/* -*- mode: c++; c-basic-offset: 4; tab-width: 4; indent-tabs-mode: t -*- * vim: ts=4 sw=4 noet ai cindent syntax=cpp * * Conky, a system monitor, based on torsmo * * Please see COPYING for details * * Copyright (C) 2010 Pavel Labath et al. * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program 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 General Public License for more details. * You should have received a copy of the GNU General Public License * along with this program. If not, see . * */ #ifndef SETTING_HH #define SETTING_HH #include #include #include #include "logging.h" #include "luamm.hh" namespace conky { // performs the assignment without any error checking void simple_lua_setter(lua::state *l, bool init); // converts standard lua types to C types template::value, bool floating_point = std::is_floating_point::value> struct simple_getter { // integral is here to force the compiler to evaluate the assert at instantiation time static_assert(integral && false, "Only specializations for string, integral and floating point types are available"); }; // Specialization for integral type. template struct simple_getter { static T do_it_def(lua::state *l, T def) { if(l->isnil(-1)) return def; T t = l->tointeger(-1); l->pop(); return t; } static T do_it(lua::state *l) { return do_it_def(l, static_cast(0)); } }; // specialization for floating point types template struct simple_getter { static T do_it_def(lua::state *l, T def) { if(l->isnil(-1)) return def; T t = l->tonumber(-1); l->pop(); return t; } static T do_it(lua::state *l) { return do_it_def(l, T(0)); } }; // specialization for std::string template<> struct simple_getter { static std::string do_it_def(lua::state *l, const std::string &def) { if(l->isnil(-1)) return def; std::string t = l->tostring(-1); l->pop(); return t; } static std::string do_it(lua::state *l) { return do_it_def(l, std::string()); } }; namespace priv { class config_setting_base { public: typedef std::function lua_setter_t; const std::string name; const lua_setter_t lua_setter; config_setting_base(const std::string &name_, const lua_setter_t &lua_setter_); virtual ~config_setting_base() {} /* * Set the setting manually. * stack on entry: | ... new_value | * stack on exit: | ... | */ void lua_set(lua::state &l); }; typedef std::unordered_map config_settings_t; extern config_settings_t *config_settings; } /* * Declares a setting in the conky.config table. * Getter function is used to translate the lua value into C++. It recieves the value on the * lua stack. It should pop it and return the C++ value. In case the value is nil, it should * return a predefined default value. Translation into basic types is provided with the * default simple_getter::do_it functions. * The lua_setter function is called when someone tries to set the value. * It recieves the new and the old value on the stack (old one is on top). It should return * the new value for the setting. It doesn't have to be the value the user set, if e.g. the * value doesn't make sense. The second parameter is true if the assignment occurs during the * initial parsing of the config file, and false afterwards. Some settings obviously cannot * be changed (easily?) when conky is running, but some (e.g. x/y position of the window) * can. */ template class config_setting: public priv::config_setting_base { public: typedef std::function getter_t; config_setting(const std::string &name_, const getter_t &getter_ = &simple_getter::do_it, const lua_setter_t &lua_setter_ = &simple_lua_setter) : config_setting_base(name_, lua_setter_), getter(getter_) {} T get(lua::state &l); private: getter_t getter; }; template T config_setting::get(lua::state &l) { lua::stack_sentry s(l); l.checkstack(2); l.getglobal("conky"); ++s; l.getfield(-1, "config"); ++s; --s; l.replace(-2); l.getfield(-1, name.c_str()); ++s; --s; l.replace(-2); --s; return getter(&l); } template class enum_config_setting: public config_setting { // In theory, this class may be useful for other types too. If you think think you have a // use for that, remove this assert. static_assert(std::is_enum::value, "Only enum types allowed"); typedef config_setting Base; std::pair convert(lua::state *l, int index); T enum_getter(lua::state *l); void enum_lua_setter(lua::state *l, bool init); public: typedef std::initializer_list> Map; enum_config_setting(const std::string &name_, Map map_, bool modifiable_, T default_value_) : Base(name_, std::bind(&enum_config_setting::enum_getter, this, std::placeholders::_1), std::bind(&enum_config_setting::enum_lua_setter, this, std::placeholders::_1, std::placeholders::_2)), map(map_), modifiable(modifiable_), default_value(default_value_) {} private: Map map; bool modifiable; T default_value; }; template std::pair enum_config_setting::convert(lua::state *l, int index) { if(l->isnil(index)) return {default_value, true}; std::string val = l->tostring(index); for(auto i = map.begin(); i != map.end(); ++i) { if(i->first == val) return {i->second, true}; } std::string msg = "Invalid value '" + val + "' for setting '" + Base::name + "'. Valid values are: "; for(auto i = map.begin(); i != map.end(); ++i) { if(i != map.begin()) msg += ", "; msg += "'" + i->first + "'"; } msg += "."; NORM_ERR("%s", msg.c_str()); return {default_value, false}; } template T enum_config_setting::enum_getter(lua::state *l) { lua::stack_sentry s(*l, 1); auto ret = convert(l, -1); l->pop(); --s; // setter function should make sure the value is valid assert(ret.second); return ret.first; } template void enum_config_setting::enum_lua_setter(lua::state *l, bool init) { lua::stack_sentry s(*l, 2); if(!init && !modifiable) { NORM_ERR("Setting '%s' is not modifiable", Base::name.c_str()); l->replace(-2); } else { auto ret = convert(l, -2); if(ret.second) l->pop(); else l->replace(-2); } s-=2; } void check_config_settings(lua::state &l); /////////// example settings, remove after real settings are available /////// extern config_setting asdf; } #endif /* SETTING_HH */