// EXTERNAL INCLUDES
#include <dali/dali.h>
+#include <dali/devel-api/object/property-buffer.h>
+#include <dali/devel-api/rendering/geometry.h>
+#include <dali/devel-api/rendering/renderer.h>
+#include <dali/devel-api/rendering/sampler.h>
+#include <dali/devel-api/rendering/shader.h>
+#include <dali/devel-api/text-abstraction/font-client.h>
#include <dali/integration-api/debug.h>
-//#include <dali/public-api/actors/renderer.h>
-#include <dali/public-api/text-abstraction/text-abstraction.h>
-
// INTERNAL INCLUDES
-#include <dali-toolkit/internal/atlas-manager/atlas-manager.h>
+#include <dali-toolkit/public-api/controls/control-depth-index-ranges.h>
#include <dali-toolkit/internal/text/rendering/atlas/atlas-glyph-manager.h>
-#include <dali-toolkit/internal/text/rendering/shaders/text-basic-shader.h>
-#if defined(DEBUG_ENABLED)
-Debug::Filter* gLogFilter = Debug::Filter::New(Debug::Concise, true, "LOG_TEXT_ATLAS_RENDERER");
-#endif
using namespace Dali;
using namespace Dali::Toolkit;
namespace
{
- const float ZERO( 0.0f );
- const float HALF( 0.5f );
- const float ONE( 1.0f );
- const float TWO( 2.0f );
- const uint32_t DEFAULT_ATLAS_WIDTH = 512u;
- const uint32_t DEFAULT_ATLAS_HEIGHT = 512u;
-
- #define MAKE_SHADER(A)#A
-
- const char* VERTEX_SHADER = MAKE_SHADER(
- attribute mediump vec2 aPosition;
- attribute mediump vec2 aTexCoord;
- uniform mediump mat4 uMvpMatrix;
- uniform mediump vec3 uSize;
- varying mediump vec2 vTexCoord;
-
- void main()
- {
- mediump vec4 position = vec4( aPosition, 0.0, 1.0 );
- position.xyz *= uSize;
- gl_Position = uMvpMatrix * position;
- vTexCoord = aTexCoord;
- }
- );
-
- const char* FRAGMENT_SHADER = MAKE_SHADER(
- uniform sampler2D sTexture;
- varying mediump vec2 vTexCoord;
-
- void main()
- {
- //gl_FragColor = vec4( 1.0 );
- gl_FragColor = texture2D( sTexture, vTexCoord );
- }
- );
-
- const char* VERTEX_SHADER_SHADOW = MAKE_SHADER(
- attribute mediump vec2 aPosition;
- attribute mediump vec2 aTexCoord;
- uniform mediump vec3 uSize;
- varying mediump vec2 vTexCoord;
-
- void main()
- {
- mediump vec4 position = vec4( aPosition, 0.0, 1.0 );
- position.xyz *= uSize;
- gl_Position = position;
- vTexCoord = aTexCoord;
- }
- );
-
- const char* FRAGMENT_SHADER_SHADOW = MAKE_SHADER(
- uniform sampler2D sTexture;
- uniform lowp vec4 uColor;
- varying mediump vec2 vTexCoord;
+#if defined(DEBUG_ENABLED)
+ Debug::Filter* gLogFilter = Debug::Filter::New(Debug::Concise, true, "LOG_TEXT_RENDERING");
+#endif
- void main()
- {
- mediump vec4 color = texture2D( sTexture, vTexCoord );
- gl_FragColor = vec4(uColor.rgb, uColor.a*color.r);
- }
- );
+const float ZERO( 0.0f );
+const float HALF( 0.5f );
+const float ONE( 1.0f );
+const float TWO( 2.0f );
+const uint32_t DEFAULT_ATLAS_WIDTH = 512u;
+const uint32_t DEFAULT_ATLAS_HEIGHT = 512u;
}
-
struct AtlasRenderer::Impl : public ConnectionTracker
{
uint32_t mMeshRecordIndex;
};
- struct AtlasRecord
+ struct MaxBlockSize
{
- uint32_t mImageId;
+ FontId mFontId;
+ uint32_t mNeededBlockWidth;
+ uint32_t mNeededBlockHeight;
+ };
+
+ struct CheckEntry
+ {
+ FontId mFontId;
Text::GlyphIndex mIndex;
};
- struct MaxBlockSize
+ struct TextCacheEntry
{
FontId mFontId;
- uint32_t mNeededBlockWidth;
- uint32_t mNeededBlockHeight;
+ Text::GlyphIndex mIndex;
+ uint32_t mImageId;
};
Impl()
mQuadVertexFormat[ "aPosition" ] = Property::VECTOR2;
mQuadVertexFormat[ "aTexCoord" ] = Property::VECTOR2;
