/* =========================================================================== Doom 3 GPL Source Code Copyright (C) 1999-2011 id Software LLC, a ZeniMax Media company. This file is part of the Doom 3 GPL Source Code ("Doom 3 Source Code"). Doom 3 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 3 of the License, or (at your option) any later version. Doom 3 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 Doom 3 Source Code. If not, see . In addition, the Doom 3 Source Code is also subject to certain additional terms. You should have received a copy of these additional terms immediately following the terms and conditions of the GNU General Public License which accompanied the Doom 3 Source Code. If not, please request a copy in writing from id Software at the address below. If you have questions concerning this license or the applicable additional terms, you may contact in writing id Software LLC, c/o ZeniMax Media Inc., Suite 120, Rockville, Maryland 20850 USA. =========================================================================== */ #include "sys/platform.h" #include "idlib/math/Vector.h" #include "idlib/Heap.h" #include "framework/Common.h" #include "idlib/Str.h" // DG: idDynamicBlockAlloc isn't thread-safe and idStr is used both in the main thread // and the async thread! For some reason this seems to cause lots of problems on // newer Linux distros if dhewm3 is built with GCC9 or newer (see #391). // No idea why it apparently didn't cause that (noticeable) issues before.. #if 0 // !defined( ID_REDIRECT_NEWDELETE ) && !defined( MACOS_X ) #define USE_STRING_DATA_ALLOCATOR #endif #ifdef USE_STRING_DATA_ALLOCATOR static idDynamicBlockAlloc stringDataAllocator; #endif idVec4 g_color_table[16] = { idVec4(0.0f, 0.0f, 0.0f, 1.0f), idVec4(1.0f, 0.0f, 0.0f, 1.0f), // S_COLOR_RED idVec4(0.0f, 1.0f, 0.0f, 1.0f), // S_COLOR_GREEN idVec4(1.0f, 1.0f, 0.0f, 1.0f), // S_COLOR_YELLOW idVec4(0.0f, 0.0f, 1.0f, 1.0f), // S_COLOR_BLUE idVec4(0.0f, 1.0f, 1.0f, 1.0f), // S_COLOR_CYAN idVec4(1.0f, 0.0f, 1.0f, 1.0f), // S_COLOR_MAGENTA idVec4(1.0f, 1.0f, 1.0f, 1.0f), // S_COLOR_WHITE idVec4(0.5f, 0.5f, 0.5f, 1.0f), // S_COLOR_GRAY idVec4(0.0f, 0.0f, 0.0f, 1.0f), // S_COLOR_BLACK idVec4(0.0f, 0.0f, 0.0f, 1.0f), idVec4(0.0f, 0.0f, 0.0f, 1.0f), idVec4(0.0f, 0.0f, 0.0f, 1.0f), idVec4(0.0f, 0.0f, 0.0f, 1.0f), idVec4(0.0f, 0.0f, 0.0f, 1.0f), idVec4(0.0f, 0.0f, 0.0f, 1.0f), }; const char *units[2][4] = { { "B", "KB", "MB", "GB" }, { "B/s", "KB/s", "MB/s", "GB/s" } }; /* ============ idStr::ColorForIndex ============ */ idVec4 & idStr::ColorForIndex( int i ) { return g_color_table[ i & 15 ]; } /* ============ idStr::ReAllocate ============ */ void idStr::ReAllocate( int amount, bool keepold ) { char *newbuffer; int newsize; int mod; //assert( data ); assert( amount > 0 ); mod = amount % STR_ALLOC_GRAN; if ( !mod ) { newsize = amount; } else { newsize = amount + STR_ALLOC_GRAN - mod; } alloced = newsize; #ifdef USE_STRING_DATA_ALLOCATOR newbuffer = stringDataAllocator.Alloc( alloced ); if ( keepold && data ) { data[ len ] = '\0'; strcpy( newbuffer, data ); } if ( data && data != baseBuffer ) { stringDataAllocator.Free( data ); } data = newbuffer; #else if ( data && data != baseBuffer ) { data = (char *)realloc( data, newsize ); } else { newbuffer = (char *)malloc( newsize ); if ( data && keepold ) { memcpy( newbuffer, data, len ); newbuffer[ len ] = '\0'; } else { newbuffer[ 0 ] = '\0'; } data = newbuffer; } #endif } /* ============ idStr::FreeData ============ */ void idStr::FreeData( void ) { if ( data && data != baseBuffer ) { #ifdef USE_STRING_DATA_ALLOCATOR stringDataAllocator.Free( data ); #else free( data ); #endif data = baseBuffer; } } /* ============ idStr::operator= ============ */ void idStr::operator=( const char *text ) { int l; int diff; int i; if ( !text ) { // safe behaviour if NULL EnsureAlloced( 1, false ); data[ 0 ] = '\0'; len = 0; return; } if ( text == data ) { return; // copying same thing } // check if we're aliasing if ( text >= data && text <= data + len ) { diff = text - data; assert( strlen( text ) < (unsigned)len ); for ( i = 0; text[ i ]; i++ ) { data[ i ] = text[ i ]; } data[ i ] = '\0'; len -= diff; return; } l = strlen( text ); EnsureAlloced( l + 1, false ); strcpy( data, text ); len = l; } /* ============ idStr::FindChar returns -1 if not found otherwise the index of the char ============ */ int idStr::FindChar( const char *str, const char c, int start, int end ) { int i; if ( end == -1 ) { end = strlen( str ) - 1; } for ( i = start; i <= end; i++ ) { if ( str[i] == c ) { return i; } } return -1; } /* ============ idStr::FindText returns -1 if not found otherwise the index of the text ============ */ int idStr::FindText( const char *str, const char *text, bool casesensitive, int start, int end ) { int l, i, j; if ( end == -1 ) { end = strlen( str ); } l = end - strlen( text ); for ( i = start; i <= l; i++ ) { if ( casesensitive ) { for ( j = 0; text[j]; j++ ) { if ( str[i+j] != text[j] ) { break; } } } else { for ( j = 0; text[j]; j++ ) { if ( ::toupper( str[i+j] ) != ::toupper( text[j] ) ) { break; } } } if ( !text[j] ) { return i; } } return -1; } /* ============ idStr::Filter Returns true if the string conforms the given filter. Several metacharacter may be used in the filter. * match any string of zero or more characters ? match any single character [abc...] match any of the enclosed characters; a hyphen can be used to specify a range (e.g. a-z, A-Z, 0-9) ============ */ bool idStr::Filter( const char *filter, const char *name, bool casesensitive ) { idStr buf; int i, found, index; while(*filter) { if (*filter == '*') { filter++; buf.Empty(); for (i = 0; *filter; i++) { if ( *filter == '*' || *filter == '?' || (*filter == '[' && *(filter+1) != '[') ) { break; } buf += *filter; if ( *filter == '[' ) { filter++; } filter++; } if ( buf.Length() ) { index = idStr(name).Find( buf.c_str(), casesensitive ); if ( index == -1 ) { return false; } name += index + strlen(buf); } } else if (*filter == '?') { filter++; name++; } else if (*filter == '[') { if ( *(filter+1) == '[' ) { if ( *name != '[' ) { return false; } filter += 2; name++; } else { filter++; found = false; 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 = true; } } else { if ( ::toupper(*name) >= ::toupper(*filter) && ::toupper(*name) <= ::toupper(*(filter+2)) ) { found = true; } } filter += 3; } else { if (casesensitive) { if (*filter == *name) { found = true; } } else { if ( ::toupper(*filter) == ::toupper(*name) ) { found = true; } } filter++; } } if (!found) { return false; } while(*filter) { if ( *filter == ']' && *(filter+1) != ']' ) { break; } filter++; } filter++; name++; } } else { if (casesensitive) { if (*filter != *name) { return false; } } else { if ( ::toupper(*filter) != ::toupper(*name) ) { return false; } } filter++; name++; } } return true; } /* ============= idStr::StripMediaName makes the string lower case, replaces backslashes with forward slashes, and removes extension ============= */ void idStr::StripMediaName( const char *name, idStr &mediaName ) { char c; mediaName.Empty(); for ( c = *name; c; c = *(++name) ) { // truncate at an extension if ( c == '.' ) { break; } // convert backslashes to forward slashes if ( c == '\\' ) { mediaName.Append( '/' ); } else { mediaName.Append( idStr::ToLower( c ) ); } } } /* ============= idStr::CheckExtension ============= */ bool idStr::CheckExtension( const char *name, const char *ext ) { const char *s1 = name + Length( name ) - 1; const char *s2 = ext + Length( ext ) - 1; int c1, c2, d; do { c1 = *s1--; c2 = *s2--; d = c1 - c2; while( d ) { if ( c1 <= 'Z' && c1 >= 'A' ) { d += ('a' - 'A'); if ( !d ) { break; } } if ( c2 <= 'Z' && c2 >= 'A' ) { d -= ('a' - 'A'); if ( !d ) { break; } } return false; } } while( s1 > name && s2 > ext ); return ( s1 >= name ); } /* ============= idStr::FloatArrayToString ============= */ const char *idStr::FloatArrayToString( const float *array, const int length, const int precision ) { static int index = 0; static char str[4][16384]; // in case called by nested functions int i, n; char format[16], *s; // use an array of string so that multiple calls won't collide s = str[ index ]; index = (index + 1) & 3; idStr::snPrintf( format, sizeof( format ), "%%.%df", precision ); n = idStr::snPrintf( s, sizeof( str[0] ), format, array[0] ); if ( precision > 0 ) { while( n > 0 && s[n-1] == '0' ) s[--n] = '\0'; while( n > 0 && s[n-1] == '.' ) s[--n] = '\0'; } idStr::snPrintf( format, sizeof( format ), " %%.%df", precision ); for ( i = 1; i < length; i++ ) { n += idStr::snPrintf( s + n, sizeof( str[0] ) - n, format, array[i] ); if ( precision > 0 ) { while( n > 0 && s[n-1] == '0' ) s[--n] = '\0'; while( n > 0 && s[n-1] == '.' ) s[--n] = '\0'; } } return s; } /* ============ idStr::Last returns -1 if not found otherwise the index of the char ============ */ int idStr::Last( const char c ) const { int i; for( i = Length(); i > 0; i-- ) { if ( data[ i - 1 ] == c ) { return i - 1; } } return -1; } /* ============ idStr::StripLeading ============ */ void idStr::StripLeading( const char c ) { while( data[ 0 ] == c ) { memmove( &data[ 0 ], &data[ 1 ], len ); len--; } } /* ============ idStr::StripLeading ============ */ void idStr::StripLeading( const char *string ) { int l; l = strlen( string ); if ( l > 0 ) { while ( !Cmpn( string, l ) ) { memmove( data, data + l, len - l + 1 ); len -= l; } } } /* ============ idStr::StripLeadingOnce ============ */ bool idStr::StripLeadingOnce( const char *string ) { int l; l = strlen( string ); if ( ( l > 0 ) && !Cmpn( string, l ) ) { memmove( data, data + l, len - l + 1 ); len -= l; return true; } return false; } /* ============ idStr::StripTrailing ============ */ void idStr::StripTrailing( const char c ) { int i; for( i = Length(); i > 0 && data[ i - 1 ] == c; i-- ) { data[ i - 1 ] = '\0'; len--; } } /* ============ idStr::StripLeading ============ */ void idStr::StripTrailing( const char *string ) { int l; l = strlen( string ); if ( l > 0 ) { while ( ( len >= l ) && !Cmpn( string, data + len - l, l ) ) { len -= l; data[len] = '\0'; } } } /* ============ idStr::StripTrailingOnce ============ */ bool idStr::StripTrailingOnce( const char *string ) { int l; l = strlen( string ); if ( ( l > 0 ) && ( len >= l ) && !Cmpn( string, data + len - l, l ) ) { len -= l; data[len] = '\0'; return true; } return false; } /* ============ idStr::Replace ============ */ void idStr::Replace( const char *old, const char *nw ) { int oldLen, newLen, i, j, count; idStr oldString( data ); oldLen = strlen( old ); newLen = strlen( nw ); // Work out how big the new string will be count = 0; for( i = 0; i < oldString.Length(); i++ ) { if( !idStr::Cmpn( &oldString[i], old, oldLen ) ) { count++; i += oldLen - 1; } } if( count ) { EnsureAlloced( len + ( ( newLen - oldLen ) * count ) + 2, false ); // Replace the old data with the new data for( i = 0, j = 0; i < oldString.Length(); i++ ) { if( !idStr::Cmpn( &oldString[i], old, oldLen ) ) { memcpy( data + j, nw, newLen ); i += oldLen - 1; j += newLen; } else { data[j] = oldString[i]; j++; } } data[j] = 0; len = strlen( data ); } } /* ============ idStr::Mid ============ */ const char *idStr::Mid( int start, int len, idStr &result ) const { int i; result.Empty(); i = Length(); if ( i == 0 || len <= 0 || start >= i ) { return NULL; } if ( start + len >= i ) { len = i - start; } result.Append( &data[ start ], len ); return result; } /* ============ idStr::Mid ============ */ idStr idStr::Mid( int start, int len ) const { int i; idStr result; i = Length(); if ( i == 0 || len <= 0 || start >= i ) { return result; } if ( start + len >= i ) { len = i - start; } result.Append( &data[ start ], len ); return result; } /* ============ idStr::StripTrailingWhitespace ============ */ void idStr::StripTrailingWhitespace( void ) { int i; // cast to unsigned char to prevent stripping off high-ASCII characters for( i = Length(); i > 0 && (unsigned char)(data[ i - 1 ]) <= ' '; i-- ) { data[ i - 1 ] = '\0'; len--; } } /* ============ idStr::StripQuotes Removes the quotes from the beginning and end of the string ============ */ idStr& idStr::StripQuotes ( void ) { if ( data[0] != '\"' ) { return *this; } // Remove the trailing quote first if ( data[len-1] == '\"' ) { data[len-1] = '\0'; len--; } // Strip the leading quote now len--; memmove( &data[ 0 ], &data[ 1 ], len ); data[len] = '\0'; return *this; } /* ===================================================================== filename methods ===================================================================== */ /* ============ idStr::FileNameHash ============ */ int idStr::FileNameHash( void ) const { int i; int hash; char letter; hash = 0; i = 0; while( data[i] != '\0' ) { letter = idStr::ToLower( data[i] ); if ( letter == '.' ) { break; // don't include extension } if ( letter =='\\' ) { letter = '/'; } hash += (int)(letter)*(i+119); i++; } hash &= (FILE_HASH_SIZE-1); return hash; } /* ============ idStr::BackSlashesToSlashes ============ */ idStr &idStr::BackSlashesToSlashes( void ) { int i; for ( i = 0; i < len; i++ ) { if ( data[ i ] == '\\' ) { data[ i ] = '/'; } } return *this; } /* ============ idStr::SetFileExtension ============ */ idStr &idStr::SetFileExtension( const char *extension ) { StripFileExtension(); if ( *extension != '.' ) { Append( '.' ); } Append( extension ); return *this; } // DG: helper-function that returns true if the character c is a directory separator // on the current platform static ID_INLINE bool isDirSeparator( int c ) { if ( c == '/' ) { return true; } #ifdef _WIN32 if ( c == '\\' ) { return true; } #elif defined(__AROS__) if ( c == ':' ) { return true; } #endif return false; } // DG end /* ============ idStr::StripFileExtension ============ */ idStr &idStr::StripFileExtension( void ) { int i; for ( i = len-1; i >= 0; i-- ) { // DG: we're at a directory separator, nothing to strip at filename if ( isDirSeparator( data[i] ) ) { break; } // DG end if ( data[i] == '.' ) { data[i] = '\0'; len = i; break; } } return *this; } /* ============ idStr::StripAbsoluteFileExtension ============ */ idStr &idStr::StripAbsoluteFileExtension( void ) { int i; // FIXME DG: seems like this is unused, but it probably doesn't do what's expected // (if you wanna strip .tar.gz this will fail with dots in path, // if you indeed wanna strip the first dot in *path* (even in some directory) this is right) for ( i = 0; i < len; i++ ) { if ( data[i] == '.' ) { data[i] = '\0'; len = i; break; } } return *this; } /* ================== idStr::DefaultFileExtension ================== */ idStr &idStr::DefaultFileExtension( const char *extension ) { int i; // do nothing if the string already has an extension for ( i = len-1; i >= 0; i-- ) { // DG: