/*
- * Copyright (c) 2017 Samsung Electronics Co., Ltd.
+ * Copyright (c) 2019 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 <unistd.h>
+#include <toolkit-event-thread-callback.h>
#include <dali-toolkit-test-suite-utils.h>
-#include <dali/public-api/rendering/renderer.h>
-#include <dali/public-api/rendering/texture-set.h>
-#include <dali/public-api/rendering/shader.h>
#include <dali/devel-api/object/handle-devel.h>
+#include <dali-toolkit/devel-api/controls/control-devel.h>
+#include <dali-toolkit/devel-api/controls/control-depth-index-ranges.h>
#include <dali-toolkit/devel-api/visual-factory/visual-factory.h>
#include <dali-toolkit/devel-api/visual-factory/transition-data.h>
-#include <dali-toolkit/devel-api/visuals/text-visual-properties.h>
+#include <dali-toolkit/devel-api/visuals/color-visual-properties-devel.h>
#include <dali-toolkit/devel-api/visuals/visual-properties-devel.h>
#include <dali-toolkit/devel-api/visuals/image-visual-properties-devel.h>
-#include <dali-toolkit/devel-api/align-enums.h>
+#include <dali-toolkit/devel-api/visuals/text-visual-properties-devel.h>
+#include <dali-toolkit/devel-api/visuals/animated-gradient-visual-properties-devel.h>
#include <dali-toolkit/dali-toolkit.h>
+
#include "dummy-control.h"
using namespace Dali;
namespace
{
+const char* TEST_GIF_FILE_NAME = TEST_RESOURCE_DIR "/anim.gif";
const char* TEST_IMAGE_FILE_NAME = TEST_RESOURCE_DIR "/gallery-small-1.jpg";
-const char* TEST_NPATCH_FILE_NAME = "gallery_image_01.9.jpg";
+const char* TEST_NPATCH_FILE_NAME = TEST_RESOURCE_DIR "/button-up.9.png";
const char* TEST_SVG_FILE_NAME = TEST_RESOURCE_DIR "/svg1.svg";
-const char* TEST_GIF_FILE_NAME = TEST_RESOURCE_DIR "/anim.gif";
const char* TEST_OBJ_FILE_NAME = TEST_RESOURCE_DIR "/Cube.obj";
const char* TEST_MTL_FILE_NAME = TEST_RESOURCE_DIR "/ToyRobot-Metal.mtl";
const char* TEST_RESOURCE_LOCATION = TEST_RESOURCE_DIR "/";
+
const std::string DEFAULT_FONT_DIR( "/resources/fonts" );
Property::Map DefaultTransform()
{
Property::Map transformMap;
transformMap
- .Add( Toolkit::DevelVisual::Transform::Property::OFFSET, Vector2(0.0f, 0.0f) )
- .Add( Toolkit::DevelVisual::Transform::Property::SIZE, Vector2(1.0f, 1.0f) )
- .Add( Toolkit::DevelVisual::Transform::Property::ORIGIN, Toolkit::Align::CENTER )
- .Add( Toolkit::DevelVisual::Transform::Property::ANCHOR_POINT, Toolkit::Align::CENTER )
- .Add( Toolkit::DevelVisual::Transform::Property::OFFSET_POLICY, Vector2( Toolkit::DevelVisual::Transform::Policy::RELATIVE, Toolkit::DevelVisual::Transform::Policy::RELATIVE ) )
- .Add( Toolkit::DevelVisual::Transform::Property::SIZE_POLICY, Vector2( Toolkit::DevelVisual::Transform::Policy::RELATIVE, Toolkit::DevelVisual::Transform::Policy::RELATIVE ) );
+ .Add( Toolkit::Visual::Transform::Property::OFFSET, Vector2(0.0f, 0.0f) )
+ .Add( Toolkit::Visual::Transform::Property::SIZE, Vector2(1.0f, 1.0f) )
+ .Add( Toolkit::Visual::Transform::Property::ORIGIN, Toolkit::Align::TOP_BEGIN )
+ .Add( Toolkit::Visual::Transform::Property::ANCHOR_POINT, Toolkit::Align::TOP_BEGIN )
+ .Add( Toolkit::Visual::Transform::Property::OFFSET_POLICY, Vector2( Toolkit::Visual::Transform::Policy::RELATIVE, Toolkit::Visual::Transform::Policy::RELATIVE ) )
+ .Add( Toolkit::Visual::Transform::Property::SIZE_POLICY, Vector2( Toolkit::Visual::Transform::Policy::RELATIVE, Toolkit::Visual::Transform::Policy::RELATIVE ) );
return transformMap;
}
{
const KeyValuePair& valueGet = fontStyleMapGet.GetKeyValue( index );
- Property::Value* valueSet = fontStyleMapSet.Find( valueGet.first.stringKey );
+ Property::Value* valueSet = NULL;
+ if ( valueGet.first.type == Property::Key::INDEX )
+ {
+ valueSet = fontStyleMapSet.Find( valueGet.first.indexKey );
+ }
+ else
+ {
+ // Get Key is a string so searching Set Map for a string key
+ valueSet = fontStyleMapSet.Find( valueGet.first.stringKey );
+ }
+
if( NULL != valueSet )
{
- if( valueGet.second.Get<std::string>() != valueSet->Get<std::string>() )
+ if( valueSet->GetType() == Dali::Property::STRING && ( valueGet.second.Get<std::string>() != valueSet->Get<std::string>() ) )
+ {
+ tet_printf( "Value got : [%s], expected : [%s]", valueGet.second.Get<std::string>().c_str(), valueSet->Get<std::string>().c_str() );
+ return false;
+ }
+ else if( valueSet->GetType() == Dali::Property::BOOLEAN && ( valueGet.second.Get<bool>() != valueSet->Get<bool>() ) )
+ {
+ tet_printf( "Value got : [%d], expected : [%d]", valueGet.second.Get<bool>(), valueSet->Get<bool>() );
+ return false;
+ }
+ else if( valueSet->GetType() == Dali::Property::INTEGER && ( valueGet.second.Get<int>() != valueSet->Get<int>() ) )
+ {
+ tet_printf( "Value got : [%d], expected : [%d]", valueGet.second.Get<int>(), valueSet->Get<int>() );
+ return false;
+ }
+ else if( valueSet->GetType() == Dali::Property::FLOAT && ( valueGet.second.Get<float>() != valueSet->Get<float>() ) )
{
- tet_printf( " Value got : [%s], expected : [%s]", valueGet.second.Get<std::string>().c_str(), valueSet->Get<std::string>().c_str() );
+ tet_printf( "Value got : [%f], expected : [%f]", valueGet.second.Get<float>(), valueSet->Get<float>() );
+ return false;
+ }
+ else if( valueSet->GetType() == Dali::Property::VECTOR2 && ( valueGet.second.Get<Vector2>() != valueSet->Get<Vector2>() ) )
+ {
+ Vector2 vector2Get = valueGet.second.Get<Vector2>();
+ Vector2 vector2Set = valueSet->Get<Vector2>();
+ tet_printf( "Value got : [%f, %f], expected : [%f, %f]", vector2Get.x, vector2Get.y, vector2Set.x, vector2Set.y );
+ return false;
+ }
+ else if( valueSet->GetType() == Dali::Property::VECTOR4 && ( valueGet.second.Get<Vector4>() != valueSet->Get<Vector4>() ) )
+ {
+ Vector4 vector4Get = valueGet.second.Get<Vector4>();
+ Vector4 vector4Set = valueSet->Get<Vector4>();
+ tet_printf( "Value got : [%f, %f, %f, %f], expected : [%f, %f, %f, %f]", vector4Get.r, vector4Get.g, vector4Get.b, vector4Get.a, vector4Set.r, vector4Set.g, vector4Set.b, vector4Set.a );
return false;
}
}
else
{
- tet_printf( " The key %s doesn't exist.", valueGet.first.stringKey.c_str() );
+ if ( valueGet.first.type == Property::Key::INDEX )
+ {
+ tet_printf( " The key %d doesn't exist.", valueGet.first.indexKey );
+ }
+ else
+ {
+ tet_printf( " The key %s doesn't exist.", valueGet.first.stringKey.c_str() );
+ }
return false;
}
}
DALI_TEST_CHECK( value->Get( mixColor1 ) );
DALI_TEST_EQUALS( mixColor1, Vector3(testColor), 0.001, TEST_LOCATION );
- value = map.Find( DevelVisual::Property::MIX_COLOR );
+ value = map.Find( Visual::Property::MIX_COLOR );
DALI_TEST_CHECK( value );
Vector4 mixColor2;
DALI_TEST_CHECK( value->Get( mixColor2 ) );
DALI_TEST_EQUALS( mixColor2, testColor, 0.001, TEST_LOCATION );
- value = map.Find( DevelVisual::Property::OPACITY );
+ value = map.Find( Visual::Property::OPACITY );
DALI_TEST_CHECK( value );
float opacity;
DALI_TEST_CHECK( value->Get( opacity ) );
propertyMap.Insert(ColorVisual::Property::MIX_COLOR, Color::BLUE);
Visual::Base visual = factory.CreateVisual( propertyMap );
- visual.SetDepthIndex( 1.f );
+ visual.SetDepthIndex( 1 );
DummyControl dummyControl = DummyControl::New(true);
Impl::DummyControl& dummyImpl = static_cast<Impl::DummyControl&>(dummyControl.GetImplementation());
int depthIndex = dummyControl.GetRendererAt(0u).GetProperty<int>( Renderer::Property::DEPTH_INDEX );
DALI_TEST_EQUALS( depthIndex, 1, TEST_LOCATION );
- DALI_TEST_EQUALS( visual.GetDepthIndex(), 1.f, TEST_LOCATION );
+ DALI_TEST_EQUALS( visual.GetDepthIndex(), 1, TEST_LOCATION );
- visual.SetDepthIndex( -1.f );
+ visual.SetDepthIndex( -1 );
depthIndex = dummyControl.GetRendererAt(0u).GetProperty<int>( Renderer::Property::DEPTH_INDEX );
DALI_TEST_EQUALS( depthIndex, -1, TEST_LOCATION );
- DALI_TEST_EQUALS( visual.GetDepthIndex(), -1.f, TEST_LOCATION );
+ DALI_TEST_EQUALS( visual.GetDepthIndex(), -1, TEST_LOCATION );
END_TEST;
}
int UtcDaliVisualSize(void)
{
ToolkitTestApplication application;
- tet_infoline( "UtcDaliVisualGetNaturalSize" );
+ tet_infoline( "UtcDaliVisualSize" );
VisualFactory factory = VisualFactory::Get();
Vector2 controlSize( 20.f, 30.f );
// color colorVisual
Dali::Property::Map map;
- map[ Visual::Property::TYPE ] = Visual::COLOR;
+ map[ Toolkit::Visual::Property::TYPE ] = Visual::COLOR;
map[ ColorVisual::Property::MIX_COLOR ] = Color::MAGENTA;
Visual::Base colorVisual = factory.CreateVisual( map );
// border visual
float borderSize = 5.f;
map.Clear();
- map[ Visual::Property::TYPE ] = Visual::BORDER;
+ map[ Toolkit::Visual::Property::TYPE ] = Visual::BORDER;
map[ BorderVisual::Property::COLOR ] = Color::RED;
map[ BorderVisual::Property::SIZE ] = borderSize;
Visual::Base borderVisual = factory.CreateVisual( map );
gradientVisual.GetNaturalSize(naturalSize);
DALI_TEST_EQUALS( naturalSize, Vector2::ZERO,TEST_LOCATION );
+ // animated gradient visual
+ Vector2 animated_gradient_visual_size(10.f, 10.f);
+ propertyMap.Clear();
+ propertyMap.Insert( Toolkit::Visual::Property::TYPE, DevelVisual::ANIMATED_GRADIENT );
+ Visual::Base animatedGradientVisual = factory.CreateVisual( propertyMap );
+ animatedGradientVisual.GetNaturalSize(naturalSize);
+ animatedGradientVisual.SetTransformAndSize(DefaultTransform(), controlSize );
+ DALI_TEST_EQUALS( naturalSize, Vector2::ZERO, TEST_LOCATION );
+
// svg visual
Visual::Base svgVisual = factory.CreateVisual( TEST_SVG_FILE_NAME, ImageDimensions() );
svgVisual.SetTransformAndSize(DefaultTransform(), controlSize );
fontClient.GetFontId( pathName + DEFAULT_FONT_DIR + "/tizen/TizenSansRegular.ttf" );
+ // Create a TextVisual with a font size of 12 first
propertyMap.Clear();
- propertyMap.Insert( Visual::Property::TYPE, DevelVisual::TEXT );
+ propertyMap.Insert( Toolkit::Visual::Property::TYPE, Visual::TEXT );
propertyMap.Insert( TextVisual::Property::ENABLE_MARKUP, true );
propertyMap.Insert( TextVisual::Property::TEXT, "<font family='TizenSans' size='12'>Hello world</font>" );
propertyMap.Insert( TextVisual::Property::MULTI_LINE, true );
- Visual::Base textVisual = factory.CreateVisual( propertyMap );
- textVisual.GetNaturalSize( naturalSize );
- DALI_TEST_EQUALS( naturalSize, Size( 80.f, 20.f ), TEST_LOCATION );
+ Visual::Base smallTextVisual = factory.CreateVisual( propertyMap );
+ Vector2 smallTextVisualNaturalSize;
+ smallTextVisual.GetNaturalSize( smallTextVisualNaturalSize );
+
+ // Then create a TextVisual with a font size of 20
+ propertyMap[ TextVisual::Property::TEXT ] = "<font family='TizenSans' size='20'>Hello world</font>";
+ Visual::Base largeTextVisual = factory.CreateVisual( propertyMap );
+ Vector2 largeTextVisualNaturalSize;
+ largeTextVisual.GetNaturalSize( largeTextVisualNaturalSize );
- const float height = textVisual.GetHeightForWidth( 40.f );
- DALI_TEST_EQUALS( height, 40.f, Math::MACHINE_EPSILON_1000, TEST_LOCATION );
+ // Compare the sizes of the two text visuals, the second one should be bigger as it has a larger point size in the markup.
