//========= Copyright Valve Corporation, All rights reserved. ============// // // Purpose: // //============================================================================= #ifndef UTLSTRING_H #define UTLSTRING_H #ifdef _WIN32 #pragma once #endif #include "tier1/utlmemory.h" #include "tier1/strtools.h" #include "limits.h" // Matched with the memdbgoff at end of header #include "memdbgon.h" #if defined( OSX ) #ifndef wcsdup // The mem override tools may provide a copy of this if active, otherwise it is not available in OS X's libc due to // being introduced in POSIX-20008 inline wchar_t *wcsdup(const wchar_t *pString) { wchar_t *pMemory; if (!pString) return NULL; size_t len = (wcslen(pString) + 1); if ((pMemory = (wchar_t *)malloc(len * sizeof(wchar_t))) != NULL) { return wcscpy( pMemory, pString ); } return NULL; } #endif inline size_t strnlen(const char *s, size_t n) { const char *p = (const char *)memchr(s, 0, n); return (p ? p - s : n); } #endif //----------------------------------------------------------------------------- // Simple string class. // NOTE: This is *not* optimal! Use in tools, but not runtime code //----------------------------------------------------------------------------- class CUtlString { public: typedef enum { PATTERN_NONE = 0x00000000, PATTERN_DIRECTORY = 0x00000001 } TUtlStringPattern; public: CUtlString(); CUtlString( const char *pString ); CUtlString( const char *pString, int length ); CUtlString( const CUtlString& string ); #ifdef MOVE_CONSTRUCTOR_SUPPORT // Support moving of CUtlString objects. Long live C++11 // This move constructor will get called when appropriate, such as when // returning objects from functions, or otherwise copying from temporaries // which are about to be destroyed. It can also be explicitly invoked with // std::move(). // Move constructor: CUtlString( CUtlString&& rhs ) { // Move the string pointer from the source to this -- be sure to // zero out the source to avoid double frees. m_pString = rhs.m_pString; rhs.m_pString = 0; } // Move assignment operator: CUtlString& operator=( CUtlString&& rhs ) { // Move the string pointer from the source to this -- be sure to // zero out the source to avoid double frees. m_pString = rhs.m_pString; rhs.m_pString = 0; return *this; } #endif ~CUtlString(); const char *Get( ) const; void Set( const char *pValue ); operator const char*() const; // Set directly and don't look for a null terminator in pValue. // nChars does not include the nul and this will only copy // at most nChars (even if pValue is longer). If nChars // is >strlen(pValue) it will copy past the end, don't do it // Does nothing if pValue == String() void SetDirect( const char *pValue, int nChars ); // for compatibility switching items from UtlSymbol const char *String() const { return Get(); } // Returns strlen int Length() const; // IsEmpty() is more efficient than Length() == 0 bool IsEmpty() const; // Sets the length (used to serialize into the buffer ) // Note: If nLen != 0, then this adds an extra byte for a null-terminator. void SetLength( int nLen ); char *GetForModify(); void Clear(); void Purge(); // Case Change void ToLower(); void ToUpper(); void Append( const char *pAddition, int nChars ); void Append( const char *pchAddition ); void Append( const char chAddition ) { char temp[2] = { chAddition, 0 }; Append( temp ); } // Strips the trailing slash void StripTrailingSlash(); void FixSlashes( char cSeparator = CORRECT_PATH_SEPARATOR ); // Trim whitespace void TrimLeft( char cTarget ); void TrimLeft( const char *szTargets = "\t\r\n " ); void TrimRight( char cTarget ); void TrimRight( const char *szTargets = "\t\r\n " ); void Trim( char cTarget ); void Trim( const char *szTargets = "\t\r\n " ); bool IsEqual_CaseSensitive( const char *src ) const; bool IsEqual_CaseInsensitive( const char *src ) const; CUtlString &operator=( const CUtlString &src ); CUtlString &operator=( const char *src ); // Test for equality bool operator==( const CUtlString &src ) const; bool operator!