From 39ed87570bdb2f86969d4be821c94b722dc71179 Mon Sep 17 00:00:00 2001 From: Joe Ludwig Date: Wed, 26 Jun 2013 15:22:04 -0700 Subject: First version of the SOurce SDK 2013 --- mp/src/tier1/strtools.cpp | 2751 +++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 2751 insertions(+) create mode 100644 mp/src/tier1/strtools.cpp (limited to 'mp/src/tier1/strtools.cpp') diff --git a/mp/src/tier1/strtools.cpp b/mp/src/tier1/strtools.cpp new file mode 100644 index 00000000..6e0ba9f5 --- /dev/null +++ b/mp/src/tier1/strtools.cpp @@ -0,0 +1,2751 @@ +//========= Copyright Valve Corporation, All rights reserved. ============// +// +// Purpose: String Tools +// +//===========================================================================// + +// These are redefined in the project settings to prevent anyone from using them. +// We in this module are of a higher caste and thus are privileged in their use. +#ifdef strncpy + #undef strncpy +#endif + +#ifdef _snprintf + #undef _snprintf +#endif + +#if defined( sprintf ) + #undef sprintf +#endif + +#if defined( vsprintf ) + #undef vsprintf +#endif + +#ifdef _vsnprintf +#ifdef _WIN32 + #undef _vsnprintf +#endif +#endif + +#ifdef vsnprintf +#ifndef _WIN32 + #undef vsnprintf +#endif +#endif + +#if defined( strcat ) + #undef strcat +#endif + +#ifdef strncat + #undef strncat +#endif + +// NOTE: I have to include stdio + stdarg first so vsnprintf gets compiled in +#include +#include + +#ifdef POSIX +#include +#include +#include +#include +#define _getcwd getcwd +#elif _WIN32 +#include +#if !defined( _X360 ) +#define WIN32_LEAN_AND_MEAN +#include +#endif +#endif + +#ifdef _WIN32 +#ifndef CP_UTF8 +#define CP_UTF8 65001 +#endif +#endif +#include "tier0/dbg.h" +#include "tier1/strtools.h" +#include +#include +#include +#include "tier0/basetypes.h" +#include "tier1/utldict.h" +#if defined( _X360 ) +#include "xbox/xbox_win32stubs.h" +#endif +#include "tier0/memdbgon.h" + +static int FastToLower( char c ) +{ + int i = (unsigned char) c; + if ( i < 0x80 ) + { + // Brutally fast branchless ASCII tolower(): + i += (((('A'-1) - i) & (i - ('Z'+1))) >> 26) & 0x20; + } + else + { + i += isupper( i ) ? 0x20 : 0; + } + return i; +} + +void _V_memset (const char* file, int line, void *dest, int fill, int count) +{ + Assert( count >= 0 ); + AssertValidWritePtr( dest, count ); + + memset(dest,fill,count); +} + +void _V_memcpy (const char* file, int line, void *dest, const void *src, int count) +{ + Assert( count >= 0 ); + AssertValidReadPtr( src, count ); + AssertValidWritePtr( dest, count ); + + memcpy( dest, src, count ); +} + +void _V_memmove(const char* file, int line, void *dest, const void *src, int count) +{ + Assert( count >= 0 ); + AssertValidReadPtr( src, count ); + AssertValidWritePtr( dest, count ); + + memmove( dest, src, count ); +} + +int _V_memcmp (const char* file, int line, const void *m1, const void *m2, int count) +{ + Assert( count >= 0 ); + AssertValidReadPtr( m1, count ); + AssertValidReadPtr( m2, count ); + + return memcmp( m1, m2, count ); +} + +int _V_strlen(const char* file, int line, const char *str) +{ + AssertValidStringPtr(str); + return strlen( str ); +} + +void _V_strcpy (const char* file, int line, char *dest, const char *src) +{ + AssertValidWritePtr(dest); + AssertValidStringPtr(src); + + strcpy( dest, src ); +} + +int _V_wcslen(const char* file, int line, const wchar_t *pwch) +{ + return wcslen( pwch ); +} + +char *_V_strrchr(const char* file, int line, const char *s, char c) +{ + AssertValidStringPtr( s ); + int len = V_strlen(s); + s += len; + while (len--) + if (*--s == c) return (char *)s; + return 0; +} + +int _V_strcmp (const char* file, int line, const char *s1, const char *s2) +{ + AssertValidStringPtr( s1 ); + AssertValidStringPtr( s2 ); + + return strcmp( s1, s2 ); +} + +int _V_wcscmp (const char* file, int line, const wchar_t *s1, const wchar_t *s2) +{ + AssertValidReadPtr( s1 ); + AssertValidReadPtr( s2 ); + + while ( *s1 == *s2 ) + { + if ( !*s1 ) + return 0; // strings are equal + + s1++; + s2++; + } + + return *s1 > *s2 ? 1 : -1; // strings not equal +} + + +char *_V_strstr(const char* file, int line, const char *s1, const char *search ) +{ + AssertValidStringPtr( s1 ); + AssertValidStringPtr( search ); + +#if defined( _X360 ) + return (char *)strstr( (char *)s1, search ); +#else + return (char *)strstr( s1, search ); +#endif +} + +wchar_t *_V_wcsupr (const char* file, int line, wchar_t *start) +{ + return _wcsupr( start ); +} + + +wchar_t *_V_wcslower (const char* file, int line, wchar_t *start) +{ + return _wcslwr(start); +} + + + +char *V_strupr( char *start ) +{ + unsigned char *str = (unsigned char*)start; + while( *str ) + { + if ( (unsigned char)(*str - 'a') <= ('z' - 'a') ) + *str -= 'a' - 'A'; + else if ( (unsigned char)*str >= 0x80 ) // non-ascii, fall back to CRT + *str = toupper( *str ); + str++; + } + return start; +} + +char *V_strlower( char *start ) +{ + unsigned char *str = (unsigned char*)start; + while( *str ) + { + if ( (unsigned char)(*str - 'A') <= ('Z' - 'A') ) + *str += 'a' - 'A'; + else if ( (unsigned char)*str >= 0x80 ) // non-ascii, fall back to CRT + *str = tolower( *str ); + str++; + } + return start; +} + +char *V_strnlwr(char *s, size_t count) +{ + // Assert( count >= 0 ); tautology since size_t is unsigned + AssertValidStringPtr( s, count ); + + char* pRet = s; + if ( !s || !count ) + return s; + + while ( -- count > 0 ) + { + if ( !*s ) + return pRet; // reached end of string + + *s = tolower( *s ); + ++s; + } + + *s = 0; // null-terminate original string at "count-1" + return pRet; +} + +int V_stricmp( const char *str1, const char *str2 ) +{ + // It is not uncommon to compare a string to itself. See + // VPanelWrapper::GetPanel which does this a lot. Since stricmp + // is expensive and pointer comparison is cheap, this simple test + // can save a lot of cycles, and cache pollution. + if ( str1 == str2 ) + { + return 0; + } + const unsigned char *s1 = (const unsigned char*)str1; + const unsigned char *s2 = (const unsigned char*)str2; + for ( ; *s1; ++s1, ++s2 ) + { + if ( *s1 != *s2 ) + { + // in ascii char set, lowercase = uppercase | 0x20 + unsigned char c1 = *s1 | 0x20; + unsigned char c2 = *s2 | 0x20; + if ( c1 != c2 || (unsigned char)(c1 - 'a') > ('z' - 'a') ) + { + // if non-ascii mismatch, fall back to CRT for locale + if ( (c1 | c2) >= 0x80 ) return stricmp( (const char*)s1, (const char*)s2 ); + // ascii mismatch. only use the | 0x20 value if alphabetic. + if ((unsigned char)(c1 - 'a') > ('z' - 'a')) c1 = *s1; + if ((unsigned char)(c2 - 'a') > ('z' - 'a')) c2 = *s2; + return c1 > c2 ? 1 : -1; + } + } + } + return *s2 ? -1 : 0; +} + +int V_strnicmp( const char *str1, const char *str2, int n ) +{ + const unsigned char *s1 = (const unsigned char*)str1; + const unsigned char *s2 = (const unsigned char*)str2; + for ( ; n > 0 && *s1; --n, ++s1, ++s2 ) + { + if ( *s1 != *s2 ) + { + // in ascii char set, lowercase = uppercase | 0x20 + unsigned char c1 = *s1 | 0x20; + unsigned char c2 = *s2 | 0x20; + if ( c1 != c2 || (unsigned char)(c1 - 'a') > ('z' - 'a') ) + { + // if non-ascii mismatch, fall back to CRT for locale + if ( (c1 | c2) >= 0x80 ) return strnicmp( (const char*)s1, (const char*)s2, n ); + // ascii mismatch. only use the | 0x20 value if alphabetic. + if ((unsigned char)(c1 - 'a') > ('z' - 'a')) c1 = *s1; + if ((unsigned char)(c2 - 'a') > ('z' - 'a')) c2 = *s2; + return c1 > c2 ? 1 : -1; + } + } + } + return (n > 0 && *s2) ? -1 : 0; +} + +int V_strncmp( const char *s1, const char *s2, int count ) +{ + Assert( count >= 0 ); + AssertValidStringPtr( s1, count ); + AssertValidStringPtr( s2, count ); + + while ( count > 0 ) + { + if ( *s1 != *s2 ) + return (unsigned char)*s1 < (unsigned char)*s2 ? -1 : 1; // string different + if ( *s1 == '\0' ) + return 0; // null terminator hit - strings the same + s1++; + s2++; + count--; + } + + return 0; // count characters compared the same +} + + +const char *StringAfterPrefix( const char *str, const char *prefix ) +{ + AssertValidStringPtr( str ); + AssertValidStringPtr( prefix ); + do + { + if ( !*prefix ) + return str; + } + while ( FastToLower( *str++ ) == FastToLower( *prefix++ ) ); + return NULL; +} + +const char *StringAfterPrefixCaseSensitive( const char *str, const char *prefix ) +{ + AssertValidStringPtr( str ); + AssertValidStringPtr( prefix ); + do + { + if ( !