/* ScummVM - Graphic Adventure Engine * * ScummVM is the legal property of its developers, whose names * are too numerous to list here. Please refer to the COPYRIGHT * file distributed with this source distribution. * * 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 2 * 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, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * */ // NB: This is really only necessary if USE_READLINE is defined #define FORBIDDEN_SYMBOL_ALLOW_ALL #include "common/debug-channels.h" #include "common/system.h" #include "engines/engine.h" #include "gui/debugger.h" #ifndef USE_TEXT_CONSOLE_FOR_DEBUGGER #include "gui/console.h" #elif defined(USE_READLINE) #include #include #endif namespace GUI { Debugger::Debugger() { _frameCountdown = 0; _isActive = false; _errStr = NULL; _firstTime = true; #ifndef USE_TEXT_CONSOLE_FOR_DEBUGGER _debuggerDialog = new GUI::ConsoleDialog(1.0f, 0.67f); _debuggerDialog->setInputCallback(debuggerInputCallback, this); _debuggerDialog->setCompletionCallback(debuggerCompletionCallback, this); #endif // Register variables DVar_Register("debug_countdown", &_frameCountdown, DVAR_INT, 0); // Register commands //DCmd_Register("continue", WRAP_METHOD(Debugger, Cmd_Exit)); DCmd_Register("exit", WRAP_METHOD(Debugger, Cmd_Exit)); DCmd_Register("quit", WRAP_METHOD(Debugger, Cmd_Exit)); DCmd_Register("help", WRAP_METHOD(Debugger, Cmd_Help)); DCmd_Register("openlog", WRAP_METHOD(Debugger, Cmd_OpenLog)); DCmd_Register("debugflag_list", WRAP_METHOD(Debugger, Cmd_DebugFlagsList)); DCmd_Register("debugflag_enable", WRAP_METHOD(Debugger, Cmd_DebugFlagEnable)); DCmd_Register("debugflag_disable", WRAP_METHOD(Debugger, Cmd_DebugFlagDisable)); } Debugger::~Debugger() { #ifndef USE_TEXT_CONSOLE_FOR_DEBUGGER delete _debuggerDialog; #endif } // Initialisation Functions int Debugger::DebugPrintf(const char *format, ...) { va_list argptr; va_start(argptr, format); int count; #ifndef USE_TEXT_CONSOLE_FOR_DEBUGGER count = _debuggerDialog->vprintFormat(1, format, argptr); #else count = ::vprintf(format, argptr); #endif va_end (argptr); return count; } void Debugger::preEnter() { g_engine->pauseEngine(true); } void Debugger::postEnter() { g_engine->pauseEngine(false); } void Debugger::attach(const char *entry) { g_system->setFeatureState(OSystem::kFeatureVirtualKeyboard, true); // Set error string (if any) free(_errStr); _errStr = entry ? strdup(entry) : 0; // Reset frame countdown (i.e. attach immediately) _frameCountdown = 1; } void Debugger::detach() { g_system->setFeatureState(OSystem::kFeatureVirtualKeyboard, false); } // Temporary execution handler void Debugger::onFrame() { // Count down until 0 is reached if (_frameCountdown > 0) { --_frameCountdown; if (_frameCountdown == 0) { _isActive = true; preEnter(); enter(); postEnter(); _isActive = false; } } } #if defined(USE_TEXT_CONSOLE_FOR_DEBUGGER) && defined(USE_READLINE) namespace { Debugger *g_readline_debugger; char *readline_completionFunction(const char *text, int state) { return g_readline_debugger->readlineComplete(text, state); } } // end of anonymous namespace #endif // Main Debugger Loop void Debugger::enter() { // TODO: Having three I/O methods #ifdef-ed in this file is not the // cleanest approach to this... #ifndef USE_TEXT_CONSOLE_FOR_DEBUGGER if (_firstTime) { DebugPrintf("Debugger started, type 'exit' to return to the game.\n"); DebugPrintf("Type 'help' to see a little list of commands and variables.\n"); _firstTime = false; } if (_errStr) { DebugPrintf("ERROR: %s\n\n", _errStr); free(_errStr); _errStr = NULL; } _debuggerDialog->runModal(); #else printf("Debugger entered, please switch to this console for input.\n"); #ifdef USE_READLINE // TODO: add support for saving/loading history? g_readline_debugger = this; rl_completion_entry_function = &readline_completionFunction; char *line_read = 0; do { free(line_read); line_read = readline("debug> "); if (line_read && line_read[0]) add_history(line_read); } while (line_read && parseCommand(line_read)); free(line_read); line_read = 0; #else int i; char buf[256]; do { printf("debug> "); if (!fgets(buf, sizeof(buf), stdin)) return; i = strlen(buf); while (i > 0 && buf[i - 1] == '\n') buf[--i] = 0; if (i == 0) continue; } while (parseCommand(buf)); #endif #endif } bool Debugger::handleCommand(int argc, const char **argv, bool &result) { if (_cmds.contains(argv[0])) { Debuglet *debuglet = _cmds[argv[0]].get(); assert(debuglet); result = (*debuglet)(argc, argv); return true; } return false; } // Command execution loop bool Debugger::parseCommand(const char *inputOrig) { int num_params = 