+ DALI_TEST_CHECK( smallTextVisualNaturalSize.width < largeTextVisualNaturalSize.width &&
+ smallTextVisualNaturalSize.height < largeTextVisualNaturalSize.height );
+
+ // The height returned for a particular width should also be greater for the large text visual
+ DALI_TEST_CHECK( smallTextVisual.GetHeightForWidth( 40.f ) < largeTextVisual.GetHeightForWidth( 40.f ) );
//AnimatedImageVisual
Visual::Base animatedImageVisual = factory.CreateVisual( TEST_GIF_FILE_NAME, ImageDimensions() );
int UtcDaliVisualSetOnOffStage(void)
{
ToolkitTestApplication application;
- tet_infoline( "UtcDaliVisualSetDepthIndex" );
+ tet_infoline( "UtcDaliVisualSetOnOffStage" );
VisualFactory factory = VisualFactory::Get();
Property::Map propertyMap;
END_TEST;
}
+int UtcDaliVisualSetOnOffStage2(void)
+{
+ ToolkitTestApplication application;
+ tet_infoline( "UtcDaliVisualSetOnOffStage2" );
+
+ VisualFactory factory = VisualFactory::Get();
+ Property::Map propertyMap;
+ propertyMap.Insert( Toolkit::Visual::Property::TYPE, Visual::SVG );
+ propertyMap.Insert( ImageVisual::Property::URL, TEST_SVG_FILE_NAME );
+ Visual::Base visual = factory.CreateVisual( propertyMap );
+
+ DummyControl actor = DummyControl::New(true);
+ Impl::DummyControl& dummyImpl = static_cast<Impl::DummyControl&>(actor.GetImplementation());
+ dummyImpl.RegisterVisual( DummyControl::Property::TEST_VISUAL, visual );
+
+ actor.SetSize(200.f, 200.f);
+
+ application.SendNotification();
+ application.Render(0);
+ DALI_TEST_CHECK( actor.GetRendererCount() == 0u );
+
+ // First on/off
+ Stage::GetCurrent().Add( actor );
+
+ application.SendNotification();
+ application.Render(0);
+ DALI_TEST_EQUALS( Test::WaitForEventThreadTrigger( 1 ), true, TEST_LOCATION );
+ DALI_TEST_CHECK( actor.GetRendererCount() == 1u );
+ Renderer renderer = actor.GetRendererAt( 0 );
+ auto textures = renderer.GetTextures();
+ DALI_TEST_CHECK( textures.GetTextureCount() != 0u );
+
+ Stage::GetCurrent().Remove( actor );
+
+ application.SendNotification();
+ application.Render(0);
+ DALI_TEST_CHECK( actor.GetRendererCount() == 0u );
+
+ // Second on/off
+ Stage::GetCurrent().Add( actor );
+
+ application.SendNotification();
+ application.Render(0);
+ DALI_TEST_EQUALS( Test::WaitForEventThreadTrigger( 1 ), true, TEST_LOCATION );
+ DALI_TEST_CHECK( actor.GetRendererCount() == 1u );
+ renderer = actor.GetRendererAt( 0 );
+ textures = renderer.GetTextures();
+ DALI_TEST_CHECK( textures.GetTextureCount() != 0u );
+
+ Stage::GetCurrent().Remove( actor );
+
+ application.SendNotification();
+ application.Render(0);
+ DALI_TEST_CHECK( actor.GetRendererCount() == 0u );
+
+ END_TEST;
+}
+
int UtcDaliVisualGetPropertyMap1(void)
{
ToolkitTestApplication application;
VisualFactory factory = VisualFactory::Get();
Property::Map propertyMap;
propertyMap.Insert(Visual::Property::TYPE, Visual::COLOR);
- propertyMap.Insert(DevelVisual::Property::MIX_COLOR, Color::BLUE);
+ propertyMap.Insert(Visual::Property::MIX_COLOR, Color::BLUE);
Visual::Base colorVisual = factory.CreateVisual( propertyMap );
Property::Map resultMap;
colorVisual.CreatePropertyMap( resultMap );
- Property::Value* typeValue = resultMap.Find( Visual::Property::TYPE, Property::INTEGER );
+ Property::Value* typeValue = resultMap.Find( Toolkit::Visual::Property::TYPE, Property::INTEGER );
DALI_TEST_CHECK( typeValue );
DALI_TEST_CHECK( typeValue->Get<int>() == Visual::COLOR );
borderVisual.CreatePropertyMap( resultMap );
// check the property values from the returned map from visual
- Property::Value* typeValue = resultMap.Find( Visual::Property::TYPE, Property::INTEGER );
+ Property::Value* typeValue = resultMap.Find( Toolkit::Visual::Property::TYPE, Property::INTEGER );
DALI_TEST_CHECK( typeValue );
DALI_TEST_CHECK( typeValue->Get<int>() == Visual::BORDER );
DALI_TEST_CHECK( AAValue->Get<bool>() == true );
Property::Map propertyMap1;
- propertyMap1[ Visual::Property::TYPE ] = Visual::BORDER;
+ propertyMap1[ Toolkit::Visual::Property::TYPE ] = Visual::BORDER;
propertyMap1[ BorderVisual::Property::COLOR ] = Color::CYAN;
propertyMap1[ BorderVisual::Property::SIZE ] = 10.0f;
borderVisual = factory.CreateVisual( propertyMap1 );
borderVisual.CreatePropertyMap( resultMap );
- typeValue = resultMap.Find( Visual::Property::TYPE, Property::INTEGER );
+ typeValue = resultMap.Find( Toolkit::Visual::Property::TYPE, Property::INTEGER );
DALI_TEST_CHECK( typeValue );
DALI_TEST_CHECK( typeValue->Get<int>() == Visual::BORDER );
gradientVisual.CreatePropertyMap( resultMap );
// check the property values from the returned map from visual
- Property::Value* value = resultMap.Find( Visual::Property::TYPE, Property::INTEGER );
+ Property::Value* value = resultMap.Find( Toolkit::Visual::Property::TYPE, Property::INTEGER );
DALI_TEST_CHECK( value );
DALI_TEST_CHECK( value->Get<int>() == Visual::GRADIENT );
gradientVisual.CreatePropertyMap( resultMap );
// check the property values from the returned map from visual
- Property::Value* value = resultMap.Find( Visual::Property::TYPE, Property::INTEGER );
+ Property::Value* value = resultMap.Find( Toolkit::Visual::Property::TYPE, Property::INTEGER );
DALI_TEST_CHECK( value );
DALI_TEST_CHECK( value->Get<int>() == Visual::GRADIENT );
VisualFactory factory = VisualFactory::Get();
Property::Map propertyMap;
- propertyMap.Insert( Visual::Property::TYPE, Visual::IMAGE );
- propertyMap.Insert( DevelVisual::Property::MIX_COLOR, Color::MAGENTA );
+ propertyMap.Insert( Toolkit::Visual::Property::TYPE, Visual::IMAGE );
+ propertyMap.Insert( Visual::Property::MIX_COLOR, Color::MAGENTA );
propertyMap.Insert( ImageVisual::Property::URL, TEST_IMAGE_FILE_NAME );
propertyMap.Insert( ImageVisual::Property::DESIRED_WIDTH, 20 );
propertyMap.Insert( ImageVisual::Property::DESIRED_HEIGHT, 30 );
imageVisual.CreatePropertyMap( resultMap );
// check the property values from the returned map from visual
- Property::Value* value = resultMap.Find( Visual::Property::TYPE, Property::INTEGER );
+ Property::Value* value = resultMap.Find( Toolkit::Visual::Property::TYPE, Property::INTEGER );
DALI_TEST_CHECK( value );
DALI_TEST_CHECK( value->Get<int>() == Visual::IMAGE );
DALI_TEST_CHECK( value );
DALI_TEST_CHECK( value->Get<std::string>() == TEST_IMAGE_FILE_NAME );
- value = resultMap.Find( DevelVisual::Property::MIX_COLOR, Property::VECTOR4 );
+ value = resultMap.Find( Visual::Property::MIX_COLOR, Property::VECTOR4 );
DALI_TEST_CHECK( value );
DALI_TEST_CHECK( value->Get<Vector4>() == Color::MAGENTA );
imageVisual = factory.CreateVisual(image);
imageVisual.CreatePropertyMap( resultMap );
- value = resultMap.Find( Visual::Property::TYPE, Property::INTEGER );
+ value = resultMap.Find( Toolkit::Visual::Property::TYPE, Property::INTEGER );
DALI_TEST_CHECK( value );
DALI_TEST_CHECK( value->Get<int>() == Visual::IMAGE );
VisualFactory factory = VisualFactory::Get();
Property::Map propertyMap;
- propertyMap.Insert( Visual::Property::TYPE, DevelVisual::N_PATCH );
+ propertyMap.Insert( Toolkit::Visual::Property::TYPE, Visual::N_PATCH );
propertyMap.Insert( "mixColor", Color::MAGENTA );
propertyMap.Insert( ImageVisual::Property::URL, TEST_NPATCH_FILE_NAME );
propertyMap.Insert( ImageVisual::Property::BORDER_ONLY, true );
- propertyMap.Insert( DevelImageVisual::Property::BORDER, border );
+ propertyMap.Insert( ImageVisual::Property::BORDER, border );
+ propertyMap.Insert( DevelImageVisual::Property::AUXILIARY_IMAGE, "application-icon-30.png" );
+ propertyMap.Insert( DevelImageVisual::Property::AUXILIARY_IMAGE_ALPHA, 0.9f );
Visual::Base nPatchVisual = factory.CreateVisual( propertyMap );
Property::Map resultMap;
nPatchVisual.CreatePropertyMap( resultMap );
// check the property values from the returned map from visual
- Property::Value* value = resultMap.Find( Visual::Property::TYPE, Property::INTEGER );
+ Property::Value* value = resultMap.Find( Toolkit::Visual::Property::TYPE, Property::INTEGER );
DALI_TEST_CHECK( value );
- DALI_TEST_CHECK( value->Get<int>() == DevelVisual::N_PATCH );
+ DALI_TEST_CHECK( value->Get<int>() == Visual::N_PATCH );
- value = resultMap.Find( DevelVisual::Property::MIX_COLOR, Property::VECTOR4 );
+ value = resultMap.Find( Visual::Property::MIX_COLOR, Property::VECTOR4 );
DALI_TEST_CHECK( value );
DALI_TEST_CHECK( value->Get<Vector4>() == Color::MAGENTA );
DALI_TEST_CHECK( value );
DALI_TEST_CHECK( value->Get<bool>() );
- value = resultMap.Find( DevelImageVisual::Property::BORDER, Property::RECTANGLE );
+ value = resultMap.Find( ImageVisual::Property::BORDER, Property::RECTANGLE );
DALI_TEST_CHECK( value );
DALI_TEST_CHECK( value->Get< Rect< int > >() == border );
+ value = resultMap.Find( DevelImageVisual::Property::AUXILIARY_IMAGE, Property::STRING );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_CHECK( value->Get<std::string>() == "application-icon-30.png" );
+
+ value = resultMap.Find( DevelImageVisual::Property::AUXILIARY_IMAGE_ALPHA, Property::FLOAT );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_CHECK( value->Get<float>() == 0.9f );
+
Vector4 border1( 1.0f, 1.0f, 1.0f, 1.0f );
Property::Map propertyMap1;
- propertyMap1.Insert( Visual::Property::TYPE, DevelVisual::N_PATCH );
+ propertyMap1.Insert( Toolkit::Visual::Property::TYPE, Visual::N_PATCH );
propertyMap1.Insert( "mixColor", Color::MAGENTA );
propertyMap1.Insert( ImageVisual::Property::URL, TEST_NPATCH_FILE_NAME );
propertyMap1.Insert( ImageVisual::Property::BORDER_ONLY, true );
- propertyMap1.Insert( DevelImageVisual::Property::BORDER, border1 );
+ propertyMap1.Insert( ImageVisual::Property::BORDER, border1 );
nPatchVisual = factory.CreateVisual( propertyMap1 );
nPatchVisual.CreatePropertyMap( resultMap );
// check the property values from the returned map from visual
- value = resultMap.Find( Visual::Property::TYPE, Property::INTEGER );
+ value = resultMap.Find( Toolkit::Visual::Property::TYPE, Property::INTEGER );
DALI_TEST_CHECK( value );
- DALI_TEST_CHECK( value->Get<int>() == DevelVisual::N_PATCH );
+ DALI_TEST_CHECK( value->Get<int>() == Visual::N_PATCH );
- value = resultMap.Find( DevelVisual::Property::MIX_COLOR, Property::VECTOR4 );
+ value = resultMap.Find( Visual::Property::MIX_COLOR, Property::VECTOR4 );
DALI_TEST_CHECK( value );
DALI_TEST_CHECK( value->Get<Vector4>() == Color::MAGENTA );
DALI_TEST_CHECK( value );
DALI_TEST_CHECK( value->Get<bool>() );
- value = resultMap.Find( DevelImageVisual::Property::BORDER, Property::RECTANGLE );
+ value = resultMap.Find( ImageVisual::Property::BORDER, Property::RECTANGLE );
DALI_TEST_CHECK( value );
DALI_TEST_CHECK( value->Get< Rect< int > >() == border );
// request SvgVisual with a property map
VisualFactory factory = VisualFactory::Get();
Property::Map propertyMap;
- propertyMap.Insert( Visual::Property::TYPE, DevelVisual::SVG );
- propertyMap.Insert( DevelVisual::Property::MIX_COLOR, Color::WHITE );
+ propertyMap.Insert( Toolkit::Visual::Property::TYPE, Visual::SVG );
+ propertyMap.Insert( Visual::Property::MIX_COLOR, Color::WHITE );
propertyMap.Insert( ImageVisual::Property::URL, TEST_SVG_FILE_NAME );
+ propertyMap.Insert( ImageVisual::Property::ATLASING, false );
Visual::Base svgVisual = factory.CreateVisual( propertyMap );
Property::Map resultMap;
svgVisual.CreatePropertyMap( resultMap );
// check the property values from the returned map from a visual
- Property::Value* value = resultMap.Find( Visual::Property::TYPE, Property::INTEGER );
+ Property::Value* value = resultMap.Find( Toolkit::Visual::Property::TYPE, Property::INTEGER );
DALI_TEST_CHECK( value );
- DALI_TEST_CHECK( value->Get<int>() == DevelVisual::SVG );
+ DALI_TEST_CHECK( value->Get<int>() == Visual::SVG );
value = resultMap.Find( ImageVisual::Property::URL, Property::STRING );
DALI_TEST_CHECK( value );
DALI_TEST_CHECK( value->Get<std::string>() == TEST_SVG_FILE_NAME );
+ value = resultMap.Find( ImageVisual::Property::ATLASING, Property::BOOLEAN );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_CHECK( value->Get<bool>() == false );
+
+ // request SvgVisual with a property map 2
+ propertyMap.Clear();
+ propertyMap[ "visualType" ] = Visual::SVG;
+ propertyMap[ "mixColor" ] = Color::WHITE;
+ propertyMap[ "url" ] = TEST_SVG_FILE_NAME;
+ propertyMap[ "atlasing" ] = true;
+ Visual::Base svgVisual1 = factory.CreateVisual( propertyMap );
+
+ resultMap.Clear();
+ svgVisual1.CreatePropertyMap( resultMap );
+ // check the property values from the returned map from a visual
+ value = resultMap.Find( Toolkit::Visual::Property::TYPE, Property::INTEGER );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_CHECK( value->Get<int>() == Visual::SVG );
+
+ value = resultMap.Find( ImageVisual::Property::URL, Property::STRING );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_CHECK( value->Get<std::string>() == TEST_SVG_FILE_NAME );
+
+ value = resultMap.Find( ImageVisual::Property::ATLASING, Property::BOOLEAN );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_CHECK( value->Get<bool>() == true );
+
// request SvgVisual with an URL
Visual::Base svgVisual2 = factory.CreateVisual( TEST_SVG_FILE_NAME, ImageDimensions() );
resultMap.Clear();
svgVisual2.CreatePropertyMap( resultMap );
// check the property values from the returned map from a visual
- value = resultMap.Find( Visual::Property::TYPE, Property::INTEGER );
+ value = resultMap.Find( Toolkit::Visual::Property::TYPE, Property::INTEGER );
DALI_TEST_CHECK( value );
- DALI_TEST_CHECK( value->Get<int>() == DevelVisual::SVG );
+ DALI_TEST_CHECK( value->Get<int>() == Visual::SVG );
value = resultMap.Find( ImageVisual::Property::URL, Property::STRING );
DALI_TEST_CHECK( value );
//Request MeshVisual using a property map.
VisualFactory factory = VisualFactory::Get();
Property::Map propertyMap;
- propertyMap.Insert( Visual::Property::TYPE, Visual::MESH );
- propertyMap.Insert( DevelVisual::Property::MIX_COLOR, Color::BLUE );
+ propertyMap.Insert( Toolkit::Visual::Property::TYPE, Visual::MESH );
+ propertyMap.Insert( Visual::Property::MIX_COLOR, Color::BLUE );
propertyMap.Insert( MeshVisual::Property::OBJECT_URL, TEST_OBJ_FILE_NAME );
propertyMap.Insert( MeshVisual::Property::MATERIAL_URL, TEST_MTL_FILE_NAME );
propertyMap.Insert( MeshVisual::Property::TEXTURES_PATH, TEST_RESOURCE_LOCATION );
Property::Map resultMap;
meshVisual.CreatePropertyMap( resultMap );
- TestMixColor( meshVisual, DevelVisual::Property::MIX_COLOR, Color::BLUE );
+ TestMixColor( meshVisual, Visual::Property::MIX_COLOR, Color::BLUE );
//Check values in the result map are identical to the initial map's values.
- Property::Value* value = resultMap.Find( Visual::Property::TYPE, Property::INTEGER );
+ Property::Value* value = resultMap.Find( Toolkit::Visual::Property::TYPE, Property::INTEGER );
DALI_TEST_CHECK( value );
DALI_TEST_EQUALS( value->Get<int>(), (int)Visual::MESH, TEST_LOCATION );
//Request PrimitiveVisual using a property map.
VisualFactory factory = VisualFactory::Get();
Property::Map propertyMap;
- propertyMap.Insert( Visual::Property::TYPE, Visual::PRIMITIVE );
+ propertyMap.Insert( Toolkit::Visual::Property::TYPE, Visual::PRIMITIVE );
propertyMap.Insert( PrimitiveVisual::Property::SHAPE, PrimitiveVisual::Shape::CUBE );
propertyMap.Insert( PrimitiveVisual::Property::MIX_COLOR, color );
propertyMap.Insert( PrimitiveVisual::Property::SLICES, 10 );
primitiveVisual.CreatePropertyMap( resultMap );
//Check values in the result map are identical to the initial map's values.
- Property::Value* value = resultMap.Find( Visual::Property::TYPE, Property::INTEGER );
+ Property::Value* value = resultMap.Find( Toolkit::Visual::Property::TYPE, Property::INTEGER );
DALI_TEST_CHECK( value );
DALI_TEST_EQUALS( value->Get<int>(), (int)Visual::PRIMITIVE, TEST_LOCATION );
VisualFactory factory = VisualFactory::Get();
Property::Map propertyMap;
- propertyMap.Insert( Visual::Property::TYPE, DevelVisual::TEXT );
- propertyMap.Insert( DevelVisual::Property::MIX_COLOR, Color::BLACK );
+ propertyMap.Insert( Toolkit::Visual::Property::TYPE, Visual::TEXT );
+ propertyMap.Insert( Visual::Property::MIX_COLOR, Color::BLACK );
propertyMap.Insert( "renderingBackend", static_cast<int>( Toolkit::Text::DEFAULT_RENDERING_BACKEND ) );
propertyMap.Insert( "enableMarkup", false );
propertyMap.Insert( "text", "Hello world" );
propertyMap.Insert( "horizontalAlignment", "CENTER" );
propertyMap.Insert( "verticalAlignment", "CENTER" );
propertyMap.Insert( "textColor", Color::RED );
+
+ Property::Map shadowMapSet;
+ propertyMap.Insert( "shadow", shadowMapSet.Add("color", Color::RED).Add("offset", Vector2(2.0f, 2.0f)).Add("blurRadius", 3.0f) );
+
+ Property::Map underlineMapSet;
+ propertyMap.Insert( "underline", underlineMapSet.Add("enable", true).Add("color", Color::GREEN).Add("height", 1) );
+
+ Property::Map outlineMapSet;
+ propertyMap.Insert( "outline", outlineMapSet.Add("color", Color::YELLOW).Add("width", 1) );
+
+ Property::Map backgroundMapSet;
+ propertyMap.Insert( "textBackground", backgroundMapSet.Add("enable", true).Add("color", Color::CYAN) );
+
Visual::Base textVisual = factory.CreateVisual( propertyMap );
Property::Map resultMap;
textVisual.CreatePropertyMap( resultMap );
//Check values in the result map are identical to the initial map's values.