*prefix ) + return str; + } + while ( *str++ == *prefix++ ); + return NULL; +} + + +int64 V_atoi64( const char *str ) +{ + AssertValidStringPtr( str ); + + int64 val; + int64 sign; + int64 c; + + Assert( str ); + if (*str == '-') + { + sign = -1; + str++; + } + else + sign = 1; + + val = 0; + +// +// check for hex +// + if (str[0] == '0' && (str[1] == 'x' || str[1] == 'X') ) + { + str += 2; + while (1) + { + c = *str++; + if (c >= '0' && c <= '9') + val = (val<<4) + c - '0'; + else if (c >= 'a' && c <= 'f') + val = (val<<4) + c - 'a' + 10; + else if (c >= 'A' && c <= 'F') + val = (val<<4) + c - 'A' + 10; + else + return val*sign; + } + } + +// +// check for character +// + if (str[0] == '\'') + { + return sign * str[1]; + } + +// +// assume decimal +// + while (1) + { + c = *str++; + if (c <'0' || c > '9') + return val*sign; + val = val*10 + c - '0'; + } + + return 0; +} + +uint64 V_atoui64( const char *str ) +{ + AssertValidStringPtr( str ); + + uint64 val; + uint64 c; + + Assert( str ); + + val = 0; + + // + // check for hex + // + if (str[0] == '0' && (str[1] == 'x' || str[1] == 'X') ) + { + str += 2; + while (1) + { + c = *str++; + if (c >= '0' && c <= '9') + val = (val<<4) + c - '0'; + else if (c >= 'a' && c <= 'f') + val = (val<<4) + c - 'a' + 10; + else if (c >= 'A' && c <= 'F') + val = (val<<4) + c - 'A' + 10; + else + return val; + } + } + + // + // check for character + // + if (str[0] == '\'') + { + return str[1]; + } + + // + // assume decimal + // + while (1) + { + c = *str++; + if (c <'0' || c > '9') + return val; + val = val*10 + c - '0'; + } + + return 0; +} + +int V_atoi( const char *str ) +{ + return (int)V_atoi64( str ); +} + +float V_atof (const char *str) +{ + AssertValidStringPtr( str ); + double val; + int sign; + int c; + int decimal, total; + + if (*str == '-') + { + sign = -1; + str++; + } + else if (*str == '+') + { + sign = 1; + str++; + } + else + { + sign = 1; + } + + val = 0; + + // + // check for hex + // + if (str[0] == '0' && (str[1] == 'x' || str[1] == 'X') ) + { + str += 2; + while (1) + { + c = *str++; + if (c >= '0' && c <= '9') + val = (val*16) + c - '0'; + else if (c >= 'a' && c <= 'f') + val = (val*16) + c - 'a' + 10; + else if (c >= 'A' && c <= 'F') + val = (val*16) + c - 'A' + 10; + else + return val*sign; + } + } + + // + // check for character + // + if (str[0] == '\'') + { + return sign * str[1]; + } + + // + // assume decimal + // + decimal = -1; + total = 0; + int exponent = 0; + while (1) + { + c = *str++; + if (c == '.') + { + if ( decimal != -1 ) + { + break; + } + + decimal = total; + continue; + } + if (c <'0' || c > '9') + { + if ( c == 'e' || c == 'E' ) + { + exponent = V_atoi(str); + } + break; + } + val = val*10 + c - '0'; + total++; + } + + if ( exponent != 0 ) + { + val *= pow( 10.0, exponent ); + } + if (decimal == -1) + return val*sign; + while (total > decimal) + { + val /= 10; + total--; + } + + return val*sign; +} + +//----------------------------------------------------------------------------- +// Normalizes a float string in place. +// +// (removes leading zeros, trailing zeros after the decimal point, and the decimal point itself where possible) +//----------------------------------------------------------------------------- +void V_normalizeFloatString( char* pFloat ) +{ + // If we have a decimal point, remove trailing zeroes: + if( strchr( pFloat,'.' ) ) + { + int len = V_strlen(pFloat); + + while( len > 1 && pFloat[len - 1] == '0' ) + { + pFloat[len - 1] = '\0'; + len--; + } + + if( len > 1 && pFloat[ len - 1 ] == '.' ) + { + pFloat[len - 1] = '\0'; + len--; + } + } + + // TODO: Strip leading zeros + +} + + +//----------------------------------------------------------------------------- +// Finds a string in another string with a case insensitive test +//----------------------------------------------------------------------------- +char const* V_stristr( char const* pStr, char const* pSearch ) +{ + AssertValidStringPtr(pStr); + AssertValidStringPtr(pSearch); + + if (!pStr || !pSearch) + return 0; + + char const* pLetter = pStr; + + // Check the entire string + while (*pLetter != 0) + { + // Skip over non-matches + if (FastToLower((unsigned char)*pLetter) == FastToLower((unsigned char)*pSearch)) + { + // Check for match + char const* pMatch = pLetter + 1; + char const* pTest = pSearch + 1; + while (*pTest != 0) + { + // We've run off the end; don't bother. + if (*pMatch == 0) + return 0; + + if (FastToLower((unsigned char)*pMatch) != FastToLower((unsigned char)*pTest)) + break; + + ++pMatch; + ++pTest; + } + + // Found a match! + if (*pTest == 0) + return pLetter; + } + + ++pLetter; + } + + return 0; +} + +char* V_stristr( char* pStr, char const* pSearch ) +{ + AssertValidStringPtr( pStr ); + AssertValidStringPtr( pSearch ); + + return (char*)V_stristr( (char const*)pStr, pSearch ); +} + +//----------------------------------------------------------------------------- +// Finds a string in another string with a case insensitive test w/ length validation +//----------------------------------------------------------------------------- + +char const* V_strnistr( char const* pStr, char const* pSearch, int n ) +{ + AssertValidStringPtr(pStr); + AssertValidStringPtr(pSearch); + + if (!pStr || !pSearch) + return 0; + + char const* pLetter = pStr; + + // Check the entire string + while (*pLetter != 0) + { + if ( n <= 0 ) + return 0; + + // Skip over non-matches + if (FastToLower(*pLetter) == FastToLower(*pSearch)) + { + int n1 = n - 1; + + // Check for match + char const* pMatch = pLetter + 1; + char const* pTest = pSearch + 1; + while (*pTest != 0) + { + if ( n1 <= 0 ) + return 0; + + // We've run off the end; don't bother. + if (*pMatch == 0) + return 0; + + if (FastToLower(*pMatch) != FastToLower(*pTest)) + break; + + ++pMatch; + ++pTest; + --n1; + } + + // Found a match! + if (*pTest == 0) + return pLetter; + } + + ++pLetter; + --n; + } + + return 0; +} + +const char* V_strnchr( const char* pStr, char c, int n ) +{ + char const* pLetter = pStr; + char const* pLast = pStr + n; + + // Check the entire string + while ( (pLetter < pLast) && (*pLetter != 0) ) + { + if (*pLetter == c) + return pLetter; + ++pLetter; + } + return NULL; +} + +void V_strncpy( char *pDest, char const *pSrc, int maxLen ) +{ + Assert( maxLen >= sizeof( *pDest ) ); + AssertValidWritePtr( pDest, maxLen ); + AssertValidStringPtr( pSrc ); + + strncpy( pDest, pSrc, maxLen ); + if ( maxLen > 0 ) + { + pDest[maxLen-1] = 0; + } +} + +// warning C6053: Call to 'wcsncpy' might not zero-terminate string 'pDest' +// warning C6059: Incorrect length parameter in call to 'strncat'. Pass the number of remaining characters, not the buffer size of 'argument 1' +// warning C6386: Buffer overrun: accessing 'argument 1', the writable size is 'destBufferSize' bytes, but '1000' bytes might be written +// These warnings were investigated through code inspection and writing of tests and they are +// believed to all be spurious. +#ifdef _PREFAST_ +#pragma warning( push ) +#pragma warning( disable : 6053 6059 6386 ) +#endif + +void V_wcsncpy( wchar_t *pDest, wchar_t const *pSrc, int maxLenInBytes ) +{ + Assert( maxLenInBytes >= sizeof( *pDest ) ); + AssertValidWritePtr( pDest, maxLenInBytes ); + AssertValidReadPtr( pSrc ); + + int maxLen = maxLenInBytes / sizeof(wchar_t); + + wcsncpy( pDest, pSrc, maxLen ); + if( maxLen ) + { + pDest[maxLen-1] = 0; + } +} + + + +int V_snwprintf( wchar_t *pDest, int maxLen, const wchar_t *pFormat, ... ) +{ + Assert( maxLen > 0 ); + AssertValidWritePtr( pDest, maxLen ); + AssertValidReadPtr( pFormat ); + + va_list marker; + + va_start( marker, pFormat ); +#ifdef _WIN32 + int len = _vsnwprintf( pDest, maxLen, pFormat, marker ); +#elif POSIX + int len = vswprintf( pDest, maxLen, pFormat, marker ); +#else +#error "define vsnwprintf type." +#endif + va_end( marker ); + + // Len > maxLen represents an overflow on POSIX, < 0 is an overflow on windows + if( len < 0 || len >= maxLen ) + { + len = maxLen; + pDest[maxLen-1] = 0; + } + + return len; +} + + +int V_vsnwprintf( wchar_t *pDest, int maxLen, const wchar_t *pFormat, va_list params ) +{ + Assert( maxLen > 0 ); + +#ifdef _WIN32 + int len = _vsnwprintf( pDest, maxLen, pFormat, params ); +#elif POSIX + int len = vswprintf( pDest, maxLen, pFormat, params ); +#else +#error "define vsnwprintf type." +#endif + + // Len < 0 represents an overflow + // Len == maxLen represents exactly fitting with no NULL termination + // Len >= maxLen represents overflow on POSIX + if ( len < 0 || len >= maxLen ) + { + len = maxLen; + pDest[maxLen-1] = 0; + } + + return len; +} + + +int V_snprintf( char *pDest, int maxLen, char const *pFormat, ... ) +{ + Assert( maxLen > 0 ); + AssertValidWritePtr( pDest, maxLen ); + AssertValidStringPtr( pFormat ); + + va_list marker; + + va_start( marker, pFormat ); +#ifdef _WIN32 + int len = _vsnprintf( pDest, maxLen, pFormat, marker ); +#elif