Exemplo n.º 1
0
bool LLXUIParser::readAttributes(LLXMLNodePtr nodep, LLInitParam::BaseBlock& block)
{
	typedef boost::tokenizer<boost::char_separator<char> > tokenizer;
	boost::char_separator<char> sep(".");

	bool any_parsed = false;

	for(LLXMLAttribList::const_iterator attribute_it = nodep->mAttributes.begin(); 
		attribute_it != nodep->mAttributes.end(); 
		++attribute_it)
	{
		S32 num_tokens_pushed = 0;
		std::string attribute_name(attribute_it->first->mString);
		mCurReadNode = attribute_it->second;

		tokenizer name_tokens(attribute_name, sep);
		// copy remaining tokens on to our running token list
		for(tokenizer::iterator token_to_push = name_tokens.begin(); token_to_push != name_tokens.end(); ++token_to_push)
		{
			mNameStack.push_back(std::make_pair(*token_to_push, newParseGeneration()));
			num_tokens_pushed++;
		}

		// child nodes are not necessarily valid attributes, so don't complain once we've recursed
		bool silent = mCurReadDepth > 0;
		any_parsed |= block.submitValue(mNameStack, *this, silent);
		
		while(num_tokens_pushed-- > 0)
		{
			mNameStack.pop_back();
		}
	}

	return any_parsed;
}
Exemplo n.º 2
0
void LLParamSDParser::writeSD(LLSD& sd, const LLInitParam::BaseBlock& block)
{
	mNameStack.clear();
	mWriteRootSD = &sd;

	name_stack_t name_stack;
	block.serializeBlock(*this, name_stack);
}
Exemplo n.º 3
0
void LLParamSDParser::writeSDImpl(LLSD& sd, const LLInitParam::BaseBlock& block, const LLInitParam::predicate_rule_t rules, const LLInitParam::BaseBlock* diff_block)
{
	mNameStack.clear();
	mWriteRootSD = &sd;

	name_stack_t name_stack;
	block.serializeBlock(*this, name_stack, rules, diff_block);
}
Exemplo n.º 4
0
void LLRNGWriter::addDefinition(const std::string& type_name, const LLInitParam::BaseBlock& block)
{
	if (mDefinedElements.find(type_name) != mDefinedElements.end()) return;
	mDefinedElements.insert(type_name);

	LLXMLNodePtr node = mGrammarNode->createChild("define", false);
	node->createChild("name", true)->setStringValue(type_name);

	mElementNode = node->createChild("element", false);
	mElementNode->createChild("name", true)->setStringValue(type_name);
	mChildrenNode = mElementNode->createChild("zeroOrMore", false)->createChild("choice", false);

	mAttributesWritten.first = mElementNode;
	mAttributesWritten.second.clear();
	mElementsWritten.clear();

	block.inspectBlock(*this);

	// add includes for all possible children
	const std::type_info* type = *LLWidgetTypeRegistry::instance().getValue(type_name);
	const widget_registry_t* widget_registryp = LLChildRegistryRegistry::instance().getValue(type);
	
	// add include declarations for all valid children
	for (widget_registry_t::Registrar::registry_map_t::const_iterator it = widget_registryp->currentRegistrar().beginItems();
		it != widget_registryp->currentRegistrar().endItems();
		++it)
	{
		std::string child_name = it->first;
		if (child_name == type_name)
		{
			continue;
		}
		
		LLXMLNodePtr old_element_node = mElementNode;
		LLXMLNodePtr old_child_node = mChildrenNode;
		//FIXME: add LLDefaultParamBlockRegistry back when working on schema generation
		//addDefinition(child_name, (*LLDefaultParamBlockRegistry::instance().getValue(type))());
		mElementNode = old_element_node;
		mChildrenNode = old_child_node;

		mChildrenNode->createChild("ref", false)->createChild("name", true)->setStringValue(child_name);
	}

	if (mChildrenNode->mChildren.isNull())
	{
		// remove unused children node
		mChildrenNode->mParent->mParent->deleteChild(mChildrenNode->mParent);
	}
}
Exemplo n.º 5
0
void LLXSDWriter::writeXSD(const std::string& type_name, LLXMLNodePtr node, const LLInitParam::BaseBlock& block, const std::string& xml_namespace)
{
	mSchemaNode = node;
	node->setName("xs:schema");
	node->createChild("attributeFormDefault", true)->setStringValue("unqualified");
	node->createChild("elementFormDefault", true)->setStringValue("qualified");
	node->createChild("targetNamespace", true)->setStringValue(xml_namespace);
	node->createChild("xmlns:xs", true)->setStringValue("http://www.w3.org/2001/XMLSchema");
	node->createChild("xmlns", true)->setStringValue(xml_namespace);

	node = node->createChild("xs:complexType", false);
	node->createChild("name", true)->setStringValue(type_name);
	node->createChild("mixed", true)->setStringValue("true");

	mAttributeNode = node;
	mElementNode = node->createChild("xs:choice", false);
	mElementNode->createChild("minOccurs", true)->setStringValue("0");
	mElementNode->createChild("maxOccurs", true)->setStringValue("unbounded");
	block.inspectBlock(*this);

