/*
- * Copyright (c) 2014 Samsung Electronics Co., Ltd.
+ * Copyright (c) 2018 Samsung Electronics Co., Ltd.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
// INTERNAL INCLUDES
#include <dali/integration-api/debug.h>
#include <dali/internal/event/common/type-registry-impl.h>
-#include <dali/internal/event/common/proxy-object.h>
+#include <dali/internal/event/common/object-impl.h>
using std::find_if;
const std::string& mFind;
};
+/**
+ * Functor to find a matching property component index
+ */
+template <typename T>
+struct PropertyComponentFinder
+{
+ PropertyComponentFinder( Dali::Property::Index basePropertyIndex, const int find )
+ : mBasePropertyIndex( basePropertyIndex ),
+ mFind( find )
+ {
+ }
+
+ bool operator()(const T &p) const
+ {
+ return ( p.second.basePropertyIndex == mBasePropertyIndex && p.second.componentIndex == mFind );
+ }
+
+private:
+
+ Dali::Property::Index mBasePropertyIndex;
+ const int mFind;
+};
+
} // namespace anon
namespace Dali
{
TypeInfo::TypeInfo(const std::string &name, const std::string &baseTypeName, Dali::TypeInfo::CreateFunction creator)
- : mTypeName(name), mBaseTypeName(baseTypeName), mCreate(creator)
+ : mTypeName(name), mBaseTypeName(baseTypeName), mCSharpType(false), mCreate(creator)
+{
+ DALI_ASSERT_ALWAYS(!name.empty() && "Type info construction must have a name");
+ DALI_ASSERT_ALWAYS(!baseTypeName.empty() && "Type info construction must have a base type name");
+}
+
+TypeInfo::TypeInfo(const std::string &name, const std::string &baseTypeName, Dali::CSharpTypeInfo::CreateFunction creator)
+ : mTypeName(name), mBaseTypeName(baseTypeName), mCSharpType(true), mCSharpCreate(creator)
{
DALI_ASSERT_ALWAYS(!name.empty() && "Type info construction must have a name");
DALI_ASSERT_ALWAYS(!baseTypeName.empty() && "Type info construction must have a base type name");
{
}
-BaseHandle TypeInfo::CreateInstance()
+BaseHandle TypeInfo::CreateInstance() const
{
BaseHandle ret;
if(mCreate)
{
- ret = mCreate();
+ if ( mCSharpType )
+ {
+ // CSharp currently only registers one create function for all custom controls
+ // it uses the type name to decide which one to create
+ ret = *mCSharpCreate( mTypeName.c_str() );
+ }
+ else
+ {
+ ret = mCreate();
+ }
if ( ret )
{
BaseObject& handle = ret.GetBaseObject();
- ProxyObject *proxyObject = dynamic_cast<Internal::ProxyObject*>(&handle);
+ Object *object = dynamic_cast<Internal::Object*>(&handle);
- if ( proxyObject )
+ if ( object )
{
- proxyObject->SetTypeInfo( this );
+ object->SetTypeInfo( this );
}
}
}
return ret;
}
-bool TypeInfo::DoActionTo(BaseObject *object, const std::string &actionName, const std::vector<Property::Value> &properties)
+ bool TypeInfo::DoActionTo(BaseObject *object, const std::string &actionName, const Property::Map &properties)
{
bool done = false;
{
bool connected( false );
- ConnectorContainerV2::iterator iter = find_if( mSignalConnectors.begin(), mSignalConnectors.end(),
- PairFinder<std::string, ConnectionPairV2>(signalName) );
+ ConnectorContainer::iterator iter = find_if( mSignalConnectors.begin(), mSignalConnectors.end(),
+ PairFinder<std::string, ConnectionPair>(signalName) );
if( iter != mSignalConnectors.end() )
{
return connected;
}
-const std::string& TypeInfo::GetName()
+const std::string& TypeInfo::GetName() const
{
return mTypeName;
}
-const std::string& TypeInfo::GetBaseName()
+const std::string& TypeInfo::GetBaseName() const
{
return mBaseTypeName;
}
-Dali::TypeInfo::CreateFunction TypeInfo::GetCreator()
+Dali::TypeInfo::CreateFunction TypeInfo::GetCreator() const
{
return mCreate;
}
-Dali::TypeInfo::NameContainer TypeInfo::GetActions()
