Exemplo n.º 1
0
TEST_F( TestCommandFixture, creatMacro )
{
	auto & controller = getReflectionController();

	auto objHandle = klass_->createManagedObject();

	PropertyAccessor counter = klass_->bindProperty("counter", objHandle );
	CHECK(counter.isValid());

	const int TEST_VALUE = 57;
	{
		int value = TEST_VALUE;
		controller.setValue( counter, value );
	}

	{
		// TODO: wait on controller
		controller.getValue( counter );
	}

	{
		auto & commandSystemProvider = getCommandSystemProvider();
		auto & history = commandSystemProvider.getHistory();
		commandSystemProvider.createMacro( history );
		CHECK(commandSystemProvider.getMacros().empty() == false );
	}
}
//==============================================================================
std::string RPURU::resolveContextObjectPropertyPath(const ObjectHandle& contextObject, const char* propertyPath,
                                                    IDefinitionManager& definitionManager)
{
	assert(contextObject != nullptr);
	const auto classDef = contextObject.getDefinition(definitionManager);
	assert(classDef != nullptr);
	std::string tmp = propertyPath;
	std::vector<std::string> paths;
	paths.push_back(tmp);

	char* pch;
	pch = strtok(const_cast<char*>(tmp.c_str()), ".");
	if (pch != NULL)
	{
		pch = strtok(NULL, ".");
		while (pch != NULL)
		{
			paths.push_back(pch);
			pch = strtok(NULL, ".");
		}
	}
	PropertyAccessor pa;
	for (auto& path : paths)
	{
		resolveProperty(contextObject, *classDef, path.c_str(), pa, definitionManager);
		if (pa.isValid())
		{
			break;
		}
	}
	return pa.getFullPath();
}
//==============================================================================
ObjectHandle SetReflectedPropertyCommand::execute(
	const ObjectHandle & arguments ) const
{
	ReflectedPropertyCommandArgument * commandArgs =
		arguments.getBase< ReflectedPropertyCommandArgument >();
	auto objManager = definitionManager_.getObjectManager();
	assert( objManager != nullptr );
	ObjectHandle object = objManager->getObject( commandArgs->getContextId() );
	if (!object.isValid())
	{
		return CommandErrorCode::INVALID_ARGUMENTS;
	}
	PropertyAccessor property = object.getDefinition( definitionManager_ )->bindProperty( 
		commandArgs->getPropertyPath(), object );
	if (property.isValid() == false)
	{
		//Can't set
		return CommandErrorCode::INVALID_ARGUMENTS;
	}
	const Variant & data = commandArgs->getPropertyValue();
	bool br = property.setValue( data );
	if (!br)
	{
		return CommandErrorCode::INVALID_VALUE;
	}

	// Do not return the object
	// CommandInstance will hold a reference to the return value
	// and the CommandInstance is stored in the undo/redo history forever
	// This is due to a circular reference in CommandManagerImpl::pushFrame
	return nullptr;
}
Exemplo n.º 4
0
bool BaseGenericObject::setProperty(const char* name, const Variant& value, bool enableNotification)
{
	// Get existing property
	const IClassDefinition& definition = *this->getDefinition();
	ObjectHandle provider = this->getDerivedType();
	PropertyAccessor accessor = definition.bindProperty(name, provider);

	// do nothing if property does not exist and the value is void
	if (!accessor.isValid() && value.isVoid())
	{
		return false;
	}

	// set value to the property if property exists and the value is not void
	if (accessor.isValid() && !value.isVoid())
	{
		if (enableNotification)
		{
			return accessor.setValue(value);
		}
		else
		{
			return accessor.setValueWithoutNotification(value);
		}
	}

	// Property does not exist
	// Add new property and set it
	auto definitionModifier = definition.getDetails().getDefinitionModifier();
	if (definitionModifier == nullptr)
	{
		return false;
	}

	if (accessor.isValid() && value.isVoid())
	{
		definitionModifier->removeProperty(name);
		return false;
	}

	return addProperty(name, value, nullptr, enableNotification);
}
Exemplo n.º 5
0
Variant BaseGenericObject::invokeProperty(const char* name, const ReflectedMethodParameters& parameters)
{
	const IClassDefinition& definition = *this->getDefinition();
	ObjectHandle provider = this->getDerivedType();
	PropertyAccessor accessor = definition.bindProperty(name, provider);
	if (!accessor.isValid())
	{
		TF_ASSERT(false && "Property could not be found");
		return Variant();
	}
	return accessor.invoke(parameters);
}
//==============================================================================
void RPURU::resolveProperty(const ObjectHandle& handle, const IClassDefinition& classDef, const char* propertyPath,
                            PropertyAccessor& o_Pa, IDefinitionManager& definitionManager)
{
	o_Pa = handle.getDefinition(definitionManager)->bindProperty(propertyPath, handle);
	if (o_Pa.isValid())
	{
		return;
	}
	const PropertyIteratorRange& props = classDef.allProperties();
	for (PropertyIterator pi = props.begin(); pi != props.end(); ++pi)
	{
		std::string parentPath = pi->getName();
		const PropertyAccessor& prop = classDef.bindProperty(parentPath.c_str(), handle);
		assert(prop.isValid());
		if (prop.getProperty()->isMethod())
		{
			continue;
		}
		const Variant& value = prop.getValue();
		if (value.typeIs<ObjectHandle>())
		{
			ObjectHandle subHandle;
			bool isOk = value.tryCast(subHandle);
			assert(isOk);
			if ((subHandle == nullptr) || (subHandle.getDefinition(definitionManager) == nullptr))
			{
				continue;
			}
			parentPath = parentPath + "." + propertyPath;