	// duplicate element choices
	LLXMLNodeList children;
	mElementNode->getChildren("xs:element", children, FALSE);
	for (LLXMLNodeList::iterator child_it = children.begin(); child_it != children.end(); ++child_it)
	{
		LLXMLNodePtr child_copy = child_it->second->deepCopy();
		std::string child_name;
		child_copy->getAttributeString("name", child_name);
		child_copy->setAttributeString("name", type_name + "." + child_name);
		mElementNode->addChild(child_copy);
	}

	LLXMLNodePtr element_declaration_node = mSchemaNode->createChild("xs:element", false);
	element_declaration_node->createChild("name", true)->setStringValue(type_name);
	element_declaration_node->createChild("type", true)->setStringValue(type_name);
}
Exemplo n.º 6
0
void LLParamSDParser::submit(LLInitParam::BaseBlock& block, const LLSD& sd, LLInitParam::Parser::name_stack_t& name_stack)
{
	mCurReadSD = &sd;
	block.submitValue(name_stack, *this);
}
Exemplo n.º 7
0
void LLXUIParser::writeXUI(LLXMLNodePtr node, const LLInitParam::BaseBlock &block, const LLInitParam::BaseBlock* diff_block)
{
	mWriteRootNode = node;
	block.serializeBlock(*this, Parser::name_stack_t(), diff_block);
	mOutNodes.clear();
}
Exemplo n.º 8
0
bool LLXUIParser::readXUIImpl(LLXMLNodePtr nodep, const std::string& scope, LLInitParam::BaseBlock& block)
{
	typedef boost::tokenizer<boost::char_separator<char> > tokenizer;
	boost::char_separator<char> sep(".");

	bool values_parsed = false;

	// submit attributes for current node
	values_parsed |= readAttributes(nodep, block);

	// treat text contents of xml node as "value" parameter
	std::string text_contents = nodep->getSanitizedValue();
	if (!text_contents.empty())
	{
		mCurReadNode = nodep;
		mNameStack.push_back(std::make_pair(std::string("value"), newParseGeneration()));
		// child nodes are not necessarily valid parameters (could be a child widget)
		// so don't complain once we've recursed
		bool silent = mCurReadDepth > 0;
		if (!block.submitValue(mNameStack, *this, true))
		{
			mNameStack.pop_back();
			block.submitValue(mNameStack, *this, silent);
		}
		else
		{
			mNameStack.pop_back();
		}
	}

	// then traverse children
	// child node must start with last name of parent node (our "scope")
	// for example: "<button><button.param nested_param1="foo"><param.nested_param2 nested_param3="bar"/></button.param></button>"
	// which equates to the following nesting:
	// button
	//     param
	//         nested_param1
	//         nested_param2
	//             nested_param3	
	mCurReadDepth++;
	for(LLXMLNodePtr childp = nodep->getFirstChild(); childp.notNull();)
	{
		std::string child_name(childp->getName()->mString);
		S32 num_tokens_pushed = 0;

		// for non "dotted" child nodes	check to see if child node maps to another widget type
		// and if not, treat as a child element of the current node
		// e.g. <button><rect left="10"/></button> will interpret <rect> as "button.rect"
		// since there is no widget named "rect"
		if (child_name.find(".") == std::string::npos) 
		{
			mNameStack.push_back(std::make_pair(child_name, newParseGeneration()));
			num_tokens_pushed++;
		}
		else
		{
			// parse out "dotted" name into individual tokens
			tokenizer name_tokens(child_name, sep);

			tokenizer::iterator name_token_it = name_tokens.begin();
			if(name_token_it == name_tokens.end()) 
			{
				childp = childp->getNextSibling();
				continue;
			}

			// check for proper nesting
			if(!scope.empty() && *name_token_it != scope)
			{
				childp = childp->getNextSibling();
				continue;
			}

			// now ignore first token
			++name_token_it; 

			// copy remaining tokens on to our running token list
			for(tokenizer::iterator token_to_push = name_token_it; token_to_push != name_tokens.end(); ++token_to_push)
			{
				mNameStack.push_back(std::make_pair(*token_to_push, newParseGeneration()));
				num_tokens_pushed++;
			}
		}

		// recurse and visit children XML nodes
		if(readXUIImpl(childp, mNameStack.empty() ? scope : mNameStack.back().first, block))
		{
			// child node successfully parsed, remove from DOM

			values_parsed = true;
			LLXMLNodePtr node_to_remove = childp;
			childp = childp->getNextSibling();

			nodep->deleteChild(node_to_remove);
		}
		else
		{
			childp = childp->getNextSibling();
		}

		while(num_tokens_pushed-- > 0)
		{
			mNameStack.pop_back();
		}
	}
	mCurReadDepth--;
	return values_parsed;
}