+size_t TypeInfo::GetActionCount() const
{
- Dali::TypeInfo::NameContainer ret;
+ size_t count = mActions.size();
- for(ActionContainer::iterator iter = mActions.begin(); iter != mActions.end(); ++iter)
+ Dali::TypeInfo base = Dali::TypeRegistry::Get().GetTypeInfo( mBaseTypeName );
+ while( base )
{
- ret.push_back(iter->first);
+ count += GetImplementation(base).mActions.size();
+ base = Dali::TypeRegistry::Get().GetTypeInfo( base.GetBaseName() );
}
- Dali::TypeInfo base = Dali::TypeRegistry::Get().GetTypeInfo( mBaseTypeName );
- while( base )
+ return count;
+}
+
+std::string TypeInfo::GetActionName(size_t index) const
+{
+ std::string name;
+
+ if( index < mActions.size() )
{
- for(ActionContainer::iterator iter = GetImplementation(base).mActions.begin();
- iter != GetImplementation(base).mActions.end(); ++iter)
+ name = mActions[index].first;
+ }
+ else
+ {
+ size_t count = mActions.size();
+
+ Dali::TypeInfo base = Dali::TypeRegistry::Get().GetTypeInfo( mBaseTypeName );
+ while( base )
{
- ret.push_back(iter->first);
+ size_t baseCount = GetImplementation(base).mActions.size();
+
+ if( index < count + baseCount )
+ {
+ name = GetImplementation(base).mActions[ index - count ].first;
+ break;
+ }
+
+ count += baseCount;
+
+ base = Dali::TypeRegistry::Get().GetTypeInfo( base.GetBaseName() );
}
+ }
+ return name;
+}
+
+size_t TypeInfo::GetSignalCount() const
+{
+ size_t count = mSignalConnectors.size();
+
+ Dali::TypeInfo base = Dali::TypeRegistry::Get().GetTypeInfo( mBaseTypeName );
+ while( base )
+ {
+ count += GetImplementation(base).mSignalConnectors.size();
base = Dali::TypeRegistry::Get().GetTypeInfo( base.GetBaseName() );
}
- return ret;
+ return count;
}
-Dali::TypeInfo::NameContainer TypeInfo::GetSignals()
+std::string TypeInfo::GetSignalName(size_t index) const
{
- Dali::TypeInfo::NameContainer ret;
+ std::string name;
- for(ConnectorContainerV2::iterator iter = mSignalConnectors.begin(); iter != mSignalConnectors.end(); ++iter)
+ if( index < mSignalConnectors.size() )
{
- ret.push_back(iter->first);
+ name = mSignalConnectors[index].first;
}
-
- Dali::TypeInfo base = Dali::TypeRegistry::Get().GetTypeInfo( mBaseTypeName );
- while( base )
+ else
{
- for(ConnectorContainerV2::iterator iter = GetImplementation(base).mSignalConnectors.begin();
- iter != GetImplementation(base).mSignalConnectors.end(); ++iter)
+ size_t count = mSignalConnectors.size();
+
+ Dali::TypeInfo base = Dali::TypeRegistry::Get().GetTypeInfo( mBaseTypeName );
+ while( base )
{
- ret.push_back(iter->first);
- }
+ size_t baseCount = GetImplementation(base).mSignalConnectors.size();
- base = Dali::TypeRegistry::Get().GetTypeInfo( base.GetBaseName() );
+ if( index < count + baseCount )
+ {
+ name = GetImplementation(base).mSignalConnectors[ index - count ].first;
+ break;
+ }
+
+ count += baseCount;
+
+ base = Dali::TypeRegistry::Get().GetTypeInfo( base.GetBaseName() );
+ }
}
- return ret;
+ return name;
}
void TypeInfo::GetPropertyIndices( Property::IndexContainer& indices ) const
baseImpl.GetPropertyIndices( indices );
}
- if ( ! mRegisteredProperties.empty() )
+ AppendProperties( indices, mRegisteredProperties );
+}
+
+void TypeInfo::GetChildPropertyIndices( Property::IndexContainer& indices ) const
+{
+ Dali::TypeInfo base = TypeRegistry::Get()->GetTypeInfo( mBaseTypeName );
+ if ( base )
+ {
+ const TypeInfo& baseImpl( GetImplementation( base ) );
+ baseImpl.GetChildPropertyIndices( indices );
+ }
+
+ AppendProperties( indices, mRegisteredChildProperties );
+}
+
+/**
+ * Append the indices in RegisteredProperties to the given index container.
