/*
- * Copyright (c) 2020 Samsung Electronics Co., Ltd.
+ * Copyright (c) 2022 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.
KeyEventGeneratedSignalData& signalData;
};
+// Stores data that is populated in the WheelEventGeneratedSignal callback and will be read by the TET cases
+struct WheelEventGeneratedSignalData
+{
+ WheelEventGeneratedSignalData()
+ : functorCalled(false)
+ {
+ }
+
+ void Reset()
+ {
+ functorCalled = false;
+
+ receivedWheelEvent.Reset();
+ }
+
+ bool functorCalled;
+ WheelEvent receivedWheelEvent;
+};
+
+// Functor that sets the data when called
+struct WheelEventGeneratedReceivedFunctor
+{
+ WheelEventGeneratedReceivedFunctor(WheelEventGeneratedSignalData& data)
+ : signalData(data)
+ {
+ }
+
+ bool operator()(const WheelEvent& wheelEvent)
+ {
+ signalData.functorCalled = true;
+ signalData.receivedWheelEvent = wheelEvent;
+
+ return true;
+ }
+
+ bool operator()()
+ {
+ signalData.functorCalled = true;
+ return true;
+ }
+
+ WheelEventGeneratedSignalData& signalData;
+};
+
void GenerateTouch(TestApplication& application, PointState::Type state, const Vector2& screenPosition)
{
Integration::TouchEvent touchEvent;
Dali::Integration::Scene scene = application.GetScene();
- Actor actor = Actor::New();
- DALI_TEST_CHECK(Dali::Integration::Scene() == Dali::Integration::Scene::Get(actor));
+ Actor parent = Actor::New();
+ Actor child = Actor::New();
- scene.Add(actor);
+ parent.Add(child);
- DALI_TEST_CHECK(scene == Dali::Integration::Scene::Get(actor));
+ // Should be empty scene
+ DALI_TEST_CHECK(Dali::Integration::Scene() == Dali::Integration::Scene::Get(parent));
+ DALI_TEST_CHECK(Dali::Integration::Scene() == Dali::Integration::Scene::Get(child));
+
+ scene.Add(parent);
+
+ // Should return the valid scene
+ DALI_TEST_CHECK(scene == Dali::Integration::Scene::Get(parent));
+ DALI_TEST_CHECK(scene == Dali::Integration::Scene::Get(child));
+
+ parent.Unparent();
+
+ // Should be empty scene
+ DALI_TEST_CHECK(Dali::Integration::Scene() == Dali::Integration::Scene::Get(parent));
+ DALI_TEST_CHECK(Dali::Integration::Scene() == Dali::Integration::Scene::Get(child));
END_TEST;
}
auto stage = Stage::GetCurrent();
DALI_TEST_EQUALS(stage.GetSize(), defaultScene.GetSize(), TEST_LOCATION);
+ Rect<int32_t> surfaceRect = defaultScene.GetCurrentSurfaceRect();
+
bool surfaceResized;
// check resized flag before surface is resized.
surfaceResized = defaultScene.IsSurfaceRectChanged();
DALI_TEST_EQUALS(stage.GetSize(), newSize, TEST_LOCATION);
DALI_TEST_EQUALS(defaultScene.GetSize(), newSize, TEST_LOCATION);
+ // Check current surface rect
+ Rect<int32_t> newSurfaceRect = defaultScene.GetCurrentSurfaceRect();
+
+ // It should not be changed yet.
