/* =========================================================================== Copyright (C) 1999-2005 Id Software, Inc. This file is part of Quake III Arena source code. Quake III Arena source code 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. Quake III Arena source code 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 Quake III Arena source code; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA =========================================================================== */ // cvar.c -- dynamic variable tracking #include "q_shared.h" #include "qcommon.h" #include "crash.h" #include "git.h" #include "common_help.h" #include struct depCvar_t { const char* name; const char* newName; qbool warned; }; static cvar_t* cvar_vars; static cvar_t* cvar_cheats; int cvar_modifiedFlags; #define MAX_CVARS 2048 static cvar_t cvar_indexes[MAX_CVARS]; static int cvar_numIndexes; #define CVAR_HASH_SIZE 256 static cvar_t* hashTable[CVAR_HASH_SIZE]; static qbool cvar_canPrintWarnings; static depCvar_t cvar_depVars[] = { { "sensitivity", "m_speed" }, { "r_customwidth", "r_width" }, { "r_customheight", "r_height" }, { "r_overBrightBits", "r_brightness" }, { "r_mapOverBrightBits", "r_mapBrightness" } }; static long Cvar_Hash( const char* s ) { long hash = 0; for (int i = 0; s[i]; ++i) { hash += (long)(tolower(s[i])) * (i+119); } return (hash & (CVAR_HASH_SIZE-1)); } static qbool Cvar_ValidateString( const char *s ) { if ( !s ) { return qfalse; } if ( strchr( s, '\\' ) ) { return qfalse; } if ( strchr( s, '\"' ) ) { return qfalse; } if ( strchr( s, ';' ) ) { return qfalse; } return qtrue; } cvar_t* Cvar_FindVar( const char* var_name ) { long hash = Cvar_Hash(var_name); for (cvar_t* var = hashTable[hash]; var; var = var->hashNext) { if (!Q_stricmp(var_name, var->name)) { return var; } } return NULL; } float Cvar_VariableValue( const char *var_name ) { const cvar_t* var = Cvar_FindVar(var_name); if (!var) return 0; return var->value; } int Cvar_VariableIntegerValue( const char *var_name ) { const cvar_t* var = Cvar_FindVar(var_name); if (!var) return 0; return var->integer; } const char *Cvar_VariableString( const char *var_name ) { const cvar_t* var = Cvar_FindVar(var_name); if (!var) return ""; return var->string; } void Cvar_VariableStringBuffer( const char *var_name, char *buffer, int bufsize ) { const cvar_t* var = Cvar_FindVar(var_name); if (!var) { *buffer = 0; return; } Q_strncpyz( buffer, var->string, bufsize ); } int Cvar_Flags( const char *var_name ) { const cvar_t* var; if (!(var = Cvar_FindVar(var_name))) return CVAR_NONEXISTENT; return var->flags; } cvarType_t Cvar_Type( const char *var_name ) { const cvar_t* var; if (!(var = Cvar_FindVar(var_name))) return CVART_STRING; return var->type; } void Cvar_CommandCompletion( void(*callback)(const char *s) ) { for (const cvar_t* cvar = cvar_vars; cvar; cvar = cvar->next) { if ( !(cvar->flags & CVAR_CHEAT) || cvar_cheats->integer ) { callback( cvar->name ); } } } void Cvar_EnumHelp( search_callback_t callback, const char* pattern ) { if( pattern == NULL || *pattern == '\0' ) return; cvar_t* cvar; for ( cvar = cvar_vars; cvar; cvar = cvar->next ) { if( cvar->name && !(cvar->flags & CVAR_USER_CREATED) ) callback( cvar->name, cvar->desc, cvar->help, pattern, qtrue ); } } static qbool Cvar_IsValidValuePrintNothing( cvar_t *var, const char *value ) { if ( var->type == CVART_STRING ) return qtrue; if ( var->type == CVART_FLOAT ) { float f; if ( sscanf(value, "%f", &f) != 1 || !isfinite(f) || f < var->validator.f.min || f > var->validator.f.max) return qfalse; } else { int i; if ( sscanf(value, "%d", &i) != 1 || i < var->validator.i.min || i > var->validator.i.max) return qfalse; } return qtrue; } static qbool Cvar_IsValidValuePrintWarnings( cvar_t *var, const char *value ) { #define WARNING( Message ) { Com_Printf( "^3%s: " Message "\n", var->name ); return qfalse; } if ( var->type == CVART_STRING ) return qtrue; if ( var->type == CVART_FLOAT ) { float f; if ( sscanf(value, "%f", &f) != 1 || !isfinite(f) ) WARNING( "not a finite floating-point value" ) if( f < var->validator.f.min ) WARNING( "float value too low" ) if( f > var->validator.f.max ) WARNING( "float value too high" ) } else { int i; if ( sscanf(value, "%d", &i) != 1 ) WARNING( "not a whole number (integer)" ) if( i < var->validator.i.min ) WARNING( "integer value too low" ) if( i > var->validator.i.max ) WARNING( "integer value too high" ) } return qtrue; #undef WARNING } static qbool Cvar_IsValidValue( cvar_t *var, const char *value, qbool printWarnings ) { return printWarnings ? Cvar_IsValidValuePrintWarnings( var, value ) : Cvar_IsValidValuePrintNothing( var, value ); } static void Cvar_PrintDeprecationWarning( int i ) { Com_Printf( "^3WARNING: " S_COLOR_CVAR "%s^7 was replaced by " S_COLOR_CVAR "%s\n", cvar_depVars[i].name, cvar_depVars[i].newName ); } static qbool Cvar_IsCreationAllowed( const char *var_name ) { for ( int i = 0; i < ARRAY_LEN(cvar_depVars); ++i ) { if ( Q_stricmp(var_name, cvar_depVars[i].name) ) continue; cvar_depVars[i].warned = qtrue; if ( cvar_canPrintWarnings ) Cvar_PrintDeprecationWarning( i ); return qfalse; } return qtrue; } void Cvar_PrintDeprecationWarnings() { cvar_canPrintWarnings = qtrue; for ( int i = 0; i < ARRAY_LEN(cvar_depVars); ++i ) { if ( cvar_depVars[i].warned ) Cvar_PrintDeprecationWarning( i ); } } static cvar_t* Cvar_Set2( const char *var_name, const char *value, qbool force ) { // Com_DPrintf( "Cvar_Set2: %s %s\n", var_name, value ); if ( !Cvar_ValidateString( var_name ) ) { Com_Printf( "invalid cvar name string: %s\n", var_name ); var_name = "BADNAME"; } cvar_t* var = Cvar_FindVar(var_name); if (!var) { if ( !value ) return NULL; if( !Cvar_IsCreationAllowed(var_name) ) return NULL; // create it return Cvar_Get( var_name, value, force ? 0 : CVAR_USER_CREATED ); } if (!value) { value = var->resetString; } const qbool okValue = Cvar_IsValidValue(var, value, qtrue); if (okValue && !strcmp(value, var->string)) { if (var->latchedString) { Z_Free(var->latchedString); var->latchedString = NULL; } return var; } if (!okValue) { if (!Cvar_IsValidValue(var, var->resetString, qfalse)) return var; // the default value is invalid too! value = var->resetString; } // note what types of cvars have been modified (userinfo, archive, serverinfo, systeminfo) cvar_modifiedFlags |= var->flags; if (!force) { if (var->flags & CVAR_ROM) { Com_Printf( "%s is read only.\n", var_name ); return var; } if (var->flags & CVAR_INIT) { Com_Printf( "%s is write protected.\n", var_name ); return var; } if ( (var->flags & CVAR_CHEAT) && !cvar_cheats->integer ) { Com_Printf( "%s is cheat protected.\n", var_name ); return var; } if (var->flags & CVAR_LATCH) { if (var->latchedString) { if (strcmp(value, var->latchedString) == 0) return var; Z_Free( var->latchedString ); } else { if (strcmp(value, var->string) == 0) return var; } Com_Printf( S_COLOR_CVAR "%s ^7will be changed upon restarting.\n", var_name ); var->latchedString = CopyString(value); var->modified = qtrue; var->modificationCount++; return var; } } else { if (var->latchedString) { Z_Free( var->latchedString ); var->latchedString = NULL; } } if (!strcmp(value, var->string)) return var; // not changed var->modified = qtrue; var->modificationCount++; Z_Free( var->string ); // free the old value string var->string = CopyString(value); var->value = atof( var->string ); var->integer = atoi( var->string ); return var; } /* ============ Cvar_Get If the variable already exists, the value will not be set unless CVAR_ROM The flags will be or'ed in if the variable exists. ============ */ cvar_t* Cvar_Get( const char *var_name, const char *var_value, int flags ) { if ( !var_name || !var_value ) { Com_Error( ERR_FATAL, "Cvar_Get: NULL parameter" ); } if ( !Cvar_ValidateString( var_name ) ) { Com_Printf("invalid cvar name string: %s\n", var_name ); var_name = "BADNAME"; } cvar_t* var = Cvar_FindVar( var_name ); if ( var ) { var_value = Cvar_IsValidValue( var, var_value, qfalse ) ? var_value : var->resetString; // if the C code is now specifying a variable that the user already // set a value for, take the new value as the reset value if ( ( var->flags & CVAR_USER_CREATED ) && !