mQuadIndexFormat[ "indices" ] = Property::UNSIGNED_INTEGER;
-
- mShader = Shader::New( VERTEX_SHADER, FRAGMENT_SHADER );
- mShadowShader = Shader::New( VERTEX_SHADER_SHADOW, FRAGMENT_SHADER_SHADOW );
}
void AddGlyphs( const std::vector<Vector2>& positions,
const Vector4& shadowColor,
bool underlineEnabled,
const Vector4& underlineColor,
- float underlineHeight )
+ float underlineHeight,
+ unsigned int depth )
{
AtlasManager::AtlasSlot slot;
std::vector< MeshRecord > meshContainer;
Vector< Extent > extents;
+ TextCacheEntry textCacheEntry;
+ mDepth = static_cast< int >( depth );
float currentUnderlinePosition = ZERO;
float currentUnderlineThickness = underlineHeight;
style = STYLE_DROP_SHADOW;
}
- if ( mImageIds.Size() )
+ if ( mTextCache.Size() )
{
- // Unreference any currently used glyphs
- RemoveText();
+ // Update the glyph cache with any changes to current text
+ RemoveText( glyphs );
}
CalculateBlocksSize( glyphs );
- for ( uint32_t i = 0; i < glyphs.Size(); ++i )
+ for( uint32_t i = 0, glyphSize = glyphs.Size(); i < glyphSize; ++i )
{
- GlyphInfo glyph = glyphs[ i ];
+ const GlyphInfo& glyph = glyphs[ i ];
// No operation for white space
if ( glyph.width && glyph.height )
}
}
- Vector2 position = positions[ i ];
+ const Vector2& position = positions[ i ];
AtlasManager::Mesh2D newMesh;
- mGlyphManager.Cached( glyph.fontId, glyph.index, slot );
- if ( slot.mImageId )
- {
- // This glyph already exists so generate mesh data plugging in our supplied position
- mGlyphManager.GenerateMeshData( slot.mImageId, position, newMesh );
- mImageIds.PushBack( slot.mImageId );
- }
- else
+ if ( !mGlyphManager.Cached( glyph.fontId, glyph.index, slot ) )
{
-
// Select correct size for new atlas if needed....?
if ( lastFontId != glyph.fontId )
{
// Create a new image for the glyph
BufferImage bitmap = mFontClient.CreateBitmap( glyph.fontId, glyph.index );
-
- // Ensure that the next image will fit into the current block size
- bool setSize = false;
- if ( bitmap.GetWidth() > mBlockSizes[ currentBlockSize ].mNeededBlockWidth )
- {
- setSize = true;
- mBlockSizes[ currentBlockSize ].mNeededBlockWidth = bitmap.GetWidth();
- }
- if ( bitmap.GetHeight() > mBlockSizes[ currentBlockSize ].mNeededBlockHeight )
- {
- setSize = true;
- mBlockSizes[ currentBlockSize ].mNeededBlockHeight = bitmap.GetHeight();
- }
-
- if ( setSize )
+ if ( bitmap )
{
- mGlyphManager.SetNewAtlasSize( DEFAULT_ATLAS_WIDTH,
- DEFAULT_ATLAS_HEIGHT,
- mBlockSizes[ currentBlockSize ].mNeededBlockWidth,
- mBlockSizes[ currentBlockSize ].mNeededBlockHeight );
- }
+ // Ensure that the next image will fit into the current block size
+ bool setSize = false;
+ if ( bitmap.GetWidth() > mBlockSizes[ currentBlockSize ].mNeededBlockWidth )
+ {
+ setSize = true;
+ mBlockSizes[ currentBlockSize ].mNeededBlockWidth = bitmap.GetWidth();
+ }
+ if ( bitmap.GetHeight() > mBlockSizes[ currentBlockSize ].mNeededBlockHeight )
+ {
+ setSize = true;
+ mBlockSizes[ currentBlockSize ].mNeededBlockHeight = bitmap.GetHeight();
+ }
- // Locate a new slot for our glyph
- mGlyphManager.Add( glyph, bitmap, slot );
+ if ( setSize )
+ {
+ mGlyphManager.SetNewAtlasSize( DEFAULT_ATLAS_WIDTH,
+ DEFAULT_ATLAS_HEIGHT,
+ mBlockSizes[ currentBlockSize ].mNeededBlockWidth,
+ mBlockSizes[ currentBlockSize ].mNeededBlockHeight );
+ }
- // Generate mesh data for this quad, plugging in our supplied position
- if ( slot.mImageId )