+ DALI_TEST_CHECK(surfaceRect == newSurfaceRect);
+
// Render after resizing surface
application.SendNotification();
application.Render(0);
DALI_TEST_EQUALS(surfaceResized, true, TEST_LOCATION);
// Check that the viewport is handled properly
- DALI_TEST_CHECK(callStack.FindMethodAndGetParameters("Viewport", viewportParams));
+ DALI_TEST_CHECK(callStack.FindIndexFromMethodAndParams("Viewport", viewportParams) >= 0);
+
+ // Check current surface rect
+ newSurfaceRect = defaultScene.GetCurrentSurfaceRect();
+
+ // It should be changed
+ DALI_TEST_EQUALS(newSurfaceRect.x, 0, TEST_LOCATION);
+ DALI_TEST_EQUALS(newSurfaceRect.y, 0, TEST_LOCATION);
+ DALI_TEST_EQUALS(newSurfaceRect.width, 1000, TEST_LOCATION);
+ DALI_TEST_EQUALS(newSurfaceRect.height, 2000, TEST_LOCATION);
END_TEST;
}
END_TEST;
}
-#define CLIPPING_RECT_X (16)
-#define CLIPPING_RECT_Y (768)
-#define CLIPPING_RECT_WIDTH (32)
-#define CLIPPING_RECT_HEIGHT (32)
+#define CLIPPING_RECT_X (16)
+#define CLIPPING_RECT_Y (768)
+#define CLIPPING_RECT_WIDTH (32)
+#define CLIPPING_RECT_HEIGHT (32)
int UtcDaliSceneSurfaceRotatedWithAngle0(void)
{
application.PreRenderWithPartialUpdate(TestApplication::RENDER_FRAME_INTERVAL, nullptr, damagedRects);
DALI_TEST_EQUALS(damagedRects.size(), 0, TEST_LOCATION);
+
+ clippingRect = TestApplication::DEFAULT_SURFACE_RECT;
application.RenderWithPartialUpdate(damagedRects, clippingRect);
Actor actor = CreateRenderableActor();
damagedRects.clear();
application.GetScene().SurfaceRotated(TestApplication::DEFAULT_SURFACE_WIDTH,
- TestApplication::DEFAULT_SURFACE_HEIGHT, 0);
+ TestApplication::DEFAULT_SURFACE_HEIGHT,
+ 0);
+
+ // Check current surface orientation
+ int32_t orientation = application.GetScene().GetCurrentSurfaceOrientation();
+
+ // It should not be changed yet.
+ DALI_TEST_EQUALS(orientation, 0, TEST_LOCATION);
+
application.SendNotification();
application.PreRenderWithPartialUpdate(TestApplication::RENDER_FRAME_INTERVAL, nullptr, damagedRects);
DALI_TEST_EQUALS(damagedRects.size(), 1, TEST_LOCATION);
DALI_TEST_EQUALS(clippingRect.width, glScissorParams.width, TEST_LOCATION);
DALI_TEST_EQUALS(clippingRect.height, glScissorParams.height, TEST_LOCATION);
+ // Check current surface orientation
+ orientation = application.GetScene().GetCurrentSurfaceOrientation();
+
+ // It should be changed.
+ DALI_TEST_EQUALS(orientation, 0, TEST_LOCATION);
+
END_TEST;
}
application.PreRenderWithPartialUpdate(TestApplication::RENDER_FRAME_INTERVAL, nullptr, damagedRects);
DALI_TEST_EQUALS(damagedRects.size(), 0, TEST_LOCATION);
+
+ clippingRect = TestApplication::DEFAULT_SURFACE_RECT;
application.RenderWithPartialUpdate(damagedRects, clippingRect);
Actor actor = CreateRenderableActor();
damagedRects.clear();
application.GetScene().SurfaceRotated(TestApplication::DEFAULT_SURFACE_WIDTH,
- TestApplication::DEFAULT_SURFACE_HEIGHT, 90);
+ TestApplication::DEFAULT_SURFACE_HEIGHT,
+ 90);
+
+ // Check current surface orientation
+ int32_t orientation = application.GetScene().GetCurrentSurfaceOrientation();
+
+ // It should not be changed yet.
+ DALI_TEST_EQUALS(orientation, 0, TEST_LOCATION);
+
application.SendNotification();
application.PreRenderWithPartialUpdate(TestApplication::RENDER_FRAME_INTERVAL, nullptr, damagedRects);
DALI_TEST_EQUALS(damagedRects.size(), 1, TEST_LOCATION);
// It is recalculation for glScissor.
