// This file is distributed under the BSD License. // See "license.txt" for details. // Copyright 2009, Jonathan Turner (jturner@minnow-lang.org) // and Jason Turner (lefticus@gmail.com) // http://www.chaiscript.com #ifndef CHAISCRIPT_ENGINE_HPP_ #define CHAISCRIPT_ENGINE_HPP_ #include #include #ifdef _POSIX_VERSION #include #else #ifdef WIN32 #include #endif #endif #include "chaiscript_prelude.hpp" #include "chaiscript_parser.hpp" namespace chaiscript { struct load_module_error : std::runtime_error { load_module_error(const std::string &reason) throw() : std::runtime_error(reason) { } virtual ~load_module_error() throw() { } }; #ifdef _POSIX_VERSION struct Loadable_Module { struct DLModule { DLModule(const std::string &t_filename) : m_data(dlopen(t_filename.c_str(), RTLD_NOW)) { if (!m_data) { throw load_module_error(dlerror()); } } ~DLModule() { dlclose(m_data); } void *m_data; }; template struct DLSym { DLSym(DLModule &t_mod, const std::string &t_symbol) : m_symbol(reinterpret_cast(dlsym(t_mod.m_data, t_symbol.c_str()))) { if (!m_symbol) { throw load_module_error(dlerror()); } } T m_symbol; }; Loadable_Module(const std::string &t_module_name, const std::string &t_filename) : m_dlmodule(t_filename), m_func(m_dlmodule, "create_chaiscript_module_" + t_module_name) { } ModulePtr get() { return m_func.m_symbol(); } DLModule m_dlmodule; DLSym m_func; }; #else #ifdef WIN32 std::string GetErrorMessage(DWORD err) { LPSTR lpMsgBuf = 0; FormatMessage( FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS, NULL, err, MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT), (LPSTR)&lpMsgBuf, 0, NULL ); std::string retval; if (lpMsgBuf) { retval = lpMsgBuf; } else { retval = "Unknown error occured"; } LocalFree(lpMsgBuf); return retval; } struct Loadable_Module { struct DLModule { DLModule(const std::string &t_filename) : m_data(LoadLibrary(t_filename.c_str())) { if (!m_data) { throw load_module_error(GetErrorMessage(GetLastError())); } } ~DLModule() { FreeLibrary(m_data); } HMODULE m_data; }; template struct DLSym { DLSym(DLModule &t_mod, const std::string &t_symbol) : m_symbol(reinterpret_cast(GetProcAddress(t_mod.m_data, t_symbol.c_str()))) { if (!m_symbol) { throw load_module_error(GetErrorMessage(GetLastError())); } } T m_symbol; }; Loadable_Module(const std::string &t_module_name, const std::string &t_filename) : m_dlmodule(t_filename), m_func(m_dlmodule, "create_chaiscript_module_" + t_module_name) { } ModulePtr get() { return m_func.m_symbol(); } DLModule m_dlmodule; DLSym m_func; }; #else struct Loadable_Module { Loadable_Module(const std::string &, const std::string &) { throw load_module_error("Loadable module support not available for your platform"); } ModulePtr get() { throw load_module_error("Loadable module support not available for your platform"); } }; #endif #endif typedef boost::shared_ptr Loadable_Module_Ptr; template class ChaiScript_System { #ifndef CHAISCRIPT_NO_THREADS mutable boost::shared_mutex mutex; mutable boost::recursive_mutex use_mutex; #endif std::set loaded_files; std::map loaded_modules; Eval_Engine engine; /** * Evaluates the given string in by parsing it and running the results through the evaluator */ Boxed_Value do_eval(const std::string &input, const std::string &filename = "__EVAL__") { ChaiScript_Parser parser; engine.sync_cache(); //debug_print(tokens); Boxed_Value value; // Keep a cache of all loaded filenames and use the char * from this cache to pass // to the parser. This is so that the parser does not have the overhead of passing // around and copying strings // #ifndef CHAISCRIPT_NO_THREADS boost::unique_lock l(mutex); #endif loaded_files.insert(filename); try { if (parser.parse(input, loaded_files.find(filename)->c_str())) { #ifndef CHAISCRIPT_NO_THREADS l.unlock(); #endif //parser.show_match_stack(); value = eval_token(engine, parser.ast()); } } catch (const Return_Value &rv) { value = rv.retval; } engine.sync_cache(); return value; } /** * Evaluates the given boxed string, used during eval() inside of a script */ const Boxed_Value internal_eval(const std::vector &vals) { return do_eval(boxed_cast(vals.at(0))); } void use(const std::string &filename) { #ifndef CHAISCRIPT_NO_THREADS boost::lock_guard l(use_mutex); boost::shared_lock l2(mutex); #endif if (loaded_files.count(filename) == 0) { #ifndef CHAISCRIPT_NO_THREADS l2.unlock(); #endif eval_file(filename); } else { engine.sync_cache(); } } public: ChaiScript_System() { build_eval_system(); } /** * Adds a shared object, that can be used by all threads, to the system */ ChaiScript_System &add_shared_object(const Boxed_Value &bv, const std::string &name) { engine.add_shared_object(bv, name); return *this; } /** * Adds an object to the system: type, function, object */ template ChaiScript_System &add(const T &t, const std::string &name) { engine.add(t, name); return *this; } /** * Adds a module object to the system */ ChaiScript_System &add(const ModulePtr &p) { p->apply(*this, this->get_eval_engine()); return *this; } /** * Load a dynamic library containing a chaiscript