/*
- * Copyright (c) 2020 Samsung Electronics Co., Ltd.
+ * Copyright (c) 2022 Samsung Electronics Co., Ltd.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
#include <dali/internal/event/common/type-registry-impl.h>
// INTERNAL INCLUDES
-#include <dali/public-api/object/type-registry.h>
-#include <dali/public-api/object/base-handle.h>
#include <dali/internal/event/actors/custom-actor-internal.h>
#include <dali/internal/event/common/demangler.h>
#include <dali/internal/event/common/thread-local-storage.h>
+#include <dali/public-api/object/base-handle.h>
+#include <dali/public-api/object/type-registry.h>
#include <dali/integration-api/debug.h>
namespace
{
-
#if defined(DEBUG_ENABLED)
Debug::Filter* gLogFilter = Debug::Filter::New(Debug::NoLogging, false, "LOG_TYPE_REGISTRY");
#endif
-} // namespace anon
+} // namespace
namespace Dali
{
-
namespace Internal
{
-
-TypeRegistry *TypeRegistry::Get()
+TypeRegistry* TypeRegistry::Get()
{
- static TypeRegistry *_reg(new TypeRegistry());
+ static TypeRegistry* _reg(new TypeRegistry());
DALI_ASSERT_DEBUG(_reg);
return _reg;
}
mRegistryLut.clear();
}
-TypeRegistry::TypeInfoPointer TypeRegistry::GetTypeInfo( const std::string& uniqueTypeName )
+TypeRegistry::TypeInfoPointer TypeRegistry::GetTypeInfo(const std::string& uniqueTypeName)
{
- for( auto&& iter : mRegistryLut )
+ auto iter = mRegistryLut.Get(ConstString(uniqueTypeName));
+ if(iter != mRegistryLut.end())
{
- // Note! mRegistryLut contains Dali::TypeInfo handles, so cannot call GetTypeName()
- // as it calls us back resulting in infinite loop (GetTypeName is in BaseHandle part)
- if( iter->GetName() == uniqueTypeName )
- {
- return iter;
- }
+ return iter->second;
}
- DALI_LOG_INFO( gLogFilter, Debug::Verbose, "Cannot find requested type '%s'\n", uniqueTypeName.c_str() );
+
+ DALI_LOG_INFO(gLogFilter, Debug::Verbose, "Cannot find requested type '%s'\n", uniqueTypeName.c_str());
return TypeRegistry::TypeInfoPointer();
}
-TypeRegistry::TypeInfoPointer TypeRegistry::GetTypeInfo( const std::type_info& registerType )
+TypeRegistry::TypeInfoPointer TypeRegistry::GetTypeInfo(const std::type_info& registerType)
{
- std::string typeName = DemangleClassName( registerType.name() );
+ std::string typeName = DemangleClassName(registerType.name());
- return GetTypeInfo( typeName );
+ return GetTypeInfo(typeName);
}
uint32_t TypeRegistry::GetTypeNameCount() const
{
- return static_cast<uint32_t>( mRegistryLut.size() );
+ return static_cast<uint32_t>(mRegistryLut.size());
}
const std::string& TypeRegistry::GetTypeName(uint32_t index) const
{
static std::string EMPTY_STRING{};
- if( index < mRegistryLut.size() )
+ if(index < mRegistryLut.size())
{
- return mRegistryLut[index]->GetName();
+ return mRegistryLut.GetElementByIndex(index)->GetName();
}
return EMPTY_STRING;
}
-std::string TypeRegistry::Register( const std::type_info& theTypeInfo,
- const std::type_info& baseTypeInfo,
- Dali::TypeInfo::CreateFunction createInstance,
- bool callCreateOnInit )
+std::string TypeRegistry::Register(const std::type_info& theTypeInfo,
+ const std::type_info& baseTypeInfo,
+ Dali::TypeInfo::CreateFunction createInstance,
+ bool callCreateOnInit)
{
- std::string uniqueTypeName = DemangleClassName( theTypeInfo.name() );
+ std::string uniqueTypeName = DemangleClassName(theTypeInfo.name());
- return Register( uniqueTypeName, baseTypeInfo, createInstance, callCreateOnInit );
+ return Register(uniqueTypeName, baseTypeInfo, createInstance, callCreateOnInit);
}
-std::string TypeRegistry::Register( const std::type_info& theTypeInfo,
- const std::type_info& baseTypeInfo,
- Dali::TypeInfo::CreateFunction createInstance,
- bool callCreateOnInit,
- const Dali::PropertyDetails* defaultProperties,
- Property::Index defaultPropertyCount )