we're at a directory separator, there was no file extension if ( isDirSeparator( data[i] ) ) { break; } // DG end if ( data[i] == '.' ) { return *this; } } if ( *extension != '.' ) { Append( '.' ); } Append( extension ); return *this; } /* ================== idStr::DefaultPath ================== */ idStr &idStr::DefaultPath( const char *basepath ) { if ( isDirSeparator( ( *this )[ 0 ] ) ) { // absolute path location return *this; } *this = basepath + *this; return *this; } /* ==================== idStr::AppendPath ==================== */ void idStr::AppendPath( const char *text ) { int pos; int i = 0; if ( text && text[i] ) { pos = len; EnsureAlloced( len + strlen( text ) + 2 ); if ( pos ) { if ( !isDirSeparator( data[ pos-1 ] ) ) { data[ pos++ ] = '/'; } } if ( isDirSeparator( text[ i ] ) ) { i++; } for ( ; text[ i ]; i++ ) { if ( text[ i ] == '\\' ) { data[ pos++ ] = '/'; } else { data[ pos++ ] = text[ i ]; } } len = pos; data[ pos ] = '\0'; } } /* ================== idStr::StripFilename ================== */ idStr &idStr::StripFilename( void ) { int pos; pos = Length() - 1; while( ( pos > 0 ) && !isDirSeparator( ( *this )[ pos ] ) ) { pos--; } if ( pos < 0 ) { pos = 0; } CapLength( pos ); return *this; } /* ================== idStr::StripPath ================== */ idStr &idStr::StripPath( void ) { int pos; pos = Length(); while( ( pos > 0 ) && !isDirSeparator( ( *this )[ pos - 1 ] ) ) { pos--; } *this = Right( Length() - pos ); return *this; } /* ==================== idStr::ExtractFilePath ==================== */ void idStr::ExtractFilePath( idStr &dest ) const { int pos; // // back up until a \ or the start // pos = Length(); while( ( pos > 0 ) && !isDirSeparator( ( *this )[ pos - 1 ] ) ) { pos--; } Left( pos, dest ); } /* ==================== idStr::ExtractFileName ==================== */ void idStr::ExtractFileName( idStr &dest ) const { int pos; // // back up until a \ or the start // pos = Length() - 1; while( ( pos > 0 ) && !isDirSeparator( ( *this )[ pos - 1 ] ) ) { pos--; } Right( Length() - pos, dest ); } /* ==================== idStr::ExtractFileBase ==================== */ void idStr::ExtractFileBase( idStr &dest ) const { int pos; int start; // // back up until a \ or the start // pos = Length() - 1; while( ( pos > 0 ) && !isDirSeparator( ( *this )[ pos - 1 ] ) ) { pos--; } start = pos; while( ( pos < Length() ) && ( ( *this )[ pos ] != '.' ) ) { pos++; } Mid( start, pos - start, dest ); } /* ==================== idStr::ExtractFileExtension ==================== */ void idStr::ExtractFileExtension( idStr &dest ) const { int pos; // // back up until a . or the start // pos = Length() - 1; while( ( pos > 0 ) && ( ( *this )[ pos - 1 ] != '.' ) ) { pos--; if( isDirSeparator( ( *this )[ pos ] ) ) { // DG: check for directory separator // no extension in the whole filename dest.Empty(); } // DG end } if ( !pos ) { // no extension dest.Empty(); } else { Right( Length() - pos, dest ); } } /* ===================================================================== char * methods to replace library functions ===================================================================== */ /* ============ idStr::IsNumeric Checks a string to see if it contains only numerical values. ============ */ bool idStr::IsNumeric( const char *s ) { int i; bool dot; if ( *s == '-' ) { s++; } dot = false; for ( i = 0; s[i]; i++ ) { if ( !isdigit( s[i] ) ) { if ( ( s[ i ] == '.' ) && !dot ) { dot = true; continue; } return false; } } return true; } /* ============ idStr::HasLower Checks if a string has any lowercase chars ============ */ bool idStr::HasLower( const char *s ) { if ( !s ) { return false; } while ( *s ) { if ( CharIsLower( *s ) ) { return