+ */
+void TypeInfo::AppendProperties( Dali::Property::IndexContainer& indices,
+ const TypeInfo::RegisteredPropertyContainer& registeredProperties ) const
+{
+ if ( ! registeredProperties.empty() )
{
- indices.reserve( indices.size() + mRegisteredProperties.size() );
+ indices.Reserve( indices.Size() + registeredProperties.size() );
- const RegisteredPropertyContainer::const_iterator endIter = mRegisteredProperties.end();
- for ( RegisteredPropertyContainer::const_iterator iter = mRegisteredProperties.begin(); iter != endIter; ++iter )
+ for( auto&& elem : registeredProperties )
{
- indices.push_back( iter->first );
+ indices.PushBack( elem.first );
}
}
}
return GetImplementation(base).GetPropertyName( index );
}
- DALI_ASSERT_ALWAYS( ! "Cannot find property index" ); // use the same assert as ProxyObject
-
- // Property not found, return reference to invalid property string.
- static const std::string EMPTY_PROPERTY_NAME;
- return EMPTY_PROPERTY_NAME;
+ DALI_ASSERT_ALWAYS( ! "Cannot find property index" ); // use the same assert as Object
}
void TypeInfo::AddActionFunction( const std::string &actionName, Dali::TypeInfo::ActionFunction function )
}
else
{
- DALI_LOG_WARNING("Action already exists in TypeRegistry Type", actionName.c_str());
+ DALI_LOG_WARNING("Action already exists in TypeRegistry Type\n", actionName.c_str());
}
}
}
-void TypeInfo::AddConnectorFunction( const std::string& signalName, Dali::TypeInfo::SignalConnectorFunctionV2 function )
+void TypeInfo::AddConnectorFunction( const std::string& signalName, Dali::TypeInfo::SignalConnectorFunction function )
{
if( NULL == function)
{
}
else
{
- ConnectorContainerV2::iterator iter = find_if( mSignalConnectors.begin(), mSignalConnectors.end(),
- PairFinder<std::string, ConnectionPairV2>(signalName) );
+ ConnectorContainer::iterator iter = find_if( mSignalConnectors.begin(), mSignalConnectors.end(),
+ PairFinder<std::string, ConnectionPair>(signalName) );
if( iter == mSignalConnectors.end() )
{
- mSignalConnectors.push_back( ConnectionPairV2( signalName, function ) );
+ mSignalConnectors.push_back( ConnectionPair( signalName, function ) );
}
else
{
- DALI_LOG_WARNING("Signal name already exists in TypeRegistry Type for signal connector function", signalName.c_str());
+ DALI_LOG_WARNING("Signal name already exists in TypeRegistry Type for signal connector function\n", signalName.c_str());
}
}
}
if ( iter == mRegisteredProperties.end() )
{
- mRegisteredProperties.push_back( RegisteredPropertyPair( index, RegisteredProperty( type, setFunc, getFunc, name ) ) );
+ mRegisteredProperties.push_back( RegisteredPropertyPair( index, RegisteredProperty( type, setFunc, getFunc, name, Property::INVALID_INDEX, Property::INVALID_COMPONENT_INDEX ) ) );
+ }
+ else
+ {
+ DALI_ASSERT_ALWAYS( ! "Property index already added to Type" );
+ }
+ }
+}
+
+void TypeInfo::AddProperty( const std::string& name, Property::Index index, Property::Type type, Dali::CSharpTypeInfo::SetPropertyFunction setFunc, Dali::CSharpTypeInfo::GetPropertyFunction getFunc)
+{
+
+ // The setter can be empty as a property can be read-only.