+std::string TypeRegistry::Register(const std::type_info& theTypeInfo,
+ const std::type_info& baseTypeInfo,
+ Dali::TypeInfo::CreateFunction createInstance,
+ bool callCreateOnInit,
+ const Dali::PropertyDetails* defaultProperties,
+ Property::Index defaultPropertyCount)
{
- std::string uniqueTypeName = DemangleClassName( theTypeInfo.name() );
+ std::string uniqueTypeName = DemangleClassName(theTypeInfo.name());
- return Register( uniqueTypeName, baseTypeInfo, createInstance, callCreateOnInit, defaultProperties, defaultPropertyCount );
+ return Register(uniqueTypeName, baseTypeInfo, createInstance, callCreateOnInit, defaultProperties, defaultPropertyCount);
}
std::string TypeRegistry::Register(std::string uniqueTypeName,
const Dali::PropertyDetails* defaultProperties,
Property::Index defaultPropertyCount)
{
- std::string baseTypeName = DemangleClassName( baseTypeInfo.name() );
+ std::string baseTypeName = DemangleClassName(baseTypeInfo.name());
- // check for duplicates using uniqueTypeName
- for( auto&& iter : mRegistryLut )
+ if(!mRegistryLut.Register(ConstString(uniqueTypeName), new Internal::TypeInfo(uniqueTypeName, baseTypeName, createInstance, defaultProperties, defaultPropertyCount)))
{
- if( iter->GetName() == uniqueTypeName )
- {
- DALI_LOG_WARNING( "Duplicate name in TypeRegistry for '%s'\n", + uniqueTypeName.c_str() );
- DALI_ASSERT_ALWAYS( !"Duplicate type name in Type Registration" );
- return uniqueTypeName; // never actually happening due to the assert
- }
+ DALI_LOG_WARNING("Duplicate name in TypeRegistry for '%s'\n", +uniqueTypeName.c_str());
+ DALI_ASSERT_ALWAYS(!"Duplicate type name in Type Registration");
+ return uniqueTypeName; // never actually happening due to the assert
}
+ DALI_LOG_INFO(gLogFilter, Debug::Concise, "Type Registration %s(%s)\n", uniqueTypeName.c_str(), baseTypeName.c_str());
- mRegistryLut.push_back( TypeRegistry::TypeInfoPointer(
- new Internal::TypeInfo( uniqueTypeName, baseTypeName, createInstance, defaultProperties, defaultPropertyCount ) ) );
- DALI_LOG_INFO( gLogFilter, Debug::Concise, "Type Registration %s(%s)\n", uniqueTypeName.c_str(), baseTypeName.c_str() );
-
- if( callCreateOnInit )
+ if(callCreateOnInit)
{
mInitFunctions.push_back(createInstance);
}
void TypeRegistry::Register(std::string uniqueTypeName, const std::type_info& baseTypeInfo, Dali::CSharpTypeInfo::CreateFunction createInstance)
{
- std::string baseTypeName = DemangleClassName( baseTypeInfo.name() );
+ std::string baseTypeName = DemangleClassName(baseTypeInfo.name());
- // check for duplicates using uniqueTypeName
- for( auto&& iter : mRegistryLut )
+ if(!mRegistryLut.Register(ConstString(uniqueTypeName), TypeRegistry::TypeInfoPointer(new Internal::TypeInfo(uniqueTypeName, baseTypeName, createInstance))))
{
- if( iter->GetName() == uniqueTypeName )
- {
- DALI_LOG_WARNING( "Duplicate name in TypeRegistry for '%s'\n", + uniqueTypeName.c_str() );
- DALI_ASSERT_ALWAYS( !"Duplicate type name in Type Registration" );
- return; // never actually happening due to the assert
- }
+ DALI_LOG_WARNING("Duplicate name in TypeRegistry for '%s'\n", +uniqueTypeName.c_str());
+ DALI_ASSERT_ALWAYS(!"Duplicate type name in Type Registration");
+ return; // never actually happening due to the assert
}
-
- mRegistryLut.push_back( TypeRegistry::TypeInfoPointer( new Internal::TypeInfo( uniqueTypeName, baseTypeName, createInstance ) ) );
- DALI_LOG_INFO( gLogFilter, Debug::Concise, "Type Registration %s(%s)\n", uniqueTypeName.c_str(), baseTypeName.c_str() );
+ DALI_LOG_INFO(gLogFilter, Debug::Concise, "Type Registration %s(%s)\n", uniqueTypeName.c_str(), baseTypeName.c_str());
}
void TypeRegistry::CallInitFunctions(void) const
{
- for( auto&& iter : mInitFunctions )
+ for(auto&& iter : mInitFunctions)
{
(*iter)();
}
}
