/* Copyright (C) 1999-2006 Id Software, Inc. and contributors. For a list of contributors, see the accompanying CONTRIBUTORS file. This file is part of GtkRadiant. GtkRadiant 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. GtkRadiant 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 GtkRadiant; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */ // q_shared.c -- stateless support routines that are included in each code dll #include "q_shared.h" /* ============================================================================ GROWLISTS ============================================================================ */ // malloc / free all in one place for debugging extern "C" void *Com_Allocate( int bytes ); extern "C" void Com_Dealloc( void *ptr ); void Com_InitGrowList( growList_t *list, int maxElements ) { list->maxElements = maxElements; list->currentElements = 0; list->elements = (void **)Com_Allocate( list->maxElements * sizeof( void * ) ); } int Com_AddToGrowList( growList_t *list, void *data ) { void **old; if ( list->currentElements != list->maxElements ) { list->elements[list->currentElements] = data; return list->currentElements++; } // grow, reallocate and move old = list->elements; if ( list->maxElements < 0 ) { Com_Error( ERR_FATAL, "Com_AddToGrowList: maxElements = %i", list->maxElements ); } if ( list->maxElements == 0 ) { // initialize the list to hold 100 elements Com_InitGrowList( list, 100 ); return Com_AddToGrowList( list, data ); } list->maxElements *= 2; Com_DPrintf( "Resizing growlist to %i maxElements\n", list->maxElements ); list->elements = (void **)Com_Allocate( list->maxElements * sizeof( void * ) ); if ( !list->elements ) { Com_Error( ERR_DROP, "Growlist alloc failed" ); } memcpy( list->elements, old, list->currentElements * sizeof( void * ) ); Com_Dealloc( old ); return Com_AddToGrowList( list, data ); } void *Com_GrowListElement( const growList_t *list, int index ) { if ( index < 0 || index >= list->currentElements ) { Com_Error( ERR_DROP, "Com_GrowListElement: %i out of range of %i", index, list->currentElements ); } return list->elements[index]; } int Com_IndexForGrowListElement( const growList_t *list, const void *element ) { int i; for ( i = 0 ; i < list->currentElements ; i++ ) { if ( list->elements[i] == element ) { return i; } } return -1; } //============================================================================ float Com_Clamp( float min, float max, float value ) { if ( value < min ) { return min; } if ( value > max ) { return max; } return value; } /* ============ Com_StringContains ============ */ const char *Com_StringContains( const char *str1, const char *str2, int casesensitive ) { int len, i, j; len = strlen( str1 ) - strlen( str2 ); for ( i = 0; i <= len; i++, str1++ ) { for ( j = 0; str2[j]; j++ ) { if ( casesensitive ) { if ( str1[j] != str2[j] ) { break; } } else { if ( toupper( str1[j] ) != toupper( str2[j] ) ) { break; } } } if ( !str2[j] ) { return str1; } } return NULL; } /* ============ Com_Filter ============ */ int Com_Filter( const char *filter, const char *name, int casesensitive ){ char buf[MAX_TOKEN_CHARS]; const char *ptr; int i, found; while ( *filter ) { if ( *filter == '*' ) { filter++; for ( i = 0; *filter; i++ ) { if ( *filter == '*' || *filter == '?' ) { break; } buf[i] = *filter; filter++; } buf[i] = '\0'; if ( strlen( buf ) ) { ptr = Com_StringContains( name, buf, casesensitive ); if ( !ptr ) { return qfalse; } name = ptr + strlen( buf ); } } else if ( *filter == '?' ) { filter++; name++; } else if ( *filter == '[' && *( filter + 1 ) == '[' ) { filter++; } else if ( *filter == '[' ) { filter++; found = qfalse; while ( *filter && !found ) { if ( *filter == ']' && *( filter + 1 ) != ']' ) { break; } if ( *( filter + 1 ) == '-' && *( filter + 2 ) && ( *( filter + 2 ) != ']' || *( filter + 3 ) == ']' ) ) { if ( casesensitive ) { if ( *name >= *filter && *name <= *( filter + 2 ) ) { found = qtrue; } } else { if ( toupper( *name ) >= toupper( *filter ) && toupper( *name ) <= toupper( *( filter + 