- {
- mGlyphManager.GenerateMeshData( slot.mImageId, position, newMesh );
- mImageIds.PushBack( slot.mImageId );
+ // Locate a new slot for our glyph
+ mGlyphManager.Add( glyph, bitmap, slot );
}
}
+
+ // Generate mesh data for this quad, plugging in our supplied position
+ mGlyphManager.GenerateMeshData( slot.mImageId, position, newMesh );
+ textCacheEntry.mFontId = glyph.fontId;
+ textCacheEntry.mImageId = slot.mImageId;
+ textCacheEntry.mIndex = glyph.index;
+ mTextCache.PushBack( textCacheEntry );
+
// Find an existing mesh data object to attach to ( or create a new one, if we can't find one using the same atlas)
StitchTextMesh( meshContainer,
newMesh,
currentUnderlinePosition,
currentUnderlineThickness,
slot );
- lastFontId = glyph.fontId;
+ lastFontId = glyph.fontId;
}
}
actor.Add( GenerateShadow( *mIt, shadowOffset, shadowColor ) );
}
- if ( mActor )
+ if( mActor )
{
+ actor.SetParentOrigin( ParentOrigin::CENTER ); // Keep all of the origins aligned
mActor.Add( actor );
}
else
mActor = actor;
}
}
- mActor.OffStageSignal().Connect( this, &AtlasRenderer::Impl::OffStageDisconnect );
}
#if defined(DEBUG_ENABLED)
Toolkit::AtlasGlyphManager::Metrics metrics = mGlyphManager.GetMetrics();
- DALI_LOG_INFO( gLogFilter, Debug::Concise, "TextAtlasRenderer::GlyphManager::GlyphCount: %i, AtlasCount: %i, TextureMemoryUse: %iK\n",
+ DALI_LOG_INFO( gLogFilter, Debug::General, "TextAtlasRenderer::GlyphManager::GlyphCount: %i, AtlasCount: %i, TextureMemoryUse: %iK\n",
metrics.mGlyphCount,
metrics.mAtlasMetrics.mAtlasCount,
metrics.mAtlasMetrics.mTextureMemoryUsed / 1024 );
Actor CreateMeshActor( const MeshRecord& meshRecord )
{
- PropertyBuffer quadVertices = PropertyBuffer::New( PropertyBuffer::STATIC, mQuadVertexFormat, meshRecord.mMesh.mVertices.Size() );
- PropertyBuffer quadIndices = PropertyBuffer::New( PropertyBuffer::STATIC, mQuadIndexFormat, meshRecord.mMesh.mIndices.Size() >> 1 );
+ PropertyBuffer quadVertices = PropertyBuffer::New( mQuadVertexFormat, meshRecord.mMesh.mVertices.Size() );
+ PropertyBuffer quadIndices = PropertyBuffer::New( mQuadIndexFormat, meshRecord.mMesh.mIndices.Size() );
quadVertices.SetData( const_cast< AtlasManager::Vertex2D* >( &meshRecord.mMesh.mVertices[ 0 ] ) );
- quadIndices.SetData( const_cast< unsigned short* >( &meshRecord.mMesh.mIndices[ 0 ] ) );
+ quadIndices.SetData( const_cast< unsigned int* >( &meshRecord.mMesh.mIndices[ 0 ] ) );
Geometry quadGeometry = Geometry::New();
quadGeometry.AddVertexBuffer( quadVertices );
Material material = mGlyphManager.GetMaterial( meshRecord.mAtlasId );
Dali::Renderer renderer = Dali::Renderer::New( quadGeometry, material );
- renderer.SetDepthIndex( 0 );
+ renderer.SetDepthIndex( mDepth );
Actor actor = Actor::New();
actor.AddRenderer( renderer );
actor.SetSize( 1.0f, 1.0f );
}
}
- // Unreference any glyphs that were used with this actor
- void OffStageDisconnect( Dali::Actor actor )
+ void RemoveText( const Vector<GlyphInfo>& glyphs )
{
- RemoveText();
- }
+ Vector< CheckEntry > checked;
+ CheckEntry checkEntry;
- void RemoveText()
- {
- for ( uint32_t i = 0; i < mImageIds.Size(); ++i )
+ for ( Vector< TextCacheEntry >::Iterator tCit = mTextCache.Begin(); tCit != mTextCache.End(); ++tCit )
{
- mGlyphManager.Remove( mImageIds[ i ] );
+ uint32_t index = tCit->mIndex;
+ uint32_t fontId = tCit->mFontId;
+
+ // Check that this character has not already been checked...
