/** * @file lluictrlfactory.h * @brief Factory class for creating UI controls * * $LicenseInfo:firstyear=2003&license=viewergpl$ * * Copyright (c) 2003-2009, Linden Research, Inc. * * Second Life Viewer Source Code * The source code in this file ("Source Code") is provided by Linden Lab * to you under the terms of the GNU General Public License, version 2.0 * ("GPL"), unless you have obtained a separate licensing agreement * ("Other License"), formally executed by you and Linden Lab. Terms of * the GPL can be found in doc/GPL-license.txt in this distribution, or * online at http://secondlifegrid.net/programs/open_source/licensing/gplv2 * * There are special exceptions to the terms and conditions of the GPL as * it is applied to this Source Code. View the full text of the exception * in the file doc/FLOSS-exception.txt in this software distribution, or * online at * http://secondlifegrid.net/programs/open_source/licensing/flossexception * * By copying, modifying or distributing this software, you acknowledge * that you have read and understood your obligations described above, * and agree to abide by those obligations. * * ALL LINDEN LAB SOURCE CODE IS PROVIDED "AS IS." LINDEN LAB MAKES NO * WARRANTIES, EXPRESS, IMPLIED OR OTHERWISE, REGARDING ITS ACCURACY, * COMPLETENESS OR PERFORMANCE. * $/LicenseInfo$ */ #ifndef LLUICTRLFACTORY_H #define LLUICTRLFACTORY_H #include "llcallbackmap.h" #include "llinitparam.h" #include "llregistry.h" #include "v4color.h" #include "llfasttimer.h" #include "llxuiparser.h" #include #include #include #include class LLPanel; class LLFloater; class LLView; // sort functor for typeid maps struct LLCompareTypeID { bool operator()(const std::type_info* lhs, const std::type_info* rhs) const { return lhs->before(*rhs); } }; // lookup widget constructor funcs by widget name template class LLChildRegistry : public LLRegistrySingleton { public: typedef LLRegistrySingleton super_t; // local static instance for registering a particular widget template class Register : public super_t::StaticRegistrar { public: // register with either the provided builder, or the generic templated builder Register(const char* tag, LLWidgetCreatorFunc func = NULL); }; protected: LLChildRegistry() {} }; class LLDefaultChildRegistry : public LLChildRegistry { protected: LLDefaultChildRegistry(){} friend class LLSingleton; }; // lookup widget name by type class LLWidgetNameRegistry : public LLRegistrySingleton {}; // lookup factory functions for default widget instances by widget type typedef LLView* (*dummy_widget_creator_func_t)(const std::string&); class LLDefaultWidgetRegistry : public LLRegistrySingleton {}; // lookup function for generating empty param block by widget type // this is used for schema generation //typedef const LLInitParam::BaseBlock& (*empty_param_block_func_t)(); //class LLDefaultParamBlockRegistry //: public LLRegistrySingleton //{}; extern LLFastTimer::DeclareTimer FTM_WIDGET_SETUP; extern LLFastTimer::DeclareTimer FTM_WIDGET_CONSTRUCTION; extern LLFastTimer::DeclareTimer FTM_INIT_FROM_PARAMS; // Build time optimization, generate this once in .cpp file #ifndef LLUICTRLFACTORY_CPP extern template class LLUICtrlFactory* LLSingleton::getInstance(); #endif class LLUICtrlFactory : public LLSingleton { private: friend class LLSingleton; LLUICtrlFactory(); ~LLUICtrlFactory(); // only partial specialization allowed in inner classes, so use extra dummy parameter template class ParamDefaults : public LLSingleton > { public: ParamDefaults() { // recursively initialize from base class param block ((typename PARAM_BLOCK::base_block_t&)mPrototype).fillFrom(ParamDefaults::instance().get()); // after initializing base classes, look up template file for this param block const std::string* param_block_tag = getWidgetTag(&typeid(PARAM_BLOCK)); if (param_block_tag) { LLUICtrlFactory::loadWidgetTemplate(*param_block_tag, mPrototype); } } const