- Property::Value* value = resultMap.Find( Visual::Property::TYPE, Property::INTEGER );
+ Property::Value* value = resultMap.Find( Toolkit::Visual::Property::TYPE, Property::INTEGER );
DALI_TEST_CHECK( value );
- DALI_TEST_EQUALS( value->Get<int>(), (int)DevelVisual::TEXT, TEST_LOCATION );
+ DALI_TEST_EQUALS( value->Get<int>(), (int)Visual::TEXT, TEST_LOCATION );
- value = resultMap.Find( DevelVisual::Property::MIX_COLOR, Property::VECTOR4 );
+ value = resultMap.Find( Visual::Property::MIX_COLOR, Property::VECTOR4 );
DALI_TEST_CHECK( value );
DALI_TEST_EQUALS( value->Get<Vector4>(), Color::BLACK, 0.001f, TEST_LOCATION );
DALI_TEST_CHECK( value );
DALI_TEST_CHECK( value->Get<bool>() );
- value = resultMap.Find( TextVisual::Property::HORIZONTAL_ALIGNMENT, Property::STRING );
+ value = resultMap.Find( TextVisual::Property::HORIZONTAL_ALIGNMENT, Property::INTEGER );
DALI_TEST_CHECK( value );
- DALI_TEST_EQUALS( value->Get<std::string>(), "CENTER", TEST_LOCATION );
+ DALI_TEST_EQUALS( value->Get<int>(), (int)Text::HorizontalAlignment::CENTER, TEST_LOCATION );
- value = resultMap.Find( TextVisual::Property::VERTICAL_ALIGNMENT, Property::STRING );
+ value = resultMap.Find( TextVisual::Property::VERTICAL_ALIGNMENT, Property::INTEGER );
DALI_TEST_CHECK( value );
- DALI_TEST_EQUALS( value->Get<std::string>(), "CENTER", TEST_LOCATION );
+ DALI_TEST_EQUALS( value->Get<int>(), (int)Text::VerticalAlignment::CENTER, TEST_LOCATION );
value = resultMap.Find( TextVisual::Property::TEXT_COLOR, Property::VECTOR4 );
DALI_TEST_CHECK( value );
DALI_TEST_CHECK( value );
DALI_TEST_CHECK( !value->Get<bool>() );
+ value = resultMap.Find( TextVisual::Property::SHADOW, Property::MAP );
+ DALI_TEST_CHECK( value );
+
+ Property::Map shadowMapGet = value->Get<Property::Map>();
+ DALI_TEST_EQUALS( shadowMapGet.Count(), shadowMapSet.Count(), TEST_LOCATION );
+ DALI_TEST_EQUALS( DaliTestCheckMaps( shadowMapGet, shadowMapSet ), true, TEST_LOCATION );
+
+ value = resultMap.Find( TextVisual::Property::UNDERLINE, Property::MAP );
+ DALI_TEST_CHECK( value );
+
+ Property::Map underlineMapGet = value->Get<Property::Map>();
+ DALI_TEST_EQUALS( underlineMapGet.Count(), underlineMapSet.Count(), TEST_LOCATION );
+ DALI_TEST_EQUALS( DaliTestCheckMaps( underlineMapGet, underlineMapSet ), true, TEST_LOCATION );
+
+ value = resultMap.Find( DevelTextVisual::Property::OUTLINE, Property::MAP );
+ DALI_TEST_CHECK( value );
+
+ Property::Map outlineMapGet = value->Get<Property::Map>();
+ DALI_TEST_EQUALS( outlineMapGet.Count(), outlineMapSet.Count(), TEST_LOCATION );
+ DALI_TEST_EQUALS( DaliTestCheckMaps( outlineMapGet, outlineMapSet ), true, TEST_LOCATION );
+
+ value = resultMap.Find( DevelTextVisual::Property::BACKGROUND, Property::MAP );
+ DALI_TEST_CHECK( value );
+
+ Property::Map backgroundMapGet = value->Get<Property::Map>();
+ DALI_TEST_EQUALS( backgroundMapGet.Count(), backgroundMapSet.Count(), TEST_LOCATION );
+ DALI_TEST_EQUALS( DaliTestCheckMaps( backgroundMapGet, backgroundMapSet ), true, TEST_LOCATION );
+
END_TEST;
}
int UtcDaliVisualGetPropertyMap11(void)
{
ToolkitTestApplication application;
- tet_infoline( "UtcDaliVisualGetPropertyMap11: AnimatedImageVisual" );
+ tet_infoline( "UtcDaliVisualGetPropertyMap11: AnimatedGradientVisual" );
- // request AnimatedImageVisual with a property map
VisualFactory factory = VisualFactory::Get();
- Visual::Base animatedImageVisual = factory.CreateVisual( Property::Map()
- .Add( Visual::Property::TYPE, DevelVisual::ANIMATED_IMAGE )
- .Add( ImageVisual::Property::URL, TEST_GIF_FILE_NAME ) );
+ DALI_TEST_CHECK( factory );
+
+ Property::Map propertyMap;
+ propertyMap.Insert(Visual::Property::TYPE, DevelVisual::ANIMATED_GRADIENT);
+
+ Vector2 start(-0.5f, 0.5f);
+ Vector2 end (0.5f, -0.0f);
+ Vector4 start_color(1.0f, 0.7f, 0.5f, 1.0f);
+ Vector4 end_color (0.7f, 0.5f, 1.0f, 1.0f);
+ Vector2 rotate_center(0.0f, 0.4f);
+ float rotate_amount = 1.57f;
+ float offset = 100.f;
+
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::GRADIENT_TYPE, DevelAnimatedGradientVisual::GradientType::RADIAL);
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::UNIT_TYPE, DevelAnimatedGradientVisual::UnitType::USER_SPACE);
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::SPREAD_TYPE, DevelAnimatedGradientVisual::SpreadType::CLAMP);
+
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::START_POSITION, start);
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::END_POSITION, end);
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::START_COLOR, start_color);
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::END_COLOR, end_color);
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::ROTATE_CENTER, rotate_center);
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::ROTATE_AMOUNT, rotate_amount);
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::OFFSET, offset);
+
+ Visual::Base animatedGradientVisual = factory.CreateVisual(propertyMap);
+ DALI_TEST_CHECK( animatedGradientVisual );
Property::Map resultMap;
- animatedImageVisual.CreatePropertyMap( resultMap );
- // check the property values from the returned map from a visual
- Property::Value* value = resultMap.Find( Visual::Property::TYPE, Property::INTEGER );
+ animatedGradientVisual.CreatePropertyMap( resultMap );
+
+ // check the property values from the returned map from visual
+ Property::Value* value = resultMap.Find( Toolkit::Visual::Property::TYPE, Property::INTEGER );
DALI_TEST_CHECK( value );
- DALI_TEST_CHECK( value->Get<int>() == DevelVisual::ANIMATED_IMAGE );
+ DALI_TEST_CHECK( value->Get<int>() == DevelVisual::ANIMATED_GRADIENT );
- value = resultMap.Find( ImageVisual::Property::URL, Property::STRING );
+ value = resultMap.Find( DevelAnimatedGradientVisual::Property::GRADIENT_TYPE, Property::INTEGER );
DALI_TEST_CHECK( value );
- DALI_TEST_CHECK( value->Get<std::string>() == TEST_GIF_FILE_NAME );
+ DALI_TEST_CHECK( value->Get<int>() == DevelAnimatedGradientVisual::GradientType::RADIAL );
- // request AnimatedImageVisual with an URL
- Visual::Base animatedImageVisual2 = factory.CreateVisual( TEST_GIF_FILE_NAME, ImageDimensions() );
- resultMap.Clear();
- animatedImageVisual2.CreatePropertyMap( resultMap );
- // check the property values from the returned map from a visual
- value = resultMap.Find( Visual::Property::TYPE, Property::INTEGER );
+ value = resultMap.Find( DevelAnimatedGradientVisual::Property::UNIT_TYPE, Property::INTEGER );
DALI_TEST_CHECK( value );
- DALI_TEST_CHECK( value->Get<int>() == DevelVisual::ANIMATED_IMAGE );
+ DALI_TEST_CHECK( value->Get<int>() == DevelAnimatedGradientVisual::UnitType::USER_SPACE );
- value = resultMap.Find( ImageVisual::Property::URL, Property::STRING );
+ value = resultMap.Find( DevelAnimatedGradientVisual::Property::SPREAD_TYPE, Property::INTEGER );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_CHECK( value->Get<int>() == DevelAnimatedGradientVisual::SpreadType::CLAMP );
+
+
+ value = resultMap.Find( DevelAnimatedGradientVisual::Property::START_POSITION, Property::VECTOR2 );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_EQUALS( value->Get<Vector2>(), start , Math::MACHINE_EPSILON_100, TEST_LOCATION );
+
+ value = resultMap.Find( DevelAnimatedGradientVisual::Property::END_POSITION, Property::VECTOR2 );
DALI_TEST_CHECK( value );
- DALI_TEST_CHECK( value->Get<std::string>() == TEST_GIF_FILE_NAME );
+ DALI_TEST_EQUALS( value->Get<Vector2>(), end , Math::MACHINE_EPSILON_100, TEST_LOCATION );
+
+ value = resultMap.Find( DevelAnimatedGradientVisual::Property::START_COLOR, Property::VECTOR4 );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_EQUALS( value->Get<Vector4>(), start_color , Math::MACHINE_EPSILON_100, TEST_LOCATION );
+
+ value = resultMap.Find( DevelAnimatedGradientVisual::Property::END_COLOR, Property::VECTOR4 );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_EQUALS( value->Get<Vector4>(), end_color , Math::MACHINE_EPSILON_100, TEST_LOCATION );
+
+ value = resultMap.Find( DevelAnimatedGradientVisual::Property::ROTATE_CENTER, Property::VECTOR2 );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_EQUALS( value->Get<Vector2>(), rotate_center , Math::MACHINE_EPSILON_100, TEST_LOCATION );
+
+ value = resultMap.Find( DevelAnimatedGradientVisual::Property::ROTATE_AMOUNT, Property::FLOAT );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_EQUALS( value->Get<float>(), rotate_amount , Math::MACHINE_EPSILON_100, TEST_LOCATION );
+
+ value = resultMap.Find( DevelAnimatedGradientVisual::Property::OFFSET, Property::FLOAT );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_EQUALS( value->Get<float>(), offset , Math::MACHINE_EPSILON_100, TEST_LOCATION );
+
+ END_TEST;
+}
+
+int UtcDaliVisualGetPropertyMap12(void)
+{
+ ToolkitTestApplication application;
+ tet_infoline( "UtcDaliVisualGetPropertyMap12: AnimatedGradientVisual with animation param" );
+
+ // Case 1 : Set values by index
+ {
+ tet_printf( " - Set Values by Index\n" );
+ // NOTE : PropertyMap doesn't optimized even delay < -loop_count * (duration + repeat_delay) so this animation will not run
+ // _delay = -10.0f is this case. It will progress (10.0f / 1.5f) amount. and 10.0f / 1.5f > 5.
+ for(float _delay = -10.0f; _delay <= 5.0f; _delay += 5.0f)
+ {
+ tet_printf( "test with delay [%f]\n", _delay );
+ VisualFactory factory = VisualFactory::Get();
+ DALI_TEST_CHECK( factory );
+
+ Property::Map propertyMap;
+ Property::Map animationMap;
+ propertyMap.Insert(Visual::Property::TYPE, DevelVisual::ANIMATED_GRADIENT);
+
+ float duration = 1.1f;
+ float delay = _delay;
+ float repeat_delay = 0.4f;
+
+ int direction = DevelAnimatedGradientVisual::AnimationParameter::DirectionType::BACKWARD;
+ int loop_count = 5;
+ int motion = DevelAnimatedGradientVisual::AnimationParameter::MotionType::MIRROR;
+ int easing = DevelAnimatedGradientVisual::AnimationParameter::EasingType::OUT;
+
+ auto buildAnimatedMap = [&animationMap, &direction, &duration, &delay, &loop_count, &repeat_delay, &motion, &easing](const Property::Value &start, const Property::Value &target)->Property::Map&
+ {
+ animationMap.Clear();
+ animationMap.Insert(DevelAnimatedGradientVisual::AnimationParameter::Property::START, start);
+ animationMap.Insert(DevelAnimatedGradientVisual::AnimationParameter::Property::TARGET, target);
+ animationMap.Insert(DevelAnimatedGradientVisual::AnimationParameter::Property::DIRECTION, direction);
+ animationMap.Insert(DevelAnimatedGradientVisual::AnimationParameter::Property::DURATION, duration);
+ animationMap.Insert(DevelAnimatedGradientVisual::AnimationParameter::Property::DELAY, delay);
+ animationMap.Insert(DevelAnimatedGradientVisual::AnimationParameter::Property::REPEAT, loop_count);
+ animationMap.Insert(DevelAnimatedGradientVisual::AnimationParameter::Property::REPEAT_DELAY, repeat_delay);
+ animationMap.Insert(DevelAnimatedGradientVisual::AnimationParameter::Property::MOTION_TYPE, motion);
+ animationMap.Insert(DevelAnimatedGradientVisual::AnimationParameter::Property::EASING_TYPE, easing);
+
+ return animationMap;
+ };
+
+ Vector2 start1(-0.5f, 0.5f);
+ Vector2 end1 (0.5f, -0.5f);
+ Vector4 start_color1(1.0f, 0.7f, 0.5f, 1.0f);
+ Vector4 end_color1 (0.7f, 0.5f, 1.0f, 1.0f);
+ Vector2 rotate_center1(0.0f, 0.4f);
+ float rotate_amount1 = 0.0f;
+ float offset1 = 0.f;
+
+ Vector2 start2(-0.5f, -0.5f);
+ Vector2 end2 (0.5f, 0.5f);
+ Vector4 start_color2(0.0f, 0.1f, 0.8f, 1.0f);
+ Vector4 end_color2 (0.3f, 1.0f, 0.1f, 0.0f);
+ Vector2 rotate_center2(0.0f, -0.4f);
+ float rotate_amount2 = 6.2832f;
+ float offset2 = 2.f;
+
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::GRADIENT_TYPE, DevelAnimatedGradientVisual::GradientType::LINEAR);
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::UNIT_TYPE, DevelAnimatedGradientVisual::UnitType::OBJECT_BOUNDING_BOX);
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::SPREAD_TYPE, DevelAnimatedGradientVisual::SpreadType::REPEAT);
+
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::START_POSITION, buildAnimatedMap(start1 , start2 ));
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::END_POSITION, buildAnimatedMap(end1 , end2 ));
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::START_COLOR, buildAnimatedMap(start_color1 , start_color2 ));
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::END_COLOR, buildAnimatedMap(end_color1 , end_color2 ));
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::ROTATE_CENTER, buildAnimatedMap(rotate_center1, rotate_center2));
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::ROTATE_AMOUNT, buildAnimatedMap(rotate_amount1, rotate_amount2));
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::OFFSET, buildAnimatedMap(offset1 , offset2 ));
+
+ Visual::Base animatedGradientVisual = factory.CreateVisual(propertyMap);
+ DALI_TEST_CHECK( animatedGradientVisual );
+
+ Property::Map resultMap;
+ animatedGradientVisual.CreatePropertyMap( resultMap );
+
+ // check the property values from the returned map from visual
+ Property::Value* value = resultMap.Find( Toolkit::Visual::Property::TYPE, Property::INTEGER );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_CHECK( value->Get<int>() == DevelVisual::ANIMATED_GRADIENT );
+
+ value = resultMap.Find( DevelAnimatedGradientVisual::Property::GRADIENT_TYPE, Property::INTEGER );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_CHECK( value->Get<int>() == DevelAnimatedGradientVisual::GradientType::LINEAR );
+
+ value = resultMap.Find( DevelAnimatedGradientVisual::Property::UNIT_TYPE, Property::INTEGER );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_CHECK( value->Get<int>() == DevelAnimatedGradientVisual::UnitType::OBJECT_BOUNDING_BOX );
+
+ value = resultMap.Find( DevelAnimatedGradientVisual::Property::SPREAD_TYPE, Property::INTEGER );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_CHECK( value->Get<int>() == DevelAnimatedGradientVisual::SpreadType::REPEAT );
+
+ auto checkAnimatedMap = [&value, &resultMap, &direction, &duration, &delay, &loop_count, &repeat_delay, &motion, &easing](const Property::Index &index, const Property::Value &start, const Property::Value &target, int line_num)->void
+ {
+ tet_printf("Check value at %d\n", line_num);
+ value = resultMap.Find( index, Property::MAP );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_CHECK( value->GetType() == Property::MAP );
+ Property::Map *temp_map = value->GetMap();
+ DALI_TEST_CHECK( temp_map );
+
+ auto checkMapValue = [&temp_map](const Property::Index index)->Property::Value
+ {
+ Property::Value *res = temp_map->Find( index );
+ DALI_TEST_CHECK( res );
+ return *res;
+ };
+
+ DALI_TEST_EQUALS( checkMapValue(DevelAnimatedGradientVisual::AnimationParameter::Property::START) , start, Math::MACHINE_EPSILON_100, TEST_LOCATION );
+ DALI_TEST_EQUALS( checkMapValue(DevelAnimatedGradientVisual::AnimationParameter::Property::TARGET) , target, Math::MACHINE_EPSILON_100, TEST_LOCATION );
+ DALI_TEST_EQUALS( checkMapValue(DevelAnimatedGradientVisual::AnimationParameter::Property::DIRECTION) , Property::Value( direction ), Math::MACHINE_EPSILON_100, TEST_LOCATION );
+ DALI_TEST_EQUALS( checkMapValue(DevelAnimatedGradientVisual::AnimationParameter::Property::DURATION) , Property::Value( duration ), Math::MACHINE_EPSILON_100, TEST_LOCATION );
+ DALI_TEST_EQUALS( checkMapValue(DevelAnimatedGradientVisual::AnimationParameter::Property::DELAY) , Property::Value( delay ), Math::MACHINE_EPSILON_100, TEST_LOCATION );
+ DALI_TEST_EQUALS( checkMapValue(DevelAnimatedGradientVisual::AnimationParameter::Property::REPEAT) , Property::Value( loop_count ), Math::MACHINE_EPSILON_100, TEST_LOCATION );
+ DALI_TEST_EQUALS( checkMapValue(DevelAnimatedGradientVisual::AnimationParameter::Property::REPEAT_DELAY), Property::Value( repeat_delay ), Math::MACHINE_EPSILON_100, TEST_LOCATION );
+ DALI_TEST_EQUALS( checkMapValue(DevelAnimatedGradientVisual::AnimationParameter::Property::MOTION_TYPE) , Property::Value( motion ), Math::MACHINE_EPSILON_100, TEST_LOCATION );
+ DALI_TEST_EQUALS( checkMapValue(DevelAnimatedGradientVisual::AnimationParameter::Property::EASING_TYPE) , Property::Value( easing ), Math::MACHINE_EPSILON_100, TEST_LOCATION );
+ };
+
+ // check the animation map data is good
+ checkAnimatedMap(DevelAnimatedGradientVisual::Property::START_POSITION, start1 , start2 , __LINE__);
+ checkAnimatedMap(DevelAnimatedGradientVisual::Property::END_POSITION , end1 , end2 , __LINE__);
+ checkAnimatedMap(DevelAnimatedGradientVisual::Property::START_COLOR , start_color1 , start_color2 , __LINE__);
+ checkAnimatedMap(DevelAnimatedGradientVisual::Property::END_COLOR , end_color1 , end_color2 , __LINE__);
+ checkAnimatedMap(DevelAnimatedGradientVisual::Property::ROTATE_CENTER , rotate_center1, rotate_center2, __LINE__);
+ checkAnimatedMap(DevelAnimatedGradientVisual::Property::ROTATE_AMOUNT , rotate_amount1, rotate_amount2, __LINE__);
+ checkAnimatedMap(DevelAnimatedGradientVisual::Property::OFFSET , offset1 , offset2 , __LINE__);
+ }
+ }
+
+ // Case 2 : Set values by string
+ {
+ tet_printf( " - Set Values by String\n" );
+ // NOTE : PropertyMap doesn't optimized even delay < -loop_count * (duration + repeat_delay) so this animation will not run
+ // _delay = -10.0f is this case. It will progress (10.0f / 1.5f) amount. and 10.0f / 1.5f > 5.
+ for(float _delay = -10.0f; _delay <= 5.0f; _delay += 5.0f)
+ {
+ tet_printf( "test with delay [%f]\n", _delay );
+ VisualFactory factory = VisualFactory::Get();
+ DALI_TEST_CHECK( factory );
+
+ Property::Map propertyMap;
+ Property::Map animationMap;
+ propertyMap.Insert("visualType", "ANIMATED_GRADIENT");
+
+ float duration = 1.1f;
+ float delay = _delay;
+ float repeat_delay = 0.4f;
+
+ int direction = DevelAnimatedGradientVisual::AnimationParameter::DirectionType::BACKWARD;
+ int loop_count = 5;
+ int motion = DevelAnimatedGradientVisual::AnimationParameter::MotionType::MIRROR;
+ int easing = DevelAnimatedGradientVisual::AnimationParameter::EasingType::IN_OUT;
+
+ auto buildAnimatedMap = [&animationMap, &duration, &delay, &loop_count, &repeat_delay](const Property::Value &start, const Property::Value &target)->Property::Map&
+ {
+ animationMap.Clear();
+ animationMap.Insert("startValue" , start);
+ animationMap.Insert("targetValue" , target);
+ animationMap.Insert("directionType", "BACKWARD");
+ animationMap.Insert("duration" , duration);
+ animationMap.Insert("delay" , delay);
+ animationMap.Insert("repeat" , loop_count);
+ animationMap.Insert("repeatDelay" , repeat_delay);
+ animationMap.Insert("motionType" , "MIRROR");
+ animationMap.Insert("easingType" , "IN_OUT");
+
+ return animationMap;
+ };
+
+ Vector2 start1(-0.5f, 0.5f);
+ Vector2 end1 (0.5f, -0.5f);
+ Vector4 start_color1(1.0f, 0.7f, 0.5f, 1.0f);
+ Vector4 end_color1 (0.7f, 0.5f, 1.0f, 1.0f);
+ Vector2 rotate_center1(0.0f, 0.4f);
+ float rotate_amount1 = 0.0f;
+ float offset1 = 0.f;
+
+ Vector2 start2(-0.5f, -0.5f);
+ Vector2 end2 (0.5f, 0.5f);
+ Vector4 start_color2(0.0f, 0.1f, 0.8f, 1.0f);
+ Vector4 end_color2 (0.3f, 1.0f, 0.1f, 0.0f);
+ Vector2 rotate_center2(0.0f, -0.4f);
+ float rotate_amount2 = 6.2832f;
+ float offset2 = 2.f;
+
+ // For test mix the type string/index key and string/index value works well.
