/* https://github.com/peterix/dfhack Copyright (c) 2009-2011 Petr Mrázek (peterix@gmail.com) This software is provided 'as-is', without any express or implied warranty. In no event will the authors be held liable for any damages arising from the use of this software. Permission is granted to anyone to use this software for any purpose, including commercial applications, and to alter it and redistribute it freely, subject to the following restrictions: 1. The origin of this software must not be misrepresented; you must not claim that you wrote the original software. If you use this software in a product, an acknowledgment in the product documentation would be appreciated but is not required. 2. Altered source versions must be plainly marked as such, and must not be misrepresented as being the original software. 3. This notice may not be removed or altered from any source distribution. */ #include "Internal.h" #include #include #include #include #include #include #include #include using namespace std; #include "Error.h" #include "MemAccess.h" #include "Core.h" #include "DataDefs.h" #include "Console.h" #include "Module.h" #include "VersionInfoFactory.h" #include "VersionInfo.h" #include "PluginManager.h" #include "ModuleFactory.h" #include "modules/Gui.h" #include "modules/World.h" #include "modules/Graphic.h" #include "modules/Windows.h" #include "RemoteServer.h" using namespace DFHack; #include "df/ui.h" #include "df/world.h" #include "df/world_data.h" #include "df/interface.h" #include "df/viewscreen_dwarfmodest.h" #include #include #include #include #include #include "tinythread.h" using namespace tthread; using namespace df::enums; using df::global::init; struct Core::Cond { Cond() { predicate = false; wakeup = new tthread::condition_variable(); } ~Cond() { delete wakeup; } bool Lock(tthread::mutex * m) { while(!predicate) { wakeup->wait(*m); } predicate = false; return true; } bool Unlock() { predicate = true; wakeup->notify_one(); return true; } tthread::condition_variable * wakeup; bool predicate; }; void cheap_tokenise(string const& input, vector &output) { string *cur = NULL; for (size_t i = 0; i < input.size(); i++) { unsigned char c = input[i]; if (isspace(c)) { cur = NULL; } else { if (!cur) { output.push_back(""); cur = &output.back(); } if (c == '"') { for (i++; i < input.size(); i++) { c = input[i]; if (c == '"') break; else if (c == '\\') { if (++i < input.size()) cur->push_back(input[i]); } else cur->push_back(c); } } else { cur->push_back(c); } } } } struct IODATA { Core * core; PluginManager * plug_mgr; }; // A thread function... for handling hotkeys. This is needed because // all the plugin commands are expected to be run from foreign threads. // Running them from one of the main DF threads will result in deadlock! void fHKthread(void * iodata) { Core * core = ((IODATA*) iodata)->core; PluginManager * plug_mgr = ((IODATA*) iodata)->plug_mgr; if(plug_mgr == 0 || core == 0) { cerr << "Hotkey thread has croaked." << endl; return; } while(1) { std::string stuff = core->getHotkeyCmd(); // waits on mutex! if(!stuff.empty()) { color_ostream_proxy out(core->getConsole()); vector args; cheap_tokenise(stuff, args); if (args.empty()) { out.printerr("Empty hotkey command.\n"); continue; } string first = args[0]; args.erase(args.begin()); command_result cr = plug_mgr->InvokeCommand(out, first, args, false); if(cr == CR_WOULD_BREAK) { out.printerr("It isn't possible to run an interactive command outside the console.