POSIX + int len = vsnprintf( pDest, maxLen, pFormat, marker ); +#else + #error "define vsnprintf type." +#endif + va_end( marker ); + + // Len > maxLen represents an overflow on POSIX, < 0 is an overflow on windows + if( len < 0 || len >= maxLen ) + { + len = maxLen; + pDest[maxLen-1] = 0; + } + + return len; +} + + +int V_vsnprintf( char *pDest, int maxLen, char const *pFormat, va_list params ) +{ + Assert( maxLen > 0 ); + AssertValidWritePtr( pDest, maxLen ); + AssertValidStringPtr( pFormat ); + + int len = _vsnprintf( pDest, maxLen, pFormat, params ); + + // Len > maxLen represents an overflow on POSIX, < 0 is an overflow on windows + if( len < 0 || len >= maxLen ) + { + len = maxLen; + pDest[maxLen-1] = 0; + } + + return len; +} + + +int V_vsnprintfRet( char *pDest, int maxLen, const char *pFormat, va_list params, bool *pbTruncated ) +{ + Assert( maxLen > 0 ); + AssertValidWritePtr( pDest, maxLen ); + AssertValidStringPtr( pFormat ); + + int len = _vsnprintf( pDest, maxLen, pFormat, params ); + + if ( pbTruncated ) + { + *pbTruncated = ( len < 0 || len >= maxLen ); + } + + if ( len < 0 || len >= maxLen ) + { + len = maxLen; + pDest[maxLen-1] = 0; + } + + return len; +} + + + +//----------------------------------------------------------------------------- +// Purpose: If COPY_ALL_CHARACTERS == max_chars_to_copy then we try to add the whole pSrc to the end of pDest, otherwise +// we copy only as many characters as are specified in max_chars_to_copy (or the # of characters in pSrc if thats's less). +// Input : *pDest - destination buffer +// *pSrc - string to append +// destBufferSize - sizeof the buffer pointed to by pDest +// max_chars_to_copy - COPY_ALL_CHARACTERS in pSrc or max # to copy +// Output : char * the copied buffer +//----------------------------------------------------------------------------- +char *V_strncat(char *pDest, const char *pSrc, size_t destBufferSize, int max_chars_to_copy ) +{ + size_t charstocopy = (size_t)0; + + Assert( (ptrdiff_t)destBufferSize >= 0 ); + AssertValidStringPtr( pDest); + AssertValidStringPtr( pSrc ); + + size_t len = strlen(pDest); + size_t srclen = strlen( pSrc ); + if ( max_chars_to_copy <= COPY_ALL_CHARACTERS ) + { + charstocopy = srclen; + } + else + { + charstocopy = (size_t)min( max_chars_to_copy, (int)srclen ); + } + + if ( len + charstocopy >= destBufferSize ) + { + charstocopy = destBufferSize - len - 1; + } + + if ( (int)charstocopy <= 0 ) + { + return pDest; + } + + ANALYZE_SUPPRESS( 6059 ); // warning C6059: : Incorrect length parameter in call to 'strncat'. Pass the number of remaining characters, not the buffer size of 'argument 1' + char *pOut = strncat( pDest, pSrc, charstocopy ); + return pOut; +} + +wchar_t *V_wcsncat( INOUT_Z_CAP(cchDest) wchar_t *pDest, const wchar_t *pSrc, size_t cchDest, int max_chars_to_copy ) +{ + size_t charstocopy = (size_t)0; + + Assert( (ptrdiff_t)cchDest >= 0 ); + + size_t len = wcslen(pDest); + size_t srclen = wcslen( pSrc ); + if ( max_chars_to_copy <= COPY_ALL_CHARACTERS ) + { + charstocopy = srclen; + } + else + { + charstocopy = (size_t)min( max_chars_to_copy, (int)srclen ); + } + + if ( len + charstocopy >= cchDest ) + { + charstocopy = cchDest - len - 1; + } + + if ( (int)charstocopy <= 0 ) + { + return pDest; + } + + ANALYZE_SUPPRESS( 6059 ); // warning C6059: : Incorrect length parameter in call to 'strncat'. Pass the number of remaining characters, not the buffer size of 'argument 1' + wchar_t *pOut = wcsncat( pDest, pSrc, charstocopy ); + return pOut; +} + + + +//----------------------------------------------------------------------------- +// Purpose: Converts value into x.xx MB/ x.xx KB, x.xx bytes format, including commas +// Input : value - +// 2 - +// false - +// Output : char +//----------------------------------------------------------------------------- +#define NUM_PRETIFYMEM_BUFFERS 8 +char *V_pretifymem( float value, int digitsafterdecimal /*= 2*/, bool usebinaryonek /*= false*/ ) +{ + static char output[ NUM_PRETIFYMEM_BUFFERS ][ 32 ]; + static int current; + + float onekb = usebinaryonek ? 1024.0f : 1000.0f; + float onemb = onekb * onekb; + + char *out = output[ current ]; + current = ( current + 1 ) & ( NUM_PRETIFYMEM_BUFFERS -1 ); + + char suffix[ 8 ]; + + // First figure out which bin to use + if ( value > onemb ) + { + value /= onemb; + V_snprintf( suffix, sizeof( suffix ), " MB" ); + } + else if ( value > onekb ) + { + value /= onekb; + V_snprintf( suffix, sizeof( suffix ), " KB" ); + } + else + { + V_snprintf( suffix, sizeof( suffix ), " bytes" ); + } + + char val[ 32 ]; + + // Clamp to >= 0 + digitsafterdecimal = max( digitsafterdecimal, 0 ); + + // If it's basically integral, don't do any decimals + if ( FloatMakePositive( value - (int)value ) < 0.00001 ) + { + V_snprintf( val, sizeof( val ), "%i%s", (int)value, suffix ); + } + else + { + char fmt[ 32 ]; + + // Otherwise, create a format string for the decimals + V_snprintf( fmt, sizeof( fmt ), "%%.%if%s", digitsafterdecimal, suffix ); + V_snprintf( val, sizeof( val ), fmt, value ); + } + + // Copy from in to out + char *i = val; + char *o = out; + + // Search for decimal or if it was integral, find the space after the raw number + char *dot = strstr( i, "." ); + if ( !dot ) + { + dot = strstr( i, " " ); + } + + // Compute position of dot + int pos = dot - i; + // Don't put a comma if it's <= 3 long + pos -= 3; + + while ( *i ) + { + // If pos is still valid then insert a comma every third digit, except if we would be + // putting one in the first spot + if ( pos >= 0 && !( pos % 3 ) ) + { + // Never in first spot + if ( o != out ) + { + *o++ = ','; + } + } + + // Count down comma position + pos--; + + // Copy rest of data as normal + *o++ = *i++; + } + + // Terminate + *o = 0; + + return out; +} + +//----------------------------------------------------------------------------- +// Purpose: Returns a string representation of an integer with commas +// separating the 1000s (ie, 37,426,421) +// Input : value - Value to convert +// Output : Pointer to a static buffer containing the output +//----------------------------------------------------------------------------- +#define NUM_PRETIFYNUM_BUFFERS 8 // Must be a power of two +char *V_pretifynum( int64 inputValue ) +{ + static char output[ NUM_PRETIFYMEM_BUFFERS ][ 32 ]; + static int current; + + // Point to the output buffer. + char * const out = output[ current ]; + // Track the output buffer end for easy calculation of bytes-remaining. + const char* const outEnd = out + sizeof( output[ current ] ); + + // Point to the current output location in the output buffer. + char *pchRender = out; + // Move to the next output pointer. + current = ( current + 1 ) & ( NUM_PRETIFYMEM_BUFFERS -1 ); + + *out = 0; + + // In order to handle the most-negative int64 we need to negate it + // into a uint64. + uint64 value; + // Render the leading minus sign, if necessary + if ( inputValue < 0 ) + { + V_snprintf( pchRender, 32, "-" ); + value = (uint64)-inputValue; + // Advance our output pointer. + pchRender += V_strlen( pchRender ); + } + else + { + value = (uint64)inputValue; + } + + // Now let's find out how big our number is. The largest number we can fit + // into 63 bits is about 9.2e18. So, there could potentially be six + // three-digit groups. + + // We need the initial value of 'divisor' to be big enough to divide our + // number down to 1-999 range. + uint64 divisor = 1; + // Loop more than six times to avoid integer overflow. + for ( int i = 0; i < 6; ++i ) + { + // If our divisor is already big enough then stop. + if ( value < divisor * 1000 ) + break; + + divisor *= 1000; + } + + // Print the leading batch of one to three digits. + int toPrint = value / divisor; + V_snprintf( pchRender, outEnd - pchRender, "%d", toPrint ); + + for (;;) + { + // Advance our output pointer. + pchRender += V_strlen( pchRender ); + // Adjust our value to be printed and our divisor. + value -= toPrint * divisor; + divisor /= 1000; + if ( !divisor ) + break; + + // The remaining blocks of digits always include a comma and three digits. + toPrint = value / divisor; + V_snprintf( pchRender, outEnd - pchRender, ",%03d", toPrint ); + } + + return out; +} + + +//----------------------------------------------------------------------------- +// Purpose: returns true if a wide character is a "mean" space; that is, +// if it is technically a space or punctuation, but causes disruptive +// behavior when used in names, web pages, chat windows, etc. +// +// characters in this set are removed from the beginning and/or end of strings +// by