// Because surface is rotated and glScissor is called with recalcurated value.
- clippingRect.x = TestApplication::DEFAULT_SURFACE_HEIGHT - (CLIPPING_RECT_Y + CLIPPING_RECT_HEIGHT);
- clippingRect.y = CLIPPING_RECT_X;
- clippingRect.width = CLIPPING_RECT_HEIGHT;
+ clippingRect.x = TestApplication::DEFAULT_SURFACE_HEIGHT - (CLIPPING_RECT_Y + CLIPPING_RECT_HEIGHT);
+ clippingRect.y = CLIPPING_RECT_X;
+ clippingRect.width = CLIPPING_RECT_HEIGHT;
clippingRect.height = CLIPPING_RECT_WIDTH;
DALI_TEST_EQUALS(clippingRect.x, glScissorParams.x, TEST_LOCATION);
DALI_TEST_EQUALS(clippingRect.width, glScissorParams.width, TEST_LOCATION);
DALI_TEST_EQUALS(clippingRect.height, glScissorParams.height, TEST_LOCATION);
+ // Check current surface orientation
+ orientation = application.GetScene().GetCurrentSurfaceOrientation();
+
+ // It should be changed.
+ DALI_TEST_EQUALS(orientation, 90, TEST_LOCATION);
+
END_TEST;
}
application.PreRenderWithPartialUpdate(TestApplication::RENDER_FRAME_INTERVAL, nullptr, damagedRects);
DALI_TEST_EQUALS(damagedRects.size(), 0, TEST_LOCATION);
+
+ clippingRect = TestApplication::DEFAULT_SURFACE_RECT;
application.RenderWithPartialUpdate(damagedRects, clippingRect);
Actor actor = CreateRenderableActor();
damagedRects.clear();
application.GetScene().SurfaceRotated(TestApplication::DEFAULT_SURFACE_WIDTH,
- TestApplication::DEFAULT_SURFACE_HEIGHT, 180);
+ TestApplication::DEFAULT_SURFACE_HEIGHT,
+ 180);
+
+ // Check current surface orientation
+ int32_t orientation = application.GetScene().GetCurrentSurfaceOrientation();
+
+ // It should not be changed yet.
+ DALI_TEST_EQUALS(orientation, 0, TEST_LOCATION);
+
application.SendNotification();
application.PreRenderWithPartialUpdate(TestApplication::RENDER_FRAME_INTERVAL, nullptr, damagedRects);
DALI_TEST_EQUALS(damagedRects.size(), 1, TEST_LOCATION);
// It is recalculation for glScissor.
// Because surface is rotated and glScissor is called with recalcurated value.
- clippingRect.x = TestApplication::DEFAULT_SURFACE_WIDTH - (CLIPPING_RECT_X + CLIPPING_RECT_WIDTH);
- clippingRect.y = TestApplication::DEFAULT_SURFACE_HEIGHT - (CLIPPING_RECT_Y +CLIPPING_RECT_HEIGHT);
- clippingRect.width = CLIPPING_RECT_WIDTH;
+ clippingRect.x = TestApplication::DEFAULT_SURFACE_WIDTH - (CLIPPING_RECT_X + CLIPPING_RECT_WIDTH);
+ clippingRect.y = TestApplication::DEFAULT_SURFACE_HEIGHT - (CLIPPING_RECT_Y + CLIPPING_RECT_HEIGHT);
+ clippingRect.width = CLIPPING_RECT_WIDTH;
clippingRect.height = CLIPPING_RECT_HEIGHT;
DALI_TEST_EQUALS(clippingRect.x, glScissorParams.x, TEST_LOCATION);
DALI_TEST_EQUALS(clippingRect.width, glScissorParams.width, TEST_LOCATION);
DALI_TEST_EQUALS(clippingRect.height, glScissorParams.height, TEST_LOCATION);
+ // Check current surface orientation
+ orientation = application.GetScene().GetCurrentSurfaceOrientation();
+
+ // It should be changed.