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::GRADIENT_TYPE, "RADIAL");
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::UNIT_TYPE, DevelAnimatedGradientVisual::UnitType::USER_SPACE);
+ propertyMap.Insert("spreadType" , DevelAnimatedGradientVisual::SpreadType::REFLECT);
+
+ propertyMap.Insert("startPosition", buildAnimatedMap(start1 , start2 ));
+ propertyMap.Insert("endPosition" , buildAnimatedMap(end1 , end2 ));
+ propertyMap.Insert("startColor" , buildAnimatedMap(start_color1 , start_color2 ));
+ propertyMap.Insert("endColor" , buildAnimatedMap(end_color1 , end_color2 ));
+ propertyMap.Insert("rotateCenter" , buildAnimatedMap(rotate_center1, rotate_center2));
+ propertyMap.Insert("rotateAmount" , buildAnimatedMap(rotate_amount1, rotate_amount2));
+ propertyMap.Insert("offset" , buildAnimatedMap(offset1 , offset2 ));
+
+ Visual::Base animatedGradientVisual = factory.CreateVisual(propertyMap);
+ DALI_TEST_CHECK( animatedGradientVisual );
+
+ Property::Map resultMap;
+ animatedGradientVisual.CreatePropertyMap( resultMap );
+
+ // check the property values from the returned map from visual
+ // Note : resultMap from CreatePropertyMap only contain indexKey
+ Property::Value* value = resultMap.Find( Toolkit::Visual::Property::TYPE, Property::INTEGER );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_CHECK( value->Get<int>() == DevelVisual::ANIMATED_GRADIENT );
+
+ value = resultMap.Find( DevelAnimatedGradientVisual::Property::GRADIENT_TYPE, Property::INTEGER );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_CHECK( value->Get<int>() == DevelAnimatedGradientVisual::GradientType::RADIAL );
+
+ value = resultMap.Find( DevelAnimatedGradientVisual::Property::UNIT_TYPE, Property::INTEGER );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_CHECK( value->Get<int>() == DevelAnimatedGradientVisual::UnitType::USER_SPACE );
+
+ value = resultMap.Find( DevelAnimatedGradientVisual::Property::SPREAD_TYPE, Property::INTEGER );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_CHECK( value->Get<int>() == DevelAnimatedGradientVisual::SpreadType::REFLECT );
+
+ auto checkAnimatedMap = [&value, &resultMap, &direction, &duration, &delay, &loop_count, &repeat_delay, &motion, &easing](const Property::Index &index, const Property::Value &start, const Property::Value &target, int line_num)->void
+ {
+ tet_printf("Check value at %d\n", line_num);
+ value = resultMap.Find( index, Property::MAP );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_CHECK( value->GetType() == Property::MAP );
+ Property::Map *temp_map = value->GetMap();
+ DALI_TEST_CHECK( temp_map );
+
+ auto checkMapValue = [&temp_map](const Property::Index index)->Property::Value
+ {
+ Property::Value *res = temp_map->Find( index );
+ DALI_TEST_CHECK( res );
+ return *res;
+ };
+
+ DALI_TEST_EQUALS( checkMapValue(DevelAnimatedGradientVisual::AnimationParameter::Property::START) , start, Math::MACHINE_EPSILON_100, TEST_LOCATION );
+ DALI_TEST_EQUALS( checkMapValue(DevelAnimatedGradientVisual::AnimationParameter::Property::TARGET) , target, Math::MACHINE_EPSILON_100, TEST_LOCATION );
+ DALI_TEST_EQUALS( checkMapValue(DevelAnimatedGradientVisual::AnimationParameter::Property::DIRECTION) , Property::Value( direction ), Math::MACHINE_EPSILON_100, TEST_LOCATION );
+ DALI_TEST_EQUALS( checkMapValue(DevelAnimatedGradientVisual::AnimationParameter::Property::DURATION) , Property::Value( duration ), Math::MACHINE_EPSILON_100, TEST_LOCATION );
+ DALI_TEST_EQUALS( checkMapValue(DevelAnimatedGradientVisual::AnimationParameter::Property::DELAY) , Property::Value( delay ), Math::MACHINE_EPSILON_100, TEST_LOCATION );
+ DALI_TEST_EQUALS( checkMapValue(DevelAnimatedGradientVisual::AnimationParameter::Property::REPEAT) , Property::Value( loop_count ), Math::MACHINE_EPSILON_100, TEST_LOCATION );
+ DALI_TEST_EQUALS( checkMapValue(DevelAnimatedGradientVisual::AnimationParameter::Property::REPEAT_DELAY), Property::Value( repeat_delay ), Math::MACHINE_EPSILON_100, TEST_LOCATION );
+ DALI_TEST_EQUALS( checkMapValue(DevelAnimatedGradientVisual::AnimationParameter::Property::MOTION_TYPE) , Property::Value( motion ), Math::MACHINE_EPSILON_100, TEST_LOCATION );
+ DALI_TEST_EQUALS( checkMapValue(DevelAnimatedGradientVisual::AnimationParameter::Property::EASING_TYPE) , Property::Value( easing ), Math::MACHINE_EPSILON_100, TEST_LOCATION );
+ };
+
+ // check the animation map data is good
+ checkAnimatedMap(DevelAnimatedGradientVisual::Property::START_POSITION, start1 , start2 , __LINE__);
+ checkAnimatedMap(DevelAnimatedGradientVisual::Property::END_POSITION , end1 , end2 , __LINE__);
+ checkAnimatedMap(DevelAnimatedGradientVisual::Property::START_COLOR , start_color1 , start_color2 , __LINE__);
+ checkAnimatedMap(DevelAnimatedGradientVisual::Property::END_COLOR , end_color1 , end_color2 , __LINE__);
+ checkAnimatedMap(DevelAnimatedGradientVisual::Property::ROTATE_CENTER , rotate_center1, rotate_center2, __LINE__);
+ checkAnimatedMap(DevelAnimatedGradientVisual::Property::ROTATE_AMOUNT , rotate_amount1, rotate_amount2, __LINE__);
+ checkAnimatedMap(DevelAnimatedGradientVisual::Property::OFFSET , offset1 , offset2 , __LINE__);
+ }
+ }
+
+ END_TEST;
+}
+int UtcDaliVisualGetPropertyMap13(void)
+{
+ ToolkitTestApplication application;
+ tet_infoline( "UtcDaliVisualGetPropertyMap13: AnimatedGradientVisual when repeat = 0" );
+
+ for(int _direction = 0; _direction <= 1; ++_direction)
+ {
+ for(float _delay = -10.0f; _delay <= 10.0f; _delay += 10.0f)
+ {
+ tet_printf( ((_direction == 0) ? "Forward test with delay [%f]\n" : "Backward test with delay [%f]\n") , _delay );
+ VisualFactory factory = VisualFactory::Get();
+ DALI_TEST_CHECK( factory );
+
+ Property::Map propertyMap;
+ Property::Map animationMap;
+ propertyMap.Insert(Visual::Property::TYPE, DevelVisual::ANIMATED_GRADIENT);
+
+ float duration = 1.0f;
+ float delay = _delay;
+ float repeat_delay = 0.5f;
+
+ int direction = _direction;
+ int loop_count = 0; // When loop_count is 0, Animation will not be created.
+ int motion = DevelAnimatedGradientVisual::AnimationParameter::MotionType::LOOP;
+ int easing = DevelAnimatedGradientVisual::AnimationParameter::EasingType::IN;
+
+ auto buildAnimatedMap = [&animationMap, &direction, &duration, &delay, &loop_count, &repeat_delay, &motion, &easing](const Property::Value &start, const Property::Value &target)->Property::Map&
+ {
+ animationMap.Clear();
+ animationMap.Insert(DevelAnimatedGradientVisual::AnimationParameter::Property::START, start);
+ animationMap.Insert(DevelAnimatedGradientVisual::AnimationParameter::Property::TARGET, target);
+ if(direction == 0)animationMap.Insert(DevelAnimatedGradientVisual::AnimationParameter::Property::DIRECTION, DevelAnimatedGradientVisual::AnimationParameter::DirectionType::FORWARD);
+ else animationMap.Insert(DevelAnimatedGradientVisual::AnimationParameter::Property::DIRECTION, DevelAnimatedGradientVisual::AnimationParameter::DirectionType::BACKWARD);
+ animationMap.Insert(DevelAnimatedGradientVisual::AnimationParameter::Property::DIRECTION, direction);
+ animationMap.Insert(DevelAnimatedGradientVisual::AnimationParameter::Property::DURATION, duration);
+ animationMap.Insert(DevelAnimatedGradientVisual::AnimationParameter::Property::DELAY, delay);
+ animationMap.Insert(DevelAnimatedGradientVisual::AnimationParameter::Property::REPEAT, loop_count);
+ animationMap.Insert(DevelAnimatedGradientVisual::AnimationParameter::Property::REPEAT_DELAY, repeat_delay);
+ animationMap.Insert(DevelAnimatedGradientVisual::AnimationParameter::Property::MOTION_TYPE, motion);
+ animationMap.Insert(DevelAnimatedGradientVisual::AnimationParameter::Property::EASING_TYPE, easing);
+
+ return animationMap;
+ };
+
+ Vector2 start1(-0.5f, 0.5f);
+ Vector2 end1 (0.5f, -0.5f);
+ Vector4 start_color1(1.0f, 0.7f, 0.5f, 1.0f);
+ Vector4 end_color1 (0.7f, 0.5f, 1.0f, 1.0f);
+ Vector2 rotate_center1(1.0f, 0.4f);
+ float rotate_amount1 = 2.0f;
+ float offset1 = 1.f;
+
+ Vector2 start2(-0.5f, -0.5f);
+ Vector2 end2 (0.5f, 0.5f);
+ Vector4 start_color2(0.0f, 0.1f, 0.8f, 1.0f);
+ Vector4 end_color2 (0.3f, 1.0f, 0.1f, 0.0f);
+ Vector2 rotate_center2(1.0f, -0.4f);
+ float rotate_amount2 = 1.0f;
+ float offset2 = 3.f;
+
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::GRADIENT_TYPE, DevelAnimatedGradientVisual::GradientType::LINEAR);
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::UNIT_TYPE, DevelAnimatedGradientVisual::UnitType::OBJECT_BOUNDING_BOX);
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::SPREAD_TYPE, DevelAnimatedGradientVisual::SpreadType::REFLECT);
+
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::START_POSITION, buildAnimatedMap(start1 , start2 ));
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::END_POSITION, buildAnimatedMap(end1 , end2 ));
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::START_COLOR, buildAnimatedMap(start_color1 , start_color2 ));
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::END_COLOR, buildAnimatedMap(end_color1 , end_color2 ));
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::ROTATE_CENTER, buildAnimatedMap(rotate_center1, rotate_center2));
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::ROTATE_AMOUNT, buildAnimatedMap(rotate_amount1, rotate_amount2));
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::OFFSET, buildAnimatedMap(offset1 , offset2 ));
+
+ Visual::Base animatedGradientVisual = factory.CreateVisual(propertyMap);
+ DALI_TEST_CHECK( animatedGradientVisual );
+
+ Property::Map resultMap;
+ animatedGradientVisual.CreatePropertyMap( resultMap );
+
+ // check the property values from the returned map from visual
+ Property::Value* value = resultMap.Find( Toolkit::Visual::Property::TYPE, Property::INTEGER );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_CHECK( value->Get<int>() == DevelVisual::ANIMATED_GRADIENT );
+
+ value = resultMap.Find( DevelAnimatedGradientVisual::Property::GRADIENT_TYPE, Property::INTEGER );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_CHECK( value->Get<int>() == DevelAnimatedGradientVisual::GradientType::LINEAR );
+
+ value = resultMap.Find( DevelAnimatedGradientVisual::Property::UNIT_TYPE, Property::INTEGER );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_CHECK( value->Get<int>() == DevelAnimatedGradientVisual::UnitType::OBJECT_BOUNDING_BOX );
+
+ value = resultMap.Find( DevelAnimatedGradientVisual::Property::SPREAD_TYPE, Property::INTEGER );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_CHECK( value->Get<int>() == DevelAnimatedGradientVisual::SpreadType::REFLECT );
+
+ // If loop_count = 0, Animation doesn't created.
+ // Optimized resultMap only have one value, which is target value
+ // Note: target value will be changed by direction option.