			resolveProperty(subHandle, *subHandle.getDefinition(definitionManager), parentPath.c_str(), o_Pa,
			                definitionManager);

			if (o_Pa.isValid())
			{
				return;
			}
		}
	}
}
Exemplo n.º 7
0
TEST_F( TestCommandFixture, undo_redo )
{
	auto & controller = getReflectionController();

	auto objHandle = klass_->createManagedObject();

	PropertyAccessor counter = klass_->bindProperty("counter", objHandle );
	CHECK(counter.isValid());
	int oldValue = -1;
	{
		Variant variant = counter.getValue();
		CHECK(variant.tryCast( oldValue ));
	}
	auto & commandSystemProvider = getCommandSystemProvider();
	const int TEST_VALUE = 57;
	{
		int value = TEST_VALUE;
		
		controller.setValue( counter, value );
	}

	{
		int value = 0;
		Variant variant = controller.getValue( counter );
		CHECK(variant.tryCast( value ));
		CHECK_EQUAL(TEST_VALUE, value);
	}

	{
		commandSystemProvider.undo();
		CHECK(!commandSystemProvider.canUndo());
		CHECK(commandSystemProvider.canRedo());

		int value = 0;
		Variant variant = controller.getValue( counter );
		CHECK(variant.tryCast( value ));
		CHECK_EQUAL(oldValue, value);
	}

	{
		commandSystemProvider.redo();
		CHECK(commandSystemProvider.canUndo());
		CHECK(!commandSystemProvider.canRedo());

		int value = 0;
		Variant variant = controller.getValue( counter );
		CHECK(variant.tryCast( value ));
		CHECK_EQUAL(TEST_VALUE, value);
	}
}
//==============================================================================
bool SetReflectedPropertyCommand::validateArguments(const ObjectHandle& arguments) const
{
	if ( !arguments.isValid() ) 
	{
		return false;
	}

	auto commandArgs = arguments.getBase< ReflectedPropertyCommandArgument >();
	
	if ( commandArgs == nullptr ) 
	{
			return false;
	}

	auto objManager = definitionManager_.getObjectManager();
	if ( objManager == nullptr ) 
	{
		return false;
	}

	const ObjectHandle & object = objManager->getObject( commandArgs->getContextId() );
	if (!object.isValid())
	{
		return false;
	}

	const IClassDefinition* defn = object.getDefinition( definitionManager_ );
	PropertyAccessor property = defn->bindProperty(commandArgs->getPropertyPath(), object );
	if (property.isValid() == false)
	{
		return false;
	}
	
	const MetaType * dataType = commandArgs->getPropertyValue().type();
	const MetaType * propertyValueType = property.getValue().type();

	if ( !dataType->canConvertTo(propertyValueType) ) 
	{
		return false;
	}

	return true;
}
Exemplo n.º 9
0
TEST_F( TestCommandFixture, executeMacro )
{
	auto & controller = getReflectionController();

	auto objHandle = klass_->createManagedObject();

	PropertyAccessor counter = klass_->bindProperty("counter", objHandle );
	CHECK(counter.isValid());

	const int TEST_VALUE = 57;
	{
		int value = TEST_VALUE;
		controller.setValue( counter, value );
	}

	{
		// TODO: wait on controller
		controller.getValue( counter );
	}

	{
		auto & commandSystemProvider = getCommandSystemProvider();
		commandSystemProvider.undo();
		auto & history = commandSystemProvider.getHistory();
		commandSystemProvider.createMacro( history, "Macro1" );
		CHECK(commandSystemProvider.getMacros().empty() == false );
		auto macroObj = static_cast<CompoundCommand*>( commandSystemProvider.findCommand( "Macro1" ) )->getMacroObject();
		auto instObj = macroObj.getBase<MacroObject>()->executeMacro();
		CommandInstancePtr inst = instObj.getBase<CommandInstance>();
		commandSystemProvider.waitForInstance( inst );
		{
			PropertyAccessor counter = klass_->bindProperty("counter", objHandle );
			int value = 0;
			Variant variant = controller.getValue( counter );
			CHECK(variant.tryCast( value ));
			CHECK_EQUAL(TEST_VALUE, value);
		}
	}
}
Exemplo n.º 10
0
TEST_F( TestCommandFixture, runSingleCommand )
{
	auto & controller = getReflectionController();

	auto objHandle = klass_->createManagedObject();