2 ) ) ) { found = qtrue; } } filter += 3; } else { if ( casesensitive ) { if ( *filter == *name ) { found = qtrue; } } else { if ( toupper( *filter ) == toupper( *name ) ) { found = qtrue; } } filter++; } } if ( !found ) { return qfalse; } while ( *filter ) { if ( *filter == ']' && *( filter + 1 ) != ']' ) { break; } filter++; } filter++; name++; } else { if ( casesensitive ) { if ( *filter != *name ) { return qfalse; } } else { if ( toupper( *filter ) != toupper( *name ) ) { return qfalse; } } filter++; name++; } } return qtrue; } /* ================ Com_HashString ================ */ int Com_HashString( const char *fname ) { int i; long hash; char letter; hash = 0; i = 0; while ( fname[i] != '\0' ) { letter = tolower( fname[i] ); if ( letter == '.' ) { break; // don't include extension } if ( letter == '\\' ) { letter = '/'; // damn path names } hash += (long)( letter ) * ( i + 119 ); i++; } hash &= ( FILE_HASH_SIZE - 1 ); return hash; } /* ============ Com_SkipPath ============ */ char *Com_SkipPath( char *pathname ){ char *last; last = pathname; while ( *pathname ) { if ( *pathname == '/' ) { last = pathname + 1; } pathname++; } return last; } /* ============ Com_StripExtension ============ */ void Com_StripExtension( const char *in, char *out ) { while ( *in && *in != '.' ) { *out++ = *in++; } *out = 0; } /* ================== Com_DefaultExtension ================== */ void Com_DefaultExtension( char *path, int maxSize, const char *extension ) { char oldPath[MAX_QPATH]; char *src; // // if path doesn't have a .EXT, append extension // (extension should include the .) // src = path + strlen( path ) - 1; while ( *src != '/' && src != path ) { if ( *src == '.' ) { return; // it has an extension } src--; } Q_strncpyz( oldPath, path, sizeof( oldPath ) ); Com_sprintf( path, maxSize, "%s%s", oldPath, extension ); } /* ============================================================================ BYTE ORDER FUNCTIONS ============================================================================ */ // can't just use function pointers, or dll linkage can // mess up when qcommon is included in multiple places static short ( *_BigShort )( short l ); static short ( *_LittleShort )( short l ); static int ( *_BigLong )( int l ); static int ( *_LittleLong )( int l ); static float ( *_BigFloat )( float l ); static float ( *_LittleFloat )( float l ); short BigShort( short l ){return _BigShort( l ); } short LittleShort( short l ) {return _LittleShort( l ); } int BigLong( int l ) {return _BigLong( l ); } int LittleLong( int l ) {return _LittleLong( l ); } float BigFloat( float l ) {return _BigFloat( l ); } float LittleFloat( float l ) {return _LittleFloat( l ); } short ShortSwap( short l ){ byte b1,b2; b1 = l & 255; b2 = ( l >> 8 ) & 255; return ( b1 << 8 ) + b2; } short ShortNoSwap( short l ){ return l; } int LongSwap( int l ){ byte b1,b2,b3,b4; b1 = l & 255; b2 = ( l >> 8 ) & 255; b3 = ( l >> 16 ) & 255; b4 = ( l >> 24 ) & 255; return ( (int)b1 << 24 ) + ( (int)b2 << 16 ) + ( (int)b3 << 8 ) + b4; } int LongNoSwap( int l ){ return l; } float FloatSwap( float f ){ union { float f; byte b[4]; } dat1, dat2; dat1.f = f; dat2.b[0] = dat1.b[3]; dat2.b[1] = dat1.b[2]; dat2.b[2] = dat1.b[1]; dat2.b[3] = dat1.b[0]; return dat2.f; } float FloatNoSwap( float f ){ return f; } /* ================ Swap_Init ================ */ void Swap_Init( void ){ byte swaptest[2] = {1,0}; // set the byte swapping variables in a portable manner if ( *(short *)swaptest == 1 ) { _BigShort = ShortSwap; _LittleShort = ShortNoSwap; _BigLong = LongSwap; _LittleLong = LongNoSwap; _BigFloat = FloatSwap; _LittleFloat = FloatNoSwap; } else { _BigShort = ShortNoSwap; _LittleShort = ShortSwap; _BigLong = LongNoSwap; _LittleLong = LongSwap; _BigFloat = FloatNoSwap; _LittleFloat = FloatSwap; } } /* =============== Com_ParseInfos =============== */ int Com_ParseInfos( const char *buf, int max, char infos[][MAX_INFO_STRING] ) { const char *token; int count; char key[MAX_TOKEN_CHARS]; count = 0; while ( 1 ) { token = Com_Parse( &buf ); if ( !token[0] ) { break; } if ( strcmp( token, "{" ) ) { Com_Printf( "Missing { in info file\n" ); break; } if ( count == max ) { Com_Printf( "Max infos exceeded\n" ); break; } infos[count][0] = 0; while ( 1 ) { token = Com_Parse( &buf ); if ( !token[0] ) { Com_Printf( "Unexpected end of info file\n" ); break; } if ( !strcmp( token, "}" ) ) { break; } Q_strncpyz( key, token, sizeof( key ) ); token = Com_ParseOnLine( &buf ); if ( !token[0] ) { token = ""; } Info_SetValueForKey( infos[count], key, token ); } count++; } return count; } /* ============================================================================ LIBRARY REPLACEMENT FUNCTIONS ============================================================================ */ int Q_isprint( int c ){ if ( c >= 0x20 && c <= 0x7E ) { return ( 1 ); } return ( 0 ); } int Q_islower( int c ){ if ( c >= 'a' && c <= 'z' ) { return ( 1 ); } return ( 0 ); } int Q_isupper( int c ){ if ( c >= 'A' && c <= 'Z' ) { return ( 1 ); } return ( 0 ); } int Q_isalpha( int c ){ if ( ( c >= 'a' && c <= 'z' ) || ( c >= 'A' && c <= 'Z' ) ) { return ( 1 ); } return ( 0 ); } char* Q_strrchr( const char* string, int c ){ char cc = c; char *s; char *sp = (char *)0; s = (char*)string; while ( *s ) { if ( *s == cc ) { sp = s; } s++; } if ( cc == 0 ) { sp = s; } return sp; } /* ============= Q_strncpyz Safe strncpy that ensures a trailing zero ============= */ void Q_strncpyz( char *dest, const char *src, int destsize ) { if ( !src ) { Com_Error( ERR_FATAL, "Q_strncpyz: NULL src" ); } if ( destsize < 1 ) { Com_Error( ERR_FATAL,"Q_strncpyz: destsize < 1" ); } strncpy( dest, src, destsize - 1 ); dest[destsize - 1] = 0; } int Q_stricmpn( const char *s1, const char *s2, int n ) { int c1, c2; do { c1 = *s1++; c2 = *s2++; if ( !n-- ) { return 0; // strings are equal until end point } if ( c1 != c2 ) { if ( c1 >= 'a' && c1 <= 'z' ) { c1 -= ( 'a' - 'A' ); } if ( c2 >= 'a' && c2 <= 'z' ) { c2 -= ( 'a' - 'A' ); } if ( c1 != c2 ) { return c1 < c2 ? -1 : 1; } } } while ( c1 ); return 0; // strings are equal } int Q_strncmp( const char *s1, const char *s2, int n ) { int c1, c2; do { c1 = *s1++; c2 = *s2++; if ( !n-- ) { return 0; // strings are equal until end point } if ( c1 != c2 ) { return c1 < c2 ? -1 : 1; } } while ( c1 ); return 0; // strings are equal } int Q_stricmp( const char *s1, const char *s2 ) { return Q_stricmpn( s1, s2, 99999 ); } char *Q_strlwr( char *s1 ) { char *s; s = s1; while ( *s ) { *s = tolower( *s ); s++; } return s1; } char *Q_strupr( char *s1 ) { char *s; s = s1; while ( *s ) { *s = toupper( *s ); s++; } return s1; } // never goes past bounds or leaves without a terminating 0 void Q_strcat( char *dest, int size, const char *src ) { int l1; l1 = strlen( dest ); if ( l1 >= size ) { Com_Error( ERR_FATAL, "Q_strcat: already overflowed" ); } Q_strncpyz( dest + l1, src, size - l1 ); } int Q_PrintStrlen( const char *string ) { int len; const char *p; if ( !string ) { return 0; } len = 0; p = string; while ( *p ) { if ( Q_IsColorString( p ) ) { p += 2; continue; } p++; len++; } return len; } char *Q_CleanStr( char *string ) { char* d; char* s; int c; s = string; d = string; while ( ( c = *s ) != 0 ) { if ( Q_IsColorString( s ) ) { s++; } else if ( c >= 0x20 && c <= 0x7E ) { *d++ = c; } s++; } *d = '\0'; return string; } void QDECL Com_sprintf( char *dest, int size, const char *fmt, ... ) { int len; va_list argptr; char bigbuffer[32000]; // big, but small enough to fit in PPC stack va_start( argptr,fmt ); len = vsprintf( bigbuffer,fmt,argptr ); va_end( argptr ); if ( len >= sizeof( bigbuffer ) ) { Com_Error( ERR_FATAL, "Com_sprintf: overflowed bigbuffer" ); } if ( len >= size ) { Com_Printf( "Com_sprintf: overflow of %i in %i\n", len, size ); } Q_strncpyz( dest, bigbuffer, size ); } /* ============ va does a varargs printf into a temp buffer, so I don't need to have varargs versions of all text functions. FIXME: make this buffer size safe someday ============ */ char * QDECL va( char *format, ... ) { va_list argptr; static char string[2][32000]; // in