+ value = resultMap.Find( DevelAnimatedGradientVisual::Property::START_POSITION, Property::VECTOR2 );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_EQUALS( value->Get<Vector2>(), direction ? start1 : start2 , Math::MACHINE_EPSILON_100, TEST_LOCATION );
+
+ value = resultMap.Find( DevelAnimatedGradientVisual::Property::END_POSITION, Property::VECTOR2 );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_EQUALS( value->Get<Vector2>(), direction ? end1 : end2 , Math::MACHINE_EPSILON_100, TEST_LOCATION );
+
+ value = resultMap.Find( DevelAnimatedGradientVisual::Property::START_COLOR, Property::VECTOR4 );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_EQUALS( value->Get<Vector4>(), direction ? start_color1 : start_color2 , Math::MACHINE_EPSILON_100, TEST_LOCATION );
+
+ value = resultMap.Find( DevelAnimatedGradientVisual::Property::END_COLOR, Property::VECTOR4 );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_EQUALS( value->Get<Vector4>(), direction ? end_color1 : end_color2 , Math::MACHINE_EPSILON_100, TEST_LOCATION );
+
+ value = resultMap.Find( DevelAnimatedGradientVisual::Property::ROTATE_CENTER, Property::VECTOR2 );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_EQUALS( value->Get<Vector2>(), direction ? rotate_center1 : rotate_center2 , Math::MACHINE_EPSILON_100, TEST_LOCATION );
+
+ value = resultMap.Find( DevelAnimatedGradientVisual::Property::ROTATE_AMOUNT, Property::FLOAT );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_EQUALS( value->Get<float>(), direction ? rotate_amount1 : rotate_amount2 , Math::MACHINE_EPSILON_100, TEST_LOCATION );
+
+ value = resultMap.Find( DevelAnimatedGradientVisual::Property::OFFSET, Property::FLOAT );
+ DALI_TEST_CHECK( value );
+ DALI_TEST_EQUALS( value->Get<float>(), direction ? offset1 : offset2 , Math::MACHINE_EPSILON_100, TEST_LOCATION );
+ }
+ }
END_TEST;
}
VisualFactory factory = VisualFactory::Get();
Property::Map propertyMap;
propertyMap.Insert(Visual::Property::TYPE, Visual::BORDER);
- propertyMap.Insert(DevelVisual::Property::MIX_COLOR, Vector4(1, 1, 1, 0.8f));
+ propertyMap.Insert(Visual::Property::MIX_COLOR, Vector4(1, 1, 1, 0.8f));
propertyMap.Insert(BorderVisual::Property::COLOR, Color::BLUE);
propertyMap.Insert(BorderVisual::Property::SIZE, 5.f);
Visual::Base borderVisual = factory.CreateVisual( propertyMap );
Property::Map map;
map["target"] = "testVisual";
map["property"] = "mixColor";
- map["targetValue"] = Vector4(1,1,1,0);
+ map["targetValue"] = Vector4(1,1,1,0.1);
map["animator"] = Property::Map()
.Add("alphaFunction", "LINEAR")
.Add("timePeriod", Property::Map()
Renderer renderer = actor.GetRendererAt(0);
Property::Index borderColorIndex = DevelHandle::GetPropertyIndex( renderer, BorderVisual::Property::COLOR );
- Property::Index mixColorIndex = DevelHandle::GetPropertyIndex( renderer, DevelVisual::Property::MIX_COLOR );
+ Property::Index mixColorIndex = DevelHandle::GetPropertyIndex( renderer, Visual::Property::MIX_COLOR );
Animation animation = dummyImpl.CreateTransition( transition );
DALI_TEST_EQUALS( application.GetGlAbstraction().CheckUniformValue<Vector4>("borderColor", testColor ), true, TEST_LOCATION );
color = renderer.GetCurrentProperty< Vector3 >( mixColorIndex );
- testColor = Vector4( 1,1,1,0.4f );
+ testColor = Vector4( 1,1,1,0.45f );
DALI_TEST_EQUALS( Vector3(color), Vector3(testColor), 0.0001f, TEST_LOCATION );
DALI_TEST_EQUALS( application.GetGlAbstraction().CheckUniformValue<Vector3>("mixColor", Vector3(testColor) ), true, TEST_LOCATION );
- DALI_TEST_EQUALS( application.GetGlAbstraction().CheckUniformValue<float>("opacity", testColor.a ) , true, TEST_LOCATION );
+
+ Vector4 uColor;
+ DALI_TEST_CHECK( application.GetGlAbstraction().GetUniformValue< Vector4 >( "uColor", uColor ) );
+ DALI_TEST_EQUALS( uColor.a, testColor.a, TEST_LOCATION );
application.Render(2000u);
DALI_TEST_EQUALS( color, Color::WHITE, TEST_LOCATION );
DALI_TEST_EQUALS( application.GetGlAbstraction().CheckUniformValue<Vector4>("borderColor", Color::WHITE ), true, TEST_LOCATION );
- color = renderer.GetCurrentProperty< Vector4 >( mixColorIndex );
- testColor = Vector4(1,1,1,0);
- DALI_TEST_EQUALS( color, testColor, TEST_LOCATION );
+ color = renderer.GetCurrentProperty< Vector3 >( mixColorIndex );
+ testColor = Vector4(1,1,1,0.1);
+ DALI_TEST_EQUALS( Vector3(color), Vector3(testColor), TEST_LOCATION );
DALI_TEST_EQUALS( application.GetGlAbstraction().CheckUniformValue<Vector3>("mixColor", Vector3(testColor) ), true, TEST_LOCATION );
- DALI_TEST_EQUALS( application.GetGlAbstraction().CheckUniformValue<float>("opacity", testColor.a ), true, TEST_LOCATION );
+
+ DALI_TEST_CHECK( application.GetGlAbstraction().GetUniformValue< Vector4 >( "uColor", uColor ) );
+ DALI_TEST_EQUALS( uColor.a, testColor.a, TEST_LOCATION );
END_TEST;
}
application.Render(2000u); // halfway point
application.SendNotification();
- DALI_TEST_EQUALS( application.GetGlAbstraction().CheckUniformValue<Vector4>("uColor", Vector4(0.5f, 0.5f, 0.5f, 1.0f )), true, TEST_LOCATION );
-
Vector4 halfwayColor = (INITIAL_MIX_COLOR + TARGET_MIX_COLOR)*0.5;
+ DALI_TEST_EQUALS( application.GetGlAbstraction().CheckUniformValue<Vector4>("uColor", Vector4(0.5f, 0.5f, 0.5f, halfwayColor.a )), true, TEST_LOCATION );
DALI_TEST_EQUALS( application.GetGlAbstraction().CheckUniformValue<Vector3>("mixColor", Vector3(halfwayColor) ), true, TEST_LOCATION );
- DALI_TEST_EQUALS( application.GetGlAbstraction().CheckUniformValue<float>("opacity", halfwayColor.a ), true, TEST_LOCATION );
application.Render(2001u); // go past end
application.SendNotification(); // Trigger signals
DALI_TEST_EQUALS( actor.GetCurrentColor(), Color::WHITE, TEST_LOCATION );
- DALI_TEST_EQUALS( application.GetGlAbstraction().CheckUniformValue<Vector4>("uColor", Color::WHITE ), true, TEST_LOCATION );
+ DALI_TEST_EQUALS( application.GetGlAbstraction().CheckUniformValue<Vector4>("uColor", Vector4( 1.0f, 1.0f, 1.0f, TARGET_MIX_COLOR.a ) ), true, TEST_LOCATION );
DALI_TEST_EQUALS( application.GetGlAbstraction().CheckUniformValue<Vector3>("mixColor", Vector3(TARGET_MIX_COLOR) ), true, TEST_LOCATION );
- DALI_TEST_EQUALS( application.GetGlAbstraction().CheckUniformValue<float>("opacity", TARGET_MIX_COLOR.a ), true, TEST_LOCATION );
blendModeValue = renderer.GetProperty( Renderer::Property::BLEND_MODE );
DALI_TEST_EQUALS( blendModeValue.Get<int>(), (int)BlendMode::AUTO, TEST_LOCATION );
END_TEST;
}
+int UtcDaliVisualAnimatedGradientVisual01(void)
+{
+ ToolkitTestApplication application;
+ tet_infoline( "UtcDaliAnimatedGradientVisual with default" );
+
+ {
+ VisualFactory factory = VisualFactory::Get();
+ Property::Map propertyMap;
+ propertyMap.Insert(Visual::Property::TYPE, DevelVisual::ANIMATED_GRADIENT);
+ Visual::Base visual = factory.CreateVisual( propertyMap );
+
+ DummyControl actor = DummyControl::New(true);
+ Impl::DummyControl& dummyImpl = static_cast<Impl::DummyControl&>(actor.GetImplementation());
+ dummyImpl.RegisterVisual( DummyControl::Property::TEST_VISUAL, visual );
+ actor.SetSize(2000, 2000);
+ actor.SetParentOrigin(ParentOrigin::CENTER);
+ actor.SetColor(Color::BLACK);
+ Stage::GetCurrent().Add(actor);
+
+ application.SendNotification();
+ application.Render(0);
+ application.SendNotification();
+
+ DALI_TEST_EQUALS( actor.GetRendererCount(), 1u, TEST_LOCATION);
+
+ for(int step_iter = 0; step_iter < 3; step_iter++)
+ {
+ application.SendNotification();
+ application.Render(0);
+ application.Render(750u); // step i/4
+ application.SendNotification();
+
+ DALI_TEST_EQUALS( application.GetGlAbstraction().CheckUniformValue<Vector2>( "start_point" , Vector2( -0.5f, 0.0f ) ), true, TEST_LOCATION );
+ DALI_TEST_EQUALS( application.GetGlAbstraction().CheckUniformValue<Vector2>( "end_point" , Vector2( 0.5f, 0.0f ) ), true, TEST_LOCATION );
+ DALI_TEST_EQUALS( application.GetGlAbstraction().CheckUniformValue<Vector4>( "start_color" , Vector4( 143.0f, 170.0f, 220.0f, 255.0f ) / 255.0f ), true, TEST_LOCATION );
+ DALI_TEST_EQUALS( application.GetGlAbstraction().CheckUniformValue<Vector4>( "end_color" , Vector4( 255.0f, 163.0f, 163.0f, 255.0f ) / 255.0f ), true, TEST_LOCATION );
+ DALI_TEST_EQUALS( application.GetGlAbstraction().CheckUniformValue<Vector2>( "rotate_center", Vector2( 0.0f, 0.0f ) ), true, TEST_LOCATION );
+ DALI_TEST_EQUALS( application.GetGlAbstraction().CheckUniformValue<float>( "rotate_angle" , 0.0f ), true, TEST_LOCATION );
+ DALI_TEST_EQUALS( application.GetGlAbstraction().CheckUniformValue<float>( "gradient_offset", 0.5f * step_iter + 0.5f ), true, TEST_LOCATION );
+ }
+
+ //Not check here. cause gradient_offset value can be 2.0f or 0.0f
+ application.Render(750u); // go to end
+ application.SendNotification();
+
+ application.Render(10u); // finish
+ application.SendNotification();
+
+ actor.Unparent();
+ application.SendNotification();
+ application.Render(0u);
+ application.SendNotification();
+ }
+
+ END_TEST;
+}
+
+int UtcDaliVisualAnimatedGradientVisual02(void)
+{
+ ToolkitTestApplication application;
+ tet_infoline( "UtcDaliAnimatedGradientVisual with full-option" );
+
+ {
+ float _delay[4] = {0.0f, -1.35f, 0.15f, -0.4f}; // fract(_delay) must NOT be 1/4, 2/4, 3/4. cause we don't know progress is 1.0f or 0.0f
+ int _direction[2] = {0, 1};
+ int _loop_count[3] = {-1, 0, 1};
+ int _motion[2] = {0, 1};
+ int _easing[4] = {0, 1, 2, 3};
+
+ int test_case_max = 4 * 2 * 3 * 2 * 4;
+ int test_case = 0;
+ int test_case_d = 7; // 7 is the number of animated properties.
+
+ float _duration = 0.4f;
+ float _repeat_delay = _duration * 0.25f; // < _duration. cause real_duration = _duration - _repeat_delay;
+ float noise_maker = 0.0f;
+ // total testing time = ceil((4*2*3*2*4) / 7) * (_duration(=0.4) * 2 + 0.01) = 22.68 seconds
+ for( test_case = 0; test_case < test_case_max + test_case_d; test_case += test_case_d )
+ {
+ tet_printf( "test [%d ~ %d / %d]\n" , test_case, test_case + test_case_d - 1, test_case_max);
+
+ VisualFactory factory = VisualFactory::Get();
+ Property::Map propertyMap;
+ Property::Map animationMap;
+ propertyMap.Insert(Visual::Property::TYPE, DevelVisual::ANIMATED_GRADIENT);
+
+ int gradient_type = DevelAnimatedGradientVisual::GradientType::LINEAR;
+ int unit_type = DevelAnimatedGradientVisual::UnitType::USER_SPACE;
+ int spread_type = DevelAnimatedGradientVisual::SpreadType::REPEAT;
+
+ auto buildAnimatedMap = [&animationMap, &_direction, &_duration, &_delay, &_loop_count, &_repeat_delay, &_motion, &_easing, &test_case](const Property::Value &start, const Property::Value &target, int tc_offset)->Property::Map&
+ {
+ int tc = (test_case + tc_offset);
+ int idx_easing = tc % 4; tc /= 4;
+ int idx_motion = tc % 2; tc /= 2;
+ int idx_loop_count = tc % 3; tc /= 3;
+ int idx_direction = tc % 2; tc /= 2;
+ int idx_delay = tc % 4; tc /= 4;
+
+ float duration = _duration - _repeat_delay;
+ float repeat_delay = _repeat_delay;
+ float delay = _delay[idx_delay] * _duration;
+ int direction = _direction[idx_direction];
+ int loop_count = _loop_count[idx_loop_count];
+ int motion = _motion[idx_motion];
+ int easing = _easing[idx_easing];
+
+ animationMap.Clear();
+ animationMap.Insert( DevelAnimatedGradientVisual::AnimationParameter::Property::START, start );
+ animationMap.Insert( DevelAnimatedGradientVisual::AnimationParameter::Property::TARGET, target );
+ if( direction == 0 )
+ {
+ animationMap.Insert(DevelAnimatedGradientVisual::AnimationParameter::Property::DIRECTION, DevelAnimatedGradientVisual::AnimationParameter::DirectionType::FORWARD);
+ }
+ else
+ {
+ animationMap.Insert(DevelAnimatedGradientVisual::AnimationParameter::Property::DIRECTION, DevelAnimatedGradientVisual::AnimationParameter::DirectionType::BACKWARD);
+ }
+ animationMap.Insert(DevelAnimatedGradientVisual::AnimationParameter::Property::DURATION, duration);
+ animationMap.Insert(DevelAnimatedGradientVisual::AnimationParameter::Property::DELAY, delay);
+ animationMap.Insert(DevelAnimatedGradientVisual::AnimationParameter::Property::REPEAT, loop_count);
+ animationMap.Insert(DevelAnimatedGradientVisual::AnimationParameter::Property::REPEAT_DELAY, repeat_delay);
+ if( motion == 0 )
+ {
+ animationMap.Insert(DevelAnimatedGradientVisual::AnimationParameter::Property::MOTION_TYPE, DevelAnimatedGradientVisual::AnimationParameter::MotionType::LOOP);
+ }
+ else
+ {
+ animationMap.Insert(DevelAnimatedGradientVisual::AnimationParameter::Property::MOTION_TYPE, DevelAnimatedGradientVisual::AnimationParameter::MotionType::MIRROR);
+ }
+ if( easing == 0 )
+ {
+ animationMap.Insert(DevelAnimatedGradientVisual::AnimationParameter::Property::EASING_TYPE, DevelAnimatedGradientVisual::AnimationParameter::EasingType::LINEAR);
+ }
+ else if( easing == 1 )
+ {
+ animationMap.Insert(DevelAnimatedGradientVisual::AnimationParameter::Property::EASING_TYPE, DevelAnimatedGradientVisual::AnimationParameter::EasingType::IN);
+ }
+ else if( easing == 2 )
+ {
+ animationMap.Insert(DevelAnimatedGradientVisual::AnimationParameter::Property::EASING_TYPE, DevelAnimatedGradientVisual::AnimationParameter::EasingType::OUT);
+ }
+ else
+ {
+ animationMap.Insert(DevelAnimatedGradientVisual::AnimationParameter::Property::EASING_TYPE, DevelAnimatedGradientVisual::AnimationParameter::EasingType::IN_OUT);
+ }
+
+ return animationMap;
+ };
+
+ // Give different values for debuging
+ noise_maker += 1.0f;
+ Vector2 start1(-0.5f + noise_maker * 0.1f, 0.5f + noise_maker * 0.1f);
+ Vector2 end1 (0.5f + noise_maker * 0.1f, -0.5f + noise_maker * 0.1f);
+ Vector4 start_color1(1.0f, 0.7f, 0.5f, 1.0f);
+ Vector4 end_color1 (0.7f, 0.5f, 1.0f, 1.0f);
+ Vector2 rotate_center1(0.0f + noise_maker * 0.1f, 0.4f + noise_maker * 0.1f);
+ float rotate_amount1 = 0.0f + noise_maker * 0.1f;
+ float offset1 = 0.f + noise_maker * 0.1f;
+
+ Vector2 start2(0.2f + noise_maker * 0.1f, -0.7f + noise_maker * 0.1f);
+ Vector2 end2 (0.5f + noise_maker * 0.1f, 0.5f + noise_maker * 0.1f);
+ Vector4 start_color2(0.0f, 0.1f, 0.8f, 1.0f);
+ Vector4 end_color2 (0.3f, 1.0f, 0.1f, 0.0f);
+ Vector2 rotate_center2(0.0f + noise_maker * 0.1f, -0.4f + noise_maker * 0.1f);
+ float rotate_amount2 = 7.0f + noise_maker * 0.1f;
+ float offset2 = 2.f + noise_maker * 0.1f;
+
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::GRADIENT_TYPE, gradient_type);
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::UNIT_TYPE, unit_type);
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::SPREAD_TYPE, spread_type);
+
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::START_POSITION, buildAnimatedMap(start1 , start2 ,0));
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::END_POSITION, buildAnimatedMap(end1 , end2 ,1));
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::START_COLOR, buildAnimatedMap(start_color1 , start_color2 ,2));
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::END_COLOR, buildAnimatedMap(end_color1 , end_color2 ,3));
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::ROTATE_CENTER, buildAnimatedMap(rotate_center1, rotate_center2,4));
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::ROTATE_AMOUNT, buildAnimatedMap(rotate_amount1, rotate_amount2,5));
+ propertyMap.Insert(DevelAnimatedGradientVisual::Property::OFFSET, buildAnimatedMap(offset1 , offset2 ,6));
+
+ Visual::Base visual = factory.CreateVisual( propertyMap );
+
+ DummyControl actor = DummyControl::New( true );
+ Impl::DummyControl& dummyImpl = static_cast<Impl::DummyControl&>( actor.GetImplementation() );
+ dummyImpl.RegisterVisual( DummyControl::Property::TEST_VISUAL, visual );
+ actor.SetSize( 2000, 2000 );
+ actor.SetParentOrigin(ParentOrigin::CENTER);
+ actor.SetColor(Color::BLACK);
+ Stage::GetCurrent().Add(actor);
+
+ application.SendNotification();
+ application.Render( 0 );
+ application.SendNotification();
+
+ DALI_TEST_EQUALS( actor.GetRendererCount(), 1u, TEST_LOCATION);
+
+ application.SendNotification();
+
+ //Compare between CPU calculated value and Shader Visual calculated value
+ auto testProperty = [&application, &_direction, &_duration, &_delay, &_loop_count, &_repeat_delay, &_motion, &_easing, &test_case](const char* name, const Property::Value& start, const Property::Value& target, int tc_offset, int value_type, float progress)->void
+ {
+ int tc = (test_case + tc_offset);
+ int idx_easing = tc % 4; tc /= 4;
+ int idx_motion = tc % 2; tc /= 2;
+ int idx_loop_count = tc % 3; tc /= 3;
+ int idx_direction = tc % 2; tc /= 2;
+ int idx_delay = tc % 4; tc /= 4;
+
+ float duration = _duration - _repeat_delay;
+ float repeat_delay = _repeat_delay;
+ float delay = _delay[idx_delay] * _duration;
+ int direction = _direction[idx_direction];
+ int loop_count = _loop_count[idx_loop_count];
+ int motion = _motion[idx_motion];
+ int easing = _easing[idx_easing];
+
+ progress -= delay / _duration;
+
+ Property::Value s = start;
+ Property::Value t = target;
+ if( direction == 1 )
+ {
+ s = target;
+ t = start;
+ }
+ float x; ///< Animator progress value
+ if( loop_count == 0 )
+ {
+ x = 1.0f;
+ }
+ else if( loop_count > 0 && progress + 0.01f > loop_count )
+ {
+ x = ( motion == 0 ) ? 1.0f : 0.0f;
+ }
+ else
+ {
+ if( progress < 0.0f )
+ {
+ progress = 0.0f;
+ }
+ progress = fmodf( progress, 1.0f );
+ progress = Dali::Clamp( (progress * (duration + repeat_delay) - repeat_delay) / duration, 0.0f, 1.0f );
+
+ x = progress;
+ if( motion == 1 )
+ {
+ x = progress * 2.0f;
+ if( x > 1.0f )
+ {
+ x = 2.0f - x;
+ }
+ }
+
+ if( easing == 1 ) // EASE_IN
+ {
+ x = x*x;
+ }
+ else if( easing == 2 ) // EASE_OUT
+ {
+ x = 2.0f*x - x*x;
+ }
+ else if( easing == 3 ) // EASE_IN_OUT
+ {
+ x = x * x * (3.0f - 2.0f * x);
+ }
+ }
+ if( value_type == 0 ) // result type is Float
+ {
+ float res;
+ float cur;
+ res = s.Get<float>() * (1.0f - x) + t.Get<float>() * (x);
+ DALI_TEST_EQUALS( application.GetGlAbstraction().GetUniformValue<float>(name, cur), true, TEST_LOCATION );
+ DALI_TEST_EQUALS( res, cur, Math::MACHINE_EPSILON_100, TEST_LOCATION );
+ }
+ else if( value_type == 1 ) // result type is Vector2
+ {
+ Vector2 res;
+ Vector2 cur;
+ res = s.Get<Vector2>() * (1.0f - x) + t.Get<Vector2>() * (x);
+ DALI_TEST_EQUALS( application.GetGlAbstraction().GetUniformValue<Vector2>(name, cur), true, TEST_LOCATION );
+ DALI_TEST_EQUALS( res, cur, Math::MACHINE_EPSILON_100, TEST_LOCATION );
+ }
+ else if( value_type == 2 ) // result type is Vector3
+ {
+ Vector3 res;
+ Vector3 cur;
+ res = s.Get<Vector3>() * (1.0f - x) + t.Get<Vector3>() * (x);
+ DALI_TEST_EQUALS( application.GetGlAbstraction().GetUniformValue<Vector3>(name, cur), true, TEST_LOCATION );
+ DALI_TEST_EQUALS( res, cur, Math::MACHINE_EPSILON_100, TEST_LOCATION );
+ }
+ else // result type is Vector4
+ {
+ Vector4 res;
+ Vector4 cur;
+ res = s.Get<Vector4>() * (1.0f - x) + t.Get<Vector4>() * (x);
+ DALI_TEST_EQUALS( application.GetGlAbstraction().GetUniformValue<Vector4>(name, cur), true, TEST_LOCATION );
+ DALI_TEST_EQUALS( res, cur, Math::MACHINE_EPSILON_100, TEST_LOCATION );
+ }
+ };
+
+ float step = 0.0f;
+ for( int iter = 0; iter < 2; iter++ ) // test 2*duration seconds
+ {
+ for( int step_iter = 0; step_iter < 3; step_iter++ )
+ {
+ application.SendNotification();
+ application.Render( _duration * 250.f ); // step i/4
+ application.SendNotification();
+ step += 0.25f;
+
+ testProperty( "start_point" , Property::Value( start1 ) , Property::Value( start2 ) , 0, 1, step );
+ testProperty( "end_point" , Property::Value( end1 ) , Property::Value( end2 ) , 1, 1, step );
+ testProperty( "start_color" , Property::Value( start_color1 ) , Property::Value( start_color2 ) , 2, 3, step );
+ testProperty( "end_color" , Property::Value( end_color1 ) , Property::Value( end_color2 ) , 3, 3, step );
+ testProperty( "rotate_center" , Property::Value( rotate_center1 ), Property::Value( rotate_center2 ), 4, 1, step );
+ testProperty( "rotate_angle" , Property::Value( rotate_amount1 ), Property::Value( rotate_amount2 ), 5, 0, step );
+ testProperty( "gradient_offset", Property::Value( offset1 ) , Property::Value( offset2 ) , 6, 0, step );
+ }
+ application.SendNotification();
+ application.Render(_duration * 250.f); // step 4/4 will not test
+ application.SendNotification();
+ step += 0.25f;
+ }
+
+ application.SendNotification();
+ actor.Unparent();
+ application.SendNotification();
+ application.Render(10.f); // tempral time
+ application.SendNotification();
+ }
+ }
+
+ END_TEST;
+}
+
+int UtcDaliVisualAnimatedGradientVisual03(void)
+{
+ ToolkitTestApplication application;
+ tet_infoline( "UtcDaliAnimatedGradientVisual with full-option use string key" );
+
+ {
+ float _delay[4] = {0.0f, -1.35f, 0.15f, -0.4f}; // fract(_delay) must NOT be 1/4, 2/4, 3/4. cause we don't know progress is 1.0f or 0.0f
+ int _direction[2] = {0, 1};
+ int _loop_count[3] = {-1, 0, 1};
+ int _motion[2] = {0, 1};
+ int _easing[4] = {0, 1, 2, 3};
+
+ int test_case_max = 4 * 2 * 3 * 2 * 4;
+ int test_case = 0;
+ int test_case_d = 7; // 7 is the number of animated properties.