	PropertyAccessor counter = klass_->bindProperty("counter", objHandle );
	CHECK(counter.isValid());

	const int TEST_VALUE = 57;
	{
		int value = TEST_VALUE;
		controller.setValue( counter, value );
	}

	{
		int value = 0;
		Variant variant = controller.getValue( counter );
		CHECK(variant.tryCast( value ));
		CHECK_EQUAL(TEST_VALUE, value);
	}

}
Exemplo n.º 11
0
TEST_F( TestCommandFixture, runBatchCommand )
{
	auto & controller = getReflectionController();

	auto objHandle = klass_->createManagedObject();

	const int TEST_VALUE = 57;
	const char * TEST_TEXT = "HelloCommand";

	PropertyAccessor counter = klass_->bindProperty("counter", objHandle );
	CHECK(counter.isValid());
	PropertyAccessor text = klass_->bindProperty( "text", objHandle );
	CHECK(text.isValid());
	PropertyAccessor incrementCounter = klass_->bindProperty("incrementCounter", objHandle );
	CHECK(incrementCounter.isValid());

	{
		int value = 0;
		Variant variantValue = controller.getValue( counter );
		CHECK( variantValue.tryCast( value ) );
		CHECK( TEST_VALUE != value );

		std::string text_value;
		Variant variantText = controller.getValue( text );
		CHECK( variantText.tryCast( text_value ) );
		CHECK( TEST_TEXT != text_value );
	}

	{
		int value = TEST_VALUE;
		auto & commandSystemProvider = getCommandSystemProvider();
		commandSystemProvider.beginBatchCommand();
		controller.setValue( counter, value );
		std::string text_value = TEST_TEXT;
		controller.setValue( text, text_value );
		commandSystemProvider.abortBatchCommand();
	}

	{
		int value = 0;
		Variant variantValue = controller.getValue( counter );
		CHECK(variantValue.tryCast( value ));
		CHECK(TEST_VALUE != value);

		std::string text_value;
		Variant variantText = controller.getValue( text );
		CHECK(variantText.tryCast( text_value ));
		CHECK(TEST_TEXT != text_value);
	}

	{
		int value = TEST_VALUE;
		auto & commandSystemProvider = getCommandSystemProvider();
		commandSystemProvider.beginBatchCommand();
		controller.setValue( counter, value );
		std::string text_value = TEST_TEXT;
		controller.setValue( text, text_value );
		commandSystemProvider.endBatchCommand();
	}

	{
		int value = 0;
		Variant variantValue = controller.getValue( counter );
		CHECK(variantValue.tryCast( value ));
		CHECK_EQUAL(TEST_VALUE, value);

		std::string text_value;
		Variant variantText = controller.getValue( text );
		CHECK(variantText.tryCast( text_value ));
		CHECK_EQUAL(TEST_TEXT, text_value);
	}

	{
		Variant variantValue;
		int value = 0;
		auto & commandSystemProvider = getCommandSystemProvider();
		commandSystemProvider.beginBatchCommand();
		controller.setValue( counter, 0 );
		commandSystemProvider.beginBatchCommand();
		controller.setValue( counter, 1 );
		commandSystemProvider.beginBatchCommand();
		controller.setValue( counter, 2 );
		commandSystemProvider.beginBatchCommand();
		controller.setValue( counter, 3 );
		variantValue = controller.getValue( counter );
		CHECK( variantValue.tryCast( value ) );
		CHECK( value == 3 );
		commandSystemProvider.abortBatchCommand();
		variantValue = controller.getValue( counter );
		CHECK( variantValue.tryCast( value ) );
		CHECK( value == 2 );
		commandSystemProvider.abortBatchCommand();
		variantValue = controller.getValue( counter );
		CHECK( variantValue.tryCast( value ) );
		CHECK( value == 1);
		commandSystemProvider.abortBatchCommand();
		variantValue = controller.getValue( counter );
		CHECK( variantValue.tryCast( value ) );
		CHECK( value == 0);
		commandSystemProvider.endBatchCommand();
		variantValue = controller.getValue( counter );
		CHECK( variantValue.tryCast( value ) );
		CHECK( value == 0);
	}

	{
		int value = 0;
		controller.setValue( counter, value );
		Variant variantValue = controller.getValue( counter );
		CHECK(variantValue.tryCast( value ));
		CHECK_EQUAL(0, value);

		auto & commandSystemProvider = getCommandSystemProvider();
		commandSystemProvider.beginBatchCommand();
		controller.invoke( incrementCounter, ReflectedMethodParameters() );
		controller.invoke( incrementCounter, ReflectedMethodParameters() );
		commandSystemProvider.endBatchCommand();
		variantValue = controller.getValue( counter );
		CHECK(variantValue.tryCast( value ));
		CHECK_EQUAL(2, value);

		commandSystemProvider.beginBatchCommand();
		controller.invoke( incrementCounter, ReflectedMethodParameters() );
		controller.invoke( incrementCounter, ReflectedMethodParameters() );
		commandSystemProvider.abortBatchCommand();
		variantValue = controller.getValue( counter );
		CHECK(variantValue.tryCast( value ));
		CHECK_EQUAL(2, value);
	}
}