=( const CUtlString &src ) const { return !operator==( src ); } CUtlString &operator+=( const CUtlString &rhs ); CUtlString &operator+=( const char *rhs ); CUtlString &operator+=( char c ); CUtlString &operator+=( int rhs ); CUtlString &operator+=( double rhs ); CUtlString operator+( const char *pOther ) const; CUtlString operator+( const CUtlString &other ) const; CUtlString operator+( int rhs ) const; bool MatchesPattern( const CUtlString &Pattern, int nFlags = 0 ) const; // case SENSITIVE, use * for wildcard in pattern string char operator[]( int i ) const; #if ! defined(SWIG) // Don't let SWIG see the PRINTF_FORMAT_STRING attribute or it will complain. int Format( PRINTF_FORMAT_STRING const char *pFormat, ... ) FMTFUNCTION( 2, 3 ); int FormatV( PRINTF_FORMAT_STRING const char *pFormat, va_list marker ); #else int Format( const char *pFormat, ... ); int FormatV( const char *pFormat, va_list marker ); #endif // Defining AltArgumentType_t hints that associative container classes should // also implement Find/Insert/Remove functions that take const char* params. typedef const char *AltArgumentType_t; // Get a copy of part of the string. // If you only specify nStart, it'll go from nStart to the end. // You can use negative numbers and it'll wrap around to the start. CUtlString Slice( int32 nStart=0, int32 nEnd=INT_MAX ) const; // Get a substring starting from the left or the right side. CUtlString Left( int32 nChars ) const; CUtlString Right( int32 nChars ) const; // Get a string with all instances of one character replaced with another. CUtlString Replace( char cFrom, char cTo ) const; // Replace all instances of specified string with another. CUtlString Replace( const char *pszFrom, const char *pszTo ) const; // Get this string as an absolute path (calls right through to V_MakeAbsolutePath). CUtlString AbsPath( const char *pStartingDir=NULL ) const; // Gets the filename (everything except the path.. c:\a\b\c\somefile.txt -> somefile.txt). CUtlString UnqualifiedFilename() const; // Gets a string with one directory removed. Uses V_StripLastDir but strips the last slash also! CUtlString DirName() const; // Get a string with the extension removed (with V_StripExtension). CUtlString StripExtension() const; // Get a string with the filename removed (uses V_UnqualifiedFileName and also strips the last slash) CUtlString StripFilename() const; // Get a string with the base filename (with V_FileBase). CUtlString GetBaseFilename() const; // Get a string with the file extension (with V_FileBase). CUtlString GetExtension() const; // Works like V_ComposeFileName. static CUtlString PathJoin( const char *pStr1, const char *pStr2 ); // These can be used for utlvector sorts. static int __cdecl SortCaseInsensitive( const CUtlString *pString1, const CUtlString *pString2 ); static int __cdecl SortCaseSensitive( const CUtlString *pString1, const CUtlString *pString2 ); // Empty string for those times when you need to return an empty string and // either don't want to pay the construction cost, or are returning a // const CUtlString& and cannot just return "". static const CUtlString &GetEmptyString(); private: // INTERNALS // AllocMemory allocates enough space for length characters plus a terminating zero. // Previous characters are preserved, the buffer is null-terminated, but new characters // are not touched. void *AllocMemory( uint32 length ); // If m_pString is not NULL, it points to the start of the string, and the memory allocation. char *m_pString; }; // // If these are not defined, CUtlConstString as rhs will auto-convert // // to const char* and do logical operations on the raw pointers. Ugh. // inline friend bool operator<( const T *lhs, const CUtlConstStringBase &rhs ) { return rhs.Compare( lhs ) > 0; } // inline friend bool operator==( const T *lhs, const CUtlConstStringBase &rhs ) { return rhs.Compare( lhs ) == 0; } // inline friend bool operator!=( const T *lhs, const CUtlConstStringBase &rhs ) { return rhs.Compare( lhs ) != 0; } inline bool operator==( const char *pString, const CUtlString &utlString ) { return utlString.IsEqual_CaseSensitive( pString ); } inline bool operator!