+
+ float _duration = 0.4f;
+ float _repeat_delay = _duration * 0.25f; // < _duration. cause real_duration = _duration - _repeat_delay;
+ float noise_maker = 0.2f;
+ // total testing time = ceil((4*2*3*2*4) / 7) * (_duration(=0.4) * 2 + 0.01) = 22.68 seconds
+ for( test_case = 0; test_case < test_case_max + test_case_d; test_case += test_case_d )
+ {
+ tet_printf( "test [%d ~ %d / %d]\n" , test_case, test_case + test_case_d - 1, test_case_max);
+
+ VisualFactory factory = VisualFactory::Get();
+ Property::Map propertyMap;
+ Property::Map animationMap;
+ propertyMap.Insert(Visual::Property::TYPE, DevelVisual::ANIMATED_GRADIENT);
+
+ auto buildAnimatedMap = [&animationMap, &_direction, &_duration, &_delay, &_loop_count, &_repeat_delay, &_motion, &_easing, &test_case](const Property::Value &start, const Property::Value &target, int tc_offset)->Property::Map&
+ {
+ int tc = (test_case + tc_offset);
+ int idx_easing = tc % 4; tc /= 4;
+ int idx_motion = tc % 2; tc /= 2;
+ int idx_loop_count = tc % 3; tc /= 3;
+ int idx_direction = tc % 2; tc /= 2;
+ int idx_delay = tc % 4; tc /= 4;
+
+ float duration = _duration - _repeat_delay;
+ float repeat_delay = _repeat_delay;
+ float delay = _delay[idx_delay] * _duration;
+ int direction = _direction[idx_direction];
+ int loop_count = _loop_count[idx_loop_count];
+ int motion = _motion[idx_motion];
+ int easing = _easing[idx_easing];
+
+ animationMap.Clear();
+ animationMap.Insert( "startValue", start );
+ animationMap.Insert( "targetValue", target );
+ if( direction == 0 )
+ {
+ animationMap.Insert("directionType", "FORWARD");
+ }
+ else
+ {
+ animationMap.Insert("directionType", "BACKWARD");
+ }
+ animationMap.Insert("duration", duration);
+ animationMap.Insert("delay", delay);
+ animationMap.Insert("repeat", loop_count);
+ animationMap.Insert("repeatDelay", repeat_delay);
+ if( motion == 0 )
+ {
+ animationMap.Insert("motionType", "LOOP");
+ }
+ else
+ {
+ animationMap.Insert("motionType", "MIRROR");
+ }
+ if( easing == 0 )
+ {
+ animationMap.Insert("easingType", "LINEAR");
+ }
+ else if( easing == 1 )
+ {
+ animationMap.Insert("easingType", "IN");
+ }
+ else if( easing == 2 )
+ {
+ animationMap.Insert("easingType", "OUT");
+ }
+ else
+ {
+ animationMap.Insert("easingType", "IN_OUT");
+ }
+
+ return animationMap;
+ };
+
+ // Give different values for debuging
+ noise_maker += 0.8f;
+ Vector2 start1(-0.5f + noise_maker * 0.1f, 0.5f + noise_maker * 0.1f);
+ Vector2 end1 (0.5f + noise_maker * 0.1f, -0.5f + noise_maker * 0.1f);
+ Vector4 start_color1(1.0f, 0.7f, 0.5f, 1.0f);
+ Vector4 end_color1 (0.7f, 0.5f, 1.0f, 1.0f);
+ Vector2 rotate_center1(0.0f + noise_maker * 0.1f, 0.4f + noise_maker * 0.1f);
+ float rotate_amount1 = 0.0f + noise_maker * 0.1f;
+ float offset1 = 0.f + noise_maker * 0.1f;
+
+ Vector2 start2(0.2f + noise_maker * 0.1f, -0.7f + noise_maker * 0.1f);
+ Vector2 end2 (0.5f + noise_maker * 0.1f, 0.5f + noise_maker * 0.1f);
+ Vector4 start_color2(0.0f, 0.1f, 0.8f, 1.0f);
+ Vector4 end_color2 (0.3f, 1.0f, 0.1f, 0.0f);
+ Vector2 rotate_center2(0.0f + noise_maker * 0.1f, -0.4f + noise_maker * 0.1f);
+ float rotate_amount2 = 7.0f + noise_maker * 0.1f;
+ float offset2 = 2.f + noise_maker * 0.1f;
+
+ propertyMap.Insert("gradientType", "LINEAR");
+ propertyMap.Insert("unitType", "USER_SPACE");
+ propertyMap.Insert("spreadType", "CLAMP");
+
+ propertyMap.Insert("startPosition", buildAnimatedMap(start1 , start2 ,0));
+ propertyMap.Insert("endPosition", buildAnimatedMap(end1 , end2 ,1));
+ propertyMap.Insert("startColor", buildAnimatedMap(start_color1 , start_color2 ,2));
+ propertyMap.Insert("endColor", buildAnimatedMap(end_color1 , end_color2 ,3));
+ propertyMap.Insert("rotateCenter", buildAnimatedMap(rotate_center1, rotate_center2,4));
+ propertyMap.Insert("rotateAmount", buildAnimatedMap(rotate_amount1, rotate_amount2,5));
+ propertyMap.Insert("offset", buildAnimatedMap(offset1 , offset2 ,6));
+
+ Visual::Base visual = factory.CreateVisual( propertyMap );
+
+ DummyControl actor = DummyControl::New( true );
+ Impl::DummyControl& dummyImpl = static_cast<Impl::DummyControl&>( actor.GetImplementation() );
+ dummyImpl.RegisterVisual( DummyControl::Property::TEST_VISUAL, visual );
+ actor.SetSize( 2000, 2000 );
+ actor.SetParentOrigin(ParentOrigin::CENTER);
+ actor.SetColor(Color::BLACK);
+ Stage::GetCurrent().Add(actor);
+
+ application.SendNotification();
+ application.Render( 0 );
+ application.SendNotification();
+
+ DALI_TEST_EQUALS( actor.GetRendererCount(), 1u, TEST_LOCATION);
+
+ application.SendNotification();
+
+ //Compare between CPU calculated value and Shader Visual calculated value
+ auto testProperty = [&application, &_direction, &_duration, &_delay, &_loop_count, &_repeat_delay, &_motion, &_easing, &test_case](const char* name, const Property::Value& start, const Property::Value& target, int tc_offset, int value_type, float progress)->void
+ {
+ int tc = (test_case + tc_offset);
+ int idx_easing = tc % 4; tc /= 4;
+ int idx_motion = tc % 2; tc /= 2;
+ int idx_loop_count = tc % 3; tc /= 3;
+ int idx_direction = tc % 2; tc /= 2;
+ int idx_delay = tc % 4; tc /= 4;
+
+ float duration = _duration - _repeat_delay;
+ float repeat_delay = _repeat_delay;
+ float delay = _delay[idx_delay] * _duration;
+ int direction = _direction[idx_direction];
+ int loop_count = _loop_count[idx_loop_count];
+ int motion = _motion[idx_motion];
+ int easing = _easing[idx_easing];
+
+ progress -= delay / _duration;
+
+ Property::Value s = start;
+ Property::Value t = target;
+ if( direction == 1 )
+ {
+ s = target;
+ t = start;
+ }
+ float x; ///< Animator progress value
+ if( loop_count == 0 )
+ {
+ x = 1.0f;
+ }
+ else if( loop_count > 0 && progress + 0.01f > loop_count )
+ {
+ x = ( motion == 0 ) ? 1.0f : 0.0f;
+ }
+ else
+ {
+ if( progress < 0.0f )
+ {
+ progress = 0.0f;
+ }
+ progress = fmodf( progress, 1.0f );
+ progress = Dali::Clamp( (progress * (duration + repeat_delay) - repeat_delay) / duration, 0.0f, 1.0f );
+
+ x = progress;
+ if( motion == 1 )
+ {
+ x = progress * 2.0f;
+ if( x > 1.0f )
+ {
+ x = 2.0f - x;
+ }
+ }
+
+ if( easing == 1 ) // EASE_IN
+ {
+ x = x*x;
+ }
+ else if( easing == 2 ) // EASE_OUT
+ {
+ x = 2.0f*x - x*x;
+ }
+ else if( easing == 3 ) // EASE_IN_OUT
+ {
+ x = x * x * (3.0f - 2.0f * x);
+ }
+ }
+ if( value_type == 0 ) // result type is Float
+ {
+ float res;
+ float cur;
+ res = s.Get<float>() * (1.0f - x) + t.Get<float>() * (x);
+ DALI_TEST_EQUALS( application.GetGlAbstraction().GetUniformValue<float>(name, cur), true, TEST_LOCATION );
+ DALI_TEST_EQUALS( res, cur, Math::MACHINE_EPSILON_100, TEST_LOCATION );
+ }
+ else if( value_type == 1 ) // result type is Vector2
+ {
+ Vector2 res;
+ Vector2 cur;
+ res = s.Get<Vector2>() * (1.0f - x) + t.Get<Vector2>() * (x);
+ DALI_TEST_EQUALS( application.GetGlAbstraction().GetUniformValue<Vector2>(name, cur), true, TEST_LOCATION );
+ DALI_TEST_EQUALS( res, cur, Math::MACHINE_EPSILON_100, TEST_LOCATION );
+ }
+ else if( value_type == 2 ) // result type is Vector3
+ {
+ Vector3 res;
+ Vector3 cur;
+ res = s.Get<Vector3>() * (1.0f - x) + t.Get<Vector3>() * (x);
+ DALI_TEST_EQUALS( application.GetGlAbstraction().GetUniformValue<Vector3>(name, cur), true, TEST_LOCATION );
+ DALI_TEST_EQUALS( res, cur, Math::MACHINE_EPSILON_100, TEST_LOCATION );
+ }
+ else // result type is Vector4
+ {
+ Vector4 res;
+ Vector4 cur;
+ res = s.Get<Vector4>() * (1.0f - x) + t.Get<Vector4>() * (x);
+ DALI_TEST_EQUALS( application.GetGlAbstraction().GetUniformValue<Vector4>(name, cur), true, TEST_LOCATION );
+ DALI_TEST_EQUALS( res, cur, Math::MACHINE_EPSILON_100, TEST_LOCATION );
+ }
+ };
+
+ float step = 0.0f;
+ for( int iter = 0; iter < 2; iter++ ) // test 2*duration seconds
+ {
+ for( int step_iter = 0; step_iter < 3; step_iter++ )
+ {
+ application.SendNotification();
+ application.Render( _duration * 250.f ); // step i/4
+ application.SendNotification();
+ step += 0.25f;
+
+ testProperty( "start_point" , Property::Value( start1 ) , Property::Value( start2 ) , 0, 1, step );
+ testProperty( "end_point" , Property::Value( end1 ) , Property::Value( end2 ) , 1, 1, step );
+ testProperty( "start_color" , Property::Value( start_color1 ) , Property::Value( start_color2 ) , 2, 3, step );
+ testProperty( "end_color" , Property::Value( end_color1 ) , Property::Value( end_color2 ) , 3, 3, step );
+ testProperty( "rotate_center" , Property::Value( rotate_center1 ), Property::Value( rotate_center2 ), 4, 1, step );
+ testProperty( "rotate_angle" , Property::Value( rotate_amount1 ), Property::Value( rotate_amount2 ), 5, 0, step );
+ testProperty( "gradient_offset", Property::Value( offset1 ) , Property::Value( offset2 ) , 6, 0, step );
+ }
+ application.SendNotification();
+ application.Render(_duration * 250.f); // step 4/4 will not test
+ application.SendNotification();
+ step += 0.25f;
+ }
+
+ application.SendNotification();
+ actor.Unparent();
+ application.SendNotification();
+ application.Render(10.f); // tempral time
+ application.SendNotification();
+ }
+ }
+
+ END_TEST;
+}
int UtcDaliVisualWireframeVisual(void)
{
VisualFactory factory = VisualFactory::Get();
Property::Map propertyMap;
- propertyMap.Insert( Visual::Property::TYPE, Visual::WIREFRAME );
+ propertyMap.Insert( Toolkit::Visual::Property::TYPE, Visual::WIREFRAME );
// Create the visual.
