/* ** c_dispatch.cpp ** Functions for executing console commands and aliases ** **--------------------------------------------------------------------------- ** Copyright 1998-2007 Randy Heit ** All rights reserved. ** ** Redistribution and use in source and binary forms, with or without ** modification, are permitted provided that the following conditions ** are met: ** ** 1. Redistributions of source code must retain the above copyright ** notice, this list of conditions and the following disclaimer. ** 2. Redistributions in binary form must reproduce the above copyright ** notice, this list of conditions and the following disclaimer in the ** documentation and/or other materials provided with the distribution. ** 3. The name of the author may not be used to endorse or promote products ** derived from this software without specific prior written permission. ** ** THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR ** IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES ** OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. ** IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, ** INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT ** NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, ** DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY ** THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ** (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF ** THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. **--------------------------------------------------------------------------- ** */ // HEADER FILES ------------------------------------------------------------ #include #include #include #include #include "cmdlib.h" #include "c_console.h" #include "c_dispatch.h" #include "m_argv.h" #include "gamestate.h" #include "configfile.h" #include "printf.h" #include "c_cvars.h" #include "c_buttons.h" #include "findfile.h" #include "gstrings.h" // MACROS ------------------------------------------------------------------ // TYPES ------------------------------------------------------------------- class FDelayedCommand { public: virtual ~FDelayedCommand() {} protected: virtual bool Tick() = 0; friend class FDelayedCommandQueue; }; class FWaitingCommand : public FDelayedCommand { public: FWaitingCommand(const char *cmd, int tics, bool unsafe) : Command(cmd), TicsLeft(tics+1), IsUnsafe(unsafe) {} bool Tick() override { if (--TicsLeft == 0) { UnsafeExecutionScope scope(IsUnsafe); AddCommandString(Command); return true; } return false; } FString Command; int TicsLeft; bool IsUnsafe; }; class FStoredCommand : public FDelayedCommand { public: FStoredCommand(FConsoleCommand *com, const char *cmd) : Command(com), Text(cmd) {} bool Tick() override { if (Text.IsNotEmpty() && Command != nullptr) { FCommandLine args(Text); Command->Run(args, 0); } return true; } private: FConsoleCommand *Command; FString Text; }; class FDelayedCommandQueue { TDeletingArray delayedCommands; public: void Run() { for (unsigned i = 0; i < delayedCommands.Size(); i++) { if (delayedCommands[i]->Tick()) { delete delayedCommands[i]; delayedCommands.Delete(i); i--; } } } void Clear() { delayedCommands.DeleteAndClear(); } void AddCommand(FDelayedCommand * cmd) { delayedCommands.Push(cmd); } }; static FDelayedCommandQueue delayedCommandQueue; void C_RunDelayedCommands() { delayedCommandQueue.Run(); } void C_ClearDelayedCommands() { delayedCommandQueue.Clear(); } // EXTERNAL FUNCTION PROTOTYPES -------------------------------------------- // PUBLIC FUNCTION PROTOTYPES ---------------------------------------------- // PRIVATE FUNCTION PROTOTYPES --------------------------------------------- static FConsoleCommand *FindNameInHashTable (FConsoleCommand **table, const char *name, size_t namelen); static FConsoleCommand *ScanChainForName (FConsoleCommand *start, const char *name, size_t namelen, FConsoleCommand **prev); // EXTERNAL DATA DECLARATIONS ---------------------------------------------- // PUBLIC DATA DEFINITIONS ------------------------------------------------- bool ParsingKeyConf, UnsafeExecutionContext; FString StoredWarp; FConsoleCommand* Commands[FConsoleCommand::HASH_SIZE]; // PRIVATE DATA DEFINITIONS ------------------------------------------------ static const char *KeyConfCommands[] = { "alias", "defaultbind", "addkeysection", "addmenukey", "addslotdefault", "weaponsection", "setslot", "addplayerclass", "clearplayerclasses" }; // CODE -------------------------------------------------------------------- void C_DoCommand (const char *cmd, int keynum) { FConsoleCommand *com; const char *end; const char *beg; // Skip any beginning whitespace while (*cmd > 0 && *cmd <= ' ') cmd++; // Find end of the command name if (*cmd == '\"') { for (end = beg = cmd+1; *end && *end != '\"'; ++end) ; } else { beg = cmd; for (end = cmd+1; *end > ' ' || *end < 0; ++end) ; } const size_t len = end - beg; if (ParsingKeyConf) { int i; for (i = countof(KeyConfCommands)-1; i >= 0; --i) { if (strnicmp (beg, KeyConfCommands[i], len) == 0 && KeyConfCommands[i][len] == 0) { break; } } if (i < 0) { Printf ("Invalid command for KEYCONF: %s\n", beg); return; } } // Check if this is an action if (*beg == '+' || *beg == '-') { auto button = buttonMap.FindButton(beg + 1, int(end - beg - 1)); if (button != nullptr) { if (*beg == '+') { button->PressKey (keynum); if (button->PressHandler) button->PressHandler(); } else { button->ReleaseKey (keynum); if (button->ReleaseHandler) button->ReleaseHandler(); } return; } } // Parse it as a normal command // Checking for matching commands follows this search order: // 1. Check the Commands[] hash table // 2. Check the CVars list if ( (com = FindNameInHashTable (Commands, beg, len)) ) { if (gamestate != GS_STARTUP || ParsingKeyConf || (len == 3 && strnicmp (beg, "set", 3) == 0) || (len == 7 && strnicmp (beg, "logfile", 7) == 0) || (len == 9 && strnicmp (beg, "unbindall", 9) == 0) || (len == 4 && strnicmp (beg, "bind", 4) == 0) || (len == 4 && strnicmp (beg, "exec", 4) == 0) || (len ==10 && strnicmp (beg, "doublebind", 10) == 0) || (len == 6 && strnicmp (beg, "pullin", 6) == 0) ) { FCommandLine args (beg); com->Run (args, keynum); } else { if (len == 4 && strnicmp(beg, "warp", 4) == 0) { StoredWarp = beg; } else { auto cmd = new FStoredCommand(com, beg); delayedCommandQueue.AddCommand(cmd); } } } else { // Check for any console vars that match the command FBaseCVar *var = FindCVarSub (beg, int(len)); if (var != NULL) { FCommandLine args (beg); if (args.argc() >= 2) { // Set the variable var->CmdSet (args[1]); } else { // Get the variable's value if (var->GetDescription().Len()) Printf("%s\n", GStrings.localize(var->GetDescription())); Printf ("\"%s\" is \"%s\" ", var->GetName(), var->GetHumanString()); Printf ("(default: \"%s\")\n", var->GetHumanStringDefault()); } } else { // We don't know how to handle this command Printf ("Unknown command \"%.*s\"\n", (int)len, beg); } } } void AddCommandString (const char *text, int keynum) { // Operate on a local copy instead of messing around with the data that's being passed in here. TArray buffer(strlen(text) + 1, true); memcpy(buffer.Data(), text, buffer.Size()); char *cmd = buffer.Data(); char *brkpt; int more; if (cmd) { while (*cmd) { brkpt = cmd; while (*brkpt != ';' && *brkpt != '\0') { if (*brkpt == '\"') { brkpt++; while (*brkpt != '\0' && (*brkpt != '\"' || *(brkpt-1) == '\\')) brkpt++; } if (*brkpt != '\0') brkpt++; } if (*brkpt == ';') { *brkpt = '\0'; more = 1; } else { more = 0; } // Intercept wait commands here. Note: wait must be lowercase while (*cmd > 0 && *cmd <= ' ') cmd++; if (*cmd) { if (!ParsingKeyConf && cmd[0] == 'w' && cmd[1] == 'a' && cmd[2] == 'i' && cmd[3] == 't' && (cmd[4] == 0 || cmd[4] == ' ')) { int tics; if (cmd[4] == ' ') { tics = (int)strtoll (cmd + 5, NULL, 0); } else { tics = 1; } if (tics > 0) { if (more) { // The remainder of the command will be executed later // Note that deferred commands lose track of which key // (if any) they were pressed from. *brkpt = ';'; auto cmd = new FWaitingCommand(brkpt, tics, UnsafeExecutionContext); delayedCommandQueue.AddCommand(cmd); } return; } } else { C_DoCommand (cmd, keynum); } } if (more) { *brkpt = ';'; } cmd = brkpt + more; } } } static FConsoleCommand *ScanChainForName (FConsoleCommand *start, const char *name, size_t namelen, FConsoleCommand **prev) { int comp; *prev = NULL; while (start) { comp = strnicmp (start->m_Name, name, namelen); if (comp > 0) return NULL; else if (comp == 0 && start->m_Name[namelen] == 0) return start; *prev = start; start = start->m_Next; } return NULL; } static FConsoleCommand *FindNameInHashTable (FConsoleCommand **table, const char *name, size_t namelen) { FConsoleCommand *dummy; return ScanChainForName (table[MakeKey (name, namelen) % FConsoleCommand::HASH_SIZE], name, namelen, &dummy); } bool FConsoleCommand::AddToHash (FConsoleCommand **table) { unsigned int key; FConsoleCommand *insert, **bucket; key = MakeKey (m_Name); bucket = &table[key % HASH_SIZE]; if (ScanChainForName (*bucket, m_Name, strlen (m_Name), &insert)) { return false; } else { if (insert) { m_Next = insert->m_Next; if (m_Next) m_Next->m_Prev = &m_Next; insert->m_Next = this; m_Prev = &insert->m_Next; } else { m_Next = *bucket; *bucket = this; m_Prev = bucket; if (m_Next) m_Next->m_Prev = &m_Next; } } return true; } FConsoleCommand* FConsoleCommand::FindByName (const char* name) { return FindNameInHashTable (Commands, name, strlen (name)); } FConsoleCommand::FConsoleCommand (const char *name, CCmdRun runFunc) : m_RunFunc (runFunc) { int ag = strcmp (name, "kill"); if (ag == 0) ag=0; m_Name = name; if (!AddToHash (Commands)) Printf ("Adding CCMD %s twice.\n", name); else C_AddTabCommand (name); } FConsoleCommand::~FConsoleCommand () { *m_Prev = m_Next; if (m_Next) m_Next->m_Prev = m_Prev; C_RemoveTabCommand (m_Name); } void FConsoleCommand::Run(FCommandLine &argv, int key) { m_RunFunc (argv, key); } void FUnsafeConsoleCommand::Run(FCommandLine &args, int key) { if (UnsafeExecutionContext) { Printf(TEXTCOLOR_RED "Cannot execute unsafe command " TEXTCOLOR_GOLD "%s\n", m_Name.GetChars()); return; } FConsoleCommand::Run (args, key); } FConsoleAlias::FConsoleAlias (const char *name, const char *command, bool noSave) : FConsoleCommand (name, NULL), bRunning(false), bKill(false) { m_Command[noSave] = command; m_Command[!noSave] = FString(); // If the command contains % characters, assume they are parameter markers // for substitution when the command is executed. bDoSubstitution = (strchr (command, '%') != NULL); } FConsoleAlias::~FConsoleAlias () { m_Command[1] = m_Command[0] = FString(); } // Given an argument vector, reconstitute the command line it could have been produced from. FString BuildString (int argc, FString *argv) { if (argc == 1) { return *argv; } else { FString buf; int arg; for (arg = 0; arg < argc; arg++) { if (argv[arg][0] == '\0') { // It's an empty argument, we need to convert it to '""' buf << "\"\" "; } else if (strchr(argv[arg], '"')) { // If it contains one or more quotes, we need to escape them. buf << '"'; ptrdiff_t substr_start = 0, quotepos; while ((quotepos = argv[arg].IndexOf('"', substr_start)) >= 0) { if (substr_start < quotepos) { buf << argv[arg].Mid(substr_start, quotepos - substr_start); } buf << "\\\""; substr_start = quotepos + 1; } buf << argv[arg].Mid(substr_start) << "\" "; } else if (strchr(argv[arg], ' ')) { // If it contains a space, it