( flags & CVAR_USER_CREATED ) && var_value[0] ) { var->flags &= ~CVAR_USER_CREATED; Z_Free( var->resetString ); var->resetString = CopyString( var_value ); // needs to be set so that cvars the game tags as SERVERINFO get sent to clients cvar_modifiedFlags |= flags; } const qbool cmdLineCreated = (var->flags & CVAR_CMDLINE_CREATED) != 0; var->flags |= flags; var->flags &= ~CVAR_CMDLINE_CREATED; // only allow one non-empty reset string without a warning // KHB 071110 no, that's wrong for several reasons, notably vm changes caused by pure if ((flags & CVAR_ROM) || !var->resetString[0]) { Z_Free( var->resetString ); var->resetString = CopyString( var_value ); } else if ( com_developer && com_developer->integer && !var->mismatchPrinted && var_value[0] && strcmp( var->resetString, var_value ) ) { Com_DPrintf( "Warning: cvar \"%s\" given initial values: \"%s\" and \"%s\"\n", var_name, var->resetString, var_value ); var->mismatchPrinted = qtrue; } // if we have a latched string, take that value now if ( var->latchedString ) { char* s = var->latchedString; var->latchedString = NULL; // otherwise cvar_set2 would free it Cvar_Set2( var_name, s, qtrue ); Z_Free( s ); } // CVAR_INIT doesn't allow CVar registration to override the command-line value // (even if CVAR_ROM is also set) if (cmdLineCreated && (flags & CVAR_INIT) != 0) { return var; } /* KHB note that this is #if 0'd in the 132 code, but is actually REQUIRED for correctness consider a cgame that sets a CVAR_ROM client version: you connect to a v1 server, load the v1 cgame, and set the ROM version to v1 you then connect to a v2 server and correctly load the v2 cgame, but when that registers its GENUINELY "NEW" version var, the value is ignored so now you have a CVAR_ROM with the wrong value in it. gg. i'm preserving this incorrect behavior FOR NOW for compatability, because game\ai_main.c(1352): trap_Cvar_Register( &mapname, "mapname", "", CVAR_SERVERINFO | CVAR_ROM ); breaks every single mod except CPMA otherwise, but it IS wrong, and critically so myT: we don't care about other mods and keeping it broken is not acceptable at all */ // CVAR_ROM always overrides if (flags & CVAR_ROM) { Cvar_Set2( var_name, var_value, qtrue ); } return var; } // // allocate a new cvar // if ( cvar_numIndexes >= MAX_CVARS ) { Com_Error( ERR_FATAL, "MAX_CVARS" ); } for ( int i = 0; i < MAX_CVARS; ++i ) { cvar_t* const temp = &cvar_indexes[ (cvar_numIndexes + i) % MAX_CVARS ]; if ( temp->name == NULL ) { var = temp; break; } } if ( var == NULL ) { Com_Error( ERR_FATAL, "no free CVar found" ); } cvar_numIndexes++; var->name = CopyString( var_name ); var->string = CopyString( var_value ); var->modified = qtrue; var->modificationCount = 1; var->value = atof(var->string); var->integer = atoi(var->string); var->resetString = CopyString( var_value ); var->desc = NULL; var->help = NULL; var->type = CVART_STRING; var->firstModule = MODULE_NONE; var->moduleMask = 0; // link the variable in if ( cvar_vars == NULL || Q_stricmp(cvar_vars->name, var_name) > 0 ) { // insert as the first cvar cvar_t* const next = cvar_vars; cvar_vars = var; var->next = next; } else { // insert after some other cvar cvar_t* curr = cvar_vars; cvar_t* prev = cvar_vars; for (;;) { if ( Q_stricmp(curr->name, var_name) > 0 ) break; prev = curr; if ( curr->next == NULL ) break; curr = curr->next; } cvar_t* const next = prev->next; prev->next = var; var->next = next; } var->flags = flags; cvar_modifiedFlags |= flags; // needed so USERINFO cvars created by cgame actually get sent const long hash = Cvar_Hash( var_name ); var->hashNext = hashTable[hash]; hashTable[hash] = var; return var; } void Cvar_SetHelp( const char *var_name, const char *help ) { cvar_t* var = Cvar_FindVar( var_name ); if ( !var ) return; Help_AllocSplitText( &var->desc, &var->help, help ); } qbool Cvar_GetHelp( const char **desc, const char **help, const char* var_name ) { cvar_t* var = Cvar_FindVar( var_name ); if ( !var ) { *desc = NULL; *help = NULL; return qfalse; } *desc = var->desc; *help = var->help; return qtrue; } void Cvar_SetRange( const char *var_name, cvarType_t type, const char *minStr, const char *maxStr ) { #define WARNING( Message ) { assert(0); Com_Printf( "^3Cvar_SetRange on %s: " Message "\n", var_name ); return; } cvar_t* var = Cvar_FindVar( var_name ); if( !var ) WARNING( "cvar not found" ); if( (unsigned int)type >= CVART_COUNT ) WARNING( "invalid cvar type" ); if ( type == CVART_BOOL ) { var->validator.i.min = 0; var->validator.i.max = 1; } else if ( type == CVART_INTEGER || type == CVART_BITMASK ) { int min = INT_MIN; int max = INT_MAX; if ( minStr && sscanf(minStr, "%d", &min) != 1 ) WARNING( "invalid min value" ) if ( maxStr && sscanf(maxStr, "%d", &max) != 1 ) WARNING( "invalid max value" ) if ( min > max ) WARNING( "min greater than max" ) var->validator.i.min = min; var->validator.i.max = max; } else if ( type == CVART_FLOAT ) { // yes, sscanf *does* recognize special strings for inf and NaN float min = -FLT_MAX; float max = FLT_MAX; if ( minStr && sscanf(minStr, "%f", &min) != 1 && !isfinite(min) ) WARNING( "invalid min value" ) if ( maxStr && sscanf(maxStr, "%f", &max) != 1 && !isfinite(max) ) WARNING( "invalid max value" ) if ( min > max ) WARNING( "min greater than max" ) var->validator.f.min = min; var->validator.f.max = max; } var->type = type; // run a validation pass right away Cvar_Set( var_name, var->string ); #undef ERROR } void Cvar_RegisterTable( const cvarTableItem_t* cvars, int count, module_t module ) { for ( int i = 0; i < count; ++i ) { const cvarTableItem_t* item = &cvars[i]; if ( item->cvar ) *item->cvar = Cvar_Get( item->name, item->reset, item->flags ); else Cvar_Get( item->name, item->reset, item->flags ); if ( item->help ) Cvar_SetHelp( item->name, item->help ); if ( item->min || item->max || item->type == CVART_BITMASK || item->type == CVART_BOOL ) Cvar_SetRange( item->name, item->type, item->min, item->max ); Cvar_SetModule( item->name, module ); } } void Cvar_SetModule( const char *var_name, module_t module ) { cvar_t* var = Cvar_FindVar( var_name ); if ( !var ) return; var->moduleMask |= 1 << (int)module; if ( var->firstModule == MODULE_NONE ) var->firstModule = module; } void Cvar_GetModuleInfo( module_t *firstModule, int *moduleMask, const char *var_name ) { cvar_t* var = Cvar_FindVar( var_name ); if ( !var ) return; *firstModule = var->firstModule; *moduleMask = var->moduleMask; } const char* Cvar_GetRegisteredName( const char *var_name ) { cvar_t* var = Cvar_FindVar( var_name ); if ( !var ) return NULL; return var->name; } static const char* Cvar_FormatRangeFloat( float vf ) { const int vi = (int)vf; const qbool round = vf == (float)vi; return round ? va( "%d.0", vi ) : va( "%.3g", vf ); } void Cvar_PrintTypeAndRange( const char *var_name, printf_t print ) { cvar_t* var = Cvar_FindVar( var_name ); if ( !var ) return; if ( var->type == CVART_BOOL ) { print( S_COLOR_VAL "0^7|" S_COLOR_VAL "1" ); } else if ( var->type == CVART_BITMASK ) { print( "bitmask" ); } else if ( var->type == CVART_FLOAT ) { const float minV = var->validator.f.min; const float maxV = var->validator.f.max; if ( minV == -FLT_MAX && maxV == FLT_MAX ) { print( "float_value" ); } else { const char* min = minV == -FLT_MAX ? "-inf" : Cvar_FormatRangeFloat( minV ); const char* max = maxV == +FLT_MAX ? "+inf" : Cvar_FormatRangeFloat( maxV ); print( S_COLOR_VAL "%s ^7to " S_COLOR_VAL "%s", min, max ); } } else if ( var->type == CVART_INTEGER ) { const int minV = var->validator.i.min; const int maxV = var->validator.i.max; const int diff = maxV - minV; if( minV == INT_MIN && maxV == INT_MAX ) { print( "integer_value" ); } else if ( diff == 0 ) { print( S_COLOR_VAL "%d", minV ); } else if ( diff == 1 ) { print( S_COLOR_VAL "%d^7|" S_COLOR_VAL "%d", minV, minV + 1 ); } else if ( diff == 2 ) { print( S_COLOR_VAL "%d^7|" S_COLOR_VAL "%d^7|" S_COLOR_VAL "%d", minV, minV + 1, minV + 2 ); } else if ( diff == 3 ) { print( S_COLOR_VAL "%d^7|" S_COLOR_VAL "%d^7|" S_COLOR_VAL "%d^7|" S_COLOR_VAL "%d", minV, minV + 1, minV + 2, minV + 3 ); } else { const char* min = minV == INT_MIN ? "-inf" : va( "%d", minV ); const char* max = maxV == INT_MAX ? "+inf" : va( "%d", maxV ); print( S_COLOR_VAL "%s ^7to " S_COLOR_VAL "%s", min, max ); } } else { print( "string" ); } } void Cvar_PrintFirstHelpLine( const char *var_name, printf_t print ) { cvar_t* var = Cvar_FindVar( var_name ); if ( !var ) return; const char* const q = var->type == CVART_STRING ? "\"" : ""; print( S_COLOR_CVAR "%s ^7<", var_name ); Cvar_PrintTypeAndRange( var_name, print ); print( "> (default: %s" S_COLOR_VAL "%s^7%s)\n", q, var->resetString, q ); } void Cvar_PrintFlags( const char *var_name, printf_t print ) { cvar_t* var = Cvar_FindVar( var_name ); if ( !var ) return; static const char* names[] = { "Archived", "User Info", "Server Info", "System Info", "Init", "Latched", "Read-only", "User-created", "Temporary", "Cheat-protected", "No Reset", "Server-created" }; const int flags = var->flags; int count = 0; for ( int i = 0; i < ARRAY_LEN(names); ++i ) { if ( (flags >> i) & 1 ) ++count; } print( count != 1 ? "Attributes: " : "Attribute: " ); int printed = 0; for ( int i = 0; i < ARRAY_LEN(names); ++i ) { if ( !((flags >> i) & 1) ) continue; if ( printed ) print( ", " ); print( names[i] ); ++printed; } if ( count ) print( "\n" ); else print( "None\n" ); } void Cvar_Set( const char *var_name, const char *value ) { Cvar_Set2( var_name, value, qtrue ); } void Cvar_SetValue( const char *var_name, float value ) { if ( value == (int)value ) { Cvar_Set( var_name, va("%i", (int)value) ); } else { Cvar_Set( var_name, va("%f", value) ); } } void Cvar_Reset( const char *var_name ) { Cvar_Set2( var_name, NULL, qfalse ); } // any testing variables will be reset to the safe values void Cvar_SetCheatState() { for (cvar_t* var = cvar_vars; var; var = var->next) { if ( var->flags & CVAR_CHEAT ) { // the CVAR_LATCHED|CVAR_CHEAT vars might escape the reset here // because of a different var->latchedString if (var->latchedString) { Z_Free(var->latchedString); var->latchedString = NULL; } if (strcmp(var->resetString,var->string)) { Cvar_Set( var->name, var->resetString ); } } } } // handles variable inspection and changing from the console qbool Cvar_Command() { const cvar_t* v = Cvar_FindVar(Cmd_Argv(0)); if (!v) return qfalse; // perform a variable print or set if ( Cmd_Argc() == 1 ) { const char* const q = v->type == CVART_STRING ? "\"" : ""; Com_Printf( S_COLOR_CVAR "%s^7 is %s" S_COLOR_VAL "%s^7%s (", v->name, q, v->string, q ); Cvar_PrintTypeAndRange( v->name, &Com_Printf ); Com_Printf( "^7, default: %s" S_COLOR_VAL "%s^7%s)\n", q, v->resetString, q ); if ( v->latchedString ) { Com_Printf( "latched: %s" S_COLOR_VAL "%s^7%s\n", q, v->latchedString, q ); } return qtrue; } // set the value if forcing isn't required Cvar_Set2( v->name, Cmd_Argv(1), qfalse ); return qtrue; } static void Cvar_CompleteName( int startArg, int compArg ) { if ( startArg + 1 == compArg ) Field_AutoCompleteFrom( compArg, compArg, qfalse, qtrue ); } // toggles a cvar for easy single key binding static void Cvar_Toggle_f( void ) { const int argc = Cmd_Argc(); if ( argc != 2 && argc < 4 ) { Com_Printf( "usage: toggle [ [value3]..]