0f ) );
+ point.SetState( PointState::DOWN );
+ point.SetScreenPosition( Vector2( 10.0f, 10.0f ) );
+ touchEvent.points.push_back( point );
application.ProcessEvent( touchEvent );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
+ DALI_TEST_EQUALS( data.receivedTouchData.GetPointCount(), 1u, TEST_LOCATION );
data.Reset();
// 2nd point
- touchEvent.points[0].state = TouchPoint::Stationary;
- touchEvent.points.push_back( TouchPoint( 1, TouchPoint::Down, 50.0f, 50.0f ) );
+ touchEvent.points[0].SetState( PointState::STATIONARY );
+ point.SetDeviceId( 1 );
+ point.SetScreenPosition( Vector2( 50.0f, 50.0f ) );
+ touchEvent.points.push_back( point );
application.ProcessEvent( touchEvent );
DALI_TEST_EQUALS( false, data.functorCalled, TEST_LOCATION );
data.Reset();
// Primary point is up
- touchEvent.points[0].state = TouchPoint::Up;
- touchEvent.points[1].state = TouchPoint::Stationary;
+ touchEvent.points[0].SetState( PointState::UP );
+ touchEvent.points[1].SetState( PointState::STATIONARY );
application.ProcessEvent( touchEvent );
DALI_TEST_EQUALS( false, data.functorCalled, TEST_LOCATION );
data.Reset();
// Remove 1st point now, 2nd point is now in motion
touchEvent.points.erase( touchEvent.points.begin() );
- touchEvent.points[0].state = TouchPoint::Motion;
- touchEvent.points[0].screen.x = 150.0f;
+ touchEvent.points[0].SetState( PointState::MOTION );
+ touchEvent.points[0].SetScreenPosition( Vector2( 150.0f, 50.0f ) );
application.ProcessEvent( touchEvent );
DALI_TEST_EQUALS( false, data.functorCalled, TEST_LOCATION );
data.Reset();
// Final point Up
- touchEvent.points[0].state = TouchPoint::Up;
+ touchEvent.points[0].SetState( PointState::UP );
application.ProcessEvent( touchEvent );
DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
+ DALI_TEST_EQUALS( data.receivedTouchData.GetPointCount(), 1u, TEST_LOCATION );
data.Reset();
}
END_TEST;
}
-int UtcDaliStageContextLostRegainedSignals(void)
+int UtcDaliStageTouchSignalN(void)
+{
+ TestApplication application;
+ Stage stage = Stage::GetCurrent();
+
+ TouchedSignalData data;
+ TouchFunctor functor( data );
+ stage.TouchSignal().Connect( &application, functor );
+
+ TouchedSignalData data2;
+ TouchFunctor functor2( data2 );
+ GetImplementation( stage ).ConnectSignal( &application, "touch", functor2 );
+
+ // Render and notify.
+ application.SendNotification();
+ application.Render();
+
+ // Confirm functor not called before there has been any touch event.
+ DALI_TEST_EQUALS( false, data.functorCalled, TEST_LOCATION );
+ DALI_TEST_EQUALS( false, data2.functorCalled, TEST_LOCATION );
+
+ // No actors, single touch, down, motion then up.
+ {
+ GenerateTouch( application, PointState::DOWN, Vector2( 10.0f, 10.0f ) );
+
+ DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
+ DALI_TEST_CHECK( data.receivedTouchData.GetPointCount() != 0u );
+ DALI_TEST_CHECK( !data.receivedTouchData.GetHitActor(0));
+
+ DALI_TEST_EQUALS( true, data2.functorCalled, TEST_LOCATION );
+
+ data.Reset();
+ data2.Reset();
+
+ // Confirm there is no signal when the touchpoint is only moved.
+ GenerateTouch( application, PointState::MOTION, Vector2( 1200.0f, 10.0f ) ); // Some motion
+
+ DALI_TEST_EQUALS( false, data.functorCalled, TEST_LOCATION );
+ data.Reset();
+
+ // Confirm a following up event generates a signal.
+ GenerateTouch( application, PointState::UP, Vector2( 1200.0f, 10.0f ) );
+
+ DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
+ DALI_TEST_CHECK( data.receivedTouchData.GetPointCount() != 0u );
+ DALI_TEST_CHECK( !data.receivedTouchData.GetHitActor(0));
+ data.Reset();
+ }
+
+ // Add an actor to the scene.