-std::string TypeRegistry::RegistrationName( const std::type_info& registerType )
+std::string TypeRegistry::RegistrationName(const std::type_info& registerType)
{
- return DemangleClassName( registerType.name() );
+ return DemangleClassName(registerType.name());
}
void TypeRegistry::RegisterSignal(TypeRegistration& typeRegistration, std::string name, Dali::TypeInfo::SignalConnectorFunction func)
{
- for( auto&& iter : mRegistryLut )
+ auto iter = mRegistryLut.Get(ConstString(typeRegistration.RegisteredName()));
+ if(iter != mRegistryLut.end())
{
- if( iter->GetName() == typeRegistration.RegisteredName() )
- {
- iter->AddConnectorFunction(std::move(name), func);
- break;
- }
+ iter->second->AddConnectorFunction(std::move(name), func);
}
}
bool TypeRegistry::RegisterAction(TypeRegistration& typeRegistration, std::string name, Dali::TypeInfo::ActionFunction f)
{
- for( auto&& iter : mRegistryLut )
+ auto iter = mRegistryLut.Get(ConstString(typeRegistration.RegisteredName()));
+ if(iter != mRegistryLut.end())
{
- if( iter->GetName() == typeRegistration.RegisteredName() )
- {
- iter->AddActionFunction(std::move(name), f);
- return true;
- }
+ iter->second->AddActionFunction(std::move(name), f);
+ return true;
}
return false;
}
bool TypeRegistry::RegisterProperty(TypeRegistration& typeRegistration, std::string name, Property::Index index, Property::Type type, Dali::TypeInfo::SetPropertyFunction setFunc, Dali::TypeInfo::GetPropertyFunction getFunc)
{
- for( auto&& iter : mRegistryLut )
+ auto iter = mRegistryLut.Get(ConstString(typeRegistration.RegisteredName()));
+ if(iter != mRegistryLut.end())
{
- if( iter->GetName() == typeRegistration.RegisteredName() )
- {
- iter->AddProperty(std::move(name), index, type, setFunc, getFunc);
- return true;
- }
+ iter->second->AddProperty(std::move(name), index, type, setFunc, getFunc);
+ return true;
}
-
return false;
}
bool TypeRegistry::RegisterProperty(const std::string& objectName, std::string name, Property::Index index, Property::Type type, Dali::CSharpTypeInfo::SetPropertyFunction setFunc, Dali::CSharpTypeInfo::GetPropertyFunction getFunc)
{
- for( auto&& iter : mRegistryLut )
+ auto iter = mRegistryLut.Get(ConstString(objectName));
+ if(iter != mRegistryLut.end())
{
- if( iter->GetName() == objectName )
- {
- iter->AddProperty(std::move(name), index, type, setFunc, getFunc);
- return true;
- }
+ iter->second->AddProperty(std::move(name), index, type, setFunc, getFunc);
+ return true;
}
return false;
bool TypeRegistry::RegisterAnimatableProperty(TypeRegistration& typeRegistration, std::string name, Property::Index index, Property::Type type)
{
- for( auto&& iter : mRegistryLut )
+ auto iter = mRegistryLut.Get(ConstString(typeRegistration.RegisteredName()));
+ if(iter != mRegistryLut.end())
{
- if( iter->GetName() == typeRegistration.RegisteredName() )
- {
- iter->AddAnimatableProperty(std::move(name), index, type);
- return true;
- }
+ iter->second->AddAnimatableProperty(std::move(name), index, type);
+ return true;
}
return false;
bool TypeRegistry::RegisterAnimatableProperty(TypeRegistration& typeRegistration, std::string name, Property::Index index, Property::Value value)
{
- for( auto&& iter : mRegistryLut )
+ auto iter = mRegistryLut.Get(ConstString(typeRegistration.RegisteredName()));
+ if(iter != mRegistryLut.end())
{
- if( iter->GetName() == typeRegistration.RegisteredName() )
- {
- iter->AddAnimatableProperty(std::move(name), index, std::move(value));
- return true;
- }
+ iter->second->AddAnimatableProperty(std::move(name), index, std::move(value));
+ return true;
}
return false;
bool TypeRegistry::RegisterAnimatablePropertyComponent(TypeRegistration& typeRegistration, std::string name, Property::Index index, Property::Index baseIndex, unsigned int componentIndex)
{