\n"); } } } } struct sortable { bool recolor; string name; string description; //FIXME: Nuke when MSVC stops failing at being C++11 compliant sortable(bool recolor_,const string& name_,const string & description_): recolor(recolor_), name(name_), description(description_){}; bool operator <(const sortable & rhs) const { if( name < rhs.name ) return true; return false; }; }; static void runInteractiveCommand(Core *core, PluginManager *plug_mgr, int &clueless_counter, const string &command) { Console & con = core->getConsole(); if (!command.empty()) { // cut the input into parts vector parts; cheap_tokenise(command,parts); if(parts.size() == 0) { clueless_counter ++; return; } string first = parts[0]; parts.erase(parts.begin()); if (first[0] == '#') return; cerr << "Invoking: " << command << endl; // let's see what we actually got if(first=="help" || first == "?" || first == "man") { if(!parts.size()) { con.print("This is the DFHack console. You can type commands in and manage DFHack plugins from it.\n" "Some basic editing capabilities are included (single-line text editing).\n" "The console also has a command history - you can navigate it with Up and Down keys.\n" "On Windows, you may have to resize your console window. The appropriate menu is accessible\n" "by clicking on the program icon in the top bar of the window.\n\n" "Basic commands:\n" " help|?|man - This text.\n" " help COMMAND - Usage help for the given command.\n" " ls|dir [PLUGIN] - List available commands. Optionally for single plugin.\n" " cls - Clear the console.\n" " fpause - Force DF to pause.\n" " die - Force DF to close immediately\n" " keybinding - Modify bindings of commands to keys\n" "Plugin management (useful for developers):\n" " plug [PLUGIN|v] - List plugin state and description.\n" " load PLUGIN|all - Load a plugin by name or load all possible plugins.\n" " unload PLUGIN|all - Unload a plugin or all loaded plugins.\n" " reload PLUGIN|all - Reload a plugin or all loaded plugins.\n" ); } else if (parts.size() == 1) { Plugin *plug = plug_mgr->getPluginByCommand(parts[0]); if (plug) { for (size_t j = 0; j < plug->size();j++) { const PluginCommand & pcmd = (plug->operator[](j)); if (pcmd.name != parts[0]) continue; if (pcmd.isHotkeyCommand()) con.color(Console::COLOR_CYAN); con.print("%s: %s\n",pcmd.name.c_str(), pcmd.description.c_str()); con.reset_color(); if (!pcmd.usage.empty()) con << "Usage:\n" << pcmd.usage << flush; return; } } con.printerr("Unknown command: %s\n", parts[0].c_str()); } else { con.printerr("not implemented yet\n"); } } else if( first == "load" ) { if(parts.size()) { string & plugname = parts[0]; if(plugname == "all") { for(size_t i = 0; i < plug_mgr->size();i++) { Plugin * plug = (plug_mgr->operator[](i)); plug->load(); } } else { Plugin * plug = plug_mgr->getPluginByName(plugname); if(!plug) { con.printerr("No such plugin\n"); } else { plug->load(); } } } } else if( first == "reload" ) { if(parts.size()) { string & plugname = parts[0]; if(plugname == "all") { for(size_t i = 0; i < plug_mgr->size();i++) { Plugin * plug = (plug_mgr->operator[](i)); plug->reload(); } } else { Plugin * plug = plug_mgr->getPluginByName(plugname); if(!plug) { con.printerr("No such plugin\n"); } else { plug->reload(); } } } } else if( first == "unload" ) { if(parts.size()) { string & plugname = parts[0]; if(plugname == "all") { for(size_t i = 0; i < plug_mgr->size();i++) { Plugin * plug = (plug_mgr->operator[](i)); plug->unload(); } } else { Plugin * plug = plug_mgr->getPluginByName(plugname); if(!plug) { con.printerr("No such plugin\n"); } else { plug->unload(); } } } } else if(first == "ls" || first == "dir") { if(parts.size()) { string & plugname = parts[0]; const Plugin * plug = plug_mgr->getPluginByName(plugname); if(!plug) { con.printerr("There's no plugin called %s!