+ Actor actor = Actor::New();
+ actor.SetSize( 100.0f, 100.0f );
+ actor.SetAnchorPoint( AnchorPoint::TOP_LEFT );
+ actor.SetParentOrigin( ParentOrigin::TOP_LEFT );
+ actor.TouchedSignal().Connect( &DummyTouchCallback );
+ stage.Add( actor );
+
+ // Render and notify.
+ application.SendNotification();
+ application.Render();
+
+ // Actor on scene. Interrupted before down and interrupted after down.
+ {
+ GenerateTouch( application, PointState::INTERRUPTED, Vector2( 10.0f, 10.0f ) );
+
+ DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
+ DALI_TEST_CHECK( data.receivedTouchData.GetPointCount() != 0u );
+ DALI_TEST_CHECK( !data.receivedTouchData.GetHitActor(0) );
+ DALI_TEST_CHECK( data.receivedTouchData.GetState(0) == PointState::INTERRUPTED );
+ data.Reset();
+
+ GenerateTouch( application, PointState::DOWN, Vector2( 10.0f, 10.0f ) );
+
+ DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
+ DALI_TEST_CHECK( data.receivedTouchData.GetPointCount() != 0u );
+ DALI_TEST_CHECK( data.receivedTouchData.GetHitActor(0) == actor );
+ DALI_TEST_CHECK( data.receivedTouchData.GetState(0) == PointState::DOWN );
+ data.Reset();
+
+ GenerateTouch( application, PointState::INTERRUPTED, Vector2( 10.0f, 10.0f ) );
+
+ DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
+ DALI_TEST_CHECK( data.receivedTouchData.GetPointCount() != 0u );
+ DALI_TEST_CHECK( !data.receivedTouchData.GetHitActor(0) );
+ DALI_TEST_CHECK( data.receivedTouchData.GetState(0) == PointState::INTERRUPTED );
+
+ DALI_TEST_EQUALS( data.receivedTouchData.GetPointCount(), 1u, TEST_LOCATION );
+
+ // Check that getting info about a non-existent point returns an empty handle
+ Actor actor = data.receivedTouchData.GetHitActor( 1 );
+ DALI_TEST_CHECK( !actor );
+
+ data.Reset();
+ }
+
+ END_TEST;
+}
+
+int UtcDaliStageSignalWheelEventP(void)
+{
+ TestApplication application;
+ Stage stage = Stage::GetCurrent();
+
+ WheelEventSignalData data;
+ WheelEventReceivedFunctor functor( data );
+ stage.WheelEventSignal().Connect( &application, functor );
+
+ Integration::WheelEvent event( Integration::WheelEvent::CUSTOM_WHEEL, 0, 0u, Vector2( 0.0f, 0.0f ), 1, 1000u );
+ application.ProcessEvent( event );
+
+ DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
+ DALI_TEST_CHECK( static_cast< WheelEvent::Type >(event.type) == data.receivedWheelEvent.type );
+ DALI_TEST_CHECK( event.direction == data.receivedWheelEvent.direction );
+ DALI_TEST_CHECK( event.modifiers == data.receivedWheelEvent.modifiers );
+ DALI_TEST_CHECK( event.point == data.receivedWheelEvent.point );
+ DALI_TEST_CHECK( event.z == data.receivedWheelEvent.z );
+ DALI_TEST_CHECK( event.timeStamp == data.receivedWheelEvent.timeStamp );
+
+ data.Reset();
+
+ Integration::WheelEvent event2( Integration::WheelEvent::CUSTOM_WHEEL, 0, 0u, Vector2( 0.0f, 0.0f ), -1, 1000u );
+ application.ProcessEvent( event2 );
+
+ DALI_TEST_EQUALS( true, data.functorCalled, TEST_LOCATION );
+ DALI_TEST_CHECK( static_cast< WheelEvent::Type >(event2.type) == data.receivedWheelEvent.type );
+ DALI_TEST_CHECK( event2.direction == data.receivedWheelEvent.direction );
+ DALI_TEST_CHECK( event2.modifiers == data.receivedWheelEvent.modifiers );
+ DALI_TEST_CHECK( event2.point == data.receivedWheelEvent.point );
+ DALI_TEST_CHECK( event2.z == data.receivedWheelEvent.z );
+ DALI_TEST_CHECK( event2.timeStamp == data.receivedWheelEvent.timeStamp );
+ END_TEST;
+}
+
+int UtcDaliStageContextLostSignalP(void)
{
TestApplication app;
Stage stage = Stage::GetCurrent();
bool contextLost = false;
- bool contextRegained = false;
ContextStatusFunctor contextLostFunctor( contextLost );
- ContextStatusFunctor contextRegainedFunctor( contextRegained );
- stage.ContextLostSignal().Connect(&app, contextLostFunctor );
- stage.ContextRegainedSignal().Connect(&app, contextRegainedFunctor );
+ stage.ContextLostSignal().Connect( &app, contextLostFunctor );
- Integration::Core& core = app.GetCore();
- Integration::ContextNotifierInterface* notifier = core.GetContextNotifier();
+ Integration::ContextNotifierInterface* notifier = app.GetCore().GetContextNotifier();
notifier->NotifyContextLost();
DALI_TEST_EQUALS( contextLost, true, TEST_LOCATION );
+ END_TEST;
+}
+
+int UtcDaliStageContextLostSignalN(void)
+{
+ TestApplication app;
+ Stage stage;
+
+ // Check that connecting to the signal with a bad stage instance causes an assert.