case va is called by nested functions static int index = 0; char *buf; buf = string[index & 1]; index++; va_start( argptr, format ); vsprintf( buf, format,argptr ); va_end( argptr ); return buf; } /* ===================================================================== INFO STRINGS ===================================================================== */ /* =============== Info_ValueForKey Searches the string for the given key and returns the associated value, or an empty string. FIXME: overflow check? =============== */ char *Info_ValueForKey( const char *s, const char *key ) { char pkey[MAX_INFO_KEY]; static char value[2][MAX_INFO_VALUE]; // use two buffers so compares // work without stomping on each other static int valueindex = 0; char *o; if ( !s || !key ) { return ""; } if ( strlen( s ) >= MAX_INFO_STRING ) { Com_Error( ERR_DROP, "Info_ValueForKey: oversize infostring" ); } valueindex ^= 1; if ( *s == '\\' ) { s++; } while ( 1 ) { o = pkey; while ( *s != '\\' ) { if ( !*s ) { return ""; } *o++ = *s++; } *o = 0; s++; o = value[valueindex]; while ( *s != '\\' && *s ) { *o++ = *s++; } *o = 0; if ( !Q_stricmp( key, pkey ) ) { return value[valueindex]; } if ( !*s ) { break; } s++; } return ""; } /* =================== Info_NextPair Used to itterate through all the key/value pairs in an info string =================== */ void Info_NextPair( const char *( *head ), char key[MAX_INFO_KEY], char value[MAX_INFO_VALUE] ) { char *o; const char *s; s = *head; if ( *s == '\\' ) { s++; } key[0] = 0; value[0] = 0; o = key; while ( *s != '\\' ) { if ( !*s ) { *o = 0; *head = s; return; } *o++ = *s++; } *o = 0; s++; o = value; while ( *s != '\\' && *s ) { *o++ = *s++; } *o = 0; *head = s; } /* =================== Info_RemoveKey =================== */ void Info_RemoveKey( char *s, const char *key ) { char *start; char pkey[MAX_INFO_KEY]; char value[MAX_INFO_VALUE]; char *o; if ( strlen( s ) >= MAX_INFO_STRING ) { Com_Error( ERR_DROP, "Info_RemoveKey: oversize infostring" ); } if ( strchr( key, '\\' ) ) { return; } while ( 1 ) { start = s; if ( *s == '\\' ) { s++; } o = pkey; while ( *s != '\\' ) { if ( !*s ) { return; } *o++ = *s++; } *o = 0; s++; o = value; while ( *s != '\\' && *s ) { if ( !*s ) { return; } *o++ = *s++; } *o = 0; if ( !strcmp( key, pkey ) ) { strcpy( start, s ); // remove this part return; } if ( !*s ) { return; } } } /* ================== Info_Validate Some characters are illegal in info strings because they can mess up the server's parsing ================== */ qboolean Info_Validate( const char *s ) { if ( strchr( s, '\"' ) ) { return qfalse; } if ( strchr( s, ';' ) ) { return qfalse; } return qtrue; } /* ================== Info_SetValueForKey Changes or adds a key/value pair ================== */ void Info_SetValueForKey( char *s, const char *key, const char *value ) { char newi[MAX_INFO_STRING]; if ( strlen( s ) >= MAX_INFO_STRING ) { Com_Error( ERR_DROP, "Info_SetValueForKey: oversize infostring" ); } if ( strchr( key, '\\' ) || strchr( value, '\\' ) ) { Com_Printf( "Can't use keys or values with a \\\n" ); return; } if ( strchr( key, ';' ) || strchr( value, ';' ) ) { Com_Printf( "Can't use keys or values with a semicolon\n" ); return; } if ( strchr( key, '\"' ) || strchr( value, '\"' ) ) { Com_Printf( "Can't use keys or values with a \"\n" ); return; } Info_RemoveKey( s, key ); if ( !value || !strlen( value ) ) { return; } Com_sprintf( newi, sizeof( newi ), "\\%s\\%s", key, value ); if ( strlen( newi ) + strlen( s ) > MAX_INFO_STRING ) { Com_Printf( "Info string length exceeded\n" ); return; } strcat( s, newi ); } //==================================================================== /* =============== ParseHex =============== */ int ParseHex( const char *text ) { int value; int c; value = 0; while ( ( c = *text++ ) != 0 ) { if ( c >= '0' && c <= '9' ) { value = value * 16 + c - '0'; continue; } if ( c >= 'a' && c <= 'f' ) { value = value * 16 + 10 + c - 'a'; continue; } if ( c >= 'A' && c <= 'F' ) { value = value * 16 + 10 + c - 'A'; continue; } } return value; }