Visual::Base visual = factory.CreateVisual( propertyMap );
visual.CreatePropertyMap( resultMap );
// Check the property values from the returned map from visual
- Property::Value* value = resultMap.Find( Visual::Property::TYPE, Property::INTEGER );
+ Property::Value* value = resultMap.Find( Toolkit::Visual::Property::TYPE, Property::INTEGER );
DALI_TEST_CHECK( value );
DALI_TEST_CHECK( value->Get<int>() == Visual::WIREFRAME );
Dali::Property::Map visualMap;
colorVisual.CreatePropertyMap( visualMap );
- Property::Value* value = visualMap.Find( Dali::Toolkit::DevelVisual::Property::TRANSFORM );
+ Property::Value* value = visualMap.Find( Dali::Toolkit::Visual::Property::TRANSFORM );
Dali::Property::Map* map = value->GetMap();
DALI_TEST_CHECK( map );
//Test default values
{
- Property::Value* typeValue = map->Find( Toolkit::DevelVisual::Transform::Property::OFFSET );
+ Property::Value* typeValue = map->Find( Toolkit::Visual::Transform::Property::OFFSET );
DALI_TEST_CHECK( typeValue );
DALI_TEST_CHECK( typeValue->Get<Vector2>() == Vector2(0.0f,0.0f) );
}
{
- Property::Value* typeValue = map->Find( Toolkit::DevelVisual::Transform::Property::SIZE );
+ Property::Value* typeValue = map->Find( Toolkit::Visual::Transform::Property::SIZE );
DALI_TEST_CHECK( typeValue );
DALI_TEST_CHECK( typeValue->Get<Vector2>() == Vector2(1.0f,1.0f) );
}
{
- Property::Value* typeValue = map->Find( Toolkit::DevelVisual::Transform::Property::OFFSET_POLICY );
+ Property::Value* typeValue = map->Find( Toolkit::Visual::Transform::Property::OFFSET_POLICY );
DALI_TEST_CHECK( typeValue );
- DALI_TEST_CHECK( typeValue->Get< Vector2 >() == Vector2( Toolkit::DevelVisual::Transform::Policy::RELATIVE, Toolkit::DevelVisual::Transform::Policy::RELATIVE ) );
+ DALI_TEST_CHECK( typeValue->Get< Vector2 >() == Vector2( Toolkit::Visual::Transform::Policy::RELATIVE, Toolkit::Visual::Transform::Policy::RELATIVE ) );
}
{
- Property::Value* typeValue = map->Find( Toolkit::DevelVisual::Transform::Property::SIZE_POLICY );
+ Property::Value* typeValue = map->Find( Toolkit::Visual::Transform::Property::SIZE_POLICY );
DALI_TEST_CHECK( typeValue );
- DALI_TEST_CHECK( typeValue->Get< Vector2 >() == Vector2( Toolkit::DevelVisual::Transform::Policy::RELATIVE, Toolkit::DevelVisual::Transform::Policy::RELATIVE ) );
+ DALI_TEST_CHECK( typeValue->Get< Vector2 >() == Vector2( Toolkit::Visual::Transform::Policy::RELATIVE, Toolkit::Visual::Transform::Policy::RELATIVE ) );
}
{
- Property::Value* typeValue = map->Find( Toolkit::DevelVisual::Transform::Property::ORIGIN );
+ Property::Value* typeValue = map->Find( Toolkit::Visual::Transform::Property::ORIGIN );
DALI_TEST_CHECK( typeValue );
- DALI_TEST_CHECK( (Toolkit::Align::Type)typeValue->Get<int>() == Toolkit::Align::CENTER );
+ DALI_TEST_CHECK( (Toolkit::Align::Type)typeValue->Get<int>() == Toolkit::Align::TOP_BEGIN );
}
{
- Property::Value* typeValue = map->Find( Toolkit::DevelVisual::Transform::Property::ANCHOR_POINT );
+ Property::Value* typeValue = map->Find( Toolkit::Visual::Transform::Property::ANCHOR_POINT );
DALI_TEST_CHECK( typeValue );
- DALI_TEST_CHECK( (Toolkit::Align::Type)typeValue->Get<int>() == Toolkit::Align::CENTER );
+ DALI_TEST_CHECK( (Toolkit::Align::Type)typeValue->Get<int>() == Toolkit::Align::TOP_BEGIN );
}
END_TEST;
static void TestTransform( ToolkitTestApplication& application, Visual::Base visual )
{
Property::Map transform;
- transform.Insert( DevelVisual::Transform::Property::OFFSET, Vector2(10.0f, 10.0f) );
- transform.Insert( DevelVisual::Transform::Property::SIZE, Vector2(0.2f, 0.2f) );
- transform.Insert( DevelVisual::Transform::Property::OFFSET_POLICY, Vector2( Toolkit::DevelVisual::Transform::Policy::ABSOLUTE, Toolkit::DevelVisual::Transform::Policy::ABSOLUTE ) );
- transform.Insert( DevelVisual::Transform::Property::ORIGIN, "TOP_BEGIN" );
- transform.Insert( DevelVisual::Transform::Property::ANCHOR_POINT, Toolkit::Align::BOTTOM_END );
+ transform.Insert( Visual::Transform::Property::OFFSET, Vector2(10.0f, 10.0f) );
+ transform.Insert( Visual::Transform::Property::SIZE, Vector2(0.2f, 0.2f) );
+ transform.Insert( Visual::Transform::Property::OFFSET_POLICY, Vector2( Toolkit::Visual::Transform::Policy::ABSOLUTE, Toolkit::Visual::Transform::Policy::ABSOLUTE ) );
+ transform.Insert( Visual::Transform::Property::ORIGIN, "CENTER" );
+ transform.Insert( Visual::Transform::Property::ANCHOR_POINT, Toolkit::Align::BOTTOM_END );
visual.SetTransformAndSize( transform, Vector2(100, 100) );
Dali::Property::Map visualMap;
visual.CreatePropertyMap( visualMap );
- Property::Value* value = visualMap.Find( Dali::Toolkit::DevelVisual::Property::TRANSFORM );
+ Property::Value* value = visualMap.Find( Dali::Toolkit::Visual::Property::TRANSFORM );
Dali::Property::Map* map = value->GetMap();
DALI_TEST_CHECK( map );
{
- Property::Value* typeValue = map->Find( Toolkit::DevelVisual::Transform::Property::OFFSET );
+ Property::Value* typeValue = map->Find( Toolkit::Visual::Transform::Property::OFFSET );
DALI_TEST_CHECK( typeValue );
DALI_TEST_EQUALS( typeValue->Get<Vector2>(),Vector2(10.0f,10.0f), TEST_LOCATION );
}
{
- Property::Value* typeValue = map->Find( Toolkit::DevelVisual::Transform::Property::SIZE );
+ Property::Value* typeValue = map->Find( Toolkit::Visual::Transform::Property::SIZE );
DALI_TEST_CHECK( typeValue );
DALI_TEST_EQUALS( typeValue->Get<Vector2>(), Vector2(0.2f,0.2f), TEST_LOCATION );
}
{
- Property::Value* typeValue = map->Find( Toolkit::DevelVisual::Transform::Property::OFFSET_POLICY );
+ Property::Value* typeValue = map->Find( Toolkit::Visual::Transform::Property::OFFSET_POLICY );
DALI_TEST_CHECK( typeValue );
- DALI_TEST_EQUALS( typeValue->Get< Vector2 >(), Vector2( Toolkit::DevelVisual::Transform::Policy::ABSOLUTE, Toolkit::DevelVisual::Transform::Policy::ABSOLUTE ), TEST_LOCATION );
+ DALI_TEST_EQUALS( typeValue->Get< Vector2 >(), Vector2( Toolkit::Visual::Transform::Policy::ABSOLUTE, Toolkit::Visual::Transform::Policy::ABSOLUTE ), TEST_LOCATION );
}
{
- Property::Value* typeValue = map->Find( Toolkit::DevelVisual::Transform::Property::SIZE_POLICY );
+ Property::Value* typeValue = map->Find( Toolkit::Visual::Transform::Property::SIZE_POLICY );
DALI_TEST_CHECK( typeValue );
- DALI_TEST_EQUALS( typeValue->Get< Vector2 >(), Vector2( Toolkit::DevelVisual::Transform::Policy::RELATIVE, Toolkit::DevelVisual::Transform::Policy::RELATIVE ), TEST_LOCATION );
+ DALI_TEST_EQUALS( typeValue->Get< Vector2 >(), Vector2( Toolkit::Visual::Transform::Policy::RELATIVE, Toolkit::Visual::Transform::Policy::RELATIVE ), TEST_LOCATION );
}
{
- Property::Value* typeValue = map->Find( Toolkit::DevelVisual::Transform::Property::ORIGIN );
+ Property::Value* typeValue = map->Find( Toolkit::Visual::Transform::Property::ORIGIN );
DALI_TEST_CHECK( typeValue );
- DALI_TEST_EQUALS( (Toolkit::Align::Type)typeValue->Get<int>(), Toolkit::Align::TOP_BEGIN, TEST_LOCATION );
+ DALI_TEST_EQUALS( (Toolkit::Align::Type)typeValue->Get<int>(), Toolkit::Align::CENTER, TEST_LOCATION );
}
{
- Property::Value* typeValue = map->Find( Toolkit::DevelVisual::Transform::Property::ANCHOR_POINT );
+ Property::Value* typeValue = map->Find( Toolkit::Visual::Transform::Property::ANCHOR_POINT );
DALI_TEST_CHECK( typeValue );
DALI_TEST_EQUALS( (Toolkit::Align::Type)typeValue->Get<int>(), Toolkit::Align::BOTTOM_END, TEST_LOCATION );
}
index = renderer.GetPropertyIndex( "origin" );
DALI_TEST_CHECK( index != Property::INVALID_INDEX );
Vector2 parentOrigin = renderer.GetProperty<Vector2>( index );
- DALI_TEST_EQUALS( parentOrigin, Vector2(-0.5f,-0.5f), TEST_LOCATION );
+ DALI_TEST_EQUALS( parentOrigin, Vector2(0.0f,0.0f), TEST_LOCATION );
index = renderer.GetPropertyIndex( "anchorPoint" );
DALI_TEST_CHECK( index != Property::INVALID_INDEX );
//Set a new transform
transform.Clear();
transform = DefaultTransform();
- transform.Insert( DevelVisual::Transform::Property::OFFSET, Vector2(20.0f, 20.0f) );
- transform.Insert( DevelVisual::Transform::Property::SIZE, Vector2(100.0f, 100.0f) );
- transform.Insert( DevelVisual::Transform::Property::SIZE_POLICY, Vector2( Toolkit::DevelVisual::Transform::Policy::ABSOLUTE, Toolkit::DevelVisual::Transform::Policy::ABSOLUTE ) );
+ transform.Insert( Visual::Transform::Property::OFFSET, Vector2(20.0f, 20.0f) );
+ transform.Insert( Visual::Transform::Property::SIZE, Vector2(100.0f, 100.0f) );
+ transform.Insert( Visual::Transform::Property::SIZE_POLICY, Vector2( Toolkit::Visual::Transform::Policy::ABSOLUTE, Toolkit::Visual::Transform::Policy::ABSOLUTE ) );
visual.SetTransformAndSize( transform, Vector2(100, 100) );
application.SendNotification();
application.Render(0);
offsetSizeMode = renderer.GetProperty<Vector4>( renderer.GetPropertyIndex( "offsetSizeMode" ) );
DALI_TEST_EQUALS( offsetSizeMode, Vector4(0.0f,0.0f,1.0f,1.0f), TEST_LOCATION );
- //Parent origin and anchor point should have default values
+ //Parent origin and anchor point should have the default values
parentOrigin = renderer.GetProperty<Vector2>( renderer.GetPropertyIndex( "origin" ) );
- DALI_TEST_EQUALS( parentOrigin, Vector2(0.0f,0.0f), TEST_LOCATION );
+ DALI_TEST_EQUALS( parentOrigin, Vector2(-0.5f,-0.5f), TEST_LOCATION );
anchorPoint = renderer.GetProperty<Vector2>( renderer.GetPropertyIndex( "anchorPoint" ) );
- DALI_TEST_EQUALS( anchorPoint, Vector2(0.0f,0.0f), TEST_LOCATION );
+ DALI_TEST_EQUALS( anchorPoint, Vector2(0.5f,0.5f), TEST_LOCATION );
}
int UtcDaliVisualSetTransform0(void)
VisualFactory factory = VisualFactory::Get();
Property::Map propertyMap;
- propertyMap[ Visual::Property::TYPE ] = Visual::PRIMITIVE;
+ propertyMap[ Toolkit::Visual::Property::TYPE ] = Visual::PRIMITIVE;
propertyMap[ PrimitiveVisual::Property::MIX_COLOR ] = Color::WHITE;
propertyMap[ PrimitiveVisual::Property::SHAPE ] = PrimitiveVisual::Shape::SPHERE;
propertyMap[ PrimitiveVisual::Property::SLICES ] = 10;
VisualFactory factory = VisualFactory::Get();
Property::Map propertyMap;
- propertyMap.Insert( Visual::Property::TYPE, Visual::GRADIENT );
- propertyMap.Insert( DevelVisual::Property::MIX_COLOR, Color::GREEN );
+ propertyMap.Insert( Toolkit::Visual::Property::TYPE, Visual::GRADIENT );
+ propertyMap.Insert( Visual::Property::MIX_COLOR, Color::GREEN );
Property::Array stopOffsets;
stopOffsets.PushBack( 0.0f );
propertyMap.Insert( GradientVisual::Property::RADIUS, 1.414f );
Visual::Base visual = factory.CreateVisual( propertyMap );
TestTransform( application, visual );
- TestMixColor( visual, DevelVisual::Property::MIX_COLOR, Color::GREEN );
+ TestMixColor( visual, Visual::Property::MIX_COLOR, Color::GREEN );
END_TEST;
}
VisualFactory factory = VisualFactory::Get();
Property::Map propertyMap;
- propertyMap.Insert( Visual::Property::TYPE, Visual::BORDER );
- propertyMap.Insert( DevelVisual::Property::MIX_COLOR, Color::MAGENTA );
+ propertyMap.Insert( Toolkit::Visual::Property::TYPE, Visual::BORDER );
+ propertyMap.Insert( Visual::Property::MIX_COLOR, Color::MAGENTA );
propertyMap.Insert( BorderVisual::Property::COLOR, Vector4(0.f, 1.f, 0.f, 0.6f) );
propertyMap.Insert( BorderVisual::Property::SIZE, 3.0f );
Visual::Base visual = factory.CreateVisual( propertyMap );
TestTransform( application, visual );
- TestMixColor( visual, DevelVisual::Property::MIX_COLOR, Color::MAGENTA );
+ TestMixColor( visual, Visual::Property::MIX_COLOR, Color::MAGENTA );
END_TEST;
}
VisualFactory factory = VisualFactory::Get();
Property::Map propertyMap;
- propertyMap.Insert( Visual::Property::TYPE, Visual::MESH );
- propertyMap.Insert( DevelVisual::Property::MIX_COLOR, Color::CYAN );
+ propertyMap.Insert( Toolkit::Visual::Property::TYPE, Visual::MESH );
+ propertyMap.Insert( Visual::Property::MIX_COLOR, Color::CYAN );
propertyMap.Insert( "objectUrl", TEST_OBJ_FILE_NAME );
propertyMap.Insert( "materialUrl", TEST_MTL_FILE_NAME );
propertyMap.Insert( "lightPosition", Vector3( 5.0f, 10.0f, 15.0f) );
Visual::Base visual = factory.CreateVisual( propertyMap );
TestTransform( application, visual );
- TestMixColor( visual, DevelVisual::Property::MIX_COLOR, Color::CYAN );
+ TestMixColor( visual, Visual::Property::MIX_COLOR, Color::CYAN );
END_TEST;
}
Image image = ResourceImage::New(TEST_IMAGE_FILE_NAME, ImageDimensions(100, 200));
Visual::Base visual = factory.CreateVisual(image);
TestTransform( application, visual );
- TestMixColor( visual, DevelVisual::Property::MIX_COLOR, Color::WHITE );
+ TestMixColor( visual, Visual::Property::MIX_COLOR, Color::WHITE );
END_TEST;
}
VisualFactory factory = VisualFactory::Get();
Property::Map propertyMap;
propertyMap[Toolkit::Visual::Property::TYPE] = Toolkit::Visual::IMAGE;
- propertyMap[DevelVisual::Property::MIX_COLOR] = Color::YELLOW;
+ propertyMap[Visual::Property::MIX_COLOR] = Color::YELLOW;
propertyMap[Toolkit::ImageVisual::Property::URL] = TEST_IMAGE_FILE_NAME;
propertyMap[Toolkit::ImageVisual::Property::DESIRED_WIDTH] = 100.0f;
propertyMap[Toolkit::ImageVisual::Property::DESIRED_HEIGHT] = 100.0f;
propertyMap[Toolkit::ImageVisual::Property::SYNCHRONOUS_LOADING] = true;
Visual::Base visual = factory.CreateVisual(propertyMap);
TestTransform( application, visual );
- TestMixColor( visual, DevelVisual::Property::MIX_COLOR, Color::YELLOW );
+ TestMixColor( visual, Visual::Property::MIX_COLOR, Color::YELLOW );
END_TEST;
}
Image image = ResourceImage::New(TEST_NPATCH_FILE_NAME, ImageDimensions(100, 200));
Visual::Base visual = factory.CreateVisual(image);
TestTransform( application, visual );
- TestMixColor( visual, DevelVisual::Property::MIX_COLOR, Color::WHITE );
+ TestMixColor( visual, Visual::Property::MIX_COLOR, Color::WHITE );
END_TEST;
}
Dali::Property::Map visualMap;
visual.CreatePropertyMap( visualMap );
- Property::Value* value = visualMap.Find( Dali::Toolkit::DevelVisual::Property::TRANSFORM );
+ Property::Value* value = visualMap.Find( Dali::Toolkit::Visual::Property::TRANSFORM );
Dali::Property::Map* map = value->GetMap();
DALI_TEST_CHECK( map );
{
- Property::Value* typeValue = map->Find( Toolkit::DevelVisual::Transform::Property::OFFSET_POLICY );
+ Property::Value* typeValue = map->Find( Toolkit::Visual::Transform::Property::OFFSET_POLICY );
DALI_TEST_CHECK( typeValue );
- DALI_TEST_EQUALS( typeValue->Get< Vector2 >(), Vector2( Toolkit::DevelVisual::Transform::Policy::ABSOLUTE, Toolkit::DevelVisual::Transform::Policy::RELATIVE ), TEST_LOCATION );
+ DALI_TEST_EQUALS( typeValue->Get< Vector2 >(), Vector2( Toolkit::Visual::Transform::Policy::ABSOLUTE, Toolkit::Visual::Transform::Policy::RELATIVE ), TEST_LOCATION );
}
{
- Property::Value* typeValue = map->Find( Toolkit::DevelVisual::Transform::Property::SIZE_POLICY );
+ Property::Value* typeValue = map->Find( Toolkit::Visual::Transform::Property::SIZE_POLICY );
DALI_TEST_CHECK( typeValue );
- DALI_TEST_EQUALS( typeValue->Get< Vector2 >(), Vector2( Toolkit::DevelVisual::Transform::Policy::RELATIVE, Toolkit::DevelVisual::Transform::Policy::ABSOLUTE ), TEST_LOCATION );
+ DALI_TEST_EQUALS( typeValue->Get< Vector2 >(), Vector2( Toolkit::Visual::Transform::Policy::RELATIVE, Toolkit::Visual::Transform::Policy::ABSOLUTE ), TEST_LOCATION );
}
END_TEST;
VisualFactory factory = VisualFactory::Get();
Property::Map properties;
Property::Map shader;
+ const std::string vertexShader = "Foobar";
const std::string fragmentShader = "Foobar";
shader[Dali::Toolkit::Visual::Shader::Property::FRAGMENT_SHADER] = fragmentShader;
+ shader[Dali::Toolkit::Visual::Shader::Property::VERTEX_SHADER] = vertexShader;
Property::Map transformMap;
transformMap["size"] = Vector2( 0.5f, 0.5f ) ;
transformMap["offset"] = Vector2( 20.0f, 0.0f ) ;
- transformMap["offsetPolicy"] = Vector2( DevelVisual::Transform::Policy::ABSOLUTE, DevelVisual::Transform::Policy::ABSOLUTE );
+ transformMap["offsetPolicy"] = Vector2( Visual::Transform::Policy::ABSOLUTE, Visual::Transform::Policy::ABSOLUTE );
transformMap["anchorPoint"] = Align::CENTER;
transformMap["origin"] = Align::CENTER;
- properties[DevelVisual::Property::TRANSFORM] = transformMap;
+ properties[Visual::Property::TRANSFORM] = transformMap;
properties[Visual::Property::TYPE] = Visual::IMAGE;
- properties[DevelVisual::Property::MIX_COLOR] = Color::BLUE;
+ properties[Visual::Property::MIX_COLOR] = Color::BLUE;
properties[Visual::Property::SHADER]=shader;
properties[ImageVisual::Property::URL] = TEST_NPATCH_FILE_NAME;
Visual::Base visual = factory.CreateVisual( properties );
- TestMixColor( visual, DevelVisual::Property::MIX_COLOR, Color::BLUE );
+ TestMixColor( visual, Visual::Property::MIX_COLOR, Color::BLUE );
// trigger creation through setting on stage
DummyControl dummy = DummyControl::New(true);
DALI_TEST_EQUALS( renderer.GetProperty( index ), Property::Value(Vector2(0.5, 0.5)), 0.001, TEST_LOCATION );
Property::Value* fragment = map->Find( "fragment" ); // fragment key name from shader-impl.cpp
- // *map["vertex"]; is default here so not verifying it
-
DALI_TEST_EQUALS( fragmentShader, fragment->Get<std::string>(), TEST_LOCATION );
+ Property::Value* vertex = map->Find( "vertex" ); // vertex key name from shader-impl.cpp
+ DALI_TEST_EQUALS( vertexShader, vertex->Get<std::string>(), TEST_LOCATION );
+
END_TEST;
}
VisualFactory factory = VisualFactory::Get();
Visual::Base opaqueGradientVisual = factory.CreateVisual(
- Property::Map().Add( Visual::Property::TYPE, Visual::GRADIENT )
+ Property::Map().Add( Toolkit::Visual::Property::TYPE, Visual::GRADIENT )
.Add( GradientVisual::Property::START_POSITION, Vector2( -0.5f, -0.5f ) )
.Add( GradientVisual::Property::END_POSITION, Vector2( 0.5f, 0.5f ) )
.Add( GradientVisual::Property::STOP_COLOR, Property::Array().Add( Color::RED )
.Add( Color::GREEN ) ) );
Visual::Base alphaGradientVisual = factory.CreateVisual(
- Property::Map().Add( Visual::Property::TYPE, Visual::GRADIENT )
+ Property::Map().Add( Toolkit::Visual::Property::TYPE, Visual::GRADIENT )
.Add( GradientVisual::Property::START_POSITION, Vector2( -0.5f, -0.5f ) )
.Add( GradientVisual::Property::END_POSITION, Vector2( 0.5f, 0.5f ) )
.Add( GradientVisual::Property::STOP_COLOR, Property::Array().Add( Color::RED )
propertyMap.Insert(ColorVisual::Property::MIX_COLOR, Color::BLUE);
Visual::Base visual = factory.CreateVisual( propertyMap );
- visual.SetDepthIndex( 1.f );
+ visual.SetDepthIndex( 1 );
DummyControl dummyControl = DummyControl::New(true);
Impl::DummyControl& dummyImpl = static_cast<Impl::DummyControl&>(dummyControl.GetImplementation());
VisualFactory factory = VisualFactory::Get();
Property::Map propertyMap;
- propertyMap.Insert( Visual::Property::TYPE, DevelVisual::TEXT );
+ propertyMap.Insert( Toolkit::Visual::Property::TYPE, Visual::TEXT );
propertyMap.Insert( "mixColor", Color::WHITE );
propertyMap.Insert( "renderingBackend", static_cast<int>( Toolkit::Text::DEFAULT_RENDERING_BACKEND ) );
propertyMap.Insert( "enableMarkup", false );
propertyMap.Insert( "verticalAlignment", "CENTER" );
propertyMap.Insert( "textColor", Color::RED );
Visual::Base textVisual = factory.CreateVisual( propertyMap );
- textVisual.SetDepthIndex( 1.f );
+ textVisual.SetDepthIndex( 1 );
DummyControl dummyControl = DummyControl::New(true);
Impl::DummyControl& dummyImpl = static_cast<Impl::DummyControl&>(dummyControl.GetImplementation());
// Create a texture bigger than the maximum allowed by the image atlas. Used to increase coverage.