needs to be quoted. buf << '"' << argv[arg] << "\" "; } else { buf << argv[arg] << ' '; } } return buf; } } //=========================================================================== // // SubstituteAliasParams // // Given an command line and a set of arguments, replace instances of // %x or %{x} in the command line with argument x. If argument x does not // exist, then the empty string is substituted in its place. // // Substitution is not done inside of quoted strings, unless that string is // prepended with a % character. // // To avoid a substitution, use %%. The %% will be replaced by a single %. // //=========================================================================== void FConsoleCommand::PrintCommand() { Printf("%s\n", m_Name.GetChars()); } FString SubstituteAliasParams (FString &command, FCommandLine &args) { // Do substitution by replacing %x with the argument x. // If there is no argument x, then %x is simply removed. // For some reason, strtoul's stop parameter is non-const. char *p = command.LockBuffer(), *start = p; unsigned long argnum; FString buf; bool inquote = false; while (*p != '\0') { if (p[0] == '%' && ((p[1] >= '0' && p[1] <= '9') || p[1] == '{')) { // Do a substitution. Output what came before this. buf.AppendCStrPart (start, p - start); // Extract the argument number and substitute the corresponding argument. argnum = strtoul (p + 1 + (p[1] == '{'), &start, 10); if ((p[1] != '{' || *start == '}') && argnum < (unsigned long)args.argc()) { buf += args[argnum]; } p = (start += (p[1] == '{' && *start == '}')); } else if (p[0] == '%' && p[1] == '%') { // Do not substitute. Just collapse to a single %. buf.AppendCStrPart (start, p - start + 1); start = p = p + 2; continue; } else if (p[0] == '%' && p[1] == '"') { // Collapse %" to " and remember that we're in a quote so when we // see a " character again, we don't start skipping below. if (!inquote) { inquote = true; buf.AppendCStrPart(start, p - start); start = p + 1; } else { inquote = false; } p += 2; } else if (p[0] == '\\' && p[1] == '"') { p += 2; } else if (p[0] == '"') { // Don't substitute inside quoted strings if it didn't start // with a %" if (!inquote) { p++; while (*p != '\0' && (*p != '"' || *(p-1) == '\\')) p++; if (*p != '\0') p++; } else { inquote = false; p++; } } else { p++; } } // Return whatever was after the final substitution. if (p > start) { buf.AppendCStrPart (start, p - start); } command.UnlockBuffer(); return buf; } static int DumpHash (FConsoleCommand **table, bool aliases, const char *pattern=NULL) { int bucket, count; FConsoleCommand *cmd; for (bucket = count = 0; bucket < FConsoleCommand::HASH_SIZE; bucket++) { cmd = table[bucket]; while (cmd) { if (CheckWildcards (pattern, cmd->m_Name)) { if (cmd->IsAlias()) { if (aliases) { ++count; static_cast(cmd)->PrintAlias (); } } else if (!aliases) { ++count; cmd->PrintCommand (); } } cmd = cmd->m_Next; } } return count; } void FConsoleAlias::PrintAlias () { if (m_Command[0].IsNotEmpty()) { Printf (TEXTCOLOR_YELLOW "%s : %s\n", m_Name.GetChars(), m_Command[0].GetChars()); } if (m_Command[1].IsNotEmpty()) { Printf (TEXTCOLOR_ORANGE "%s : %s\n", m_Name.GetChars(), m_Command[1].GetChars()); } } void FConsoleAlias::Archive (FConfigFile *f) { if (f != NULL && !m_Command[0].IsEmpty()) { f->SetValueForKey ("Name", m_Name, true); f->SetValueForKey ("Command", m_Command[0], true); } } void C_ArchiveAliases (FConfigFile *f) { int bucket; FConsoleCommand *alias; for (bucket = 0; bucket < FConsoleCommand::HASH_SIZE; bucket++) { alias = Commands[bucket]; while (alias) { if (alias->IsAlias()) static_cast(alias)->Archive (f); alias = alias->m_Next; } } } void C_ClearAliases () { int bucket; FConsoleCommand *alias; for (bucket = 0; bucket < FConsoleCommand::HASH_SIZE; bucket++) { alias = Commands[bucket]; while (alias) { FConsoleCommand *next = alias->m_Next; if (alias->IsAlias()) static_cast(alias)->SafeDelete(); alias = next; } } } CCMD(clearaliases) { C_ClearAliases(); } // This is called only by the ini parser. void C_SetAlias (const char *name, const char *cmd) { FConsoleCommand *prev, *alias, **chain; chain = &Commands[MakeKey (name) % FConsoleCommand::HASH_SIZE]; alias = ScanChainForName (*chain, name, strlen (name), &prev); if (alias != NULL) { if (!alias->IsAlias ()) { //Printf (PRINT_BOLD, "%s is a command and cannot be an alias.