Q_AggressiveStripPrecedingAndTrailingWhitespaceW() +//----------------------------------------------------------------------------- +bool Q_IsMeanSpaceW( wchar_t wch ) +{ + bool bIsMean = false; + + switch ( wch ) + { + case L'\x0082': // BREAK PERMITTED HERE + case L'\x0083': // NO BREAK PERMITTED HERE + case L'\x00A0': // NO-BREAK SPACE + case L'\x034F': // COMBINING GRAPHEME JOINER + case L'\x2000': // EN QUAD + case L'\x2001': // EM QUAD + case L'\x2002': // EN SPACE + case L'\x2003': // EM SPACE + case L'\x2004': // THICK SPACE + case L'\x2005': // MID SPACE + case L'\x2006': // SIX SPACE + case L'\x2007': // figure space + case L'\x2008': // PUNCTUATION SPACE + case L'\x2009': // THIN SPACE + case L'\x200A': // HAIR SPACE + case L'\x200B': // ZERO-WIDTH SPACE + case L'\x200C': // ZERO-WIDTH NON-JOINER + case L'\x200D': // ZERO WIDTH JOINER + case L'\x2028': // LINE SEPARATOR + case L'\x2029': // PARAGRAPH SEPARATOR + case L'\x202F': // NARROW NO-BREAK SPACE + case L'\x2060': // word joiner + case L'\xFEFF': // ZERO-WIDTH NO BREAK SPACE + case L'\xFFFC': // OBJECT REPLACEMENT CHARACTER + bIsMean = true; + break; + } + + return bIsMean; +} + + +//----------------------------------------------------------------------------- +// Purpose: strips trailing whitespace; returns pointer inside string just past +// any leading whitespace. +// +// bAggresive = true causes this function to also check for "mean" spaces, +// which we don't want in persona names or chat strings as they're disruptive +// to the user experience. +//----------------------------------------------------------------------------- +static wchar_t *StripWhitespaceWorker( int cchLength, wchar_t *pwch, bool *pbStrippedWhitespace, bool bAggressive ) +{ + // walk backwards from the end of the string, killing any whitespace + *pbStrippedWhitespace = false; + + wchar_t *pwchEnd = pwch + cchLength; + while ( --pwchEnd >= pwch ) + { + if ( !iswspace( *pwchEnd ) && ( !bAggressive || !Q_IsMeanSpaceW( *pwchEnd ) ) ) + break; + + *pwchEnd = 0; + *pbStrippedWhitespace = true; + } + + // walk forward in the string + while ( pwch < pwchEnd ) + { + if ( !iswspace( *pwch ) ) + break; + + *pbStrippedWhitespace = true; + pwch++; + } + + return pwch; +} + + +//----------------------------------------------------------------------------- +// Purpose: strips leading and trailing whitespace +//----------------------------------------------------------------------------- +bool Q_StripPrecedingAndTrailingWhitespaceW( wchar_t *pwch ) +{ + // duplicate on stack + int cch = Q_wcslen( pwch ); + int cubDest = ( cch + 1 ) * sizeof( wchar_t ); + wchar_t *pwchT = (wchar_t *)stackalloc( cubDest ); + Q_wcsncpy( pwchT, pwch, cubDest ); + + bool bStrippedWhitespace = false; + pwchT = StripWhitespaceWorker( cch, pwch, &bStrippedWhitespace, false /* not aggressive */ ); + + // copy back, if necessary + if ( bStrippedWhitespace ) + { + Q_wcsncpy( pwch, pwchT, cubDest ); + } + + return bStrippedWhitespace; +} + + + +//----------------------------------------------------------------------------- +// Purpose: strips leading and trailing whitespace, +// and also strips punctuation and formatting characters with "clear" +// representations. +//----------------------------------------------------------------------------- +bool Q_AggressiveStripPrecedingAndTrailingWhitespaceW( wchar_t *pwch ) +{ + // duplicate on stack + int cch = Q_wcslen( pwch ); + int cubDest = ( cch + 1 ) * sizeof( wchar_t ); + wchar_t *pwchT = (wchar_t *)stackalloc( cubDest ); + Q_wcsncpy( pwchT, pwch, cubDest ); + + bool bStrippedWhitespace = false; + pwchT = StripWhitespaceWorker( cch, pwch, &bStrippedWhitespace, true /* is aggressive */ ); + + // copy back, if necessary + if ( bStrippedWhitespace ) + { + Q_wcsncpy( pwch, pwchT, cubDest ); + } + + return bStrippedWhitespace; +} + + +//----------------------------------------------------------------------------- +// Purpose: strips leading and trailing whitespace +//----------------------------------------------------------------------------- +bool Q_StripPrecedingAndTrailingWhitespace( char *pch ) +{ + // convert to unicode + int cch = Q_strlen( pch ); + int cubDest = (cch + 1 ) * sizeof( wchar_t ); + wchar_t *pwch = (wchar_t *)stackalloc( cubDest ); + int cwch = Q_UTF8ToUnicode( pch, pwch, cubDest ); + + bool bStrippedWhitespace = false; + pwch = StripWhitespaceWorker( cwch-1, pwch, &bStrippedWhitespace, false /* not aggressive */ ); + + // copy back, if necessary + if ( bStrippedWhitespace ) + { + Q_UnicodeToUTF8( pwch, pch, cch ); + } + + return bStrippedWhitespace; +} + +//----------------------------------------------------------------------------- +// Purpose: strips leading and trailing whitespace +//----------------------------------------------------------------------------- +bool Q_AggressiveStripPrecedingAndTrailingWhitespace( char *pch ) +{ + // convert to unicode + int cch = Q_strlen( pch ); + int cubDest = (cch + 1 ) * sizeof( wchar_t ); + wchar_t *pwch = (wchar_t *)stackalloc( cubDest ); + int cwch = Q_UTF8ToUnicode( pch, pwch, cubDest ); + + bool bStrippedWhitespace = false; + pwch = StripWhitespaceWorker( cwch-1, pwch, &bStrippedWhitespace, true /* is aggressive */ ); + + // copy back, if necessary + if ( bStrippedWhitespace ) + { + Q_UnicodeToUTF8( pwch, pch, cch ); + } + + return bStrippedWhitespace; +} + + +//----------------------------------------------------------------------------- +// Purpose: Converts a UTF8 string into a unicode string +//----------------------------------------------------------------------------- +int V_UTF8ToUnicode( const char *pUTF8, wchar_t *pwchDest, int cubDestSizeInBytes ) +{ + // pwchDest can be null to allow for getting the length of the string + if ( cubDestSizeInBytes > 0 ) + { + AssertValidWritePtr(pwchDest); + pwchDest[0] = 0; + } + + if ( !pUTF8 ) + return 0; + + AssertValidStringPtr(pUTF8); + +#ifdef _WIN32 + int cchResult = MultiByteToWideChar( CP_UTF8, 0, pUTF8, -1, pwchDest, cubDestSizeInBytes / sizeof(wchar_t) ); +#elif POSIX + int cchResult = mbstowcs( pwchDest, pUTF8, cubDestSizeInBytes / sizeof(wchar_t) ) + 1; +#endif + + if ( cubDestSizeInBytes > 0 ) + { + pwchDest[(cubDestSizeInBytes / sizeof(wchar_t)) - 1] = 0; + } + + return cchResult; +} + +//----------------------------------------------------------------------------- +// Purpose: Converts a unicode string into a UTF8 (standard) string +//----------------------------------------------------------------------------- +int V_UnicodeToUTF8( const wchar_t *pUnicode, char *pUTF8, int cubDestSizeInBytes ) +{ + //AssertValidStringPtr(pUTF8, cubDestSizeInBytes); // no, we are sometimes pasing in NULL to fetch the length of the buffer needed. + AssertValidReadPtr(pUnicode); + + if ( cubDestSizeInBytes > 0 ) + { + pUTF8[0] = 0; + } + +#ifdef _WIN32 + int cchResult = WideCharToMultiByte( CP_UTF8, 0, pUnicode, -1, pUTF8, cubDestSizeInBytes, NULL, NULL ); +#elif POSIX + int cchResult = 0; + if ( pUnicode && pUTF8 ) + cchResult = wcstombs( pUTF8, pUnicode, cubDestSizeInBytes ) + 1; +#endif + + if ( cubDestSizeInBytes > 0 ) + { + pUTF8[cubDestSizeInBytes - 1] = 0; + } + + return cchResult; +} + + +//----------------------------------------------------------------------------- +// Purpose: Converts a ucs2 string to a unicode (wchar_t) one, no-op on win32 +//----------------------------------------------------------------------------- +int V_UCS2ToUnicode( const ucs2 *pUCS2, wchar_t *pUnicode, int cubDestSizeInBytes ) +{ + Assert( cubDestSizeInBytes >= sizeof( *pUnicode ) ); + AssertValidWritePtr(pUnicode); + AssertValidReadPtr(pUCS2); + + pUnicode[0] = 0; +#ifdef _WIN32 + int cchResult = V_wcslen( pUCS2 ); + Q_memcpy( pUnicode, pUCS2, cubDestSizeInBytes ); +#else + iconv_t conv_t = iconv_open( "UCS-4LE", "UCS-2LE" ); + int cchResult = -1; + size_t nLenUnicde = cubDestSizeInBytes; + size_t nMaxUTF8 = cubDestSizeInBytes; + char *pIn = (char *)pUCS2; + char *pOut = (char *)pUnicode; + if ( conv_t > 0 ) + { + cchResult = 0; + cchResult = iconv( conv_t, &pIn, &nLenUnicde, &pOut, &nMaxUTF8 ); + iconv_close( conv_t ); + if ( (int)cchResult < 0 ) + cchResult = 0; + else + cchResult = nMaxUTF8; + } +#endif + pUnicode[(cubDestSizeInBytes / sizeof(wchar_t)) - 1] = 0; + return cchResult; + +} + +#ifdef _PREFAST_ +#pragma warning( pop ) // Restore the /analyze warnings +#endif + + +//----------------------------------------------------------------------------- +// Purpose: Converts a wchar_t string into a UCS2 string -noop on windows +//----------------------------------------------------------------------------- +int V_UnicodeToUCS2( const wchar_t *pUnicode, int cubSrcInBytes, char *pUCS2, int