\n",plugname.c_str()); } else for (size_t j = 0; j < plug->size();j++) { const PluginCommand & pcmd = (plug->operator[](j)); if (pcmd.isHotkeyCommand()) con.color(Console::COLOR_CYAN); con.print(" %-22s - %s\n",pcmd.name.c_str(), pcmd.description.c_str()); con.reset_color(); } } else { con.print( "builtin:\n" " help|?|man - This text or help specific to a plugin.\n" " ls [PLUGIN] - List available commands. Optionally for single plugin.\n" " cls - Clear the console.\n" " fpause - Force DF to pause.\n" " die - Force DF to close immediately\n" " keybinding - Modify bindings of commands to keys\n" " plug [PLUGIN|v] - List plugin state and detailed description.\n" " load PLUGIN|all - Load a plugin by name or load all possible plugins.\n" " unload PLUGIN|all - Unload a plugin or all loaded plugins.\n" " reload PLUGIN|all - Reload a plugin or all loaded plugins.\n" "\n" "plugins:\n" ); std::set out; for(size_t i = 0; i < plug_mgr->size();i++) { const Plugin * plug = (plug_mgr->operator[](i)); if(!plug->size()) continue; for (size_t j = 0; j < plug->size();j++) { const PluginCommand & pcmd = (plug->operator[](j)); out.insert(sortable(pcmd.isHotkeyCommand(),pcmd.name,pcmd.description)); } } for(auto iter = out.begin();iter != out.end();iter++) { if ((*iter).recolor) con.color(Console::COLOR_CYAN); con.print(" %-22s- %s\n",(*iter).name.c_str(), (*iter).description.c_str()); con.reset_color(); } } } else if(first == "plug") { for(size_t i = 0; i < plug_mgr->size();i++) { const Plugin * plug = (plug_mgr->operator[](i)); if(!plug->size()) continue; con.print("%s\n", plug->getName().c_str()); } } else if(first == "keybinding") { if (parts.size() >= 3 && (parts[0] == "set" || parts[0] == "add")) { std::string keystr = parts[1]; if (parts[0] == "set") core->ClearKeyBindings(keystr); for (int i = parts.size()-1; i >= 2; i--) { if (!core->AddKeyBinding(keystr, parts[i])) { con.printerr("Invalid key spec: %s\n", keystr.c_str()); break; } } } else if (parts.size() >= 2 && parts[0] == "clear") { for (size_t i = 1; i < parts.size(); i++) { if (!core->ClearKeyBindings(parts[i])) { con.printerr("Invalid key spec: %s\n", parts[i].c_str()); break; } } } else if (parts.size() == 2 && parts[0] == "list") { std::vector list = core->ListKeyBindings(parts[1]); if (list.empty()) con << "No bindings." << endl; for (size_t i = 0; i < list.size(); i++) con << " " << list[i] << endl; } else { con << "Usage:" << endl << " keybinding list " << endl << " keybinding clear ..." << endl << " keybinding set \"cmdline\" \"cmdline\"..." << endl << " keybinding add \"cmdline\" \"cmdline\"..." << endl << "Later adds, and earlier items within one command have priority." << endl; } } else if(first == "fpause") { World * w = core->getWorld(); w->SetPauseState(true); con.print("The game was forced to pause!"); } else if(first == "cls") { con.clear(); } else if(first == "die") { _exit(666); } else { command_result res = plug_mgr->InvokeCommand(con, first, parts); if(res == CR_NOT_IMPLEMENTED) { con.printerr("%s is not a recognized command.