+ bool wasChecked = false;
+ for ( Vector< CheckEntry >::Iterator cEit = checked.Begin(); cEit != checked.End(); ++cEit )
+ {
+ if ( fontId == cEit->mFontId && index == cEit->mIndex )
+ {
+ wasChecked = true;
+ }
+ }
+
+ if ( !wasChecked )
+ {
+
+ int32_t newCount = 0;
+ int32_t oldCount = 0;
+
+ // How many times does this character occur in the old text ?
+ for ( Vector< TextCacheEntry >::Iterator oTcit = mTextCache.Begin(); oTcit != mTextCache.End(); ++oTcit )
+ {
+ if ( fontId == oTcit->mFontId && index == oTcit->mIndex )
+ {
+ oldCount++;
+ }
+ }
+
+ // And how many times in the new ?
+ for ( Vector< GlyphInfo >::Iterator cGit = glyphs.Begin(); cGit != glyphs.End(); ++cGit )
+ {
+ if ( fontId == cGit->fontId && index == cGit->index )
+ {
+ newCount++;
+ }
+ }
+ mGlyphManager.AdjustReferenceCount( fontId, tCit->mImageId, newCount - oldCount );
+ checkEntry.mIndex = index;
+ checkEntry.mFontId = fontId;
+ checked.PushBack( checkEntry );
+ }
}
- mImageIds.Resize( 0 );
+ mTextCache.Resize( 0 );
}
void CalculateBlocksSize( const Vector<GlyphInfo>& glyphs )
meshRecord.mBuffer = FrameBufferImage::New( width, height );
// We will render a quad into this buffer
- unsigned short indices[ 6 ] = { 1, 0, 2, 2, 3, 1 };
- PropertyBuffer quadVertices = PropertyBuffer::New( PropertyBuffer::STATIC, mQuadVertexFormat, 4u );
- PropertyBuffer quadIndices = PropertyBuffer::New( PropertyBuffer::STATIC, mQuadIndexFormat, 3u );
+ 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 ) },
quadGeometry.SetIndexBuffer( quadIndices );
Sampler sampler = Sampler::New( meshRecord.mBuffer, "sTexture" );
- Material material = Material::New( mShader );
+ Material material = Material::New( mGlyphManager.GetEffectBufferShader() );
material.AddSampler( sampler );
Dali::Renderer renderer = Dali::Renderer::New( quadGeometry, material );
- renderer.SetDepthIndex( 0.1f );
+
+ // 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;
- Vector< unsigned short > normIndexList;
for ( uint32_t i = 0; i < verts.Size(); ++i )
{
AtlasManager::Vertex2D vertex = verts[ i ];
normVertexList.PushBack( vertex );
}
- // Reverse winding
- for ( uint32_t i = 0; i < meshRecord.mMesh.mIndices.Size() / 3; ++i )
- {
- uint32_t index = i * 3;
- normIndexList.PushBack( meshRecord.mMesh.mIndices[ index + 2 ] );
- normIndexList.PushBack( meshRecord.mMesh.mIndices[ index + 1 ] );
- normIndexList.PushBack( meshRecord.mMesh.mIndices[ index ] );
- }
-
- PropertyBuffer normVertices = PropertyBuffer::New( PropertyBuffer::STATIC, mQuadVertexFormat, normVertexList.Size() );
- PropertyBuffer normIndices = PropertyBuffer::New( PropertyBuffer::STATIC, mQuadIndexFormat, normIndexList.Size() >> 1 );
+ 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 short* >( &normIndexList[ 0 ] ) );
+ normIndices.SetData( const_cast< unsigned int* >( &meshRecord.mMesh.mIndices[ 0 ] ) );