+
+ if ( NULL == getFunc )
+ {
+ DALI_ASSERT_ALWAYS( ! "GetProperty Function is empty" );
+ }
+ else
+ {
+ RegisteredPropertyContainer::iterator iter = find_if( mRegisteredProperties.begin(), mRegisteredProperties.end(),
+ PairFinder< Property::Index, RegisteredPropertyPair>(index) );
+
+ if ( iter == mRegisteredProperties.end() )
+ {
+ mRegisteredProperties.push_back( RegisteredPropertyPair( index, RegisteredProperty( type, setFunc, getFunc, name, Property::INVALID_INDEX, Property::INVALID_COMPONENT_INDEX ) ) );
}
else
{
DALI_ASSERT_ALWAYS( ! "Property index already added to Type" );
}
}
+
+}
+
+
+void TypeInfo::AddAnimatableProperty( const std::string& name, Property::Index index, Property::Type type )
+{
+ RegisteredPropertyContainer::iterator iter = find_if( mRegisteredProperties.begin(), mRegisteredProperties.end(),
+ PairFinder< Property::Index, RegisteredPropertyPair>(index) );
+
+ if ( iter == mRegisteredProperties.end() )
+ {
+ mRegisteredProperties.push_back( RegisteredPropertyPair( index, RegisteredProperty( type, name, Property::INVALID_INDEX, Property::INVALID_COMPONENT_INDEX ) ) );
+ }
+ else
+ {
+ DALI_ASSERT_ALWAYS( ! "Property index already added to Type" );
+ }
+}
+
+void TypeInfo::AddAnimatableProperty( const std::string& name, Property::Index index, const Property::Value& defaultValue )
+{
+ RegisteredPropertyContainer::iterator iter = find_if( mRegisteredProperties.begin(), mRegisteredProperties.end(),
+ PairFinder< Property::Index, RegisteredPropertyPair>(index) );
+
+ if ( iter == mRegisteredProperties.end() )
+ {
+ mRegisteredProperties.push_back( RegisteredPropertyPair( index, RegisteredProperty( defaultValue.GetType(), name, Property::INVALID_INDEX, Property::INVALID_COMPONENT_INDEX ) ) );
+ mPropertyDefaultValues.push_back( PropertyDefaultValuePair( index, defaultValue ) );
+ }
+ else
+ {
+ DALI_ASSERT_ALWAYS( ! "Property index already added to Type" );
+ }
+}
+
+void TypeInfo::AddAnimatablePropertyComponent( const std::string& name, Property::Index index, Property::Index baseIndex, unsigned int componentIndex )
+{
+ Property::Type type = GetPropertyType( baseIndex );
+ DALI_ASSERT_ALWAYS( ( type == Property::VECTOR2 || type == Property::VECTOR3 || type == Property::VECTOR4 ) && "Base property does not support component" );
+
+ bool success = false;
+
+ RegisteredPropertyContainer::iterator iter = find_if( mRegisteredProperties.begin(), mRegisteredProperties.end(),
+ PairFinder< Property::Index, RegisteredPropertyPair>(index) );
+
+ if ( iter == mRegisteredProperties.end() )
+ {
+ iter = find_if( mRegisteredProperties.begin(), mRegisteredProperties.end(),
+ PropertyComponentFinder< RegisteredPropertyPair >( baseIndex, componentIndex ) );
+
+ if ( iter == mRegisteredProperties.end() )
+ {
+ mRegisteredProperties.push_back( RegisteredPropertyPair( index, RegisteredProperty( type, name, baseIndex, componentIndex ) ) );
+ success = true;
+ }
+ }
+
+ DALI_ASSERT_ALWAYS( success && "Property component already registered" );
}
-unsigned int TypeInfo::GetPropertyCount() const
+void TypeInfo::AddChildProperty( const std::string& name, Property::Index index, Property::Type type )
{
- unsigned int count( mRegisteredProperties.size() );
+ RegisteredPropertyContainer::iterator iter = find_if( mRegisteredChildProperties.begin(), mRegisteredChildProperties.end(),
+ PairFinder< Property::Index, RegisteredPropertyPair>(index) );
+
+ if ( iter == mRegisteredChildProperties.end() )
+ {
+ mRegisteredChildProperties.push_back( RegisteredPropertyPair( index, RegisteredProperty( type, name, Property::INVALID_INDEX, Property::INVALID_COMPONENT_INDEX ) ) );
+ }
+ else
+ {