cubDestSizeInBytes ) +{ +#ifdef _WIN32 + // Figure out which buffer is smaller and convert from bytes to character + // counts. + int cchResult = min( (size_t)cubSrcInBytes/sizeof(wchar_t), cubDestSizeInBytes/sizeof(wchar_t) ); + wchar_t *pDest = (wchar_t*)pUCS2; + wcsncpy( pDest, pUnicode, cchResult ); + // Make sure we NULL-terminate. + pDest[ cchResult - 1 ] = 0; +#elif defined (POSIX) + iconv_t conv_t = iconv_open( "UCS-2LE", "UTF-32LE" ); + size_t cchResult = -1; + size_t nLenUnicde = cubSrcInBytes; + size_t nMaxUCS2 = cubDestSizeInBytes; + char *pIn = (char*)pUnicode; + char *pOut = pUCS2; + if ( conv_t > 0 ) + { + cchResult = 0; + cchResult = iconv( conv_t, &pIn, &nLenUnicde, &pOut, &nMaxUCS2 ); + iconv_close( conv_t ); + if ( (int)cchResult < 0 ) + cchResult = 0; + else + cchResult = cubSrcInBytes / sizeof( wchar_t ); + } +#endif + return cchResult; +} + + +//----------------------------------------------------------------------------- +// Purpose: Converts a ucs-2 (windows wchar_t) string into a UTF8 (standard) string +//----------------------------------------------------------------------------- +int V_UCS2ToUTF8( const ucs2 *pUCS2, char *pUTF8, int cubDestSizeInBytes ) +{ + AssertValidStringPtr(pUTF8, cubDestSizeInBytes); + AssertValidReadPtr(pUCS2); + + pUTF8[0] = 0; +#ifdef _WIN32 + // under win32 wchar_t == ucs2, sigh + int cchResult = WideCharToMultiByte( CP_UTF8, 0, pUCS2, -1, pUTF8, cubDestSizeInBytes, NULL, NULL ); +#elif defined(POSIX) + iconv_t conv_t = iconv_open( "UTF-8", "UCS-2LE" ); + size_t cchResult = -1; + size_t nLenUnicde = cubDestSizeInBytes; + size_t nMaxUTF8 = cubDestSizeInBytes; + char *pIn = (char *)pUCS2; + char *pOut = (char *)pUTF8; + if ( conv_t > 0 ) + { + cchResult = 0; + cchResult = iconv( conv_t, &pIn, &nLenUnicde, &pOut, &nMaxUTF8 ); + iconv_close( conv_t ); + if ( (int)cchResult < 0 ) + cchResult = 0; + else + cchResult = nMaxUTF8; + } +#endif + pUTF8[cubDestSizeInBytes - 1] = 0; + return cchResult; +} + + +//----------------------------------------------------------------------------- +// Purpose: Converts a UTF8 to ucs-2 (windows wchar_t) +//----------------------------------------------------------------------------- +int V_UTF8ToUCS2( const char *pUTF8, int cubSrcInBytes, ucs2 *pUCS2, int cubDestSizeInBytes ) +{ + Assert( cubDestSizeInBytes >= sizeof(pUCS2[0]) ); + AssertValidStringPtr(pUTF8, cubDestSizeInBytes); + AssertValidReadPtr(pUCS2); + + pUCS2[0] = 0; +#ifdef _WIN32 + // under win32 wchar_t == ucs2, sigh + int cchResult = MultiByteToWideChar( CP_UTF8, 0, pUTF8, -1, pUCS2, cubDestSizeInBytes / sizeof(wchar_t) ); +#elif defined( _PS3 ) // bugbug JLB + int cchResult = 0; + Assert( 0 ); +#elif defined(POSIX) + iconv_t conv_t = iconv_open( "UCS-2LE", "UTF-8" ); + size_t cchResult = -1; + size_t nLenUnicde = cubSrcInBytes; + size_t nMaxUTF8 = cubDestSizeInBytes; + char *pIn = (char *)pUTF8; + char *pOut = (char *)pUCS2; + if ( conv_t > 0 ) + { + cchResult = 0; + cchResult = iconv( conv_t, &pIn, &nLenUnicde, &pOut, &nMaxUTF8 ); + iconv_close( conv_t ); + if ( (int)cchResult < 0 ) + cchResult = 0; + else + cchResult = cubSrcInBytes; + + } +#endif + pUCS2[ (cubDestSizeInBytes/sizeof(ucs2)) - 1] = 0; + return cchResult; +} + + + +//----------------------------------------------------------------------------- +// Purpose: Returns the 4 bit nibble for a hex character +// Input : c - +// Output : unsigned char +//----------------------------------------------------------------------------- +unsigned char V_nibble( char c ) +{ + if ( ( c >= '0' ) && + ( c <= '9' ) ) + { + return (unsigned char)(c - '0'); + } + + if ( ( c >= 'A' ) && + ( c <= 'F' ) ) + { + return (unsigned char)(c - 'A' + 0x0a); + } + + if ( ( c >= 'a' ) && + ( c <= 'f' ) ) + { + return (unsigned char)(c - 'a' + 0x0a); + } + + return '0'; +} + +//----------------------------------------------------------------------------- +// Purpose: +// Input : *in - +// numchars - +// *out - +// maxoutputbytes - +//----------------------------------------------------------------------------- +void V_hextobinary( char const *in, int numchars, byte *out, int maxoutputbytes ) +{ + int len = V_strlen( in ); + numchars = min( len, numchars ); + // Make sure it's even + numchars = ( numchars ) & ~0x1; + + // Must be an even # of input characters (two chars per output byte) + Assert( numchars >= 2 ); + + memset( out, 0x00, maxoutputbytes ); + + byte *p; + int i; + + p = out; + for ( i = 0; + ( i < numchars ) && ( ( p - out ) < maxoutputbytes ); + i+=2, p++ ) + { + *p = ( V_nibble( in[i] ) << 4 ) | V_nibble( in[i+1] ); + } +} + +//----------------------------------------------------------------------------- +// Purpose: +// Input : *in - +// inputbytes - +// *out - +// outsize - +//----------------------------------------------------------------------------- +void V_binarytohex( const byte *in, int inputbytes, char *out, int outsize ) +{ + Assert( outsize >= 1 ); + char doublet[10]; + int i; + + out[0]=0; + + for ( i = 0; i < inputbytes; i++ ) + { + unsigned char c = in[i]; + V_snprintf( doublet, sizeof( doublet ), "%02x", c ); + V_strncat( out, doublet, outsize, COPY_ALL_CHARACTERS ); + } +} + +// Even though \ on Posix (Linux&Mac) isn't techincally a path separator we are +// now counting it as one even Posix since so many times our filepaths aren't actual +// paths but rather text strings passed in from data files, treating \ as a pathseparator +// covers the full range of cases +bool PATHSEPARATOR( char c ) +{ + return c == '\\' || c == '/'; +} + + +//----------------------------------------------------------------------------- +// Purpose: Extracts the base name of a file (no path, no extension, assumes '/' or '\' as path separator) +// Input : *in - +// *out - +// maxlen - +//----------------------------------------------------------------------------- +void V_FileBase( const char *in, char *out, int maxlen ) +{ + Assert( maxlen >= 1 ); + Assert( in ); + Assert( out ); + + if ( !in || !in[ 0 ] ) + { + *out = 0; + return; + } + + int len, start, end; + + len = V_strlen( in ); + + // scan backward for '.' + end = len - 1; + while ( end&& in[end] != '.' && !PATHSEPARATOR( in[end] ) ) + { + end--; + } + + if ( in[end] != '.' ) // no '.', copy to end + { + end = len-1; + } + else + { + end--; // Found ',', copy to left of '.' + } + + // Scan backward for '/' + start = len-1; + while ( start >= 0 && !PATHSEPARATOR( in[start] ) ) + { + start--; + } + + if ( start < 0 || !PATHSEPARATOR( in[start] ) ) + { + start = 0; + } + else + { + start++; + } + + // Length of new sting + len = end - start + 1; + + int maxcopy = min( len + 1, maxlen ); + + // Copy partial string + V_strncpy( out, &in[start], maxcopy ); +} + +//----------------------------------------------------------------------------- +// Purpose: +// Input : *ppath - +//----------------------------------------------------------------------------- +void V_StripTrailingSlash( char *ppath ) +{ + Assert( ppath ); + + int len = V_strlen( ppath ); + if ( len > 0 ) + { + if ( PATHSEPARATOR( ppath[ len - 1 ] ) ) + { + ppath[ len - 1 ] = 0; + } + } +} + +//----------------------------------------------------------------------------- +// Purpose: +// Input : *in - +// *out - +// outSize - +//----------------------------------------------------------------------------- +void V_StripExtension( const char *in, char *out, int outSize ) +{ + // Find the last dot. If it's followed by a dot or a slash, then it's part of a + // directory specifier like ../../somedir/./blah. + + // scan backward for '.' + int end = V_strlen( in ) - 1; + while ( end > 0 && in[end] != '.' && !PATHSEPARATOR( in[end] ) ) + { + --end; + } + + if (end > 0 && !PATHSEPARATOR( in[end] ) && end < outSize) + { + int nChars = min( end, outSize-1 ); + if ( out != in ) + { + memcpy( out, in, nChars ); + } + out[nChars] = 0; + } + else + { + // nothing found + if ( out != in ) + { + V_strncpy( out, in, outSize ); + } + } +} + +//----------------------------------------------------------------------------- +// Purpose: +// Input : *path - +// *extension - +// pathStringLength - +//----------------------------------------------------------------------------- +void V_DefaultExtension( char *path, const char *extension, int pathStringLength ) +{ + Assert( path ); + Assert( pathStringLength >= 1 ); + Assert( extension ); + Assert( extension[0] == '.' ); + + char *src; + + // if path doesn't have a .EXT, append extension + // (extension should include the .) + src = path + V_strlen(path) - 1; + + while ( !PATHSEPARATOR( *src ) && ( src > path ) ) + { + if (*src == '.') + { + // it has an extension + return; + } + src--; + } + + // Concatenate the desired extension + V_strncat( path, extension, pathStringLength, COPY_ALL_CHARACTERS ); +} + +//----------------------------------------------------------------------------- +// Purpose: Force extension... +// Input : *path - +// *extension - +// pathStringLength - +//----------------------------------------------------------------------------- +void V_SetExtension( char *path, const char *extension, int pathStringLength ) +{ + V_StripExtension( path, path, pathStringLength ); + V_DefaultExtension( path, extension, pathStringLength ); +} + +//----------------------------------------------------------------------------- +// Purpose: Remove final filename from string +// Input : *path - +// Output : void V_StripFilename +//----------------------------------------------------------------------------- +void V_StripFilename (char *path) +{ + int length; + + length = V_strlen( path )-1; + if ( length <= 0 ) + return; + + while ( length > 0 && + !PATHSEPARATOR( path[length] ) ) + { + length--; + } + + path[ length ] = 0; +} + +#ifdef _WIN32 +#define CORRECT_PATH_SEPARATOR '\\' +#define INCORRECT_PATH_SEPARATOR '/' +#elif POSIX +#define CORRECT_PATH_SEPARATOR '/' +#define INCORRECT_PATH_SEPARATOR '\\' +#endif + +//----------------------------------------------------------------------------- +// Purpose: Changes all '/' or '\' characters into separator +// Input : *pname - +// separator - +//----------------------------------------------------------------------------- +void V_FixSlashes( char *pname, char separator /* = CORRECT_PATH_SEPARATOR */ ) +{ + while ( *pname ) + { + if ( *pname == INCORRECT_PATH_SEPARATOR || *pname == CORRECT_PATH_SEPARATOR ) + { + *pname = separator; + } + pname++; + } +} + + +//----------------------------------------------------------------------------- +// Purpose: This function fixes cases of filenames like materials\\blah.vmt or somepath\otherpath\\ and removes the extra double slash. +//----------------------------------------------------------------------------- +void V_FixDoubleSlashes( char *pStr ) +{ + int len = V_strlen( pStr ); + + for ( int i=1; i < len-1; i++ ) + { + if ( (pStr[i] == '/' || pStr[i] == '\\') && (pStr[i+1] == '/' || pStr[i+1] == '\\') ) + { + // This means there's a double slash somewhere past the start of the filename. That + // can happen in Hammer if they use a material in the root directory. You'll get a filename + // that looks like 'materials\\blah.vmt' + V_memmove( &pStr[i], &pStr[i+1], len - i ); + --len; + } + } +} + +//----------------------------------------------------------------------------- +// Purpose: Strip off the last directory from dirName +// Input : *dirName - +// maxlen - +// Output : Returns true on success, false on failure. +//----------------------------------------------------------------------------- +bool V_StripLastDir( char *dirName, int maxlen ) +{ + if( dirName[0] == 0 || + !V_stricmp( dirName, "./" ) || + !V_stricmp( dirName, ".\\" ) ) + return false; + + int len = V_strlen( dirName ); + + Assert( len < maxlen ); + + // skip trailing slash + if ( PATHSEPARATOR( dirName[len-1] ) ) + { + len--; + } + + while ( len > 0 ) + { + if ( PATHSEPARATOR( dirName[len-1] ) ) + { + dirName[len] = 0; + V_FixSlashes( dirName, CORRECT_PATH_SEPARATOR ); + return true; + } + len--; + } + + // Allow it to return an empty string and true. This can happen if something like "tf2/" is passed in. + // The correct behavior is to strip off the last directory ("tf2") and return true. + if( len == 0 ) + { + V_snprintf( dirName, maxlen, ".%c", CORRECT_PATH_SEPARATOR ); + return true; + } + + return true; +} + + +//----------------------------------------------------------------------------- +// Purpose: Returns a pointer to the beginning of the unqualified file name +// (no path information) +// Input: in - file name (may be unqualified, relative or absolute path) +// Output: pointer to unqualified file name +//----------------------------------------------------------------------------- +const char * V_UnqualifiedFileName( const char * in ) +{ + // back up until the character after the first path separator we find, + // or the beginning of the string + const char * out = in + strlen( in ) - 1; + while ( ( out > in ) && ( !PATHSEPARATOR( *( out-1 ) ) ) ) + out--; + return out; +} + + +//----------------------------------------------------------------------------- +// Purpose: Composes a path and filename together, inserting a path separator +// if need be +// Input: path - path to use +// filename - filename to use +// dest - buffer to compose result in +// destSize - size of destination buffer +//----------------------------------------------------------------------------- +void V_ComposeFileName( const char *path, const char *filename, char *dest, int destSize ) +{ + V_strncpy( dest, path, destSize ); + V_FixSlashes( dest ); + V_AppendSlash( dest, destSize ); + V_strncat( dest, filename, destSize, COPY_ALL_CHARACTERS ); + V_FixSlashes( dest ); +} + + +//----------------------------------------------------------------------------- +// Purpose: +// Input : *path - +// *dest - +// destSize - +// Output : void V_ExtractFilePath +//----------------------------------------------------------------------------- +bool V_ExtractFilePath (const char *path, char *dest, int destSize ) +{ + Assert( destSize >= 1 ); + if ( destSize < 1 ) + { + return false; + } + + // Last char + int len = V_strlen(path); + const char *src = path + (len ? len-1 : 0); + + // back up until a \ or the start + while ( src != path && !PATHSEPARATOR( *(src-1) ) ) + { + src--; + } + + int copysize = min( src - path, destSize - 1 ); + memcpy( dest, path, copysize ); + dest[copysize] = 0; + + return copysize != 0 ? true : false; +} + +//----------------------------------------------------------------------------- +// Purpose: +// Input : *path - +// *dest - +// destSize - +// Output : void V_ExtractFileExtension +//----------------------------------------------------------------------------- +void V_ExtractFileExtension( const char *path, char *dest, int destSize ) +{ + *dest = NULL; + const char * extension = V_GetFileExtension( path ); + if ( NULL != extension ) + V_strncpy( dest, extension, destSize ); +} + + +//----------------------------------------------------------------------------- +// Purpose: Returns a pointer to the file extension within a file name string +// Input: in - file name +// Output: pointer to beginning of extension (after the "."), or NULL +// if there is no extension +//----------------------------------------------------------------------------- +const char * V_GetFileExtension( const char * path ) +{ + const char *src; + + src = path + strlen(path) - 1; + +// +// back up until a . or the start +// + while (src != path && *(src-1) != '.' ) + src--; + + // check to see if the '.' is part of a pathname + if (src == path || PATHSEPARATOR( *src ) ) + { + return NULL; // no extension + } + + return src; +} + + +//----------------------------------------------------------------------------- +// Purpose: Returns a pointer to the filename part of a path string +// Input: in - file name +// Output: pointer to beginning of filename (after the "/"). If there were no /, +// output is identical to input +//----------------------------------------------------------------------------- +const char * V_GetFileName( const char * path ) +{ + return V_UnqualifiedFileName( path ); +} + + +bool V_RemoveDotSlashes( char *pFilename, char separator, bool bRemoveDoubleSlashes /* = true */ ) +{ + char *pIn = pFilename; + char *pOut = pFilename; + bool bRetVal = true; + + bool bBoundary = true; + while ( *pIn ) + { + if ( bBoundary && pIn[0] == '.' && pIn[1] == '.' && ( PATHSEPARATOR( pIn[2] ) || !pIn[2] ) ) + { + // Get rid of /../ or trailing /.. by backing pOut up to previous separator + + // Eat the last separator (or repeated separators) we wrote out + while ( pOut != pFilename && pOut[-1] == separator ) + { + --pOut; + } + + while ( true ) + { + if ( pOut == pFilename ) + { + bRetVal = false; // backwards compat. return value, even though we continue handling + break; + } + --pOut; + if ( *pOut == separator ) + { + break; + } + } + + // Skip the '..' but not the slash, next loop iteration will handle separator + pIn += 2; + bBoundary = ( pOut == pFilename ); + } + else if ( bBoundary && pIn[0] == '.' && ( PATHSEPARATOR( pIn[1] ) || !pIn[1] ) ) + { + // Handle "./" by simply skipping this sequence. bBoundary is unchanged. + if ( PATHSEPARATOR( pIn[1] ) ) + { + pIn += 2; + } + else + { + // Special case: if