+ DALI_TEST_EQUALS(orientation, 180, TEST_LOCATION);
+
END_TEST;
}
application.PreRenderWithPartialUpdate(TestApplication::RENDER_FRAME_INTERVAL, nullptr, damagedRects);
DALI_TEST_EQUALS(damagedRects.size(), 0, TEST_LOCATION);
+
+ clippingRect = TestApplication::DEFAULT_SURFACE_RECT;
application.RenderWithPartialUpdate(damagedRects, clippingRect);
Actor actor = CreateRenderableActor();
damagedRects.clear();
application.GetScene().SurfaceRotated(TestApplication::DEFAULT_SURFACE_WIDTH,
- TestApplication::DEFAULT_SURFACE_HEIGHT, 270);
+ TestApplication::DEFAULT_SURFACE_HEIGHT,
+ 270);
+
+ // Check current surface orientation
+ int32_t orientation = application.GetScene().GetCurrentSurfaceOrientation();
+
+ // It should not be changed yet.
+ DALI_TEST_EQUALS(orientation, 0, TEST_LOCATION);
+
application.SendNotification();
application.PreRenderWithPartialUpdate(TestApplication::RENDER_FRAME_INTERVAL, nullptr, damagedRects);
DALI_TEST_EQUALS(damagedRects.size(), 1, TEST_LOCATION);
// It is recalculation for glScissor.
// Because surface is rotated and glScissor is called with recalcurated value.
- clippingRect.x = CLIPPING_RECT_Y;
- clippingRect.y = TestApplication::DEFAULT_SURFACE_WIDTH - (CLIPPING_RECT_X + CLIPPING_RECT_WIDTH);
- clippingRect.width = CLIPPING_RECT_HEIGHT;
+ clippingRect.x = CLIPPING_RECT_Y;
+ clippingRect.y = TestApplication::DEFAULT_SURFACE_WIDTH - (CLIPPING_RECT_X + CLIPPING_RECT_WIDTH);
+ clippingRect.width = CLIPPING_RECT_HEIGHT;
clippingRect.height = CLIPPING_RECT_WIDTH;
DALI_TEST_EQUALS(clippingRect.x, glScissorParams.x, TEST_LOCATION);
DALI_TEST_EQUALS(clippingRect.width, glScissorParams.width, TEST_LOCATION);
DALI_TEST_EQUALS(clippingRect.height, glScissorParams.height, TEST_LOCATION);
+ // Check current surface orientation
+ orientation = application.GetScene().GetCurrentSurfaceOrientation();
+
+ // It should be changed.
+ DALI_TEST_EQUALS(orientation, 270, TEST_LOCATION);
+
+ END_TEST;
+}
+
+int UtcDaliSceneSetRotationCompletedAcknowledgementWithAngle90(void)
+{
+ tet_infoline("Ensure to acknowledge for completing surface 90 angle rotaiton");
+
+ TestApplication application(
+ TestApplication::DEFAULT_SURFACE_WIDTH,
+ TestApplication::DEFAULT_SURFACE_HEIGHT,
+ TestApplication::DEFAULT_HORIZONTAL_DPI,
+ TestApplication::DEFAULT_VERTICAL_DPI,
+ true,
+ true);
+
+ const TestGlAbstraction::ScissorParams& glScissorParams(application.GetGlAbstraction().GetScissorParams());
+
+ std::vector<Rect<int>> damagedRects;
+ Rect<int> clippingRect;
+ application.SendNotification();
+ application.PreRenderWithPartialUpdate(TestApplication::RENDER_FRAME_INTERVAL, nullptr, damagedRects);
+
+ DALI_TEST_EQUALS(damagedRects.size(), 0, TEST_LOCATION);
+ application.RenderWithPartialUpdate(damagedRects, clippingRect);
+
+ Actor actor = CreateRenderableActor();
+ actor.SetProperty(Actor::Property::ANCHOR_POINT, AnchorPoint::TOP_LEFT);
+ actor.SetProperty(Actor::Property::POSITION, Vector3(16.0f, 16.0f, 0.0f));
+ actor.SetProperty(Actor::Property::SIZE, Vector3(16.0f, 16.0f, 0.0f));
+ actor.SetResizePolicy(ResizePolicy::FIXED, Dimension::ALL_DIMENSIONS);
+ application.GetScene().Add(actor);
+
+ application.SendNotification();
+
+ damagedRects.clear();
+ application.GetScene().SurfaceRotated(TestApplication::DEFAULT_SURFACE_WIDTH,
+ TestApplication::DEFAULT_SURFACE_HEIGHT,
+ 90);
+
+ // Check current surface orientation
+ int32_t orientation = application.GetScene().GetCurrentSurfaceOrientation();
+
+ // It should not be changed yet.