\n" ); return; } const char* const name = Cmd_Argv(1); const cvar_t* const cvar = Cvar_FindVar( name ); if ( !cvar ) return; if ( argc == 2 ) { const int v = !Cvar_VariableIntegerValue( name ); Cvar_Set2( name, va("%i", v), qfalse ); return; } // set the next value - if none found, set the first value int index = -1; const int valueOffset = 2; const int valueCount = argc - valueOffset; for ( int i = 0; i < valueCount; ++i ) { if ( !Q_stricmp(Cmd_Argv(i + valueOffset), cvar->string) ) { index = (i + 1) % valueCount; break; } } if ( index < 0 ) index = 0; Cvar_Set2( name, Cmd_Argv(index + valueOffset), qfalse ); } // frees resources associated to a cvar, then clears it static void Cvar_Nuke( cvar_t* var ) { // remove this cvar from the hash table so that // a) it doesn't show up as existing, and // b) it doesn't make other registered cvars not show up as existing // (a zeroed cvar_t struct would cause an early exit in Cvar_FindVar) const long hash = Cvar_Hash( var->name ); cvar_t** hashVarIter = &hashTable[hash]; for ( ;; ) { cvar_t* const hashVar = *hashVarIter; if ( hashVar == NULL ) { Com_Printf( "ERROR: CVar '%s' not found in hash map\n", var->name ); break; } if ( hashVar == var ) { *hashVarIter = var->hashNext; break; } hashVarIter = &hashVar->hashNext; } if ( var->name ) Z_Free( var->name ); if ( var->string ) Z_Free( var->string ); if ( var->latchedString ) Z_Free( var->latchedString ); if ( var->resetString ) Z_Free( var->resetString ); if ( var->desc ) Z_Free( var->desc ); if ( var->help ) Z_Free( var->help ); // clear the var completely // even though clearing the name alone would be enough Com_Memset( var, 0, sizeof( *var ) ); // make sure this index can be allocated again cvar_numIndexes--; } // removes a user-created cvar static void Cvar_Unset_f( void ) { if ( Cmd_Argc() != 2 ) { Com_Printf( "usage: unset \n" ); return; } const char* const name = Cmd_Argv(1); cvar_t** prev = &cvar_vars; while ( 1 ) { cvar_t* const var = *prev; if ( !var ) break; if ( (var->flags & CVAR_USER_CREATED) != 0 && !Q_stricmp(var->name, name) ) { *prev = var->next; Cvar_Nuke( var ); break; } prev = &var->next; } } // sets a cvar to an empty string static void Cvar_SetEmpty_f( void ) { if ( Cmd_Argc() != 2 ) { Com_Printf( "usage: setempty \n" ); return; } const char* const name = Cmd_Argv(1); const cvar_t* const cvar = Cvar_FindVar( name ); if ( !cvar || cvar->type != CVART_STRING ) return; Cvar_Set( Cmd_Argv(1), "" ); } static void Cvar_ExecuteOp( qbool multiply ) { if ( Cmd_Argc() != 3 ) { Com_Printf( "usage: %s \n", Cmd_Argv(0) ); return; } const cvar_t* const cvar = Cvar_FindVar( Cmd_Argv(1) ); if ( !cvar ) { Com_Printf( "%s: variable '%s' not found\n", Cmd_Argv(0), Cmd_Argv(1) ); return; } if ( cvar->type != CVART_INTEGER && cvar->type != CVART_FLOAT ) { Com_Printf( "%s: variable " S_COLOR_CVAR "%s ^7isn't an integer or float variable\n", Cmd_Argv(0), Cmd_Argv(1) ); if ( cvar->type == CVART_BOOL ) Com_Printf( "%s: you can use '/" S_COLOR_CMD "toggle " S_COLOR_CVAR "%s^7' to toggle between 0 and 1\n", Cmd_Argv(0), Cmd_Argv(1) ); return; } if ( cvar->type == CVART_INTEGER ) { int iTemp; if ( sscanf( Cmd_Argv(2), "%d", &iTemp ) != 1 ) { Com_Printf( "%s: '%s' isn't an integer (whole number)\n", Cmd_Argv(0), Cmd_Argv(2) ); return; } if ( (multiply && iTemp == 1) || (!multiply && iTemp == 0) ) return; const int iValU = multiply ? ( cvar->integer * iTemp ) : ( cvar->integer + iTemp ); const int iValC = Com_ClampInt( cvar->validator.i.min, cvar->validator.i.max, iValU ); Cvar_Set( Cmd_Argv(1), va("%d", iValC) ); } else { float fTemp; if ( sscanf( Cmd_Argv(2), "%f", &fTemp ) != 1 || !isfinite( fTemp ) ) { Com_Printf( "%s: '%s' isn't a finite floating-point number\n", Cmd_Argv(0), Cmd_Argv(2) ); return; } if ( (multiply && fTemp == 1.0f) || (!multiply && fTemp == 0.0f) ) return; const float fValU = multiply ? ( cvar->value * fTemp ) : ( cvar->value + fTemp ); const float fValC = Com_Clamp( cvar->validator.f.min, cvar->validator.f.max, fValU ); Cvar_Set( Cmd_Argv(1), va("%f", fValC) ); } } static void Cvar_Add_f( void ) { Cvar_ExecuteOp( qfalse ); } static void Cvar_Multiply_f( void ) { Cvar_ExecuteOp( qtrue ); } // Allows setting and defining of arbitrary cvars from console // even if they weren't declared in C code static void Cvar_Set_f( void ) { int c = Cmd_Argc(); if ( c < 3 ) { Com_Printf ("usage: set \n"); return; } char combined[MAX_STRING_TOKENS]; combined[0] = 0; int l = 0; for (int i = 2; i < c; i++) { int len = strlen ( Cmd_Argv( i ) ) + 1; if ( l + len >= MAX_STRING_TOKENS - 2 ) { break; } strcat( combined, Cmd_Argv( i ) ); if ( i != c-1 ) { strcat( combined, " " ); } l += len; } Cvar_Set2( Cmd_Argv(1), combined, qfalse ); } static void Cvar_SetAndFlag( const char* cmd, int flag ) { if ( Cmd_Argc() != 3 ) { Com_Printf( "usage: %s \n", cmd ); return; } Cvar_Set_f(); cvar_t* v = Cvar_FindVar( Cmd_Argv(1) ); if ( !v ) { Com_DPrintf( "Warning: couldn't find cvar %s\n", Cmd_Argv(1) ); return; } v->flags |= flag; } static void Cvar_SetU_f( void ) { Cvar_SetAndFlag( "setu", CVAR_USERINFO ); } static void Cvar_SetS_f( void ) { Cvar_SetAndFlag( "sets", CVAR_SERVERINFO ); } static void Cvar_SetA_f( void ) { Cvar_SetAndFlag( "seta", CVAR_ARCHIVE ); } static void Cvar_Reset_f( void ) { if ( Cmd_Argc() != 2 ) { Com_Printf ("usage: reset \n"); return; } Cvar_Reset( Cmd_Argv( 1 ) ); } // appends lines containing "seta variable value" for all cvars with the archive flag set void Cvar_WriteVariables( fileHandle_t f ) { for (const cvar_t* var = cvar_vars; var; var = var->next) { if ((Q_stricmp( var->name, "cl_cdkey" ) == 0) || !(var->flags & CVAR_ARCHIVE)) continue; // write the latched value, even if it hasn't taken effect yet FS_Printf( f, "seta %s \"%s\"\n", var->name, var->latchedString ? var->latchedString : var->string ); } } static void Cvar_List_f( void ) { const char* match = (Cmd_Argc() > 1) ? Cmd_Argv(1) : NULL; int i = 0; int found = 0; for (const cvar_t* var = cvar_vars; var; var = var->next, ++i) { if (match && !Com_Filter(match, var->name)) continue; ++found; Com_Printf( (var->flags & CVAR_SERVERINFO) ? "S" : " " ); Com_Printf( (var->flags & CVAR_USERINFO) ? "U" : " " ); Com_Printf( (var->flags & CVAR_ROM) ? "R" : " " ); Com_Printf( (var->flags & CVAR_INIT) ? "I" : " " ); Com_Printf( (var->flags & CVAR_ARCHIVE) ? "A" : " " ); Com_Printf( (var->flags & CVAR_LATCH) ? "L" : " " ); Com_Printf( (var->flags & CVAR_CHEAT) ? "C" : " " ); Com_Printf( (var->flags & CVAR_USER_CREATED) ? "?" : (var->help ? "h" : " ") ); Com_Printf(" %s \"%s\"\n", var->name, var->string); } Com_Printf("\n%4i cvars total\n", i); Com_Printf("%4i cvar%s matched\n", found, found > 1 ? "s" : ""); } static void Cvar_Restart( qbool reset ) { cvar_t *var; cvar_t **prev; prev = &cvar_vars; while ( 1 ) { var = *prev; if ( !var ) { break; } // don't mess with rom values, or some inter-module // communication will get broken (com_cl_running, etc) if ( var->flags & ( CVAR_ROM | CVAR_INIT | CVAR_NORESTART ) ) { prev = &var->next; continue; } // throw out any variables the user created if ( var->flags & CVAR_USER_CREATED ) { *prev = var->next; Cvar_Nuke( var ); continue; } if ( reset ) { Cvar_Set( var->name, var->resetString ); } prev = &var->next; } } // removes all user-created cvars // resets all cvars to their hardcoded values static void Cvar_Restart_f( void ) { Cvar_Restart( qtrue ); } // removes all user-created cvars // this will only accept to run when both the server and client are running unless forced static void Cvar_Trim_f() { if ( Cmd_Argc() == 2 && !Q_stricmp( Cmd_Argv(1), "-f" ) ) { Cvar_Restart( qfalse ); return; } if (com_cl_running && com_cl_running->integer && com_sv_running && com_sv_running->integer ) { Cvar_Restart( qfalse ); return; } Com_Printf( "You're not running a listen server, so not all subsystems/VMs are loaded.