+ bool asserted = false;
+ bool contextLost = false;
+ ContextStatusFunctor contextLostFunctor( contextLost );
+ try
+ {
+ stage.ContextLostSignal().Connect( &app, contextLostFunctor );
+ }
+ catch( Dali::DaliException& e )
+ {
+ DALI_TEST_PRINT_ASSERT( e );
+ DALI_TEST_ASSERT( e, "stage && \"Stage handle is empty\"", TEST_LOCATION );
+ asserted = true;
+ }
+ DALI_TEST_CHECK( asserted );
+
+ END_TEST;
+}
+
+int UtcDaliStageContextRegainedSignalP(void)
+{
+ TestApplication app;
+ Stage stage = Stage::GetCurrent();
+
+ bool contextRegained = false;
+ ContextStatusFunctor contextRegainedFunctor( contextRegained );
+ stage.ContextRegainedSignal().Connect( &app, contextRegainedFunctor );
+
+ Integration::ContextNotifierInterface* notifier = app.GetCore().GetContextNotifier();
+ notifier->NotifyContextLost();
notifier->NotifyContextRegained();
DALI_TEST_EQUALS( contextRegained, true, TEST_LOCATION );
END_TEST;
}
+
+int UtcDaliStageContextRegainedSignalN(void)
+{
+ TestApplication app;
+ Stage stage;
+
+ // Check that connecting to the signal with a bad stage instance causes an assert.
+ bool asserted = false;
+ bool contextRegained = false;
+ ContextStatusFunctor contextRegainedFunctor( contextRegained );
+ try
+ {
+ stage.ContextRegainedSignal().Connect( &app, contextRegainedFunctor );
+ }
+ catch( Dali::DaliException& e )
+ {
+ DALI_TEST_PRINT_ASSERT( e );
+ DALI_TEST_ASSERT( e, "stage && \"Stage handle is empty\"", TEST_LOCATION );
+ asserted = true;
+ }
+ DALI_TEST_CHECK( asserted );
+
+ END_TEST;
+}
+
+int UtcDaliStageSceneCreatedSignalP(void)
+{
+ TestApplication app;
+ Stage stage = Stage::GetCurrent();
+
+ bool signalCalled = false;
+ SceneCreatedStatusFunctor sceneCreatedFunctor( signalCalled );
+ stage.SceneCreatedSignal().Connect( &app, sceneCreatedFunctor );
+
+ Integration::Core& core = app.GetCore();
+ core.SceneCreated();
+ DALI_TEST_EQUALS( signalCalled, true, TEST_LOCATION );
+
+ END_TEST;
+}
+
+int UtcDaliStageSceneCreatedSignalN(void)
+{
+ TestApplication app;
+ Stage stage;
+
+ // Check that connecting to the signal with a bad stage instance causes an assert.
+ bool asserted = false;
+ bool signalCalled = false;
+ SceneCreatedStatusFunctor sceneCreatedFunctor( signalCalled );
+ try
+ {
+ stage.SceneCreatedSignal().Connect( &app, sceneCreatedFunctor );
+ }
+ catch( Dali::DaliException& e )
+ {
+ DALI_TEST_PRINT_ASSERT( e );
+ DALI_TEST_ASSERT( e, "stage && \"Stage handle is empty\"", TEST_LOCATION );
+ asserted = true;
+ }
+ DALI_TEST_CHECK( asserted );
+
+ END_TEST;
+}
+
+int UtcDaliStageGetRenderTaskListP(void)
+{
+ TestApplication app;
+ Stage stage = Stage::GetCurrent();
+
+ // Check we get a valid instance.
+ const RenderTaskList& tasks = stage.GetRenderTaskList();
+
+ // There should be 1 task by default.