true; } s++; } return false; } /* ============ idStr::HasUpper Checks if a string has any uppercase chars ============ */ bool idStr::HasUpper( const char *s ) { if ( !s ) { return false; } while ( *s ) { if ( CharIsUpper( *s ) ) { return true; } s++; } return false; } /* ================ idStr::Cmp ================ */ int idStr::Cmp( const char *s1, const char *s2 ) { int c1, c2, d; do { c1 = *s1++; c2 = *s2++; d = c1 - c2; if ( d ) { return ( INTSIGNBITNOTSET( d ) << 1 ) - 1; } } while( c1 ); return 0; // strings are equal } /* ================ idStr::Cmpn ================ */ int idStr::Cmpn( const char *s1, const char *s2, int n ) { int c1, c2, d; assert( n >= 0 ); do { c1 = *s1++; c2 = *s2++; if ( !n-- ) { return 0; // strings are equal until end point } d = c1 - c2; if ( d ) { return ( INTSIGNBITNOTSET( d ) << 1 ) - 1; } } while( c1 ); return 0; // strings are equal } /* ================ idStr::Icmp ================ */ int idStr::Icmp( const char *s1, const char *s2 ) { int c1, c2, d; do { c1 = *s1++; c2 = *s2++; d = c1 - c2; while( d ) { if ( c1 <= 'Z' && c1 >= 'A' ) { d += ('a' - 'A'); if ( !d ) { break; } } if ( c2 <= 'Z' && c2 >= 'A' ) { d -= ('a' - 'A'); if ( !d ) { break; } } return ( INTSIGNBITNOTSET( d ) << 1 ) - 1; } } while( c1 ); return 0; // strings are equal } /* ================ idStr::Icmpn ================ */ int idStr::Icmpn( const char *s1, const char *s2, int n ) { int c1, c2, d; assert( n >= 0 ); do { c1 = *s1++; c2 = *s2++; if ( !n-- ) { return 0; // strings are equal until end point } d = c1 - c2; while( d ) { if ( c1 <= 'Z' && c1 >= 'A' ) { d += ('a' - 'A'); if ( !d ) { break; } } if ( c2 <= 'Z' && c2 >= 'A' ) { d -= ('a' - 'A'); if ( !d ) { break; } } return ( INTSIGNBITNOTSET( d ) << 1 ) - 1; } } while( c1 ); return 0; // strings are equal } /* ================ idStr::Icmp ================ */ int idStr::IcmpNoColor( const char *s1, const char *s2 ) { int c1, c2, d; do { while ( idStr::IsColor( s1 ) ) { s1 += 2; } while ( idStr::IsColor( s2 ) ) { s2 += 2; } c1 = *s1++; c2 = *s2++; d = c1 - c2; while( d ) { if ( c1 <= 'Z' && c1 >= 'A' ) { d += ('a' - 'A'); if ( !d ) { break; } } if ( c2 <= 'Z' && c2 >= 'A' ) { d -= ('a' - 'A'); if ( !d ) { break; } } return ( INTSIGNBITNOTSET( d ) << 1 ) - 1; } } while( c1 ); return 0; // strings are equal } /* ================ idStr::IcmpPath ================ */ int idStr::IcmpPath( const char *s1, const char *s2 ) { int c1, c2, d; #if 0 //#if !defined( _WIN32 ) idLib::common->Printf( "WARNING: IcmpPath used on a case-sensitive filesystem?\n" ); #endif do { c1 = *s1++; c2 = *s2++; d = c1 - c2; while( d ) { if ( c1 <= 'Z' && c1 >= 'A' ) { d += ('a' - 'A'); if ( !d ) { break; } } if ( c1 == '\\' ) { d += ('/' - '\\'); if ( !d ) { break; } } if ( c2 <= 'Z' && c2 >= 'A' ) { d -= ('a' - 'A'); if ( !d ) { break; } } if ( c2 == '\\' ) { d -= ('/' - '\\'); if ( !d ) { break; } } // make sure folders come first while( c1 ) { if ( c1 == '/' || c1 == '\\' ) { break; } c1 = *s1++; } while( c2 ) { if ( c2 == '/' || c2 == '\\' ) { break; } c2 = *s2++; } if ( c1 && !c2 ) { return -1; } else if ( !c1 && c2 ) { return 1; } // same folder depth so use the regular compare return ( INTSIGNBITNOTSET( d ) << 1 ) - 1; } } while( c1 ); return 0; } /* ================ idStr::IcmpnPath ================ */ int idStr::IcmpnPath( const char *s1, const char *s2, int n ) { int c1, c2, d; #if 0 //#if !defined( _WIN32 ) idLib::common->Printf( "WARNING: IcmpPath used on a case-sensitive filesystem?