/** * @file llrngwriter.cpp * @brief Generates Relax NG schema from param blocks * * $LicenseInfo:firstyear=2003&license=viewerlgpl$ * Second Life Viewer Source Code * Copyright (C) 2010, Linden Research, Inc. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; * version 2.1 of the License only. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA * * Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA * $/LicenseInfo$ */ #include "linden_common.h" #include "llrngwriter.h" #include "lluicolor.h" #include "lluictrlfactory.h" static LLInitParam::Parser::parser_read_func_map_t sReadFuncs; static LLInitParam::Parser::parser_write_func_map_t sWriteFuncs; static LLInitParam::Parser::parser_inspect_func_map_t sInspectFuncs; // // LLRNGWriter - writes Relax NG schema files based on a param block // LLRNGWriter::LLRNGWriter() : Parser(sReadFuncs, sWriteFuncs, sInspectFuncs) { // register various callbacks for inspecting the contents of a param block registerInspectFunc(boost::bind(&LLRNGWriter::writeAttribute, this, "boolean", _1, _2, _3, _4)); registerInspectFunc(boost::bind(&LLRNGWriter::writeAttribute, this, "string", _1, _2, _3, _4)); registerInspectFunc(boost::bind(&LLRNGWriter::writeAttribute, this, "unsignedByte", _1, _2, _3, _4)); registerInspectFunc(boost::bind(&LLRNGWriter::writeAttribute, this, "signedByte", _1, _2, _3, _4)); registerInspectFunc(boost::bind(&LLRNGWriter::writeAttribute, this, "unsignedShort", _1, _2, _3, _4)); registerInspectFunc(boost::bind(&LLRNGWriter::writeAttribute, this, "signedShort", _1, _2, _3, _4)); registerInspectFunc(boost::bind(&LLRNGWriter::writeAttribute, this, "unsignedInt", _1, _2, _3, _4)); registerInspectFunc(boost::bind(&LLRNGWriter::writeAttribute, this, "integer", _1, _2, _3, _4)); registerInspectFunc(boost::bind(&LLRNGWriter::writeAttribute, this, "float", _1, _2, _3, _4)); registerInspectFunc(boost::bind(&LLRNGWriter::writeAttribute, this, "double", _1, _2, _3, _4)); registerInspectFunc(boost::bind(&LLRNGWriter::writeAttribute, this, "string", _1, _2, _3, _4)); registerInspectFunc(boost::bind(&LLRNGWriter::writeAttribute, this, "string", _1, _2, _3, _4)); registerInspectFunc(boost::bind(&LLRNGWriter::writeAttribute, this, "string", _1, _2, _3, _4)); registerInspectFunc(boost::bind(&LLRNGWriter::writeAttribute, this, "string", _1, _2, _3, _4)); } void LLRNGWriter::writeRNG(const std::string& type_name, LLXMLNodePtr node, const LLInitParam::BaseBlock& block, const std::string& xml_namespace) { mGrammarNode = node; mGrammarNode->setName("grammar"); mGrammarNode->createChild("xmlns", true)->setStringValue("http://relaxng.org/ns/structure/1.0"); mGrammarNode->createChild("datatypeLibrary", true)->setStringValue("http://www.w3.org/2001/XMLSchema-datatypes"); mGrammarNode->createChild("ns", true)->setStringValue(xml_namespace); node = mGrammarNode->createChild("start", false); node = node->createChild("ref", false); node->createChild("name", true)->setStringValue(type_name); addDefinition(type_name, block); } 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->name()); // 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); } } void LLRNGWriter::writeAttribute(const std::string& type, const Parser::name_stack_t& stack, S32 min_count, S32 max_count, const std::vector* possible_values) { if (max_count == 0) return; name_stack_t non_empty_names; std::string attribute_name; for (name_stack_t::const_iterator it = stack.begin(); it != stack.end(); ++it) { const std::string& name = it->first; if (!name.empty()) { non_empty_names.push_back(*it); } } if (non_empty_names.empty()) return; for (name_stack_t::const_iterator it = non_empty_names.begin(); it != non_empty_names.end(); ++it) { if (!attribute_name.empty()) { attribute_name += "."; } attribute_name += it->first; } // singular attribute, e.g. if (non_empty_names.size() == 1 && max_count == 1) { if (mAttributesWritten.second.find(attribute_name) == mAttributesWritten.second.end()) { LLXMLNodePtr node = createCardinalityNode(mElementNode, min_count, max_count)->createChild("attribute", false); node->createChild("name", true)->setStringValue(attribute_name); node->createChild("data", false)->createChild("type", true)->setStringValue(type); mAttributesWritten.second.insert(attribute_name); } } // compound