=( const char *pString, const CUtlString &utlString ) { return !utlString.IsEqual_CaseSensitive( pString ); } inline bool operator==( const CUtlString &utlString, const char *pString ) { return utlString.IsEqual_CaseSensitive( pString ); } inline bool operator!=( const CUtlString &utlString, const char *pString ) { return !utlString.IsEqual_CaseSensitive( pString ); } //----------------------------------------------------------------------------- // Inline methods //----------------------------------------------------------------------------- inline CUtlString::CUtlString() : m_pString( NULL ) { } inline CUtlString::CUtlString( const char *pString ) : m_pString( NULL ) { Set( pString ); } inline CUtlString::CUtlString( const char *pString, int length ) : m_pString( NULL ) { SetDirect( pString, length ); } inline CUtlString::CUtlString( const CUtlString& string ) : m_pString( NULL ) { Set( string.Get() ); } inline CUtlString::~CUtlString() { Purge(); } inline int CUtlString::Length() const { if (m_pString) { return V_strlen( m_pString ); } return 0; } inline bool CUtlString::IsEmpty() const { return !m_pString || m_pString[0] == 0; } inline int __cdecl CUtlString::SortCaseInsensitive( const CUtlString *pString1, const CUtlString *pString2 ) { return V_stricmp( pString1->String(), pString2->String() ); } inline int __cdecl CUtlString::SortCaseSensitive( const CUtlString *pString1, const CUtlString *pString2 ) { return V_strcmp( pString1->String(), pString2->String() ); } // Converts to c-strings inline CUtlString::operator const char*() const { return Get(); } //----------------------------------------------------------------------------- // Purpose: Implementation of low-level string functionality for character types. //----------------------------------------------------------------------------- template < typename T > class StringFuncs { public: static T *Duplicate( const T *pValue ); // Note that this function takes a character count, and does not guarantee null-termination. static void Copy( T *out_pOut, const T *pIn, int iLengthInChars ); static int Compare( const T *pLhs, const T *pRhs ); static int CaselessCompare( const T *pLhs, const T *pRhs ); static int Length( const T *pValue ); static const T *FindChar( const T *pStr, const T cSearch ); static const T *EmptyString(); static const T *NullDebugString(); }; template < > class StringFuncs { public: static char *Duplicate( const char *pValue ) { return strdup( pValue ); } // Note that this function takes a character count, and does not guarantee null-termination. static void Copy( OUT_CAP(iLengthInChars) char *out_pOut, const char *pIn, int iLengthInChars ) { strncpy( out_pOut, pIn, iLengthInChars ); } static int Compare( const char *pLhs, const char *pRhs ) { return strcmp( pLhs, pRhs ); } static int CaselessCompare( const char *pLhs, const char *pRhs ) { return Q_strcasecmp( pLhs, pRhs ); } static int Length( const char *pValue ) { return (int)strlen( pValue ); } static const char *FindChar( const char *pStr, const char cSearch ) { return strchr( pStr, cSearch ); } static const char *EmptyString() { return ""; } static const char *NullDebugString() { return "(null)"; } }; template < > class StringFuncs { public: static wchar_t *Duplicate( const wchar_t *pValue ) { return wcsdup( pValue ); } // Note that this function takes a character count, and does not guarantee null-termination. static void Copy( OUT_CAP(iLengthInChars) wchar_t *out_pOut, const wchar_t *pIn, int iLengthInChars ) { wcsncpy( out_pOut, pIn, iLengthInChars ); } static int Compare( const wchar_t *pLhs, const wchar_t *pRhs ) { return wcscmp( pLhs, pRhs ); } static int CaselessCompare( const wchar_t *pLhs, const wchar_t *pRhs ); // no implementation? static int Length( const wchar_t *pValue ) { return (int)wcslen( pValue ); } static const wchar_t *FindChar( const wchar_t *pStr, const wchar_t cSearch ) { return wcschr( pStr, cSearch ); } static const wchar_t *EmptyString() { return L""; } static const wchar_t *NullDebugString() { return