\n" ); #endif assert( n >= 0 ); do { c1 = *s1++; c2 = *s2++; if ( !n-- ) { return 0; // strings are equal until end point } d = c1 - c2; while( d ) { if ( c1 <= 'Z' && c1 >= 'A' ) { d += ('a' - 'A'); if ( !d ) { break; } } if ( c1 == '\\' ) { d += ('/' - '\\'); if ( !d ) { break; } } if ( c2 <= 'Z' && c2 >= 'A' ) { d -= ('a' - 'A'); if ( !d ) { break; } } if ( c2 == '\\' ) { d -= ('/' - '\\'); if ( !d ) { break; } } // make sure folders come first while( c1 ) { if ( c1 == '/' || c1 == '\\' ) { break; } c1 = *s1++; } while( c2 ) { if ( c2 == '/' || c2 == '\\' ) { break; } c2 = *s2++; } if ( c1 && !c2 ) { return -1; } else if ( !c1 && c2 ) { return 1; } // same folder depth so use the regular compare return ( INTSIGNBITNOTSET( d ) << 1 ) - 1; } } while( c1 ); return 0; } /* ============= idStr::Copynz Safe strncpy that ensures a trailing zero ============= */ void idStr::Copynz( char *dest, const char *src, int destsize ) { if ( !src ) { idLib::common->Warning( "idStr::Copynz: NULL src" ); return; } if ( destsize < 1 ) { idLib::common->Warning( "idStr::Copynz: destsize < 1" ); return; } strncpy( dest, src, destsize-1 ); dest[destsize-1] = 0; } /* ================ idStr::Append never goes past bounds or leaves without a terminating 0 ================ */ void idStr::Append( char *dest, int size, const char *src ) { int l1; l1 = strlen( dest ); if ( l1 >= size ) { idLib::common->Error( "idStr::Append: already overflowed" ); } idStr::Copynz( dest + l1, src, size - l1 ); } /* ================ idStr::LengthWithoutColors ================ */ int idStr::LengthWithoutColors( const char *s ) { int len; const char *p; if ( !s ) { return 0; } len = 0; p = s; while( *p ) { if ( idStr::IsColor( p ) ) { p += 2; continue; } p++; len++; } return len; } /* ================ idStr::RemoveColors ================ */ char *idStr::RemoveColors( char *string ) { char *d; char *s; int c; s = string; d = string; while( (c = *s) != 0 ) { if ( idStr::IsColor( s ) ) { s++; } else { *d++ = c; } s++; } *d = '\0'; return string; } /* ================ idStr::snPrintf ================ */ int idStr::snPrintf( char *dest, int size, const char *fmt, ...) { int len; va_list argptr; char buffer[32000]; // big, but small enough to fit in PPC stack va_start( argptr, fmt ); len = vsprintf( buffer, fmt, argptr ); va_end( argptr ); if ( len >= sizeof( buffer ) ) { idLib::common->Error( "idStr::snPrintf: overflowed buffer" ); } if ( len >= size ) { idLib::common->Warning( "idStr::snPrintf: overflow of %i in %i\n", len, size ); len = size; } idStr::Copynz( dest, buffer, size ); return len; } /* ============ idStr::vsnPrintf vsnprintf portability: C99 standard: vsnprintf returns the number of characters (excluding the trailing '\0') which would have been written to the final string if enough space had been available snprintf and vsnprintf do not write more than size bytes (including the trailing '\0') win32: _vsnprintf returns the number of characters written, not including the terminating null character, or a negative value if an output error occurs. If the number of characters to write exceeds count, then count characters are written and -1 is returned and no trailing '\0' is added. idStr::vsnPrintf: always appends a trailing '\0', returns number of characters written (not including terminal \0) or returns -1 on failure or if the buffer would be overflowed. ============ */ int idStr::vsnPrintf( char *dest, int size, const char *fmt, va_list argptr ) { int ret; #ifdef _WIN32 #undef _vsnprintf ret = _vsnprintf( dest, size-1, fmt, argptr ); #define _vsnprintf use_idStr_vsnPrintf #else #undef vsnprintf ret = vsnprintf( dest, size, fmt, argptr ); #define vsnprintf use_idStr_vsnPrintf #endif dest[size-1] = '\0'; if ( ret < 0 || ret >= size ) { return -1; } return ret; } /* ============ sprintf Sets the value of the string using a printf interface. ============ */ int sprintf( idStr &string, const char *fmt, ... ) { int l; va_list argptr; char buffer[32000]; va_start( argptr, fmt ); l = idStr::vsnPrintf( buffer, sizeof(buffer)-1, fmt, argptr ); va_end( argptr ); buffer[sizeof(buffer)-1] = '\0'; string = buffer; return l; } /* ============ vsprintf Sets the value of the string using a vprintf interface. ============ */ int vsprintf( idStr &string, const char *fmt, va_list argptr ) { int l; char buffer[32000]; l = idStr::vsnPrintf( buffer, sizeof(buffer)-1, fmt, argptr ); buffer[sizeof(buffer)-1] = '\0'; string = buffer; return l; } /* ============ va does a varargs printf into a temp buffer NOTE: not thread safe ============ */ char *va( const char *fmt, ... ) { va_list argptr; static int index = 0; static char string[4][16384]; // in case called by nested functions char *buf; buf = string[index]; index = (index + 1) & 3; va_start( argptr, fmt ); vsprintf( buf, fmt, argptr ); va_end( argptr ); return buf; } /* ============ idStr::BestUnit ============ */ int idStr::BestUnit( const char *format, float value, Measure_t measure ) { int unit = 1; while ( unit <= 3 && ( 1 << ( unit * 10 ) < value ) ) { unit++; } unit--; value /= 1 << ( unit * 10 ); sprintf( *this, format, value ); *this += " "; *this += units[ measure ][ unit ]; return unit; } /* ============ idStr::SetUnit ============ */ void idStr::SetUnit( const char *format, float value, int unit, Measure_t measure ) { value /= 1 << ( unit * 10 ); sprintf( *this, format, value ); *this += " "; *this += units[ measure ][ unit ]; } /* ================ idStr::InitMemory ================ */ void idStr::InitMemory( void ) { #ifdef USE_STRING_DATA_ALLOCATOR stringDataAllocator.Init(); #endif } /* ================ idStr::ShutdownMemory ================ */ void idStr::ShutdownMemory( void ) { #ifdef USE_STRING_DATA_ALLOCATOR stringDataAllocator.Shutdown(); #endif } /* ================ idStr::PurgeMemory ================ */ void idStr::PurgeMemory( void ) { #ifdef USE_STRING_DATA_ALLOCATOR stringDataAllocator.FreeEmptyBaseBlocks(); #endif } /* ================ idStr::ShowMemoryUsage_f ================ */ void idStr::ShowMemoryUsage_f( const idCmdArgs &args ) { #ifdef USE_STRING_DATA_ALLOCATOR idLib::common->Printf( "%6d KB string memory (%d KB free in %d blocks, %d empty base blocks)\n", stringDataAllocator.GetBaseBlockMemory() >> 10, stringDataAllocator.GetFreeBlockMemory() >> 10, stringDataAllocator.GetNumFreeBlocks(), stringDataAllocator.GetNumEmptyBaseBlocks() ); #endif } /* ================ idStr::FormatNumber ================ */ struct formatList_t { int gran; int count; }; // elements of list need to decend in size formatList_t formatList[] = { { 1000000000, 0 }, { 1000000, 0 }, { 1000, 0 } }; int numFormatList = sizeof(formatList) / sizeof( formatList[0] ); idStr idStr::FormatNumber( int number ) { idStr string; bool hit; // reset for ( int i = 0; i < numFormatList; i++ ) { formatList_t *li = formatList + i; li->count = 0; } // main loop do { hit = false; for ( int i = 0; i < numFormatList; i++ ) { formatList_t *li = formatList + i; if ( number >= li->gran ) { li->count++; number -= li->gran; hit = true; break; } } } while ( hit ); // print out bool found = false; for ( int i = 0; i < numFormatList; i++ ) { formatList_t *li = formatList + i; if ( li->count ) { if ( !found ) { string += va( "%i,", li->count ); } else { string += va( "%3.3i,", li->count ); } found = true; } else if ( found ) { string += va( "%3.3i,", li->count ); } } if ( found ) { string += va( "%3.3i", number ); } else { string += va( "%i", number ); } // pad to proper size int count = 11 - string.Length(); for ( int i = 0; i < count; i++ ) { string.Insert( " ", 0 ); } return string; }