- for( auto&& iter : mRegistryLut )
+ auto iter = mRegistryLut.Get(ConstString(typeRegistration.RegisteredName()));
+ if(iter != mRegistryLut.end())
{
- if( iter->GetName() == typeRegistration.RegisteredName() )
- {
- iter->AddAnimatablePropertyComponent(std::move(name), index, baseIndex, componentIndex);
- return true;
- }
+ iter->second->AddAnimatablePropertyComponent(std::move(name), index, baseIndex, componentIndex);
+ return true;
}
return false;
bool TypeRegistry::RegisterChildProperty(const std::string& registeredType, std::string name, Property::Index index, Property::Type type)
{
- for( auto&& iter : mRegistryLut )
+ auto iter = mRegistryLut.Get(ConstString(registeredType));
+ if(iter != mRegistryLut.end())
{
- if( iter->GetName() == registeredType )
- {
- iter->AddChildProperty(std::move(name), index, type);
- return true;
- }
+ iter->second->AddChildProperty(std::move(name), index, type);
+ return true;
}
return false;
return RegisterChildProperty(typeRegistration.RegisteredName(), std::move(name), index, type);
}
-bool TypeRegistry::DoActionTo( BaseObject * const object, const std::string& actionName, const Property::Map& properties )
+bool TypeRegistry::DoActionTo(BaseObject* const object, const std::string& actionName, const Property::Map& properties)
{
bool done = false;
- auto&& type = GetTypeInfo( object );
+ auto&& type = GetTypeInfo(object);
// DoActionTo recurses through base classes
- done = type->DoActionTo( object, actionName, properties );
+ done = type->DoActionTo(object, actionName, properties);
- if( !done )
+ if(!done)
{
DALI_LOG_WARNING("Type '%s' cannot do action '%s'\n", type->GetName().c_str(), actionName.c_str());
}
return done;
}
-bool TypeRegistry::ConnectSignal( BaseObject* object, ConnectionTrackerInterface* connectionTracker, const std::string& signalName, FunctorDelegate* functor )
+bool TypeRegistry::ConnectSignal(BaseObject* object, ConnectionTrackerInterface* connectionTracker, const std::string& signalName, FunctorDelegate* functor)
{
- bool connected( false );
+ bool connected(false);
- auto&& type = GetTypeInfo( object );
+ auto&& type = GetTypeInfo(object);
// Connect iterates through base classes
- connected = type->ConnectSignal( object, connectionTracker, signalName, functor );
+ connected = type->ConnectSignal(object, connectionTracker, signalName, functor);
- if( !connected )
+ if(!connected)
{
DALI_LOG_WARNING("Type '%s' signal '%s' connection failed \n", type->GetName().c_str(), signalName.c_str());
// Ownership of functor was not passed to Dali::CallbackBase, so clean-up now
return connected;
}
-TypeRegistry::TypeInfoPointer TypeRegistry::GetTypeInfo(const Dali::BaseObject * const pBaseObject)
+TypeRegistry::TypeInfoPointer TypeRegistry::GetTypeInfo(const Dali::BaseObject* const pBaseObject)
{
TypeInfoPointer type;
// test for custom actor which has another indirection to get to the type hiearchy we're after
- const Dali::Internal::CustomActor * const pCustom = dynamic_cast<const Dali::Internal::CustomActor*>(pBaseObject);
+ const Dali::Internal::CustomActor* const pCustom = dynamic_cast<const Dali::Internal::CustomActor*>(pBaseObject);
- if( pCustom )
+ if(pCustom)
{
const Dali::CustomActorImpl& custom = pCustom->GetImplementation();
- type = GetTypeInfo( typeid( custom ) );
- if( !type )
+ type = GetTypeInfo(typeid(custom));
+ if(!type)
{
// the most derived type is a descendant of custom actor but has not registered itself
// so we'll just treat it as a custom actor for now so it "inherits" all of actors properties, actions and signals
- type = GetTypeInfo( typeid( Dali::Internal::CustomActor ) );
+ type = GetTypeInfo(typeid(Dali::Internal::CustomActor));
}
}
else
{
- type = GetTypeInfo( typeid( *pBaseObject ) );
+ type = GetTypeInfo(typeid(*pBaseObject));
}
return type;