+ DALI_ASSERT_ALWAYS( ! "Property index already added to Type" );
+ }
+}
+
+uint32_t TypeInfo::GetPropertyCount() const
+{
+ uint32_t count = static_cast<uint32_t>( mRegisteredProperties.size() );
Dali::TypeInfo base = TypeRegistry::Get()->GetTypeInfo( mBaseTypeName );
while ( base )
{
const TypeInfo& baseImpl( GetImplementation(base) );
- count += baseImpl.mRegisteredProperties.size();
+ count += static_cast<uint32_t>( baseImpl.mRegisteredProperties.size() );
base = TypeRegistry::Get()->GetTypeInfo( baseImpl.mBaseTypeName );
}
return index;
}
+Property::Index TypeInfo::GetBasePropertyIndex( Property::Index index ) const
+{
+ Property::Index basePropertyIndex = Property::INVALID_INDEX;
+
+ RegisteredPropertyContainer::const_iterator iter = find_if( mRegisteredProperties.begin(), mRegisteredProperties.end(),
+ PairFinder< Property::Index, RegisteredPropertyPair >( index ) );
+
+ if ( iter != mRegisteredProperties.end() )
+ {
+ basePropertyIndex = iter->second.basePropertyIndex;
+ }
+ else
+ {
+ Dali::TypeInfo base = TypeRegistry::Get()->GetTypeInfo( mBaseTypeName );
+ if ( base )
+ {
+ basePropertyIndex = GetImplementation(base).GetBasePropertyIndex( index );
+ }
+ }
+
+ return basePropertyIndex;
+}
+
+int TypeInfo::GetComponentIndex( Property::Index index ) const
+{
+ int componentIndex = Property::INVALID_COMPONENT_INDEX;
+
+ RegisteredPropertyContainer::const_iterator iter = find_if( mRegisteredProperties.begin(), mRegisteredProperties.end(),
+ PairFinder< Property::Index, RegisteredPropertyPair >( index ) );
+
+ if ( iter != mRegisteredProperties.end() )
+ {
+ componentIndex = iter->second.componentIndex;
+ }
+ else
+ {
+ Dali::TypeInfo base = TypeRegistry::Get()->GetTypeInfo( mBaseTypeName );
+ if ( base )
+ {
+ componentIndex = GetImplementation(base).GetComponentIndex( index );
+ }
+ }
+
+ return componentIndex;
+}
+
+Property::Index TypeInfo::GetChildPropertyIndex( const std::string& name ) const
+{
+ Property::Index index = Property::INVALID_INDEX;
+
+ // Slow but should not be done that often
+ RegisteredPropertyContainer::const_iterator iter = find_if( mRegisteredChildProperties.begin(), mRegisteredChildProperties.end(),
+ PropertyNameFinder< RegisteredPropertyPair >( name ) );
+
+ if ( iter != mRegisteredChildProperties.end() )
+ {
+ index = iter->first;
+ }
+ else
+ {
+ Dali::TypeInfo base = TypeRegistry::Get()->GetTypeInfo( mBaseTypeName );
+ if ( base )
+ {
+ index = GetImplementation(base).GetChildPropertyIndex( name );
+ }
+ }
+
+ return index;
+}
+
+const std::string& TypeInfo::GetChildPropertyName( Property::Index index ) const
+{
+ RegisteredPropertyContainer::const_iterator iter = find_if( mRegisteredChildProperties.begin(), mRegisteredChildProperties.end(),
+ PairFinder< Property::Index, RegisteredPropertyPair >( index ) );
+
+ if ( iter != mRegisteredChildProperties.end() )
+ {
+ return iter->second.name;
+ }
+
+ Dali::TypeInfo base = TypeRegistry::Get()->GetTypeInfo( mBaseTypeName );
+ if ( base )
+ {
+ return GetImplementation(base).GetChildPropertyName( index );
+ }
+
+ DALI_LOG_WARNING("Cannot find property index");
+
+ static std::string emptyString;
+ return emptyString;
+}
+
+Property::Type TypeInfo::GetChildPropertyType( Property::Index index ) const
+{
+ Property::Type type( Property::NONE );
+
+ RegisteredPropertyContainer::const_iterator iter = find_if( mRegisteredChildProperties.begin(), mRegisteredChildProperties.end(),
+ PairFinder< Property::Index, RegisteredPropertyPair >( index ) );
+
+ if ( iter != mRegisteredChildProperties.end() )
+ {
+ type = iter->second.type;
+ }
+ else
+ {
+ Dali::TypeInfo base = TypeRegistry::Get()->GetTypeInfo( mBaseTypeName );
+ if ( base )
