+ void GenerateUnderlines( std::vector< MeshRecord>& meshRecords,
+ Vector< Extent >& extents,
+ const Vector4& underlineColor,
+ const Vector4& textColor )
+ {
+ AtlasManager::Mesh2D newMesh;
+ unsigned short faceIndex = 0;
+ for ( Vector< Extent >::ConstIterator eIt = extents.Begin(); eIt != extents.End(); ++eIt )
+ {
+ AtlasManager::Vertex2D vert;
+ uint32_t index = eIt->mMeshRecordIndex;
+ Vector2 uv = mGlyphManager.GetAtlasSize( meshRecords[ index ].mAtlasId );
+
+ // Make sure we don't hit texture edge for single pixel texture ( filled pixel is in top left of every atlas )
+ float u = HALF / uv.x;
+ float v = HALF / uv.y;
+ float thickness = eIt->mUnderlineThickness;
+ float baseLine = eIt->mBaseLine + eIt->mUnderlinePosition - ( thickness * HALF );
+ float tlx = eIt->mLeft;
+ float brx = eIt->mRight;
+
+ vert.mPosition.x = tlx;
+ vert.mPosition.y = baseLine;
+ vert.mTexCoords.x = ZERO;
+ vert.mTexCoords.y = ZERO;
+ newMesh.mVertices.PushBack( vert );
+
+ vert.mPosition.x = brx;
+ vert.mPosition.y = baseLine;
+ vert.mTexCoords.x = u;
+ newMesh.mVertices.PushBack( vert );
+
+ vert.mPosition.x = tlx;
+ vert.mPosition.y = baseLine + thickness;
+ vert.mTexCoords.x = ZERO;
+ vert.mTexCoords.y = v;
+ newMesh.mVertices.PushBack( vert );
+
+ vert.mPosition.x = brx;
+ vert.mPosition.y = baseLine + thickness;
+ vert.mTexCoords.x = u;
+ newMesh.mVertices.PushBack( vert );
+
+ // Six indices in counter clockwise winding
+ newMesh.mIndices.PushBack( faceIndex + 1u );
+ newMesh.mIndices.PushBack( faceIndex );
+ newMesh.mIndices.PushBack( faceIndex + 2u );
+ newMesh.mIndices.PushBack( faceIndex + 2u );
+ newMesh.mIndices.PushBack( faceIndex + 3u );
+ newMesh.mIndices.PushBack( faceIndex + 1u );
+ faceIndex += 4;
+
+ if ( underlineColor == textColor )
+ {
+ mGlyphManager.StitchMesh( meshRecords[ index ].mMesh, newMesh );
+ }
+ else
+ {
+ MeshRecord record;
+ record.mMesh = newMesh;
+ record.mAtlasId = meshRecords[ index ].mAtlasId;
+ record.mColor = underlineColor;
+ record.mIsUnderline = true;
+ meshRecords.push_back( record );
+ }
+ }
+ }
+
+ Actor GenerateShadow( MeshRecord& meshRecord,
+ const Vector2& shadowOffset,
+ const Vector4& shadowColor )
+ {
+ // Scan vertex buffer to determine width and height of effect buffer needed
+ const Vector< AtlasManager::Vertex2D >& verts = meshRecord.mMesh.mVertices;
+ float tlx = verts[ 0 ].mPosition.x;
+ float tly = verts[ 0 ].mPosition.y;
+ float brx = ZERO;
+ float bry = ZERO;
+
+ for ( uint32_t i = 0; i < verts.Size(); ++i )
+ {
+ if ( verts[ i ].mPosition.x < tlx )
+ {
+ tlx = verts[ i ].mPosition.x;
+ }
+ if ( verts[ i ].mPosition.y < tly )
+ {
+ tly = verts[ i ].mPosition.y;
+ }
+ if ( verts[ i ].mPosition.x > brx )
+ {
+ brx = verts[ i ].mPosition.x;
+ }
+ if ( verts[ i ].mPosition.y > bry )
+ {
+ bry = verts[ i ].mPosition.y;
+ }
+ }
+
+ float width = brx - tlx;
+ float height = bry - tly;
+ float divWidth = TWO / width;
+ float divHeight = TWO / height;
+
+ // Create a buffer to render to
+ meshRecord.mBuffer = FrameBufferImage::New( width, height );
+
+ // We will render a quad into this buffer
+ unsigned int indices[ 6 ] = { 1, 0, 2, 2, 3, 1 };
+ PropertyBuffer quadVertices = PropertyBuffer::New( mQuadVertexFormat, 4u );
+ PropertyBuffer quadIndices = PropertyBuffer::New( mQuadIndexFormat, sizeof(indices)/sizeof(indices[0]) );
+
+ AtlasManager::Vertex2D vertices[ 4 ] = {
+ { Vector2( tlx + shadowOffset.x, tly + shadowOffset.y ), Vector2( ZERO, ZERO ) },
+ { Vector2( brx + shadowOffset.x, tly + shadowOffset.y ), Vector2( ONE, ZERO ) },
+ { Vector2( tlx + shadowOffset.x, bry + shadowOffset.y ), Vector2( ZERO, ONE ) },
+ { Vector2( brx + shadowOffset.x, bry + shadowOffset.y ), Vector2( ONE, ONE ) } };
+
+ quadVertices.SetData( vertices );
+ quadIndices.SetData( indices );
+
+ Geometry quadGeometry = Geometry::New();
+ quadGeometry.AddVertexBuffer( quadVertices );
+ quadGeometry.SetIndexBuffer( quadIndices );
+
+ Sampler sampler = Sampler::New( meshRecord.mBuffer, "sTexture" );
+ Material material = Material::New( mGlyphManager.GetEffectBufferShader() );
+ material.AddSampler( sampler );
+
+ Dali::Renderer renderer = Dali::Renderer::New( quadGeometry, material );
+
+ // Ensure shadow is behind the text...