trailing "." is preceded by separator, eg "path/.", + // then the final separator should also be stripped. bBoundary may then + // be in an incorrect state, but we are at the end of processing anyway + // so we don't really care (the processing loop is about to terminate). + if ( pOut != pFilename && pOut[-1] == separator ) + { + --pOut; + } + pIn += 1; + } + } + else if ( PATHSEPARATOR( pIn[0] ) ) + { + *pOut = separator; + pOut += 1 - (bBoundary & bRemoveDoubleSlashes & (pOut != pFilename)); + pIn += 1; + bBoundary = true; + } + else + { + if ( pOut != pIn ) + { + *pOut = *pIn; + } + pOut += 1; + pIn += 1; + bBoundary = false; + } + } + *pOut = 0; + + return bRetVal; +} + + +void V_AppendSlash( char *pStr, int strSize ) +{ + int len = V_strlen( pStr ); + if ( len > 0 && !PATHSEPARATOR(pStr[len-1]) ) + { + if ( len+1 >= strSize ) + Error( "V_AppendSlash: ran out of space on %s.", pStr ); + + pStr[len] = CORRECT_PATH_SEPARATOR; + pStr[len+1] = 0; + } +} + + +void V_MakeAbsolutePath( char *pOut, int outLen, const char *pPath, const char *pStartingDir ) +{ + if ( V_IsAbsolutePath( pPath ) ) + { + // pPath is not relative.. just copy it. + V_strncpy( pOut, pPath, outLen ); + } + else + { + // Make sure the starting directory is absolute.. + if ( pStartingDir && V_IsAbsolutePath( pStartingDir ) ) + { + V_strncpy( pOut, pStartingDir, outLen ); + } + else + { + if ( !_getcwd( pOut, outLen ) ) + Error( "V_MakeAbsolutePath: _getcwd failed." ); + + if ( pStartingDir ) + { + V_AppendSlash( pOut, outLen ); + V_strncat( pOut, pStartingDir, outLen, COPY_ALL_CHARACTERS ); + } + } + + // Concatenate the paths. + V_AppendSlash( pOut, outLen ); + V_strncat( pOut, pPath, outLen, COPY_ALL_CHARACTERS ); + } + + if ( !V_RemoveDotSlashes( pOut ) ) + Error( "V_MakeAbsolutePath: tried to \"..\" past the root." ); + + //V_FixSlashes( pOut ); - handled by V_RemoveDotSlashes +} + + +//----------------------------------------------------------------------------- +// Makes a relative path +//----------------------------------------------------------------------------- +bool V_MakeRelativePath( const char *pFullPath, const char *pDirectory, char *pRelativePath, int nBufLen ) +{ + pRelativePath[0] = 0; + + const char *pPath = pFullPath; + const char *pDir = pDirectory; + + // Strip out common parts of the path + const char *pLastCommonPath = NULL; + const char *pLastCommonDir = NULL; + while ( *pPath && ( FastToLower( *pPath ) == FastToLower( *pDir ) || + ( PATHSEPARATOR( *pPath ) && ( PATHSEPARATOR( *pDir ) || (*pDir == 0) ) ) ) ) + { + if ( PATHSEPARATOR( *pPath ) ) + { + pLastCommonPath = pPath + 1; + pLastCommonDir = pDir + 1; + } + if ( *pDir == 0 ) + { + --pLastCommonDir; + break; + } + ++pDir; ++pPath; + } + + // Nothing in common + if ( !pLastCommonPath ) + return false; + + // For each path separator remaining in the dir, need a ../ + int nOutLen = 0; + bool bLastCharWasSeparator = true; + for ( ; *pLastCommonDir; ++pLastCommonDir ) + { + if ( PATHSEPARATOR( *pLastCommonDir ) ) + { + pRelativePath[nOutLen++] = '.'; + pRelativePath[nOutLen++] = '.'; + pRelativePath[nOutLen++] = CORRECT_PATH_SEPARATOR; + bLastCharWasSeparator = true; + } + else + { + bLastCharWasSeparator = false; + } + } + + // Deal with relative paths not specified with a trailing slash + if ( !bLastCharWasSeparator ) + { + pRelativePath[nOutLen++] = '.'; + pRelativePath[nOutLen++] = '.'; + pRelativePath[nOutLen++] = CORRECT_PATH_SEPARATOR; + } + + // Copy the remaining part of the relative path over, fixing the path separators + for ( ; *pLastCommonPath; ++pLastCommonPath ) + { + if ( PATHSEPARATOR( *pLastCommonPath ) ) + { + pRelativePath[nOutLen++] = CORRECT_PATH_SEPARATOR; + } + else + { + pRelativePath[nOutLen++] = *pLastCommonPath; + } + + // Check for overflow + if ( nOutLen == nBufLen - 1 ) + break; + } + + pRelativePath[nOutLen] = 0; + return true; +} + + +//----------------------------------------------------------------------------- +// small helper function shared by lots of modules +//----------------------------------------------------------------------------- +bool V_IsAbsolutePath( const char *pStr ) +{ + bool bIsAbsolute = ( pStr[0] && pStr[1] == ':' ) || pStr[0] == '/' || pStr[0] == '\\'; + if ( IsX360() && !bIsAbsolute ) + { + bIsAbsolute = ( V_stristr( pStr, ":" ) != NULL ); + } + return bIsAbsolute; +} + + +// Copies at most nCharsToCopy bytes from pIn into pOut. +// Returns false if it would have overflowed pOut's buffer. +static bool CopyToMaxChars( char *pOut, int outSize, const char *pIn, int nCharsToCopy ) +{ + if ( outSize == 0 ) + return false; + + int iOut = 0; + while ( *pIn && nCharsToCopy > 0 ) + { + if ( iOut == (outSize-1) ) + { + pOut[iOut] = 0; + return false; + } + pOut[iOut] = *pIn; + ++iOut; + ++pIn; + --nCharsToCopy; + } + + pOut[iOut] = 0; + return true; +} + + +//----------------------------------------------------------------------------- +// Fixes up a file name, removing dot slashes, fixing slashes, converting to lowercase, etc. +//----------------------------------------------------------------------------- +void V_FixupPathName( char *pOut, size_t nOutLen, const char *pPath ) +{ + V_strncpy( pOut, pPath, nOutLen ); + V_RemoveDotSlashes( pOut, CORRECT_PATH_SEPARATOR, true ); +#ifdef WIN32 + V_strlower( pOut ); +#endif +} + + +// Returns true if it completed successfully. +// If it would overflow pOut, it fills as much as it can and returns false. +bool V_StrSubst( + const char *pIn, + const char *pMatch, + const char *pReplaceWith, + char *pOut, + int outLen, + bool bCaseSensitive + ) +{ + int replaceFromLen = strlen( pMatch ); + int replaceToLen = strlen( pReplaceWith ); + + const char *pInStart = pIn; + char *pOutPos = pOut; + pOutPos[0] = 0; + + while ( 1 ) + { + int nRemainingOut = outLen - (pOutPos - pOut); + + const char *pTestPos = ( bCaseSensitive ? strstr( pInStart, pMatch ) : V_stristr( pInStart, pMatch ) ); + if ( pTestPos ) + { + // Found an occurence of pMatch. First, copy whatever leads up to the string. + int copyLen = pTestPos - pInStart; + if ( !CopyToMaxChars( pOutPos, nRemainingOut, pInStart, copyLen ) ) + return false; + + // Did we hit the end of the output string? + if ( copyLen > nRemainingOut-1 ) + return false; + + pOutPos += strlen( pOutPos ); + nRemainingOut = outLen - (pOutPos - pOut); + + // Now add the replacement string. + if ( !CopyToMaxChars( pOutPos, nRemainingOut, pReplaceWith, replaceToLen ) ) + return false; + + pInStart += copyLen + replaceFromLen; + pOutPos += replaceToLen; + } + else + { + // We're at the end of pIn. Copy whatever remains and get out. + int copyLen = strlen( pInStart ); + V_strncpy( pOutPos, pInStart, nRemainingOut ); + return ( copyLen <= nRemainingOut-1 ); + } + } +} + + +char* AllocString( const char *pStr, int nMaxChars ) +{ + int allocLen; + if ( nMaxChars == -1 ) + allocLen = strlen( pStr ) + 1; + else + allocLen = min( (int)strlen(pStr), nMaxChars ) + 1; + + char *pOut = new char[allocLen]; + V_strncpy( pOut, pStr, allocLen ); + return pOut; +} + + +void V_SplitString2( const char *pString, const char **pSeparators, int nSeparators, CUtlVector &outStrings ) +{ + outStrings.Purge(); + const char *pCurPos = pString; + while ( 1 ) + { + int iFirstSeparator = -1; + const char *pFirstSeparator = 0; + for ( int i=0; i < nSeparators; i++ ) + { + const char *pTest = V_stristr( pCurPos, pSeparators[i] ); + if ( pTest && (!pFirstSeparator || pTest < pFirstSeparator) ) + { + iFirstSeparator = i; + pFirstSeparator = pTest; + } + } + + if ( pFirstSeparator ) + { + // Split on this separator and continue on. + int separatorLen = strlen( pSeparators[iFirstSeparator] ); + if ( pFirstSeparator > pCurPos ) + { + outStrings.AddToTail( AllocString( pCurPos, pFirstSeparator-pCurPos ) ); + } + + pCurPos = pFirstSeparator + separatorLen; + } + else + { + // Copy the rest of the string + if ( strlen( pCurPos ) ) + { + outStrings.AddToTail( AllocString( pCurPos, -1 ) ); + } + return; + } + } +} + + +void V_SplitString( const char *pString, const char *pSeparator, CUtlVector &outStrings ) +{ + V_SplitString2( pString, &pSeparator, 1, outStrings ); +} + + +bool V_GetCurrentDirectory( char *pOut, int maxLen ) +{ + return _getcwd( pOut, maxLen ) == pOut; +} + + +bool V_SetCurrentDirectory( const char *pDirName ) +{ + return _chdir( pDirName ) == 0; +} + + +// This function takes a slice out of pStr and stores it in pOut. +// It follows the Python slice convention: +// Negative numbers wrap around the string (-1 references the last character). +// Numbers are clamped to the end of the string. +void V_StrSlice( const char *pStr, int firstChar, int