\n" ); Com_Printf( "This means you'd remove cvars that are probably best kept around.\n" ); Com_Printf( "If you don't care, you can force the call by running '/%s -f'.\n", Cmd_Argv(0) ); Com_Printf( "You've been warned.\n" ); } const char* Cvar_InfoString( int bit ) { static char info[MAX_INFO_STRING]; info[0] = 0; for ( const cvar_t* var = cvar_vars ; var ; var = var->next ) { if (var->flags & bit) { Info_SetValueForKey( info, var->name, var->string ); } } return info; } // special version for very large infostrings, ie CS_SYSTEMINFO const char* Cvar_InfoString_Big( int bit ) { static char info[BIG_INFO_STRING]; info[0] = 0; for ( const cvar_t* var = cvar_vars ; var ; var = var->next ) { if (var->flags & bit) { Info_SetValueForKey_Big( info, var->name, var->string ); } } return info; } // pointless function solely for the UI VM, which never uses it // but since it's not TECHNICALLY defective we'll keep it for now void Cvar_InfoStringBuffer( int bit, char* buff, int buffsize ) { Q_strncpyz( buff, Cvar_InfoString(bit), buffsize ); } // basically a slightly modified Cvar_Get for the interpreted modules void Cvar_Register( vmCvar_t *vmCvar, const char *varName, const char *defaultValue, int flags ) { cvar_t* cv = Cvar_Get( varName, defaultValue, flags ); if ( (flags & CVAR_SERVERINFO) && !Q_stricmp(varName, "gamename") ) Crash_SaveModName( defaultValue ); else if ( (flags & CVAR_SERVERINFO) && !Q_stricmp(varName, "gameversion") ) Crash_SaveModVersion( defaultValue ); else Crash_SaveQVMGitString( varName, defaultValue ); if ( !vmCvar ) return; vmCvar->handle = cv - cvar_indexes; vmCvar->modificationCount = -1; Cvar_Update( vmCvar ); } // update an interpreted module's version of a cvar void Cvar_Update( vmCvar_t *vmCvar ) { cvar_t* cv = NULL; assert(vmCvar); if ( (unsigned int)vmCvar->handle >= MAX_CVARS ) { Com_Error( ERR_DROP, "Cvar_Update: handle out of range" ); } cv = cvar_indexes + vmCvar->handle; if ( cv->modificationCount == vmCvar->modificationCount ) { return; } if ( !cv->string ) { return; // variable might have been cleared by a cvar_restart } vmCvar->modificationCount = cv->modificationCount; if ( strlen(cv->string)+1 > MAX_CVAR_VALUE_STRING ) Com_Error( ERR_DROP, "Cvar_Update: src %s length %d exceeds MAX_CVAR_VALUE_STRING", cv->string, strlen(cv->string) ); Q_strncpyz( vmCvar->string, cv->string, MAX_CVAR_VALUE_STRING ); vmCvar->value = cv->value; vmCvar->integer = cv->integer; } static const cmdTableItem_t cl_cmds[] = { { "toggle", Cvar_Toggle_f, Cvar_CompleteName, help_toggle }, { "set", Cvar_Set_f, Cvar_CompleteName, "creates or changes a cvar's value" }, { "sets", Cvar_SetS_f, Cvar_CompleteName, "like /set with the server info flag" }, { "setu", Cvar_SetU_f, Cvar_CompleteName, "like /set with the user info flag" }, { "seta", Cvar_SetA_f, Cvar_CompleteName, "like /set with the archive flag" }, { "reset", Cvar_Reset_f, Cvar_CompleteName, "sets a cvar back to its default value" }, { "unset", Cvar_Unset_f, Cvar_CompleteName, "removes a user-created cvar" }, { "setempty", Cvar_SetEmpty_f, Cvar_CompleteName, "sets a cvar to an empty string" }, { "cvar_add", Cvar_Add_f, Cvar_CompleteName, "adds a number to a cvar" }, { "cvar_mul", Cvar_Multiply_f, Cvar_CompleteName, "multiplies a cvar by a number" }, { "cvarlist", Cvar_List_f, NULL, help_cvarlist }, { "cvar_restart", Cvar_Restart_f, NULL, "restarts the cvar system" }, { "cvar_trim", Cvar_Trim_f, NULL, "removes user-created cvars" } }; void Cvar_Init() { // this cvar is the single entry point of the entire extension system Cvar_Get( "//trap_GetValue", "700", CVAR_INIT | CVAR_ROM ); cvar_cheats = Cvar_Get( "sv_cheats", "1", CVAR_ROM | CVAR_SYSTEMINFO ); Cvar_Get( "git_branch", GIT_BRANCH, CVAR_ROM ); Cvar_Get( "git_headHash", GIT_COMMIT, CVAR_ROM ); Cmd_RegisterArray( cl_cmds, MODULE_COMMON ); }