\n", name); return; } delete alias; } new FConsoleAlias (name, cmd, false); } CCMD (alias) { FConsoleCommand *prev, *alias, **chain; if (argv.argc() == 1) { Printf ("Current alias commands:\n"); DumpHash (Commands, true); } else { chain = &Commands[MakeKey (argv[1]) % FConsoleCommand::HASH_SIZE]; if (argv.argc() == 2) { // Remove the alias if ( (alias = ScanChainForName (*chain, argv[1], strlen (argv[1]), &prev))) { if (alias->IsAlias ()) { static_cast (alias)->SafeDelete (); } else { Printf ("%s is a normal command\n", alias->m_Name.GetChars()); } } } else { // Add/change the alias alias = ScanChainForName (*chain, argv[1], strlen (argv[1]), &prev); if (alias != NULL) { if (alias->IsAlias ()) { static_cast (alias)->Realias (argv[2], ParsingKeyConf); } else { Printf ("%s is a normal command\n", alias->m_Name.GetChars()); alias = NULL; } } else if (ParsingKeyConf) { new FUnsafeConsoleAlias (argv[1], argv[2]); } else { new FConsoleAlias (argv[1], argv[2], false); } } } } CCMD (cmdlist) { int count; const char *filter = (argv.argc() == 1 ? NULL : argv[1]); count = buttonMap.ListActionCommands (filter); count += DumpHash (Commands, false, filter); Printf ("%d commands\n", count); } CCMD (key) { if (argv.argc() > 1) { int i; for (i = 1; i < argv.argc(); ++i) { unsigned int key = MakeKey (argv[i]); Printf (" 0x%08x\n", key); } } } // Execute any console commands specified on the command line. // These all begin with '+' as opposed to '-'. FExecList *C_ParseCmdLineParams(FExecList *exec) { for (int currArg = 1; currArg < Args->NumArgs(); ) { if (*Args->GetArg (currArg++) == '+') { FString cmdString; int cmdlen = 1; int argstart = currArg - 1; while (currArg < Args->NumArgs()) { if (*Args->GetArg (currArg) == '-' || *Args->GetArg (currArg) == '+') break; currArg++; cmdlen++; } cmdString = BuildString (cmdlen, Args->GetArgList (argstart)); if (!cmdString.IsEmpty()) { if (exec == NULL) { exec = new FExecList; } exec->AddCommand(&cmdString[1]); } } } return exec; } bool FConsoleCommand::IsAlias () { return false; } bool FConsoleAlias::IsAlias () { return true; } void FConsoleAlias::Run (FCommandLine &args, int key) { if (bRunning) { Printf ("Alias %s tried to recurse.\n", m_Name.GetChars()); return; } int index = !m_Command[1].IsEmpty(); FString savedcommand = m_Command[index], mycommand; m_Command[index] = FString(); if (bDoSubstitution) { mycommand = SubstituteAliasParams (savedcommand, args); } else { mycommand = savedcommand; } bRunning = true; AddCommandString (mycommand, key); bRunning = false; if (m_Command[index].IsEmpty()) { // The alias is unchanged, so put the command back so it can be used again. // If the command had been non-empty, then that means that executing this // alias caused it to realias itself, so the old command will be forgotten // once this function returns. m_Command[index] = savedcommand; } if (bKill) { // The alias wants to remove itself delete this; } } void FConsoleAlias::Realias (const char *command, bool noSave) { if (!noSave && !m_Command[1].IsEmpty()) { noSave = true; } m_Command[noSave] = command; // If the command contains % characters, assume they are parameter markers // for substitution when the command is executed. bDoSubstitution = (strchr (command, '%') != NULL); bKill = false; } void FConsoleAlias::SafeDelete () { if (!bRunning) { delete this; } else { bKill = true; } } void FUnsafeConsoleAlias::Run (FCommandLine &args, int key) { UnsafeExecutionScope scope; FConsoleAlias::Run(args, key); } void FExecList::AddCommand(const char *cmd, const char *file) { // Pullins are special and need to be separated from general commands. // They also turned out to be a really bad idea, since they make things // more complicated. :( if (file != NULL && strnicmp(cmd, "pullin", 6) == 0 && isspace(cmd[6])) { FCommandLine line(cmd); C_SearchForPullins(this, file, line); } // Recursive exec: Parse this file now. else if (strnicmp(cmd, "exec", 4) == 0 && isspace(cmd[4])) { FCommandLine argv(cmd); for (int i = 1; i < argv.argc(); ++i) { C_ParseExecFile(argv[i], this); } } else { Commands.Push(cmd); } } void FExecList::ExecCommands() const { for (unsigned i = 0; i < Commands.Size(); ++i) { AddCommandString(Commands[i]); } } void FExecList::AddPullins(TArray &wads, FConfigFile *config) const { for (unsigned i = 0; i < Pullins.Size(); ++i) { D_AddFile(wads, Pullins[i], true, -1, config); } } FExecList *C_ParseExecFile(const char *file, FExecList *exec) { char cmd[4096]; int retval = 0; FileReader fr; if ( (fr.OpenFile(file)) ) { while (fr.Gets(cmd, countof(cmd)-1)) { // Comments begin with // char *stop = cmd + strlen(cmd) - 1; char *comment = cmd; int inQuote = 0; if (*stop == '\n') *stop-- = 0; while (comment < stop) { if (*comment == '\"') { inQuote ^= 1; } else if (!inQuote && *comment == '/' && *(comment + 1) == '/') { break; } comment++; } if (comment == cmd) { // Comment at line beginning continue; } else if (comment < stop) { // Comment in middle of line *comment = 0; } if (exec == NULL) { exec = new FExecList; } exec->AddCommand(cmd, file); } } else { Printf ("Could not open \"%s\"\n", file); } return exec; } bool C_ExecFile (const char *file) { FExecList *exec = C_ParseExecFile(file, NULL); if (exec != NULL) { exec->ExecCommands(); if (exec->Pullins.Size() > 0) { Printf(TEXTCOLOR_BOLD "Notice: Pullin files were ignored.\n"); } delete exec; } return exec != NULL; } void C_SearchForPullins(FExecList *exec, const char *file, FCommandLine &argv) { const char *lastSlash; assert(exec != NULL); assert(file != NULL); #ifdef __unix__ lastSlash = strrchr(file, '/'); #else const char *lastSlash1, *lastSlash2; lastSlash1 = strrchr(file, '/'); lastSlash2 = strrchr(file, '\\'); lastSlash = max(lastSlash1, lastSlash2); #endif for (int i = 1; i < argv.argc(); ++i) { // Try looking for the wad in the same directory as the .cfg // before looking for it in the current directory. if (lastSlash != NULL) { FString path(file, (lastSlash - file) + 1); path += argv[i]; if (FileExists(path)) { exec->Pullins.Push(path); continue; } } exec->Pullins.Push(argv[i]); } } static TArray dynccmds; // This needs to be explicitly deleted before shutdown - the names in here may not be valid during the exit handler. // // C_RegisterFunction() -- dynamically register a CCMD. // int C_RegisterFunction(const char* pszName, const char* pszDesc, int (*func)(CCmdFuncPtr)) { FString nname = pszName; auto callback = [nname, pszDesc, func](FCommandLine& args, int key) { if (args.argc() > 0) args.operator[](0); CCmdFuncParm param = { args.argc() - 1, nname.GetChars(), (const char**)args._argv + 1, args.cmd }; if (func(¶m) != CCMD_OK && pszDesc) { Printf("%s\n", pszDesc); } }; auto ccmd = new FConsoleCommand(pszName, callback); dynccmds.Push(ccmd); return 0; } void C_ClearDynCCmds() { for (auto ccmd : dynccmds) { delete ccmd; } dynccmds.Clear(); } CCMD (pullin) { // Actual handling for pullin is now completely special-cased above Printf (TEXTCOLOR_BOLD "Pullin" TEXTCOLOR_NORMAL " is only valid from .cfg\n" "files and only when used at startup.\n"); }