L"(null)"; } }; //----------------------------------------------------------------------------- // Dirt-basic auto-release string class. Not intended for manipulation, // can be stored in a container or forwarded as a functor parameter. // Note the benefit over CUtlString: sizeof(CUtlConstString) == sizeof(char*). // Also note: null char* pointers are treated identically to empty strings. //----------------------------------------------------------------------------- template < typename T = char > class CUtlConstStringBase { public: CUtlConstStringBase() : m_pString( NULL ) {} explicit CUtlConstStringBase( const T *pString ) : m_pString( NULL ) { Set( pString ); } CUtlConstStringBase( const CUtlConstStringBase& src ) : m_pString( NULL ) { Set( src.m_pString ); } ~CUtlConstStringBase() { Set( NULL ); } void Set( const T *pValue ); void Clear() { Set( NULL ); } const T *Get() const { return m_pString ? m_pString : StringFuncs::EmptyString(); } operator const T*() const { return m_pString ? m_pString : StringFuncs::EmptyString(); } bool IsEmpty() const { return m_pString == NULL; } // Note: empty strings are never stored by Set int Compare( const T *rhs ) const; // Logical ops bool operator<( const T *rhs ) const { return Compare( rhs ) < 0; } bool operator==( const T *rhs ) const { return Compare( rhs ) == 0; } bool operator!=( const T *rhs ) const { return Compare( rhs ) != 0; } bool operator<( const CUtlConstStringBase &rhs ) const { return Compare( rhs.m_pString ) < 0; } bool operator==( const CUtlConstStringBase &rhs ) const { return Compare( rhs.m_pString ) == 0; } bool operator!=( const CUtlConstStringBase &rhs ) const { return Compare( rhs.m_pString ) != 0; } // If these are not defined, CUtlConstString as rhs will auto-convert // to const char* and do logical operations on the raw pointers. Ugh. inline friend bool operator<( const T *lhs, const CUtlConstStringBase &rhs ) { return rhs.Compare( lhs ) > 0; } inline friend bool operator==( const T *lhs, const CUtlConstStringBase &rhs ) { return rhs.Compare( lhs ) == 0; } inline friend bool operator!=( const T *lhs, const CUtlConstStringBase &rhs ) { return rhs.Compare( lhs ) != 0; } CUtlConstStringBase &operator=( const T *src ) { Set( src ); return *this; } CUtlConstStringBase &operator=( const CUtlConstStringBase &src ) { Set( src.m_pString ); return *this; } // Defining AltArgumentType_t is a hint to containers that they should // implement Find/Insert/Remove functions that take const char* params. typedef const T *AltArgumentType_t; protected: const T *m_pString; }; template < typename T > void CUtlConstStringBase::Set( const T *pValue ) { if ( pValue != m_pString ) { free( ( void* ) m_pString ); m_pString = pValue && pValue[0] ? StringFuncs::Duplicate( pValue ) : NULL; } } template < typename T > int CUtlConstStringBase::Compare( const T *rhs ) const { // Empty or null RHS? if ( !rhs || !rhs[0] ) return m_pString ? 1 : 0; // Empty *this, non-empty RHS? if ( !m_pString ) return -1; // Neither empty return StringFuncs::Compare( m_pString, rhs ); } typedef CUtlConstStringBase CUtlConstString; typedef CUtlConstStringBase CUtlConstWideString; //----------------------------------------------------------------------------- // Helper functor objects. //----------------------------------------------------------------------------- template < typename T > struct UTLConstStringCaselessStringLessFunctor { bool operator()( const CUtlConstStringBase& a, const char *b ) const { return StringFuncs::CaselessCompare( a.Get(), b ) < 0; } }; template < typename T > struct UTLConstStringCaselessStringEqualFunctor { bool operator()( const CUtlConstStringBase& a, const char *b ) const { return StringFuncs::CaselessCompare( a.Get(), b ) == 0; } }; // Helper function for CUtlMaps with a CUtlString key inline bool UtlStringLessFunc( const CUtlString &lhs, const CUtlString &rhs ) { return V_strcmp( lhs.Get(), rhs.Get() ) < 0; } inline bool UtlStringCaseInsensitiveLessFunc( const CUtlString &lhs, const CUtlString &rhs ) { return V_stricmp( lhs.Get(), rhs.Get() ) < 0; } #include "memdbgoff.h" #endif // UTLSTRING_H