PARAM_BLOCK& get() { return mPrototype; } private: PARAM_BLOCK mPrototype; }; // base case for recursion, there are NO base classes of LLInitParam::BaseBlock template class ParamDefaults : public LLSingleton > { public: const LLInitParam::BaseBlock& get() { return mBaseBlock; } private: LLInitParam::BaseBlock mBaseBlock; }; public: // get default parameter block for widget of a specific type template static const typename T::Params& getDefaultParams() { //#pragma message("Generating ParamDefaults") return ParamDefaults::instance().get(); } bool buildFloater(LLFloater* floaterp, const std::string &filename, LLXMLNodePtr output_node); BOOL buildPanel(LLPanel* panelp, const std::string &filename, LLXMLNodePtr output_node = NULL); // Does what you want for LLFloaters and LLPanels // Returns 0 on success S32 saveToXML(LLView* viewp, const std::string& filename); std::string getCurFileName() { return mFileNames.empty() ? "" : mFileNames.back(); } static BOOL getAttributeColor(LLXMLNodePtr node, const std::string& name, LLColor4& color); LLPanel* createFactoryPanel(const std::string& name); void pushFactoryFunctions(const LLCallbackMap::map_t* map); void popFactoryFunctions(); template static T* createWidget(typename T::Params& params, LLView* parent = NULL) { T* widget = NULL; if (!params.validateBlock()) { llwarns << getInstance()->getCurFileName() << ": Invalid parameter block for " << typeid(T).name() << llendl; //return NULL; } { LLFastTimer timer(FTM_WIDGET_CONSTRUCTION); widget = new T(params); } { LLFastTimer timer(FTM_INIT_FROM_PARAMS); widget->initFromParams(params); } if (parent) { S32 tab_group = params.tab_group.isProvided() ? params.tab_group() : S32_MAX; setCtrlParent(widget, parent, tab_group); } return widget; } template static T* create(typename T::Params& params, LLView* parent = NULL) { params.fillFrom(ParamDefaults::instance().get()); T* widget = createWidget(params, parent); if (widget) { widget->postBuild(); } return widget; } LLView* createFromXML(LLXMLNodePtr node, LLView* parent, const std::string& filename, const widget_registry_t&, LLXMLNodePtr output_node ); template static T* createFromFile(const std::string &filename, LLView *parent, const widget_registry_t& registry, LLXMLNodePtr output_node = NULL) { T* widget = NULL; std::string skinned_filename = findSkinnedFilename(filename); getInstance()->mFileNames.push_back(skinned_filename); { LLXMLNodePtr root_node; //if exporting, only load the language being exported, //instead of layering localized version on top of english if (output_node) { if (!LLUICtrlFactory::getLocalizedXMLNode(filename, root_node)) { llwarns << "Couldn't parse XUI file: " << filename << llendl; goto fail; } } else if (!LLUICtrlFactory::getLayeredXMLNode(filename, root_node)) { llwarns << "Couldn't parse XUI file: " << skinned_filename << llendl; goto fail; } LLView* view = getInstance()->createFromXML(root_node, parent, filename, registry, output_node); if (view) { widget = dynamic_cast(view); // not of right type, so delete it if (!widget) { delete view; view = NULL; } } } fail: getInstance()->mFileNames.pop_back(); return widget; } template static T* getDefaultWidget(const std::string& name) { dummy_widget_creator_func_t* dummy_func = getDefaultWidgetFunc(&typeid(T)); return dummy_func ? dynamic_cast((*dummy_func)(name)) : NULL; } template static LLView* createDefaultWidget(const std::string& name) { typename T::Params params; params.name(name); return create(params); } static void copyName(LLXMLNodePtr src, LLXMLNodePtr dest); template static T* defaultBuilder(LLXMLNodePtr node, LLView *parent, LLXMLNodePtr output_node) { LLFastTimer timer(FTM_WIDGET_SETUP); typename T::Params params(getDefaultParams()); LLXUIParser::instance().readXUI(node, params, LLUICtrlFactory::getInstance()->getCurFileName()); if (output_node) { // We always want to output top-left coordinates typename