\n", first.c_str()); clueless_counter ++; } } } } static void loadInitFile(Core *core, PluginManager *plug_mgr, string fname) { ifstream init(fname); if (init.bad()) return; int tmp = 0; string command; while (getline(init, command)) { if (!command.empty()) runInteractiveCommand(core, plug_mgr, tmp, command); } } // A thread function... for the interactive console. void fIOthread(void * iodata) { IODATA * iod = ((IODATA*) iodata); Core * core = iod->core; PluginManager * plug_mgr = ((IODATA*) iodata)->plug_mgr; CommandHistory main_history; main_history.load("dfhack.history"); Console & con = core->getConsole(); if(plug_mgr == 0 || core == 0) { con.printerr("Something horrible happened in Core's constructor...\n"); return; } loadInitFile(core, plug_mgr, "dfhack.init"); con.print("DFHack is ready. Have a nice day!\n" "Type in '?' or 'help' for general help, 'ls' to see all commands.\n"); int clueless_counter = 0; while (true) { string command = ""; int ret = con.lineedit("[DFHack]# ",command, main_history); if(ret == -2) { cerr << "Console is shutting down properly." << endl; return; } else if(ret == -1) { cerr << "Console caught an unspecified error." << endl; continue; } else if(ret) { // a proper, non-empty command was entered main_history.add(command); main_history.save("dfhack.history"); } runInteractiveCommand(core, plug_mgr, clueless_counter, command); if(clueless_counter == 3) { con.print("Do 'help' or '?' for the list of available commands.\n"); clueless_counter = 0; } } } Core::Core() { // init the console. This must be always the first step! plug_mgr = 0; vif = 0; p = 0; errorstate = false; vinfo = 0; started = false; memset(&(s_mods), 0, sizeof(s_mods)); // create mutex for syncing with interactive tasks AccessMutex = 0; StackMutex = 0; core_cond = 0; // set up hotkey capture hotkey_set = false; HotkeyMutex = 0; HotkeyCond = 0; misc_data_mutex=0; last_world_data_ptr = NULL; top_viewscreen = NULL; screen_window = NULL; server = NULL; }; void Core::fatal (std::string output, bool deactivate) { stringstream out; out << output ; if(deactivate) out << "DFHack will now deactivate.\n"; if(con.isInited()) { con.printerr("%s", out.str().c_str()); } fprintf(stderr, "%s\n", out.str().c_str()); #ifndef LINUX_BUILD out << "Check file stderr.log for details\n"; MessageBox(0,out.str().c_str(),"DFHack error!", MB_OK | MB_ICONERROR); #endif } bool Core::Init() { if(started) return true; if(errorstate) return false; // find out what we are... #ifdef LINUX_BUILD const char * path = "hack/symbols.xml"; #else const char * path = "hack\\symbols.xml"; #endif vif = new DFHack::VersionInfoFactory(); cerr << "Identifying DF version.\n"; try { vif->loadFile(path); } catch(Error::All & err) { std::stringstream out; out << "Error while reading symbols.xml:\n"; out << err.what() << std::endl; delete vif; vif = NULL; errorstate = true; fatal(out.str(), true); return false; } p = new DFHack::Process(vif); vinfo = p->getDescriptor(); if(!vinfo || !p->isIdentified()) { fatal ("Not a known DF version.\n", true); errorstate = true; delete p; p = NULL; return false; } cerr << "Version: " << vinfo->getVersion() << endl; cerr << "Initializing Console.\n"; // init the console. bool is_text_mode = false; if(init && init->display.flag.is_set(init_display_flags::TEXT)) { is_text_mode = true; } if(con.init(is_text_mode)) cerr << "Console is running.\n"; else fatal ("Console has failed to initialize!\n", false); /* // dump offsets to a file std::ofstream dump("offsets.log"); if(!dump.fail()) { //dump << vinfo->PrintOffsets(); dump.close(); } */ // initialize data defs virtual_identity::Init(this); df::global::InitGlobals(); // create mutex for syncing with interactive tasks StackMutex = new mutex(); AccessMutex = new mutex(); misc_data_mutex=new mutex(); core_cond = new Core::Cond(); cerr << "Initializing Plugins.\n"; // create plugin manager plug_mgr = new PluginManager(this); cerr << "Starting IO thread.