+ {
+ type = GetImplementation(base).GetChildPropertyType( index );
+ }
+ else
+ {
+ DALI_ASSERT_ALWAYS( ! "Cannot find property index" ); // use the same assert as Object
+ }
+ }
+
+ return type;
+}
+
bool TypeInfo::IsPropertyWritable( Property::Index index ) const
{
bool writable( false );
if ( iter != mRegisteredProperties.end() )
{
- writable = iter->second.setFunc ? true : false;
+ if( ( index >= ANIMATABLE_PROPERTY_REGISTRATION_START_INDEX ) && ( index <= ANIMATABLE_PROPERTY_REGISTRATION_MAX_INDEX ) )
+ {
+ writable = true; // animatable property is writable
+ }
+ else
+ {
+ writable = iter->second.setFunc ? true : false;
+ }
}
else
{
}
else
{
- DALI_ASSERT_ALWAYS( ! "Cannot find property index" ); // use the same assert as ProxyObject
+ DALI_ASSERT_ALWAYS( ! "Cannot find property index" ); // use the same assert as Object
}
}
if ( iter != mRegisteredProperties.end() )
{
- type = iter->second.type;
+ if( iter->second.componentIndex == Property::INVALID_COMPONENT_INDEX )
+ {
+ type = iter->second.type;
+ }
+ else
+ {
+ // If component index is set, then we should return FLOAT
+ type = Property::FLOAT;
+ }
}
else
{
}
else
{
- DALI_ASSERT_ALWAYS( ! "Cannot find property index" ); // use the same assert as ProxyObject
+ DALI_ASSERT_ALWAYS( ! "Cannot find property index" ); // use the same assert as Object
}
}
return type;
}
-void TypeInfo::SetProperty( BaseObject *object, Property::Index index, const Property::Value& value )
+Property::Value TypeInfo::GetPropertyDefaultValue( Property::Index index ) const
{
- RegisteredPropertyContainer::iterator iter = find_if( mRegisteredProperties.begin(), mRegisteredProperties.end(),
- PairFinder< Property::Index, RegisteredPropertyPair >( index ) );
+ PropertyDefaultValueContainer::const_iterator iter = find_if( mPropertyDefaultValues.begin(), mPropertyDefaultValues.end(),
+ PairFinder< Property::Index, PropertyDefaultValuePair >( index ) );
+ if( iter != mPropertyDefaultValues.end() )
+ {
+ return iter->second;
+ }
+ else
+ {
+ return Property::Value( GetPropertyType( index ) );
+ }
+}
+
+void TypeInfo::SetProperty( BaseObject *object, Property::Index index, const Property::Value& value ) const
+{
+ RegisteredPropertyContainer::const_iterator iter = find_if( mRegisteredProperties.begin(), mRegisteredProperties.end(),
+ PairFinder< Property::Index, RegisteredPropertyPair >( index ) );
if ( iter != mRegisteredProperties.end() )
{
- DALI_ASSERT_ALWAYS( iter->second.setFunc && "Trying to write to a read-only property" );
- iter->second.setFunc( object, index, value );
+ if( iter->second.setFunc )
+ {
+ if( mCSharpType )
+ {
+ // CSharp wants a property name not an index
+ const std::string& name = (iter->second).name;
+
+ iter->second.cSharpSetFunc( object,name.c_str(), const_cast< Property::Value* >(&value) );
+ }
+ else
+ {
+ iter->second.setFunc( object, index, value );
+ }
+ }
}
else
{
}
else
{
- DALI_ASSERT_ALWAYS( ! "Cannot find property index" ); // use the same assert as ProxyObject
+ DALI_ASSERT_ALWAYS( ! "Cannot find property index" ); // use the same assert as Object
}
}
}
-void TypeInfo::SetProperty( BaseObject *object, const std::string& name, const Property::Value& value )
+void TypeInfo::SetProperty( BaseObject *object, const std::string& name, const Property::Value& value ) const
{
- RegisteredPropertyContainer::iterator iter = find_if( mRegisteredProperties.begin(), mRegisteredProperties.end(),
- PropertyNameFinder< RegisteredPropertyPair >( name ) );
+ RegisteredPropertyContainer::const_iterator iter = find_if( mRegisteredProperties.begin(), mRegisteredProperties.end(),
+ PropertyNameFinder< RegisteredPropertyPair >( name ) );