0; const char *param[256]; char *input = strdup(inputOrig); // One of the rare occasions using strdup is OK (although avoiding strtok might be more elegant here). // Parse out any params char *tok = strtok(input, " "); if (tok) { do { param[num_params++] = tok; } while ((tok = strtok(NULL, " ")) != NULL); } else { param[num_params++] = input; } // Handle commands first bool result; if (handleCommand(num_params, param, result)) { free(input); return result; } // It's not a command, so things get a little tricky for variables. Do fuzzy matching to ignore things like subscripts. for (uint i = 0; i < _dvars.size(); i++) { if (!strncmp(_dvars[i].name.c_str(), param[0], _dvars[i].name.size())) { if (num_params > 1) { // Alright, we need to check the TYPE of the variable to deref and stuff... the array stuff is a bit ugly :) switch (_dvars[i].type) { // Integer case DVAR_BYTE: *(byte *)_dvars[i].variable = atoi(param[1]); DebugPrintf("byte%s = %d\n", param[0], *(byte *)_dvars[i].variable); break; case DVAR_INT: *(int32 *)_dvars[i].variable = atoi(param[1]); DebugPrintf("(int)%s = %d\n", param[0], *(int32 *)_dvars[i].variable); break; case DVAR_BOOL: { Common::String value = Common::String(param[1]); if (value.equalsIgnoreCase("true") || value.equalsIgnoreCase("false") || value == "1" || value == "0") { *(bool *)_dvars[i].variable = (value.equalsIgnoreCase("true") || value == "1"); DebugPrintf("(bool)%s = %s\n", param[0], *(bool *)_dvars[i].variable ? "true" : "false"); } else { DebugPrintf("Invalid value for boolean variable. Valid values are \"true\", \"false\", \"1\", \"0\""); } } break; // Integer Array case DVAR_INTARRAY: { const char *chr = strchr(param[0], '['); if (!chr) { DebugPrintf("You must access this array as %s[element]\n", param[0]); } else { int element = atoi(chr+1); int32 *var = *(int32 **)_dvars[i].variable; if (element >= _dvars[i].arraySize) { DebugPrintf("%s is out of range (array is %d elements big)\n", param[0], _dvars[i].arraySize); } else { var[element] = atoi(param[1]); DebugPrintf("(int)%s = %d\n", param[0], var[element]); } } } break; default: DebugPrintf("Failed to set variable %s to %s - unknown type\n", _dvars[i].name.c_str(), param[1]); break; } } else { // And again, type-dependent prints/defrefs. The array one is still ugly. switch (_dvars[i].type) { // Integer case DVAR_BYTE: DebugPrintf("(byte)%s = %d\n", param[0], *(const byte *)_dvars[i].variable); break; case DVAR_INT: DebugPrintf("(int)%s = %d\n", param[0], *(const int32 *)_dvars[i].variable); break; case DVAR_BOOL: DebugPrintf("(bool)%s = %s\n", param[0], *(const bool *)_dvars[i].variable ? "true" : "false"); break; // Integer array case DVAR_INTARRAY: { const char *chr = strchr(param[0], '['); if (!chr) { DebugPrintf("You must access this array as %s[element]\n", param[0]); } else { int element = atoi(chr+1); const int32 *var = *(const int32 **)_dvars[i].variable; if (element >= _dvars[i].arraySize) { DebugPrintf("%s is out of range (array is %d elements big)\n", param[0], _dvars[i].arraySize); } else { DebugPrintf("(int)%s = %d\n", param[0], var[element]); } } } break; // String case DVAR_STRING: DebugPrintf("(string)%s = %s\n", param[0], ((Common::String *)_dvars[i].variable)->c_str()); break; default: DebugPrintf("%s = (unknown type)\n", param[0]); break; } } free(input); return true; } } DebugPrintf("Unknown command or variable\n"); free(input); return true; } // returns true if something has been completed // completion has to be delete[]-ed then bool Debugger::tabComplete(const char *input, Common::String &completion) const { // very basic tab completion // for now it just supports command completions // adding completions of command parameters would be nice (but hard) :-) // maybe also give a list of possible command completions? // (but this will require changes to console) if (strchr(input, ' ')) return false; // already finished the first word const uint inputlen = strlen(input); completion.clear(); CommandsMap::const_iterator i, e = _cmds.end(); for (i = _cmds.begin(); i != e; ++i) { if (i->_key.hasPrefix(input)) { uint commandlen = i->_key.size(); if (commandlen == inputlen) { // perfect match, so no tab completion possible return false; } if (commandlen > inputlen) { // possible match // no previous match if (completion.empty()) { completion = i->_key.c_str() + inputlen; } else { // take common prefix of previous match and this command for (uint j = 0; j < completion.size(); j++) { if (inputlen + j >= i->_key.size() || completion[j] != i->_key[inputlen + j]) { completion = Common::String(completion.begin(), completion.begin() + j); // If