\n"; // create IO thread IODATA *temp = new IODATA; temp->core = this; temp->plug_mgr = plug_mgr; thread * IO = new thread(fIOthread, (void *) temp); cerr << "Starting DF input capture thread.\n"; // set up hotkey capture HotkeyMutex = new mutex(); HotkeyCond = new condition_variable(); thread * HK = new thread(fHKthread, (void *) temp); screen_window = new Windows::top_level_window(); screen_window->addChild(new Windows::dfhack_dummy(5,10)); started = true; cerr << "Starting the TCP listener.\n"; server = new ServerMain(); if (!server->listen(RemoteClient::GetDefaultPort())) cerr << "TCP listen failed.\n"; cerr << "DFHack is running.\n"; return true; } /// sets the current hotkey command bool Core::setHotkeyCmd( std::string cmd ) { // access command HotkeyMutex->lock(); { hotkey_set = true; hotkey_cmd = cmd; HotkeyCond->notify_all(); } HotkeyMutex->unlock(); return true; } /// removes the hotkey command and gives it to the caller thread std::string Core::getHotkeyCmd( void ) { string returner; HotkeyMutex->lock(); while ( ! hotkey_set ) { HotkeyCond->wait(*HotkeyMutex); } hotkey_set = false; returner = hotkey_cmd; hotkey_cmd.clear(); HotkeyMutex->unlock(); return returner; } void Core::printerr(const char *format, ...) { color_ostream_proxy proxy(getInstance().con); va_list args; va_start(args,format); proxy.vprinterr(format,args); va_end(args); } void Core::RegisterData( void *p, std::string key ) { misc_data_mutex->lock(); misc_data_map[key] = p; misc_data_mutex->unlock(); } void *Core::GetData( std::string key ) { misc_data_mutex->lock(); std::map::iterator it=misc_data_map.find(key); if ( it != misc_data_map.end() ) { void *p=it->second; misc_data_mutex->unlock(); return p; } else { misc_data_mutex->unlock(); return 0;// or throw an error. } } void Core::Suspend() { Core::Cond * nc = new Core::Cond(); // put the condition on a stack StackMutex->lock(); suspended_tools.push(nc); StackMutex->unlock(); // wait until Core::Update() wakes up the tool AccessMutex->lock(); nc->Lock(AccessMutex); AccessMutex->unlock(); } void Core::Resume() { AccessMutex->lock(); core_cond->Unlock(); AccessMutex->unlock(); } int Core::TileUpdate() { if(!started) return false; screen_window->paint(); return true; } // should always be from simulation thread! int Core::Update() { if(!started) Init(); if(errorstate) return -1; color_ostream_proxy out(con); // detect if the game was loaded or unloaded in the meantime void *new_wdata = NULL; if (df::global::world) { df::world_data *wdata = df::global::world->world_data; // when the game is unloaded, world_data isn't deleted, but its contents are if (wdata && !wdata->sites.empty()) new_wdata = wdata; } if (new_wdata != last_world_data_ptr) { last_world_data_ptr = new_wdata; plug_mgr->OnStateChange(out, new_wdata ? SC_GAME_LOADED : SC_GAME_UNLOADED); } // detect if the viewscreen changed if (df::global::gview) { df::viewscreen *screen = &df::global::gview->view; while (screen->child) screen = screen->child; if (screen != top_viewscreen) { top_viewscreen = screen; plug_mgr->OnStateChange(out, SC_VIEWSCREEN_CHANGED); } } // notify all the plugins that a game tick is finished plug_mgr->OnUpdate(out); out << std::flush; // wake waiting tools // do not allow more tools to join in while we process stuff here StackMutex->lock(); while (!suspended_tools.empty()) { Core::Cond * nc = suspended_tools.top(); suspended_tools.pop(); AccessMutex->lock(); // wake tool nc->Unlock(); // wait for tool to wake us core_cond->Lock(AccessMutex); AccessMutex->unlock(); // destroy