+ DALI_TEST_EQUALS(orientation, 0, TEST_LOCATION);
+
+ application.GetScene().SetRotationCompletedAcknowledgement();
+
+ application.SendNotification();
+ application.PreRenderWithPartialUpdate(TestApplication::RENDER_FRAME_INTERVAL, nullptr, damagedRects);
+ DALI_TEST_EQUALS(damagedRects.size(), 1, TEST_LOCATION);
+
+ clippingRect = Rect<int>(CLIPPING_RECT_X, CLIPPING_RECT_Y, CLIPPING_RECT_WIDTH, CLIPPING_RECT_HEIGHT); // in screen coordinates, includes 3 last frames updates
+ DALI_TEST_EQUALS<Rect<int>>(clippingRect, damagedRects[0], TEST_LOCATION);
+ application.RenderWithPartialUpdate(damagedRects, clippingRect);
+
+ // It is recalculation for glScissor.
+ // Because surface is rotated and glScissor is called with recalcurated value.
+ clippingRect.x = TestApplication::DEFAULT_SURFACE_HEIGHT - (CLIPPING_RECT_Y + CLIPPING_RECT_HEIGHT);
+ clippingRect.y = CLIPPING_RECT_X;
+ clippingRect.width = CLIPPING_RECT_HEIGHT;
+ clippingRect.height = CLIPPING_RECT_WIDTH;
+
+ DALI_TEST_EQUALS(clippingRect.x, glScissorParams.x, TEST_LOCATION);
+ DALI_TEST_EQUALS(clippingRect.y, glScissorParams.y, TEST_LOCATION);
+ DALI_TEST_EQUALS(clippingRect.width, glScissorParams.width, TEST_LOCATION);
+ DALI_TEST_EQUALS(clippingRect.height, glScissorParams.height, TEST_LOCATION);
+
+ // Check current surface orientation
+ orientation = application.GetScene().GetCurrentSurfaceOrientation();
+
+ // It should be changed.
+ DALI_TEST_EQUALS(orientation, 90, TEST_LOCATION);
+
+ bool isSetRotationCompletedAcknowledgementSet = application.GetScene().IsRotationCompletedAcknowledgementSet();
+ DALI_TEST_EQUALS(isSetRotationCompletedAcknowledgementSet, true, TEST_LOCATION);
+
+ END_TEST;
+}
+
+int UtcDaliSceneSurfaceRotatedPartialUpdate(void)
+{
+ tet_infoline("Ensure rotation of the surface and partial update are handled properly");
+
+ TestApplication application(
+ TestApplication::DEFAULT_SURFACE_WIDTH,
+ TestApplication::DEFAULT_SURFACE_HEIGHT,
+ TestApplication::DEFAULT_HORIZONTAL_DPI,
+ TestApplication::DEFAULT_VERTICAL_DPI,
+ true,
+ true);
+
+ const TestGlAbstraction::ScissorParams& glScissorParams(application.GetGlAbstraction().GetScissorParams());
+
+ std::vector<Rect<int>> damagedRects;
+ Rect<int> clippingRect;
+ application.SendNotification();
+ application.PreRenderWithPartialUpdate(TestApplication::RENDER_FRAME_INTERVAL, nullptr, damagedRects);
+
+ DALI_TEST_EQUALS(damagedRects.size(), 0, TEST_LOCATION);
+
+ clippingRect = TestApplication::DEFAULT_SURFACE_RECT;
+ application.RenderWithPartialUpdate(damagedRects, clippingRect);
+
+ Actor actor = CreateRenderableActor();