there is no unambiguous completion, abort if (completion.empty()) return false; break; } } } } } } if (completion.empty()) return false; return true; } #if defined(USE_TEXT_CONSOLE_FOR_DEBUGGER) && defined(USE_READLINE) char *Debugger::readlineComplete(const char *input, int state) { static CommandsMap::const_iterator iter; // We assume that _cmds isn't changed between calls to readlineComplete, // unless state is 0. if (state == 0) { iter = _cmds.begin(); } else { ++iter; } for (; iter != _cmds.end(); ++iter) { if (iter->_key.hasPrefix(input)) { char *ret = (char *)malloc(iter->_key.size() + 1); strcpy(ret, iter->_key.c_str()); return ret; } } return 0; } #endif // Variable registration function void Debugger::DVar_Register(const Common::String &varname, void *pointer, VarType type, int arraySize) { // TODO: Filter out duplicates // TODO: Sort this list? Then we can do binary search later on when doing lookups. assert(pointer); DVar tmp; tmp.name = varname; tmp.type = type; tmp.variable = pointer; tmp.arraySize = arraySize; _dvars.push_back(tmp); } // Command registration function void Debugger::DCmd_Register(const Common::String &cmdname, Debuglet *debuglet) { assert(debuglet && debuglet->isValid()); _cmds[cmdname] = Common::SharedPtr(debuglet); } // Detach ("exit") the debugger bool Debugger::Cmd_Exit(int argc, const char **argv) { detach(); return false; } // Print a list of all registered commands (and variables, if any), // nicely word-wrapped. bool Debugger::Cmd_Help(int argc, const char **argv) { #ifndef USE_TEXT_CONSOLE_FOR_DEBUGGER const int charsPerLine = _debuggerDialog->getCharsPerLine(); #elif defined(USE_READLINE) int charsPerLine, rows; rl_get_screen_size(&rows, &charsPerLine); #else // Can we do better? const int charsPerLine = 80; #endif int width, size; uint i; DebugPrintf("Commands are:\n"); // Obtain a list of sorted command names Common::Array cmds; CommandsMap::const_iterator iter, e = _cmds.end(); for (iter = _cmds.begin(); iter != e; ++iter) { cmds.push_back(iter->_key); } sort(cmds.begin(), cmds.end()); // Print them all width = 0; for (i = 0; i < cmds.size(); i++) { size = cmds[i].size() + 1; if ((width + size) >= charsPerLine) { DebugPrintf("\n"); width = size; } else width += size; DebugPrintf("%s ", cmds[i].c_str()); } DebugPrintf("\n"); if (!_dvars.empty()) { DebugPrintf("\n"); DebugPrintf("Variables are:\n"); width = 0; for (i = 0; i < _dvars.size(); i++) { size = _dvars[i].name.size() + 1; if ((width + size) >= charsPerLine) { DebugPrintf("\n"); width = size; } else width += size; DebugPrintf("%s ", _dvars[i].name.c_str()); } DebugPrintf("\n"); } return true; } bool Debugger::Cmd_OpenLog(int argc, const char **argv) { if (g_system->hasFeature(OSystem::kFeatureDisplayLogFile)) g_system->displayLogFile(); else DebugPrintf("Opening the log file not supported on this system\n"); return true; } bool Debugger::Cmd_DebugFlagsList(int argc, const char **argv) { const Common::DebugManager::DebugChannelList &debugLevels = DebugMan.listDebugChannels(); DebugPrintf("Engine debug levels:\n"); DebugPrintf("--------------------\n"); if (debugLevels.empty()) { DebugPrintf("No engine debug levels\n"); return true; } for (Common::DebugManager::DebugChannelList::const_iterator i = debugLevels.begin(); i != debugLevels.end(); ++i) { DebugPrintf("%c%s - %s (%s)\n", i->enabled ? '+' : ' ', i->name.c_str(), i->description.c_str(), i->enabled ? "enabled" : "disabled"); } DebugPrintf("\n"); return true; } bool Debugger::Cmd_DebugFlagEnable(int argc, const char **argv) { if (argc < 2) { DebugPrintf("debugflag_enable \n"); } else { if (DebugMan.enableDebugChannel(argv[1])) { DebugPrintf("Enabled debug flag '%s'\n", argv[1]); } else { DebugPrintf("Failed to enable debug flag '%s'\n", argv[1]); } } return true; } bool Debugger::Cmd_DebugFlagDisable(int argc, const char **argv) { if (argc < 2) { DebugPrintf("debugflag_disable \n"); } else { if (DebugMan.disableDebugChannel(argv[1])) { DebugPrintf("Disabled debug flag '%s'\n", argv[1]); } else { DebugPrintf("Failed to disable debug flag '%s'\n", argv[1]); } } return true; } // Console handler #ifndef USE_TEXT_CONSOLE_FOR_DEBUGGER bool Debugger::debuggerInputCallback(GUI::ConsoleDialog *console, const char *input, void *refCon) { Debugger *debugger = (Debugger *)refCon; return debugger->parseCommand(input); } bool Debugger::debuggerCompletionCallback(GUI::ConsoleDialog *console, const char *input, Common::String &completion, void *refCon) { Debugger *debugger = (Debugger *)refCon; return debugger->tabComplete(input, completion); } #endif } // End of namespace GUI