condition delete nc; } StackMutex->unlock(); return 0; }; // FIXME: needs to terminate the IO threads and properly dismantle all the machinery involved. int Core::Shutdown ( void ) { if(errorstate) return true; errorstate = 1; if(plug_mgr) { delete plug_mgr; plug_mgr = 0; } // invalidate all modules for(size_t i = 0 ; i < allModules.size(); i++) { delete allModules[i]; } allModules.clear(); memset(&(s_mods), 0, sizeof(s_mods)); con.shutdown(); return -1; } // FIXME: this is HORRIBLY broken // from ncurses #define KEY_F0 0410 /* Function keys. Space for 64 */ #define KEY_F(n) (KEY_F0+(n)) /* Value of function key n */ bool Core::ncurses_wgetch(int in, int & out) { if(!started) { out = in; return true; } if(in >= KEY_F(1) && in <= KEY_F(8)) { int idx = in - KEY_F(1); // FIXME: copypasta, push into a method! if(df::global::ui && df::global::gview) { df::viewscreen * ws = Gui::GetCurrentScreen(); if (strict_virtual_cast(ws) && df::global::ui->main.mode != ui_sidebar_mode::Hotkeys) { setHotkeyCmd(df::global::ui->main.hotkeys[idx].name); return false; } else { out = in; return true; } } } out = in; return true; } int Core::UnicodeAwareSym(const SDL::KeyboardEvent& ke) { // Assume keyboard layouts don't change the order of numbers: if( '0' <= ke.ksym.sym && ke.ksym.sym <= '9') return ke.ksym.sym; int unicode = ke.ksym.unicode; // convert Ctrl characters to their 0x40-0x5F counterparts: if (unicode < ' ') { unicode += 'A' - 1; } // convert A-Z to their a-z counterparts: if('A' < unicode && unicode < 'Z') { unicode += 'a' - 'A'; } // convert various other punctuation marks: if('\"' == unicode) unicode = '\''; if('+' == unicode) unicode = '='; if(':' == unicode) unicode = ';'; if('<' == unicode) unicode = ','; if('>' == unicode) unicode = '.'; if('?' == unicode) unicode = '/'; if('{' == unicode) unicode = '['; if('|' == unicode) unicode = '\\'; if('}' == unicode) unicode = ']'; if('~' == unicode) unicode = '`'; return unicode; } //MEMO: return false if event is consumed int Core::SDL_Event(SDL::Event* ev) { // do NOT process events before we are ready. if(!started) return true; if(!ev) return true; if(ev && ev->type == SDL::ET_KEYDOWN || ev->type == SDL::ET_KEYUP) { SDL::KeyboardEvent * ke = (SDL::KeyboardEvent *)ev; if(ke->state == SDL::BTN_PRESSED && !hotkey_states[ke->ksym.sym]) { hotkey_states[ke->ksym.sym] = true; int mod = 0; if (ke->ksym.mod & SDL::KMOD_SHIFT) mod |= 1; if (ke->ksym.mod & SDL::KMOD_CTRL) mod |= 2; if (ke->ksym.mod & SDL::KMOD_ALT) mod |= 4; // Use unicode so Windows gives the correct value for the // user's Input Language if((ke->ksym.unicode & 0xff80) == 0) { int key = UnicodeAwareSym(*ke); SelectHotkey(key, mod); } else { // Pretend non-ascii characters don't happen: SelectHotkey(ke->ksym.sym, mod); } } else if(ke->state == SDL::BTN_RELEASED) { hotkey_states[ke->ksym.sym] = false; } } return true; // do stuff with the events... } bool Core::SelectHotkey(int sym, int modifiers) { // Find the topmost viewscreen if (!df::global::gview || !df::global::ui) return false; df::viewscreen *screen = &df::global::gview->view; while (screen->child) screen = screen->child; std::string cmd; { tthread::lock_guard lock(*HotkeyMutex); // Check the internal keybindings std::vector &bindings = key_bindings[sym]; for (int i = bindings.size()-1; i >= 0; --i) { if (bindings[i].modifiers != modifiers) continue; if (!plug_mgr->CanInvokeHotkey(bindings[i].command[0], screen)) continue; cmd = bindings[i].cmdline; break; } if (cmd.empty()) { // Check the hotkey keybindings int idx = sym - SDL::K_F1; if(idx >= 0 && idx < 8) { if (modifiers & 1) idx += 8; if (strict_virtual_cast(screen) && df::global::ui->main.mode != ui_sidebar_mode::Hotkeys) { cmd = df::global::ui->main.hotkeys[idx].name; } } } } if (!cmd.empty()) { setHotkeyCmd(cmd); return true; } else return false; } static bool parseKeySpec(std::string keyspec, int *psym, int *pmod) { *pmod = 0; // ugh, ugly for (;;) { if (keyspec.size() > 6 && keyspec.substr(0, 6) == "Shift-") { *pmod |= 1; keyspec = keyspec.substr(6); } else if (keyspec.size() > 5 && keyspec.substr(0, 5) == "Ctrl-") { *pmod |= 2; keyspec = keyspec.substr(5); } else if (keyspec.size() > 4 && keyspec.substr(0, 4) == "Alt-") { *pmod |= 4; keyspec = keyspec.substr(4); } else break; } if (keyspec.size() == 1 && keyspec[0] >= 'A' && keyspec[0] <= 'Z') { *psym = SDL::K_a + (keyspec[0]-'A'); return true; } else if (keyspec.size() == 2 && keyspec[0] == 'F' && keyspec[1] >= '1' && keyspec[1] <= '9') { *psym = SDL::K_F1 + (keyspec[1]-'1'); return true; } else return false; } bool Core::ClearKeyBindings(std::string keyspec) { int sym, mod; if (!parseKeySpec(keyspec, &sym, &mod)) return false; tthread::lock_guard lock(*HotkeyMutex); std::vector &bindings = key_bindings[sym]; for (int i = bindings.size()-1; i >= 0; --i) { if (bindings[i].modifiers == mod) bindings.erase(bindings.begin()+i); } return true; } bool Core::AddKeyBinding(std::string keyspec, std::string cmdline) { int sym; KeyBinding binding; if (!parseKeySpec(keyspec, &sym, &binding.modifiers)) return false; cheap_tokenise(cmdline, binding.command); if (binding.command.empty()) return false; tthread::lock_guard lock(*HotkeyMutex); // Don't add duplicates std::vector &bindings = key_bindings[sym]; for (int i = bindings.size()-1; i >= 0; --i) { if (bindings[i].modifiers == binding.modifiers && bindings[i].cmdline == cmdline) return true; } binding.cmdline = cmdline; bindings.push_back(binding); return true; } std::vector Core::ListKeyBindings(std::string keyspec) { int sym, mod; std::vector rv; if (!parseKeySpec(keyspec, &sym, &mod)) return rv; tthread::lock_guard lock(*HotkeyMutex); std::vector &bindings = key_bindings[sym]; for (int i = bindings.size()-1; i >= 0; --i) { if (bindings[i].modifiers == mod) rv.push_back(bindings[i].cmdline); } return rv; } //////////////// // ClassNamCheck //////////////// // Since there is no Process.cpp, put ClassNamCheck stuff in Core.cpp static std::set known_class_names; static std::map known_vptrs; ClassNameCheck::ClassNameCheck(std::string _name) : name(_name), vptr(0) { known_class_names.insert(name); } ClassNameCheck &ClassNameCheck::operator= (const ClassNameCheck &b) { name = b.name; vptr = b.vptr; return *this; } bool ClassNameCheck::operator() (Process *p, void * ptr) const { if (vptr == 0 && p->readClassName(ptr) == name) { vptr = ptr; known_vptrs[name] = ptr; } return (vptr && vptr == ptr); } void ClassNameCheck::getKnownClassNames(std::vector &names) { std::set::iterator it = known_class_names.begin(); for (; it != known_class_names.end(); it++) names.push_back(*it); } /******************************************************************************* M O D U L E S *******************************************************************************/ #define MODULE_GETTER(TYPE) \ TYPE * Core::get##TYPE() \ { \ if(errorstate) return NULL;\ if(!s_mods.p##TYPE)\ {\ Module * mod = create##TYPE();\ s_mods.p##TYPE = (TYPE *) mod;\ allModules.push_back(mod);\ }\ return s_mods.p##TYPE;\ } MODULE_GETTER(World); MODULE_GETTER(Materials); MODULE_GETTER(Notes); MODULE_GETTER(Graphic);