+ renderer.SetDepthIndex( mDepth + CONTENT_DEPTH_INDEX - 1 );
+ Actor actor = Actor::New();
+ actor.AddRenderer( renderer );
+ actor.SetSize( 1.0f, 1.0f );
+
+ // Create a sub actor to render the source with normalized vertex positions
+ Vector< AtlasManager::Vertex2D > normVertexList;
+ for ( uint32_t i = 0; i < verts.Size(); ++i )
+ {
+ AtlasManager::Vertex2D vertex = verts[ i ];
+ vertex.mPosition.x = ( ( vertex.mPosition.x - tlx ) * divWidth ) - ONE;
+ vertex.mPosition.y = ( ( vertex.mPosition.y - tly ) * divHeight ) - ONE;
+ normVertexList.PushBack( vertex );
+ }
+
+ PropertyBuffer normVertices = PropertyBuffer::New( mQuadVertexFormat, normVertexList.Size() );
+ PropertyBuffer normIndices = PropertyBuffer::New( mQuadIndexFormat, meshRecord.mMesh.mIndices.Size() );
+ normVertices.SetData( const_cast< AtlasManager::Vertex2D* >( &normVertexList[ 0 ] ) );
+ normIndices.SetData( const_cast< unsigned int* >( &meshRecord.mMesh.mIndices[ 0 ] ) );
+
+ Geometry normGeometry = Geometry::New();
+ normGeometry.AddVertexBuffer( normVertices );
+ normGeometry.SetIndexBuffer( normIndices );
+
+ Material normMaterial = Material::New( mGlyphManager.GetGlyphShadowShader() );
+ Sampler normSampler = mGlyphManager.GetSampler( meshRecord.mAtlasId );
+ normMaterial.AddSampler( normSampler );
+ Dali::Renderer normRenderer = Dali::Renderer::New( normGeometry, normMaterial );
+ Actor subActor = Actor::New();
+ subActor.AddRenderer( normRenderer );
+ subActor.SetSize( 1.0f, 1.0f );
+ subActor.SetColorMode( USE_OWN_MULTIPLY_PARENT_COLOR );
+ subActor.SetColor( shadowColor );
+
+ // Create a render task to render the effect
+ RenderTask task = Stage::GetCurrent().GetRenderTaskList().CreateTask();
+ task.SetTargetFrameBuffer( meshRecord.mBuffer );
+ task.SetSourceActor( subActor );
+ task.SetClearEnabled( true );
+ task.SetClearColor( Vector4::ZERO );
+ task.SetExclusive( true );
+ task.SetRefreshRate( RenderTask::REFRESH_ONCE );
+ task.FinishedSignal().Connect( this, &AtlasRenderer::Impl::RenderComplete );
+ actor.Add( subActor );
+
+ return actor;
+ }
+
+ void RenderComplete( RenderTask& renderTask )
+ {
+ // Disconnect and remove this single shot render task
+ renderTask.FinishedSignal().Disconnect( this, &AtlasRenderer::Impl::RenderComplete );
+ Stage::GetCurrent().GetRenderTaskList().RemoveTask( renderTask );
+
+ // Get the actor used for render to buffer and remove it from the parent
+ Actor renderActor = renderTask.GetSourceActor();
+ if ( renderActor )
+ {
+ Actor parent = renderActor.GetParent();
+ if ( parent )
+ {
+ parent.Remove( renderActor );
+ }
+ }
+ }
+
+ Actor mActor; ///< The actor parent which renders the text