+ actor.SetProperty(Actor::Property::ANCHOR_POINT, AnchorPoint::CENTER);
+ actor.SetProperty(Actor::Property::PARENT_ORIGIN, ParentOrigin::CENTER);
+ actor.SetProperty(Actor::Property::SIZE, Vector3(32.0f, 32.0f, 0.0f));
+ actor.SetResizePolicy(ResizePolicy::FIXED, Dimension::ALL_DIMENSIONS);
+ application.GetScene().Add(actor);
+
+ application.SendNotification();
+ application.PreRenderWithPartialUpdate(TestApplication::RENDER_FRAME_INTERVAL, nullptr, damagedRects);
+
+ clippingRect = Rect<int>(224, 384, 48, 48); // in screen coordinates
+ DALI_TEST_EQUALS(damagedRects.size(), 1, TEST_LOCATION);
+ DALI_TEST_EQUALS<Rect<int>>(clippingRect, damagedRects[0], TEST_LOCATION);
+
+ application.RenderWithPartialUpdate(damagedRects, clippingRect);
+
+ DALI_TEST_EQUALS(clippingRect.x, glScissorParams.x, TEST_LOCATION);
+ DALI_TEST_EQUALS(clippingRect.y, glScissorParams.y, TEST_LOCATION);
+ DALI_TEST_EQUALS(clippingRect.width, glScissorParams.width, TEST_LOCATION);
+ DALI_TEST_EQUALS(clippingRect.height, glScissorParams.height, TEST_LOCATION);
+
+ damagedRects.clear();
+ application.PreRenderWithPartialUpdate(TestApplication::RENDER_FRAME_INTERVAL, nullptr, damagedRects);
+ application.RenderWithPartialUpdate(damagedRects, clippingRect);
+
+ damagedRects.clear();
+ application.PreRenderWithPartialUpdate(TestApplication::RENDER_FRAME_INTERVAL, nullptr, damagedRects);
+ application.RenderWithPartialUpdate(damagedRects, clippingRect);
+
+ // Ensure the damaged rect is empty
+ DALI_TEST_EQUALS(damagedRects.size(), 0, TEST_LOCATION);
+
+ // Rotate surface
+ application.GetScene().SurfaceRotated(TestApplication::DEFAULT_SURFACE_HEIGHT,
+ TestApplication::DEFAULT_SURFACE_WIDTH,
+ 90);
+
+ damagedRects.clear();
+
+ application.SendNotification();
+ application.PreRenderWithPartialUpdate(TestApplication::RENDER_FRAME_INTERVAL, nullptr, damagedRects);
+
+ clippingRect = Rect<int>(224, 224, 208, 208); // in screen coordinates, merged value with the previous rect
+ DALI_TEST_EQUALS(damagedRects.size(), 1, TEST_LOCATION);
+ DALI_TEST_EQUALS<Rect<int>>(clippingRect, damagedRects[0], TEST_LOCATION);
+
+ application.RenderWithPartialUpdate(damagedRects, clippingRect);
+
END_TEST;
}
application.Render();
// Check scissor test was enabled.
- DALI_TEST_CHECK(enabledDisableTrace.FindMethodAndParams("Enable", "3089")); // 3089 = 0xC11 (GL_SCISSOR_TEST)
+ std::ostringstream scissor;
+ scissor << std::hex << GL_SCISSOR_TEST;
+ DALI_TEST_CHECK(enabledDisableTrace.FindMethodAndParams("Enable", scissor.str()));
// Check the scissor was set, and the coordinates are correct.