attribute else { std::string element_name; // traverse all but last element, leaving that as an attribute name name_stack_t::const_iterator end_it = non_empty_names.end(); end_it--; for (name_stack_t::const_iterator it = non_empty_names.begin(); it != end_it; ++it) { if (it != non_empty_names.begin()) { element_name += "."; } element_name += it->first; } elements_map_t::iterator found_it = mElementsWritten.find(element_name); // // // // // // // // // // // // // // // // // // // // // if (found_it != mElementsWritten.end()) { // reuse existing element LLXMLNodePtr choice_node = found_it->second.first; // attribute with this name not already written? if (found_it->second.second.find(attribute_name) == found_it->second.second.end()) { // append to LLXMLNodePtr node = choice_node->mChildren->head; node = createCardinalityNode(node, min_count, max_count)->createChild("attribute", false); node->createChild("name", true)->setStringValue(attribute_name); addTypeNode(node, type, possible_values); // append to node = choice_node->mChildren->head->mNext->mChildren->head; node = createCardinalityNode(node, min_count, max_count)->createChild("attribute", false); node->createChild("name", true)->setStringValue(non_empty_names.back().first); addTypeNode(node, type, possible_values); // append to //node = choice_node->mChildren->head->mNext->mNext->mChildren->head; //node = createCardinalityNode(node, min_count, max_count)->createChild("attribute", false); //node->createChild("name", true)->setStringValue(non_empty_names.back().first); //addTypeNode(node, type, possible_values); found_it->second.second.insert(attribute_name); } } else { LLXMLNodePtr choice_node = mElementNode->createChild("choice", false); LLXMLNodePtr node = choice_node->createChild("group", false); node = createCardinalityNode(node, min_count, max_count)->createChild("attribute", false); node->createChild("name", true)->setStringValue(attribute_name); addTypeNode(node, type, possible_values); node = choice_node->createChild("optional", false); node = node->createChild("element", false); node->createChild("name", true)->setStringValue(element_name); node = createCardinalityNode(node, min_count, max_count)->createChild("attribute", false); node->createChild("name", true)->setStringValue(non_empty_names.back().first); addTypeNode(node, type, possible_values); //node = choice_node->createChild("optional", false); //node = node->createChild("element", false); //node->createChild("name", true)->setStringValue(mDefinitionName + "." + element_name); //node = createCardinalityNode(node, min_count, max_count)->createChild("attribute", false); //node->createChild("name", true)->setStringValue(non_empty_names.back().first); //addTypeNode(node, type, possible_values); attribute_data_t& attribute_data = mElementsWritten[element_name]; attribute_data.first = choice_node; attribute_data.second.insert(attribute_name); } } } void LLRNGWriter::addTypeNode(LLXMLNodePtr parent_node, const std::string& type, const std::vector* possible_values) { if (possible_values) { LLXMLNodePtr enum_node = parent_node->createChild("choice", false); for (std::vector::const_iterator it = possible_values->begin(); it != possible_values->end(); ++it) { enum_node->createChild("value", false)->setStringValue(*it); } } else { parent_node->createChild("data", false)->createChild("type", true)->setStringValue(type); } } LLXMLNodePtr LLRNGWriter::createCardinalityNode(LLXMLNodePtr parent_node, S32 min_count, S32 max_count) { // unlinked by default, meaning this attribute is forbidden LLXMLNodePtr count_node = new LLXMLNode(); if (min_count == 0) { if (max_count == 1) { count_node = parent_node->createChild("optional", false); } else if (max_count > 1) { count_node = parent_node->createChild("zeroOrMore", false); } } else if (min_count >= 1) { if (max_count == 1 && min_count == 1) { // just add raw element, will count as 1 and only 1 count_node = parent_node; } else { count_node = parent_node->createChild("oneOrMore", false); } } return count_node; }