propertyMap.Clear();
- propertyMap.Insert( Visual::Property::TYPE, DevelVisual::TEXT );
+ propertyMap.Insert( Toolkit::Visual::Property::TYPE, Visual::TEXT );
propertyMap.Insert( TextVisual::Property::ENABLE_MARKUP, true );
propertyMap.Insert( TextVisual::Property::TEXT, "<font family='TizenSans' size='12'>Hello world</font>" );
propertyMap.Insert( TextVisual::Property::MULTI_LINE, true );
Property::Map transformMap;
transformMap.Insert( "size", Vector2( 0.5f, 0.5f ) );
- propertyMap.Insert( DevelVisual::Property::TRANSFORM, transformMap );
+ propertyMap.Insert( Visual::Property::TRANSFORM, transformMap );
textVisual = factory.CreateVisual( propertyMap );
- textVisual.SetDepthIndex( 1.f );
+ textVisual.SetDepthIndex( 1 );
dummyImpl.RegisterVisual( DummyControl::Property::TEST_VISUAL, textVisual );
dummyControl.SetSize( 720.f, 640.f );
VisualFactory factory = VisualFactory::Get();
Property::Map propertyMap;
- propertyMap.Insert( Visual::Property::TYPE, DevelVisual::TEXT );
+ propertyMap.Insert( Toolkit::Visual::Property::TYPE, Visual::TEXT );
propertyMap.Insert( "mixColor", Color::WHITE );
propertyMap.Insert( "renderingBackend", static_cast<int>( Toolkit::Text::DEFAULT_RENDERING_BACKEND ) );
propertyMap.Insert( "enableMarkup", false );
propertyMap.Insert( "verticalAlignment", "CENTER" );
propertyMap.Insert( "textColor", Color::RED );
Visual::Base textVisual = factory.CreateVisual( propertyMap );
- textVisual.SetDepthIndex( 1.f );
+ textVisual.SetDepthIndex( 1 );
DummyControl dummyControl = DummyControl::New(true);
Impl::DummyControl& dummyImpl = static_cast<Impl::DummyControl&>(dummyControl.GetImplementation());
VisualFactory factory = VisualFactory::Get();
- // image visual, test default value ( false )
+ // image visual, test default value ( true )
{
Visual::Base imageVisual = factory.CreateVisual(
Property::Map()
- .Add( Visual::Property::TYPE, Visual::IMAGE )
+ .Add( Toolkit::Visual::Property::TYPE, Visual::IMAGE )
.Add( ImageVisual::Property::URL, TEST_IMAGE_FILE_NAME ) );
Dali::Property::Map visualMap;
imageVisual.CreatePropertyMap( visualMap );
- Property::Value* value = visualMap.Find( DevelVisual::Property::PREMULTIPLIED_ALPHA );
+ Property::Value* value = visualMap.Find( Visual::Property::PREMULTIPLIED_ALPHA );
// test values
DALI_TEST_CHECK( value );
- DALI_TEST_EQUALS( value->Get<bool>(), false, TEST_LOCATION );
+ DALI_TEST_EQUALS( value->Get<bool>(), true, TEST_LOCATION );
}
// image visual, override premultiplied
{
Visual::Base imageVisual = factory.CreateVisual(
Property::Map()
- .Add( Visual::Property::TYPE, Visual::IMAGE )
+ .Add( Toolkit::Visual::Property::TYPE, Visual::IMAGE )
.Add( ImageVisual::Property::URL, TEST_IMAGE_FILE_NAME )
- .Add( DevelVisual::Property::PREMULTIPLIED_ALPHA, true ) );
+ .Add( Visual::Property::PREMULTIPLIED_ALPHA, false ) );
Dali::Property::Map visualMap;
imageVisual.CreatePropertyMap( visualMap );
- Property::Value* value = visualMap.Find( DevelVisual::Property::PREMULTIPLIED_ALPHA );
+ Property::Value* value = visualMap.Find( Visual::Property::PREMULTIPLIED_ALPHA );
// test values
DALI_TEST_CHECK( value );
- DALI_TEST_EQUALS( value->Get<bool>(), true, TEST_LOCATION);
+ DALI_TEST_EQUALS( value->Get<bool>(), false, TEST_LOCATION);
}
// svg visual ( premultiplied alpha by default is true )
{
Visual::Base imageVisual = factory.CreateVisual(
Property::Map()
- .Add( Visual::Property::TYPE, Visual::IMAGE )
+ .Add( Toolkit::Visual::Property::TYPE, Visual::IMAGE )
.Add( ImageVisual::Property::URL, TEST_SVG_FILE_NAME ) );
Dali::Property::Map visualMap;
imageVisual.CreatePropertyMap( visualMap );
- Property::Value* value = visualMap.Find( DevelVisual::Property::PREMULTIPLIED_ALPHA );
+ Property::Value* value = visualMap.Find( Visual::Property::PREMULTIPLIED_ALPHA );
// test values
DALI_TEST_CHECK( value );
END_TEST;
}
+
+int UtcDaliRegisterVisualOrder(void)
+{
+ ToolkitTestApplication application;
+ tet_infoline( "Register Visual Order" );
+
+ DummyControl dummyControl = DummyControl::New(true);
+ Impl::DummyControl& dummyImpl = static_cast<Impl::DummyControl&>(dummyControl.GetImplementation());
+
+ VisualFactory factory = VisualFactory::Get();
+ Property::Map propertyMap;
+ propertyMap.Insert(Visual::Property::TYPE, Visual::COLOR);
+ propertyMap.Insert(ColorVisual::Property::MIX_COLOR, Color::BLUE);
+
+ tet_infoline( "Register visual, should have depth index of 0.0f" );
+ Visual::Base testVisual = factory.CreateVisual( propertyMap );
+ dummyImpl.RegisterVisual( DummyControl::Property::TEST_VISUAL, testVisual );
+ DALI_TEST_EQUALS( testVisual.GetDepthIndex(), 0, TEST_LOCATION );
+
+ tet_infoline( "Register more visuals, each added one should have a depth index greater than previous" );
+
+ Visual::Base testVisual2 = factory.CreateVisual( propertyMap );
+ dummyImpl.RegisterVisual( DummyControl::Property::TEST_VISUAL2, testVisual2 );
+ DALI_TEST_CHECK( testVisual2.GetDepthIndex() > testVisual.GetDepthIndex() );
+
+ Visual::Base foregroundVisual = factory.CreateVisual( propertyMap );
+ dummyImpl.RegisterVisual( DummyControl::Property::FOREGROUND_VISUAL, foregroundVisual );
+ DALI_TEST_CHECK( foregroundVisual.GetDepthIndex() > testVisual2.GetDepthIndex() );
+
+ Visual::Base focusVisual = factory.CreateVisual( propertyMap );
+ dummyImpl.RegisterVisual( DummyControl::Property::FOCUS_VISUAL, focusVisual );
+ DALI_TEST_CHECK( focusVisual.GetDepthIndex() > foregroundVisual.GetDepthIndex() );
+
+ tet_infoline( "Set depth index on a new visual before registering, the depth index should not have been changed" );
+ Visual::Base labelVisual = factory.CreateVisual( propertyMap );
+ labelVisual.SetDepthIndex( -2000 );
+ dummyImpl.RegisterVisual( DummyControl::Property::LABEL_VISUAL, labelVisual );
+ DALI_TEST_EQUALS( labelVisual.GetDepthIndex(), -2000, TEST_LOCATION );
+
+ tet_infoline( "Replace visual, the depth index should be the same as what was previously set" );
+ const int testVisual2DepthIndex = testVisual2.GetDepthIndex();
+ Visual::Base testVisual2Replacement = factory.CreateVisual( propertyMap );
+ DALI_TEST_CHECK( testVisual2Replacement.GetDepthIndex() != testVisual2DepthIndex );
+ dummyImpl.RegisterVisual( DummyControl::Property::TEST_VISUAL2, testVisual2Replacement );
+ DALI_TEST_EQUALS( testVisual2Replacement.GetDepthIndex(), testVisual2DepthIndex, TEST_LOCATION );
+
+ tet_infoline( "Replace visual and set a depth index on the replacement, the depth index of the replacement should be honoured" );
+ Visual::Base anotherTestVisual2Replacement = factory.CreateVisual( propertyMap );
+ anotherTestVisual2Replacement.SetDepthIndex( 2000 );
+ dummyImpl.RegisterVisual( DummyControl::Property::TEST_VISUAL2, anotherTestVisual2Replacement );
+ DALI_TEST_EQUALS( anotherTestVisual2Replacement.GetDepthIndex(), 2000, TEST_LOCATION );
+
+ dummyControl.SetSize(200.f, 200.f);
+ Stage::GetCurrent().Add( dummyControl );
+
+ END_TEST;
+}
+
+int UtcDaliRegisterVisualOrder02(void)
+{
+ ToolkitTestApplication application;
+ tet_infoline( "Register Visual Order with Background Set" );
+
+ DummyControl dummyControl = DummyControl::New(true);
+ Impl::DummyControl& dummyImpl = static_cast<Impl::DummyControl&>(dummyControl.GetImplementation());
+
+ const int backgroundDepthIndex = Toolkit::DepthIndex::BACKGROUND;
+
+ VisualFactory factory = VisualFactory::Get();
+ Property::Map propertyMap;
+ propertyMap.Insert(Visual::Property::TYPE, Visual::COLOR);
+ propertyMap.Insert(ColorVisual::Property::MIX_COLOR, Color::BLUE);
+
+ tet_printf( "Register a control background visual, should have depth index of %d\n", backgroundDepthIndex );
+
+ dummyControl.SetProperty( Control::Property::BACKGROUND, propertyMap );
+
+ const int TEST_VISUAL_1_DEPTH_INDEX = 0;
+ tet_printf( "Register visual, should have depth index of %d\n", TEST_VISUAL_1_DEPTH_INDEX );
+ Visual::Base testVisual1 = factory.CreateVisual( propertyMap );
+ dummyImpl.RegisterVisual( DummyControl::Property::TEST_VISUAL, testVisual1 );
+ DALI_TEST_EQUALS( testVisual1.GetDepthIndex(), TEST_VISUAL_1_DEPTH_INDEX , TEST_LOCATION );
+
+ tet_printf( "Register another visual, should have a depth index greater than previous(%d)\n", TEST_VISUAL_1_DEPTH_INDEX );
+ Visual::Base testVisual2 = factory.CreateVisual( propertyMap );
+ dummyImpl.RegisterVisual( DummyControl::Property::TEST_VISUAL2, testVisual2 );
+ DALI_TEST_CHECK( testVisual2.GetDepthIndex() > testVisual1.GetDepthIndex() );
+
+ dummyControl.SetSize(200.f, 200.f);
+ Stage::GetCurrent().Add( dummyControl );
+
+ END_TEST;
+}
+
+int UtcDaliRegisterVisualWithDepthIndex(void)
+{
+ ToolkitTestApplication application;
+ tet_infoline( "Register a Visual With Depth Index" );
+
+ DummyControl dummyControl = DummyControl::New(true);
+ Impl::DummyControl& dummyImpl = static_cast<Impl::DummyControl&>(dummyControl.GetImplementation());
+
+ VisualFactory factory = VisualFactory::Get();
+ Property::Map propertyMap;
+ propertyMap.Insert(Visual::Property::TYPE, Visual::COLOR);
+ propertyMap.Insert(ColorVisual::Property::MIX_COLOR, Color::BLUE);
+
+ tet_infoline( "Register a visual with a depth index, it should be enabled by default too" );
+ Visual::Base testVisual = factory.CreateVisual( propertyMap );
+ DevelControl::RegisterVisual( dummyImpl, DummyControl::Property::TEST_VISUAL, testVisual, 203 );
+ DALI_TEST_EQUALS( testVisual.GetDepthIndex(), 203, TEST_LOCATION );
+ DALI_TEST_EQUALS( DevelControl::IsVisualEnabled( dummyImpl, DummyControl::Property::TEST_VISUAL ), true, TEST_LOCATION );
+
+ tet_infoline( "Register another visual with a depth index and it disabled" );
+ Visual::Base testVisual2 = factory.CreateVisual( propertyMap );
+ DevelControl::RegisterVisual( dummyImpl, DummyControl::Property::TEST_VISUAL2, testVisual2, false, 450 );
+ DALI_TEST_EQUALS( testVisual2.GetDepthIndex(), 450, TEST_LOCATION );
+ DALI_TEST_EQUALS( DevelControl::IsVisualEnabled( dummyImpl, DummyControl::Property::TEST_VISUAL2 ), false, TEST_LOCATION );
+
+ tet_infoline( "Register another visual with a depth index and it enabled using the enabled API" );
+ Visual::Base testVisual3 = factory.CreateVisual( propertyMap );
+ DevelControl::RegisterVisual( dummyImpl, DummyControl::Property::TEST_VISUAL2, testVisual3, true, 300 );
+ DALI_TEST_EQUALS( testVisual3.GetDepthIndex(), 300, TEST_LOCATION );
+ DALI_TEST_EQUALS( DevelControl::IsVisualEnabled( dummyImpl, DummyControl::Property::TEST_VISUAL2 ), true, TEST_LOCATION );
+
+ dummyControl.SetSize(200.f, 200.f);
+ Stage::GetCurrent().Add( dummyControl );
+
+ END_TEST;
+}
+
+int UtcDaliColorVisualRenderIfTransparentProperty(void)
+{
+ ToolkitTestApplication application;
+ tet_infoline( "Test the renderIfTransparent property of ColorVisual" );
+
+ VisualFactory factory = VisualFactory::Get();
+ Property::Map propertyMap;
+ propertyMap.Insert( Visual::Property::TYPE, Visual::COLOR );
+ propertyMap.Insert( ColorVisual::Property::MIX_COLOR, Color::BLUE );
+
+ tet_infoline( "Check default value" );
+ {
+ Visual::Base testVisual = factory.CreateVisual( propertyMap );
+ Property::Map returnedMap;
+ testVisual.CreatePropertyMap( returnedMap );
+
+ Property::Value* renderIfTransparentProperty = returnedMap.Find( DevelColorVisual::Property::RENDER_IF_TRANSPARENT );
+ DALI_TEST_CHECK( renderIfTransparentProperty );
+ DALI_TEST_EQUALS( renderIfTransparentProperty->Get< bool >(), false, TEST_LOCATION );
+ }
+
+ propertyMap.Insert( DevelColorVisual::Property::RENDER_IF_TRANSPARENT, true );
+
+ tet_infoline( "Ensure set to value required" );
+ {
+ Visual::Base testVisual = factory.CreateVisual( propertyMap );
+ Property::Map returnedMap;
+ testVisual.CreatePropertyMap( returnedMap );
+
+ Property::Value* renderIfTransparentProperty = returnedMap.Find( DevelColorVisual::Property::RENDER_IF_TRANSPARENT );
+ DALI_TEST_CHECK( renderIfTransparentProperty );
+ DALI_TEST_EQUALS( renderIfTransparentProperty->Get< bool >(), true, TEST_LOCATION );
+ }
+
+ propertyMap[ DevelColorVisual::Property::RENDER_IF_TRANSPARENT ] = Color::BLUE;
+
+ tet_infoline( "Ensure it returns default value if set to wrong type" );
+ {
+ Visual::Base testVisual = factory.CreateVisual( propertyMap );
+ Property::Map returnedMap;
+ testVisual.CreatePropertyMap( returnedMap );
+
+ Property::Value* renderIfTransparentProperty = returnedMap.Find( DevelColorVisual::Property::RENDER_IF_TRANSPARENT );
+ DALI_TEST_CHECK( renderIfTransparentProperty );
+ DALI_TEST_EQUALS( renderIfTransparentProperty->Get< bool >(), false, TEST_LOCATION );
+ }
+
+ END_TEST;
+}
+
+int UtcDaliSvgVisualCustomShader(void)
+{
+ ToolkitTestApplication application;
+ tet_infoline( "SvgVisual with custom shader" );
+
+ VisualFactory factory = VisualFactory::Get();
+ Property::Map properties;
+ Property::Map shader;
+ const std::string vertexShader = "Foobar";
+ const std::string fragmentShader = "Foobar";
+ shader[Dali::Toolkit::Visual::Shader::Property::FRAGMENT_SHADER] = fragmentShader;
+ shader[Dali::Toolkit::Visual::Shader::Property::VERTEX_SHADER] = vertexShader;
+
+ properties[Visual::Property::TYPE] = Visual::IMAGE;
+ properties[Visual::Property::SHADER] = shader;
+ properties[ImageVisual::Property::URL] = TEST_SVG_FILE_NAME;
+
+ Visual::Base visual = factory.CreateVisual( properties );
+
+ // trigger creation through setting on stage
+ DummyControl dummy = DummyControl::New( true );
+ Impl::DummyControl& dummyImpl = static_cast< Impl::DummyControl& >( dummy.GetImplementation() );
+ dummyImpl.RegisterVisual( DummyControl::Property::TEST_VISUAL, visual );
+
+ dummy.SetSize( 200.f, 200.f );
+ dummy.SetParentOrigin( ParentOrigin::CENTER );
+ Stage::GetCurrent().Add( dummy );
+
+ application.SendNotification();
+ application.Render();
+
+ DALI_TEST_EQUALS( Test::WaitForEventThreadTrigger( 1 ), true, TEST_LOCATION );
+
+ Renderer renderer = dummy.GetRendererAt( 0 );
+ Shader shader2 = renderer.GetShader();
+ Property::Value value = shader2.GetProperty( Shader::Property::PROGRAM );
+ Property::Map* map = value.GetMap();
+ DALI_TEST_CHECK( map );
+
+ Property::Value* fragment = map->Find( "fragment" ); // fragment key name from shader-impl.cpp
+ DALI_TEST_EQUALS( fragmentShader, fragment->Get< std::string >(), TEST_LOCATION );
+
+ Property::Value* vertex = map->Find( "vertex" ); // vertex key name from shader-impl.cpp
+ DALI_TEST_EQUALS( vertexShader, vertex->Get< std::string >(), TEST_LOCATION );
+
+ END_TEST;
+}