module */ void load_module(const std::string &t_module_name) { std::vector prefixes; prefixes.push_back("lib"); prefixes.push_back(""); std::vector postfixes; postfixes.push_back(".dll"); postfixes.push_back(".so"); postfixes.push_back(""); for (size_t i = 0; i < prefixes.size(); ++i) { for (size_t j = 0; j < postfixes.size(); ++j) { try { std::string name = prefixes[i] + t_module_name + postfixes[j]; load_module(t_module_name, name); return; } catch (const load_module_error &) { // Try next set } } } throw load_module_error("Unable to find module: " + t_module_name); } /** * Load a dynamic library and provide the file name to load it from */ void load_module(const std::string &t_module_name, const std::string &t_filename) { #ifndef CHAISCRIPT_NO_THREADS boost::lock_guard l(use_mutex); #endif if (loaded_modules.count(t_module_name) == 0) { Loadable_Module_Ptr lm(new Loadable_Module(t_module_name, t_filename)); loaded_modules[t_module_name] = lm; add(lm->get()); } else { engine.sync_cache(); } } /** * Helper for calling script code as if it were native C++ code * example: * boost::function f = build_functor(chai, "func(x, y){x+y}"); * \return a boost::function representing the passed in script * \param[in] script Script code to build a function from */ template boost::function functor(const std::string &script) { return chaiscript::functor(eval(script)); } /** * Evaluate a string via eval method */ Boxed_Value operator()(const std::string &script) { return do_eval(script); } /** * Returns the current evaluation engine */ Eval_Engine &get_eval_engine() { return engine; } /** * Prints the contents of an AST node, including its children, recursively */ void debug_print(TokenPtr t, std::string prepend = "") { std::cout << prepend << "(" << token_type_to_string(t->identifier) << ") " << t->text << " : " << t->start.line << ", " << t->start.column << std::endl; for (unsigned int j = 0; j < t->children.size(); ++j) { debug_print(t->children[j], prepend + " "); } } /** * Helper function for loading a file */ std::string load_file(const std::string &filename) { std::ifstream infile (filename.c_str(), std::ios::in | std::ios::ate); if (!infile.is_open()) { throw std::runtime_error("Can not open: " + filename); } std::streampos size = infile.tellg(); infile.seekg(0, std::ios::beg); std::vector v(size); infile.read(&v[0], size); std::string ret_val (v.empty() ? std::string() : std::string (v.begin(), v.end()).c_str()); return ret_val; } /** * Builds all the requirements for ChaiScript, including its evaluator and a run of its prelude. */ void build_eval_system() { using namespace bootstrap; engine.add_reserved_word("def"); engine.add_reserved_word("fun"); engine.add_reserved_word("while"); engine.add_reserved_word("for"); engine.add_reserved_word("if"); engine.add_reserved_word("else"); engine.add_reserved_word("&&"); engine.add_reserved_word("||"); engine.add_reserved_word(","); engine.add_reserved_word(":="); engine.add_reserved_word("var"); engine.add_reserved_word("return"); engine.add_reserved_word("break"); engine.add_reserved_word("true"); engine.add_reserved_word("false"); engine.add_reserved_word("_"); add(Bootstrap::bootstrap()); engine.add(fun(boost::function(boost::bind(&dump_system, boost::ref(engine)))), "dump_system"); engine.add(fun(boost::function(boost::bind(&dump_object, _1, boost::ref(engine)))), "dump_object"); engine.add(fun(boost::function(boost::bind(&is_type, boost::ref(engine), _2, _1))), "is_type"); engine.add(fun(boost::function(boost::bind(&chaiscript::type_name, boost::ref(engine), _1))), "type_name"); engine.add(fun(boost::function(boost::bind(&Eval_Engine::function_exists, boost::ref(engine), _1))), "function_exists"); engine.add(fun(boost::function( boost::bind(static_cast::*)(const std::string&)>( &ChaiScript_System::load_module), boost::ref(*this), _1))), "load_module"); engine.add(fun(boost::function( boost::bind(static_cast::*)(const std::string&, const std::string&)>( &ChaiScript_System::load_module), boost::ref(*this), _1, _2))), "load_module"); add(vector_type >("Vector")); add(string_type("string")); add(map_type >("Map")); add(pair_type >("Pair")); engine.add(fun(boost::function(boost::bind(&ChaiScript_System::use, this, _1))), "use"); engine.add(Proxy_Function( new Dynamic_Proxy_Function(boost::bind(&ChaiScript_System::internal_eval, boost::ref(*this), _1), 1)), "eval"); do_eval(chaiscript_prelude, "standard prelude"); } template T eval(const std::string &input) { return boxed_cast(do_eval(input)); } Boxed_Value eval(const std::string &input) { return do_eval(input); } /** * Loads the file specified by filename, evaluates it, and returns the result */ Boxed_Value eval_file(const std::string &filename) { return do_eval(load_file(filename), filename); } /** * Loads the file specified by filename, evaluates it, and returns the as the specified type */ template T eval_file(const std::string &filename) { return boxed_cast(do_eval(load_file(filename), filename)); } }; typedef ChaiScript_System ChaiScript; } #endif /* CHAISCRIPT_ENGINE_HPP_ */