T::Params output_params(params); T::setupParamsForExport(output_params, parent); // Export only the differences between this any default params typename T::Params default_params(getDefaultParams()); copyName(node, output_node); LLXUIParser::instance().writeXUI( output_node, output_params, &default_params); } // Apply layout transformations, usually munging rect T::setupParams(params, parent); T* widget = createWidget(params, parent); typedef typename T::child_registry_t registry_t; createChildren(widget, node, registry_t::instance(), output_node); if (widget && !widget->postBuild()) { delete widget; widget = NULL; } return widget; } static void createChildren(LLView* viewp, LLXMLNodePtr node, const widget_registry_t&, LLXMLNodePtr output_node = NULL); static bool getLayeredXMLNode(const std::string &filename, LLXMLNodePtr& root); static bool getLocalizedXMLNode(const std::string &xui_filename, LLXMLNodePtr& root); static void loadWidgetTemplate(const std::string& widget_tag, LLInitParam::BaseBlock& block); // helper function for adding widget type info to various registries static void registerWidget(const std::type_info* widget_type, const std::type_info* param_block_type, dummy_widget_creator_func_t creator_func, const std::string& tag); private: // return default widget instance factory func for a given type static dummy_widget_creator_func_t* getDefaultWidgetFunc(const std::type_info* widget_type); static const std::string* getWidgetTag(const std::type_info* widget_type); // this exists to get around dependency on llview static void setCtrlParent(LLView* view, LLView* parent, S32 tab_group); // Avoid directly using LLUI and LLDir in the template code static std::string findSkinnedFilename(const std::string& filename); typedef std::deque factory_stack_t; factory_stack_t mFactoryStack; LLPanel* mDummyPanel; std::vector mFileNames; }; template const LLInitParam::BaseBlock& getEmptyParamBlock() { static typename T::Params params; return params; } // this is here to make gcc happy with reference to LLUICtrlFactory template template LLChildRegistry::Register::Register(const char* tag, LLWidgetCreatorFunc func) : LLChildRegistry::StaticRegistrar(tag, func.empty() ? (LLWidgetCreatorFunc)&LLUICtrlFactory::defaultBuilder : func) { // add this widget to various registries LLUICtrlFactory::instance().registerWidget(&typeid(T), &typeid(typename T::Params), &LLUICtrlFactory::createDefaultWidget, tag); // since registry_t depends on T, do this in line here typedef typename T::child_registry_t registry_t; LLChildRegistryRegistry::instance().defaultRegistrar().add(&typeid(T), registry_t::instance()); } typedef boost::function LLPanelClassCreatorFunc; // local static instance for registering a particular panel class class LLRegisterPanelClass : public LLSingleton< LLRegisterPanelClass > { public: // reigister with either the provided builder, or the generic templated builder void addPanelClass(const std::string& tag,LLPanelClassCreatorFunc func) { mPanelClassesNames[tag] = func; } LLPanel* createPanelClass(const std::string& tag) { param_name_map_t::iterator iT = mPanelClassesNames.find(tag); if(iT == mPanelClassesNames.end()) return 0; return iT->second(); } template static T* defaultPanelClassBuilder() { T* pT = new T(); return pT; } private: typedef std::map< std::string, LLPanelClassCreatorFunc> param_name_map_t; param_name_map_t mPanelClassesNames; }; // local static instance for registering a particular panel class template class LLRegisterPanelClassWrapper : public LLRegisterPanelClass { public: // reigister with either the provided builder, or the generic templated builder LLRegisterPanelClassWrapper(const std::string& tag); }; template LLRegisterPanelClassWrapper::LLRegisterPanelClassWrapper(const std::string& tag) { LLRegisterPanelClass::instance().addPanelClass(tag,&LLRegisterPanelClass::defaultPanelClassBuilder); } #endif //LLUICTRLFACTORY_H