DALI_TEST_CHECK(scissorTrace.FindMethodAndParams("Scissor", "0, 700, 100, 100"));
END_TEST;
}
+int UtcDaliSceneEnsureRenderTargetRecreated(void)
+{
+ tet_infoline("Ensure render target is re-created when surface replaced ");
+
+ TestApplication application;
+
+ // Create a new scene and set the background color of the main scene
+ auto defaultScene = application.GetScene();
+ defaultScene.SetBackgroundColor(Color::BLUE);
+
+ auto actor = CreateRenderableActor();
+ defaultScene.Add(actor);
+
+ auto& graphicsController = application.GetGraphicsController();
+
+ application.SendNotification();
+ application.Render();
+
+ TraceCallStack& graphicsCallStack = graphicsController.mCallStack;
+ TraceCallStack::NamedParams empty{};
+ const TraceCallStack::NamedParams* matching = graphicsCallStack.FindLastMatch("PresentRenderTarget", empty);
+ DALI_TEST_CHECK(matching != nullptr);
+
+ graphicsCallStack.Reset();
+
+ int fakeSurface1;
+ Graphics::RenderTargetCreateInfo createInfo{};
+ createInfo.SetSurface(&fakeSurface1).SetExtent(Graphics::Extent2D{480u, 800u});
+ defaultScene.SetSurfaceRenderTarget(createInfo);
+
+ application.SendNotification();
+ application.Render();
+
+ TraceCallStack::NamedParams query1;
+ query1["surface"] << std::hex << &fakeSurface1;
+ const TraceCallStack::NamedParams* matching2 = graphicsCallStack.FindLastMatch("CreateRenderTarget", query1);
+ DALI_TEST_CHECK(matching2 != nullptr);
+
+ const TraceCallStack::NamedParams* matching3 = graphicsCallStack.FindLastMatch("PresentRenderTarget", empty);
+ DALI_TEST_CHECK(matching3 != nullptr);
+ DALI_TEST_EQUALS((*matching3)["surface"].str(), query1["surface"].str(), TEST_LOCATION);
+
+ END_TEST;
+}
+
int UtcDaliSceneEmptySceneRendering(void)
{
tet_infoline("Ensure not rendering before a Renderer is added");
Shader shader = CreateShader();
Renderer renderer = Renderer::New(geometry, shader);
+ // Render before adding renderer
+ application.SendNotification();
+ application.Render();
+
+ // Check the clear count and the render status
+ DALI_TEST_EQUALS(glAbstraction.GetClearCountCalled(), 0, TEST_LOCATION);
+ DALI_TEST_EQUALS(application.GetRenderNeedsPostRender(), false, TEST_LOCATION);
+
Actor actor = Actor::New();
actor.AddRenderer(renderer);
END_TEST;
}
+
+int UtcDaliSceneWheelEventGeneratedSignalP(void)
+{
+ TestApplication application;
+ Dali::Integration::Scene scene = application.GetScene();
+
+ WheelEventGeneratedSignalData data;
+ WheelEventGeneratedReceivedFunctor functor(data);
+ scene.WheelEventGeneratedSignal().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.GetType());
+ DALI_TEST_CHECK(event.direction == data.receivedWheelEvent.GetDirection());
+ DALI_TEST_CHECK(event.modifiers == data.receivedWheelEvent.GetModifiers());
+ DALI_TEST_CHECK(event.point == data.receivedWheelEvent.GetPoint());
+ DALI_TEST_CHECK(event.delta == data.receivedWheelEvent.GetDelta());
+ DALI_TEST_CHECK(event.timeStamp == data.receivedWheelEvent.GetTime());
+
+ 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.GetType());
+ DALI_TEST_CHECK(event2.direction == data.receivedWheelEvent.GetDirection());
+ DALI_TEST_CHECK(event2.modifiers == data.receivedWheelEvent.GetModifiers());
+ DALI_TEST_CHECK(event2.point == data.receivedWheelEvent.GetPoint());
+ DALI_TEST_CHECK(event2.delta == data.receivedWheelEvent.GetDelta());