Geometry normGeometry = Geometry::New();
normGeometry.AddVertexBuffer( normVertices );
normGeometry.SetIndexBuffer( normIndices );
- Material normMaterial = mGlyphManager.GetMaterial( meshRecord.mAtlasId );
- normMaterial.SetShader( mShadowShader );
+ 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 );
task.SetTargetFrameBuffer( meshRecord.mBuffer );
task.SetSourceActor( subActor );
task.SetClearEnabled( true );
- task.SetClearColor( Vector4( 0.0f, 0.0f, 0.0f, 1.0f ) );
- //task.SetClearColor( Color::BLUE );
+ task.SetClearColor( Vector4::ZERO );
task.SetExclusive( true );
task.SetRefreshRate( RenderTask::REFRESH_ONCE );
task.FinishedSignal().Connect( this, &AtlasRenderer::Impl::RenderComplete );
actor.Add( subActor );
+
return actor;
}
Actor mActor; ///< The actor parent which renders the text
AtlasGlyphManager mGlyphManager; ///< Glyph Manager to handle upload and caching
- Vector< uint32_t > mImageIds; ///< A list of imageIDs used by the renderer
TextAbstraction::FontClient mFontClient; ///> The font client used to supply glyph information
- Shader mShader; ///> Shader used to render drop shadow buffer textures
- Shader mShadowShader; ///> Shader used to render drop shadow into buffer
std::vector< MaxBlockSize > mBlockSizes; ///> Maximum size needed to contain a glyph in a block within a new atlas
std::vector< uint32_t > mFace; ///> Face indices for a quad
+ Vector< TextCacheEntry > mTextCache;
Property::Map mQuadVertexFormat;
Property::Map mQuadIndexFormat;
+ int mDepth;
};
Text::RendererPtr AtlasRenderer::New()
{
+ DALI_LOG_INFO( gLogFilter, Debug::Verbose, "Text::AtlasRenderer::New()\n" );
+
return Text::RendererPtr( new AtlasRenderer() );
}
-Actor AtlasRenderer::Render( Text::ViewInterface& view )
+Actor AtlasRenderer::Render( Text::ViewInterface& view, unsigned int depth )
{
-
UnparentAndReset( mImpl->mActor );
- Text::Length numberOfGlyphs = view.GetNumberOfGlyphs();
+ Length numberOfGlyphs = view.GetNumberOfGlyphs();
- if( numberOfGlyphs > 0 )
+ if( numberOfGlyphs > 0u )
{
Vector<GlyphInfo> glyphs;
glyphs.Resize( numberOfGlyphs );
- view.GetGlyphs( &glyphs[0], 0, numberOfGlyphs );
-
std::vector<Vector2> positions;
positions.resize( numberOfGlyphs );
- view.GetGlyphPositions( &positions[0], 0, numberOfGlyphs );
+
+ numberOfGlyphs = view.GetGlyphs( glyphs.Begin(),
+ &positions[0],
+ 0u,
+ numberOfGlyphs );
+ glyphs.Resize( numberOfGlyphs );
+ positions.resize( numberOfGlyphs );
+
mImpl->AddGlyphs( positions,
glyphs,
view.GetTextColor(),
view.GetShadowColor(),
view.IsUnderlineEnabled(),
view.GetUnderlineColor(),
- view.GetUnderlineHeight() );
+ view.GetUnderlineHeight(),
+ depth );
}
+
return mImpl->mActor;
}
AtlasRenderer::~AtlasRenderer()
{
+ Vector< GlyphInfo > emptyGlyphs;
+ mImpl->RemoveText( emptyGlyphs );
delete mImpl;
}