+ DALI_TEST_EQUALS( tasks.GetTaskCount(), 1u, TEST_LOCATION );
+
+ // RenderTaskList has it's own UTC tests.
+ // But we can confirm that GetRenderTaskList in Stage retrieves the same RenderTaskList each time.
+ RenderTask newTask = stage.GetRenderTaskList().CreateTask();
+
+ DALI_TEST_EQUALS( stage.GetRenderTaskList().GetTask( 1 ), newTask, TEST_LOCATION );
+
+ END_TEST;
+}
+
+int UtcDaliStageGetRenderTaskListN(void)
+{
+ TestApplication app;
+ Stage stage;
+
+ // Check that getting the render task list with a bad stage instance causes an assert.
+ bool asserted = false;
+ try
+ {
+ stage.GetRenderTaskList();
+ }
+ catch( Dali::DaliException& e )
+ {
+ DALI_TEST_PRINT_ASSERT( e );
+ DALI_TEST_ASSERT( e, "stage && \"Stage handle is empty\"", TEST_LOCATION );
+ asserted = true;
+ }
+ DALI_TEST_CHECK( asserted );
+
+ END_TEST;
+}
+
+int UtcDaliStageGetObjectRegistryP(void)
+{
+ TestApplication app;
+ Stage stage = Stage::GetCurrent();
+
+ ObjectRegistry objectRegistry = stage.GetObjectRegistry();
+
+ // Object registry tests are covered in their own module.
+ // However we want a basic test to confirm the returned registry is valid and works.
+ bool verified = false;
+ ActorCreatedFunctor test( verified );
+ objectRegistry.ObjectCreatedSignal().Connect( &app, test );
+
+ Actor actor = Actor::New();
+ DALI_TEST_CHECK( test.mSignalVerified );
+
+ END_TEST;
+}
+
+int UtcDaliStageGetObjectRegistryN(void)
+{
+ TestApplication app;
+ Stage stage;
+
+ // Check that getting the object registry with a bad stage instance DOES NOT cause an assert.
+ // This is because GetCurrent() is used, always creating a stage if one does not exist.
+ bool asserted = false;
+ try
+ {
+ stage.GetObjectRegistry();
+ }
+ catch( Dali::DaliException& e )
+ {
+ DALI_TEST_PRINT_ASSERT( e );
+ asserted = true;
+ }
+ DALI_TEST_CHECK( !asserted );
+
+ END_TEST;
+}
+
+int UtcDaliStageOperatorAssign(void)
+{
+ TestApplication app;
+ Stage stage;
+ DALI_TEST_CHECK( !stage );
+
+ stage = Stage::GetCurrent();
+ DALI_TEST_CHECK( stage );
+
+ END_TEST;
+}
+
+int UtcDaliStageRenderingBehavior(void)
+{
+ TestApplication application;
+ Stage stage = Stage::GetCurrent();
+
+ tet_infoline( "Check default rendering behavior is only if required" );
+ DALI_TEST_CHECK( DevelStage::GetRenderingBehavior( stage ) == DevelStage::Rendering::IF_REQUIRED );
+
+ tet_infoline( "No update required with an empty application" );
+ application.SendNotification();
+ DALI_TEST_CHECK( application.UpdateOnly() == false );
+ application.RenderOnly();
+
+ tet_infoline( "Change to continuous rendering, further updates should be required" );
+ DevelStage::SetRenderingBehavior( stage, DevelStage::Rendering::CONTINUOUSLY );
+
+ DALI_TEST_CHECK( DevelStage::GetRenderingBehavior( stage ) == DevelStage::Rendering::CONTINUOUSLY );
+
+ application.SendNotification();
+ DALI_TEST_CHECK( application.UpdateOnly() == true );
+ application.RenderOnly();
+
+ application.SendNotification();
+ DALI_TEST_CHECK( application.UpdateOnly() == true );
+ application.RenderOnly();
+
+ tet_infoline( "Change to rendering only if required, further updates should NOT be required" );
+ DevelStage::SetRenderingBehavior( stage, DevelStage::Rendering::IF_REQUIRED );
+
+ DALI_TEST_CHECK( DevelStage::GetRenderingBehavior( stage ) == DevelStage::Rendering::IF_REQUIRED );
+
+ application.SendNotification();
+ DALI_TEST_CHECK( application.UpdateOnly() == false );
+ application.RenderOnly();
+
+ tet_infoline( "The next update is not required so TestApplication should print a warning" );
+ application.SendNotification();
+ DALI_TEST_CHECK( application.UpdateOnly() == false );
+ application.RenderOnly();
+
+ END_TEST;
+}