if ( iter != mRegisteredProperties.end() )
{
DALI_ASSERT_ALWAYS( iter->second.setFunc && "Trying to write to a read-only property" );
- iter->second.setFunc( object, iter->first, value );
+
+ if( mCSharpType )
+ {
+ // CSharp wants a property name not an index
+ iter->second.cSharpSetFunc( object,name.c_str(), const_cast< Property::Value* >(&value ));
+ }
+ else
+ {
+ iter->second.setFunc( object, iter->first, value );
+ }
}
else
{
}
}
-Property::Value TypeInfo::GetProperty( const BaseObject *object, Property::Index index )
+Property::Value TypeInfo::GetProperty( const BaseObject *object, Property::Index index ) const
{
RegisteredPropertyContainer::const_iterator iter = find_if( mRegisteredProperties.begin(), mRegisteredProperties.end(),
PairFinder< Property::Index, RegisteredPropertyPair >( index ) );
if( iter != mRegisteredProperties.end() )
{
- // Need to remove the constness here as CustomActor will not be able to call Downcast with a const pointer to the object
- return iter->second.getFunc( const_cast< BaseObject* >( object ), index );
+ if( mCSharpType ) // using csharp property get which returns a pointer to a Property::Value
+ {
+ // CSharp wants a property name not an index
+ // CSharp callback can't return an object by value, it can only return a pointer
+ // CSharp has ownership of the pointer contents, which is fine because we are returning by from this function by value
+ const std::string& name = (iter->second).name;
+
+ return *( iter->second.cSharpGetFunc( const_cast< BaseObject* >( object ), name.c_str()) );
+
+ }
+ else
+ {
+ // Need to remove the constness here as CustomActor will not be able to call Downcast with a const pointer to the object
+ return iter->second.getFunc( const_cast< BaseObject* >( object ), index );
+ }
}
Dali::TypeInfo base = TypeRegistry::Get()->GetTypeInfo( mBaseTypeName );
return GetImplementation( base ).GetProperty( object, index );
}
- DALI_ASSERT_ALWAYS( ! "Cannot find property index" ); // use the same assert as ProxyObject
-
- return Property::Value();
+ DALI_ASSERT_ALWAYS( ! "Cannot find property index" ); // use the same assert as Object
}
-Property::Value TypeInfo::GetProperty( const BaseObject *object, const std::string& name )
+Property::Value TypeInfo::GetProperty( const BaseObject *object, const std::string& name ) const
{
RegisteredPropertyContainer::const_iterator iter = find_if( mRegisteredProperties.begin(), mRegisteredProperties.end(),
- PropertyNameFinder< RegisteredPropertyPair >( name ) );
+ PropertyNameFinder< RegisteredPropertyPair >( name ) );
+
+
+
if( iter != mRegisteredProperties.end() )
{
- // Need to remove the constness here as CustomActor will not be able to call Downcast with a const pointer to the object
- return iter->second.getFunc( const_cast< BaseObject* >( object ), iter->first );
+ if( mCSharpType ) // using csharp property get which returns a pointer to a Property::Value
+ {
+ // CSharp wants a property name not an index
+ // CSharp callback can't return an object by value, it can only return a pointer
+ // CSharp has ownership of the pointer contents, which is fine because we are returning by from this function by value
+ return *( iter->second.cSharpGetFunc( const_cast< BaseObject* >( object ), name.c_str() ));
+
+ }
+ else
+ {
+ // Need to remove the constness here as CustomActor will not be able to call Downcast with a const pointer to the object
+ return iter->second.getFunc( const_cast< BaseObject* >( object ), iter->first );
+ }
}
Dali::TypeInfo base = TypeRegistry::Get()->GetTypeInfo( mBaseTypeName );
}
DALI_ASSERT_ALWAYS( ! "Cannot find property name" );
-
- return Property::Value();
}
} // namespace Internal