+ DALI_TEST_CHECK(event2.timeStamp == data.receivedWheelEvent.GetTime());
+ END_TEST;
+}
+
+int UtcDaliSceneSignalInterceptKeyEventP(void)
+{
+ TestApplication application;
+ Dali::Integration::Scene scene = application.GetScene();
+
+ KeyEventSignalData data;
+ KeyEventReceivedFunctor functor(data);
+ scene.KeyEventSignal().Connect(&application, functor);
+
+ KeyEventGeneratedSignalData interceptData;
+ KeyEventGeneratedReceivedFunctor interceptFunctor(interceptData);
+ scene.InterceptKeyEventSignal().Connect(&application, interceptFunctor);
+
+ 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, interceptData.functorCalled, TEST_LOCATION);
+ DALI_TEST_CHECK(event.keyModifier == interceptData.receivedKeyEvent.GetKeyModifier());
+ DALI_TEST_CHECK(event.keyName == interceptData.receivedKeyEvent.GetKeyName());
+ DALI_TEST_CHECK(event.keyString == interceptData.receivedKeyEvent.GetKeyString());
+ DALI_TEST_CHECK(event.state == static_cast<Integration::KeyEvent::State>(interceptData.receivedKeyEvent.GetState()));
+ DALI_TEST_EQUALS(false, data.functorCalled, TEST_LOCATION);
+
+ data.Reset();
+ interceptData.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, interceptData.functorCalled, TEST_LOCATION);
+ DALI_TEST_CHECK(event2.keyModifier == interceptData.receivedKeyEvent.GetKeyModifier());
+ DALI_TEST_CHECK(event2.keyName == interceptData.receivedKeyEvent.GetKeyName());
+ DALI_TEST_CHECK(event2.keyString == interceptData.receivedKeyEvent.GetKeyString());
+ DALI_TEST_CHECK(event2.state == static_cast<Integration::KeyEvent::State>(interceptData.receivedKeyEvent.GetState()));
+ DALI_TEST_EQUALS(false, data.functorCalled, TEST_LOCATION);
+
+ data.Reset();
+ interceptData.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, interceptData.functorCalled, TEST_LOCATION);
+ DALI_TEST_CHECK(event3.keyModifier == interceptData.receivedKeyEvent.GetKeyModifier());
+ DALI_TEST_CHECK(event3.keyName == interceptData.receivedKeyEvent.GetKeyName());
+ DALI_TEST_CHECK(event3.keyString == interceptData.receivedKeyEvent.GetKeyString());
+ DALI_TEST_CHECK(event3.state == static_cast<Integration::KeyEvent::State>(interceptData.receivedKeyEvent.GetState()));
+ DALI_TEST_EQUALS(false, data.functorCalled, TEST_LOCATION);
+
+ data.Reset();
+ interceptData.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, interceptData.functorCalled, TEST_LOCATION);
+ DALI_TEST_CHECK(event4.keyModifier == interceptData.receivedKeyEvent.GetKeyModifier());
+ DALI_TEST_CHECK(event4.keyName == interceptData.receivedKeyEvent.GetKeyName());
+ DALI_TEST_CHECK(event4.keyString == interceptData.receivedKeyEvent.GetKeyString());
+ DALI_TEST_CHECK(event4.state == static_cast<Integration::KeyEvent::State>(interceptData.receivedKeyEvent.GetState()));
+ DALI_TEST_EQUALS(false, data.functorCalled, TEST_LOCATION);
+ END_TEST;
+}
+
+int UtcDaliSceneSignalInterceptKeyEventN(void)
+{
+ TestApplication application;
+ Dali::Integration::Scene scene = application.GetScene();
+
+ KeyEventGeneratedSignalData data;
+ KeyEventGeneratedReceivedFunctor functor(data);
+ scene.InterceptKeyEventSignal().Connect(&application, functor);
+
+ // Check that a non-pressed key events data is not modified.
+ DALI_TEST_EQUALS(false, data.functorCalled, TEST_LOCATION);
+
+ END_TEST;
+}