lastCharNonInclusive, char *pOut, int outSize ) +{ + if ( outSize == 0 ) + return; + + int length = strlen( pStr ); + + // Fixup the string indices. + if ( firstChar < 0 ) + { + firstChar = length - (-firstChar % length); + } + else if ( firstChar >= length ) + { + pOut[0] = 0; + return; + } + + if ( lastCharNonInclusive < 0 ) + { + lastCharNonInclusive = length - (-lastCharNonInclusive % length); + } + else if ( lastCharNonInclusive > length ) + { + lastCharNonInclusive %= length; + } + + if ( lastCharNonInclusive <= firstChar ) + { + pOut[0] = 0; + return; + } + + int copyLen = lastCharNonInclusive - firstChar; + if ( copyLen <= (outSize-1) ) + { + memcpy( pOut, &pStr[firstChar], copyLen ); + pOut[copyLen] = 0; + } + else + { + memcpy( pOut, &pStr[firstChar], outSize-1 ); + pOut[outSize-1] = 0; + } +} + + +void V_StrLeft( const char *pStr, int nChars, char *pOut, int outSize ) +{ + if ( nChars == 0 ) + { + if ( outSize != 0 ) + pOut[0] = 0; + + return; + } + + V_StrSlice( pStr, 0, nChars, pOut, outSize ); +} + + +void V_StrRight( const char *pStr, int nChars, char *pOut, int outSize ) +{ + int len = strlen( pStr ); + if ( nChars >= len ) + { + V_strncpy( pOut, pStr, outSize ); + } + else + { + V_StrSlice( pStr, -nChars, strlen( pStr ), pOut, outSize ); + } +} + +//----------------------------------------------------------------------------- +// Convert multibyte to wchar + back +//----------------------------------------------------------------------------- +void V_strtowcs( const char *pString, int nInSize, wchar_t *pWString, int nOutSizeInBytes ) +{ + Assert( nOutSizeInBytes >= sizeof(pWString[0]) ); +#ifdef _WIN32 + int nOutSizeInChars = nOutSizeInBytes / sizeof(pWString[0]); + int result = MultiByteToWideChar( CP_UTF8, 0, pString, nInSize, pWString, nOutSizeInChars ); + // If the string completely fails to fit then MultiByteToWideChar will return 0. + // If the string exactly fits but with no room for a null-terminator then MultiByteToWideChar + // will happily fill the buffer and omit the null-terminator, returning nOutSizeInChars. + // Either way we need to return an empty string rather than a bogus and possibly not + // null-terminated result. + if ( result <= 0 || result >= nOutSizeInChars ) + { + // If nInSize includes the null-terminator then a result of nOutSizeInChars is + // legal. We check this by seeing if the last character in the output buffer is + // a zero. + if ( result == nOutSizeInChars && pWString[ nOutSizeInChars - 1 ] == 0) + { + // We're okay! Do nothing. + } + else + { + // The string completely to fit. Null-terminate the buffer. + *pWString = L'\0'; + } + } + else + { + // We have successfully converted our string. Now we need to null-terminate it, because + // MultiByteToWideChar will only do that if nInSize includes the source null-terminator! + pWString[ result ] = 0; + } +#elif POSIX + if ( mbstowcs( pWString, pString, nOutSizeInBytes / sizeof(pWString[0]) ) <= 0 ) + { + *pWString = 0; + } +#endif +} + +void V_wcstostr( const wchar_t *pWString, int nInSize, char *pString, int nOutSizeInChars ) +{ +#ifdef _WIN32 + int result = WideCharToMultiByte( CP_UTF8, 0, pWString, nInSize, pString, nOutSizeInChars, NULL, NULL ); + // If the string completely fails to fit then MultiByteToWideChar will return 0. + // If the string exactly fits but with no room for a null-terminator then MultiByteToWideChar + // will happily fill the buffer and omit the null-terminator, returning nOutSizeInChars. + // Either way we need to return an empty string rather than a bogus and possibly not + // null-terminated result. + if ( result <= 0 || result >= nOutSizeInChars ) + { + // If nInSize includes the null-terminator then a result of nOutSizeInChars is + // legal. We check this by seeing if the last character in the output buffer is + // a zero. + if ( result == nOutSizeInChars && pWString[ nOutSizeInChars - 1 ] == 0) + { + // We're okay! Do nothing. + } + else + { + *pString = '\0'; + } + } + else + { + // We have successfully converted our string. Now we need to null-terminate it, because + // MultiByteToWideChar will only do that if nInSize includes the source null-terminator! + pString[ result ] = '\0'; + } +#elif POSIX + if ( wcstombs( pString, pWString, nOutSizeInChars ) <= 0 ) + { + *pString = '\0'; + } +#endif +} + + + +//-------------------------------------------------------------------------------- +// backslashification +//-------------------------------------------------------------------------------- + +static char s_BackSlashMap[]="\tt\nn\rr\"\"\\\\"; + +char *V_AddBackSlashesToSpecialChars( char const *pSrc ) +{ + // first, count how much space we are going to need + int nSpaceNeeded = 0; + for( char const *pScan = pSrc; *pScan; pScan++ ) + { + nSpaceNeeded++; + for(char const *pCharSet=s_BackSlashMap; *pCharSet; pCharSet += 2 ) + { + if ( *pCharSet == *pScan ) + nSpaceNeeded++; // we need to store a bakslash + } + } + char *pRet = new char[ nSpaceNeeded + 1 ]; // +1 for null + char *pOut = pRet; + + for( char const *pScan = pSrc; *pScan; pScan++ ) + { + bool bIsSpecial = false; + for(char const *pCharSet=s_BackSlashMap; *pCharSet; pCharSet += 2 ) + { + if ( *pCharSet == *pScan ) + { + *( pOut++ ) = '\\'; + *( pOut++ ) = pCharSet[1]; + bIsSpecial = true; + break; + } + } + if (! bIsSpecial ) + { + *( pOut++ ) = *pScan; + } + } + *( pOut++ ) = 0; + return pRet; +} +#if defined( LINUX ) || defined( _PS3 ) +extern "C" void qsort_s( void *base, size_t num, size_t width, int (*compare )(void *, const void *, const void *), void * context ); +#endif + +void V_qsort_s( void *base, size_t num, size_t width, int ( __cdecl *compare )(void *, const void *, const void *), void * context ) +{ +#if defined OSX + // the arguments are swapped 'round on the mac - awesome, huh? + return qsort_r( base, num, width, context, compare ); +#else + return qsort_s( base, num, width, compare, context ); +#endif +} + +//----------------------------------------------------------------------------- +// Purpose: format the time and/or date with the user's current locale +// If timeVal is 0, gets the current time +// +// This is generally for use with chatroom dialogs, etc. which need to be +// able to say "Last message received: %date% at %time%" +// +// Note that this uses time_t because RTime32 is not hooked-up on the client +//----------------------------------------------------------------------------- +bool BGetLocalFormattedDateAndTime( time_t timeVal, char *pchDate, int cubDate, char *pchTime, int cubTime ) +{ + if ( 0 == timeVal || timeVal < 0 ) + { + // get the current time + time( &timeVal ); + } + + if ( timeVal ) + { + // Convert it to our local time + struct tm tmStruct; + struct tm tmToDisplay = *( Plat_localtime( ( const time_t* )&timeVal, &tmStruct ) ); +#ifdef POSIX + if ( pchDate != NULL ) + { + pchDate[ 0 ] = 0; + if ( 0 == strftime( pchDate, cubDate, "%A %b %d", &tmToDisplay ) ) + return false; + } + + if ( pchTime != NULL ) + { + pchTime[ 0 ] = 0; + if ( 0 == strftime( pchTime, cubTime - 6, "%I:%M ", &tmToDisplay ) ) + return false; + + // append am/pm in lower case (since strftime doesn't have a lowercase formatting option) + if (tmToDisplay.tm_hour >= 12) + { + Q_strcat( pchTime, "p.m.", cubTime ); + } + else + { + Q_strcat( pchTime, "a.m.", cubTime ); + } + } +#else // WINDOWS + // convert time_t to a SYSTEMTIME + SYSTEMTIME st; + st.wHour = tmToDisplay.tm_hour; + st.wMinute = tmToDisplay.tm_min; + st.wSecond = tmToDisplay.tm_sec; + st.wDay = tmToDisplay.tm_mday; + st.wMonth = tmToDisplay.tm_mon + 1; + st.wYear = tmToDisplay.tm_year + 1900; + st.wDayOfWeek = tmToDisplay.tm_wday; + st.wMilliseconds = 0; + + WCHAR rgwch[ MAX_PATH ]; + + if ( pchDate != NULL ) + { + pchDate[ 0 ] = 0; + if ( !GetDateFormatW( LOCALE_USER_DEFAULT, DATE_LONGDATE, &st, NULL, rgwch, MAX_PATH ) ) + return false; + Q_strncpy( pchDate, CStrAutoEncode( rgwch ).ToString(), cubDate ); + } + + if ( pchTime != NULL ) + { + pchTime[ 0 ] = 0; + if ( !GetTimeFormatW( LOCALE_USER_DEFAULT, TIME_NOSECONDS, &st, NULL, rgwch, MAX_PATH ) ) + return false; + Q_strncpy( pchTime, CStrAutoEncode( rgwch ).ToString(), cubTime ); + } +#endif + return true; + } + + return false; +} + + +// And a couple of helpers so people don't have to remember the order of the parameters in the above function +bool BGetLocalFormattedDate( time_t timeVal, char *pchDate, int cubDate ) +{ + return BGetLocalFormattedDateAndTime( timeVal, pchDate, cubDate, NULL, 0 ); +} +bool BGetLocalFormattedTime( time_t timeVal, char *pchTime, int cubTime ) +{ + return BGetLocalFormattedDateAndTime( timeVal, NULL, 0, pchTime, cubTime ); +} -- cgit v1.2.3