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505 lines
18 KiB
C++
505 lines
18 KiB
C++
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//========= Copyright Valve Corporation, All rights reserved. ============//
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//
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// Purpose:
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//
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// $NoKeywords: $
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//===========================================================================//
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#ifndef TIER1_ILOCALIZE_H
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#define TIER1_ILOCALIZE_H
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#ifdef _WIN32
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#pragma once
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#endif
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#include "appframework/IAppSystem.h"
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#include <tier1/KeyValues.h>
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// unicode character type
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// for more unicode manipulation functions #include <wchar.h>
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#if !defined(_WCHAR_T_DEFINED) && !defined(GNUC)
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typedef unsigned short wchar_t;
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#define _WCHAR_T_DEFINED
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#endif
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// direct references to localized strings
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typedef unsigned long StringIndex_t;
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const unsigned long INVALID_LOCALIZE_STRING_INDEX = (StringIndex_t) -1;
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//-----------------------------------------------------------------------------
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// Purpose: Handles localization of text
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// looks up string names and returns the localized unicode text
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//-----------------------------------------------------------------------------
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abstract_class ILocalize
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{
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public:
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// adds the contents of a file to the localization table
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virtual bool AddFile( const char *fileName, const char *pPathID = NULL, bool bIncludeFallbackSearchPaths = false ) = 0;
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// Remove all strings from the table
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virtual void RemoveAll() = 0;
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// Finds the localized text for tokenName
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virtual wchar_t *Find(char const *tokenName) = 0;
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// finds the index of a token by token name, INVALID_STRING_INDEX if not found
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virtual StringIndex_t FindIndex(const char *tokenName) = 0;
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// gets the values by the string index
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virtual const char *GetNameByIndex(StringIndex_t index) = 0;
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virtual wchar_t *GetValueByIndex(StringIndex_t index) = 0;
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///////////////////////////////////////////////////////////////////
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// the following functions should only be used by localization editors
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// iteration functions
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virtual StringIndex_t GetFirstStringIndex() = 0;
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// returns the next index, or INVALID_STRING_INDEX if no more strings available
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virtual StringIndex_t GetNextStringIndex(StringIndex_t index) = 0;
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// adds a single name/unicode string pair to the table
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virtual void AddString( const char *tokenName, wchar_t *unicodeString, const char *fileName ) = 0;
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// changes the value of a string
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virtual void SetValueByIndex(StringIndex_t index, wchar_t *newValue) = 0;
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// saves the entire contents of the token tree to the file
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virtual bool SaveToFile( const char *fileName ) = 0;
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// iterates the filenames
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virtual int GetLocalizationFileCount() = 0;
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virtual const char *GetLocalizationFileName(int index) = 0;
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// returns the name of the file the specified localized string is stored in
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virtual const char *GetFileNameByIndex(StringIndex_t index) = 0;
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// for development only, reloads localization files
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virtual void ReloadLocalizationFiles( ) = 0;
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virtual const char *FindAsUTF8( const char *pchTokenName ) = 0;
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// need to replace the existing ConstructString with this
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virtual void ConstructString(OUT_Z_BYTECAP(unicodeBufferSizeInBytes) wchar_t *unicodeOutput, int unicodeBufferSizeInBytes, const char *tokenName, KeyValues *localizationVariables) = 0;
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virtual void ConstructString(OUT_Z_BYTECAP(unicodeBufferSizeInBytes) wchar_t *unicodeOutput, int unicodeBufferSizeInBytes, StringIndex_t unlocalizedTextSymbol, KeyValues *localizationVariables) = 0;
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///////////////////////////////////////////////////////////////////
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// static interface
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// converts an english string to unicode
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// returns the number of wchar_t in resulting string, including null terminator
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static int ConvertANSIToUnicode(const char *ansi, OUT_Z_BYTECAP(unicodeBufferSizeInBytes) wchar_t *unicode, int unicodeBufferSizeInBytes);
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// converts an unicode string to an english string
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// unrepresentable characters are converted to system default
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// returns the number of characters in resulting string, including null terminator
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static int ConvertUnicodeToANSI(const wchar_t *unicode, OUT_Z_BYTECAP(ansiBufferSize) char *ansi, int ansiBufferSize);
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// builds a localized formatted string
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// uses the format strings first: %s1, %s2, ... unicode strings (wchar_t *)
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template < typename T >
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static void ConstructString(OUT_Z_BYTECAP(unicodeBufferSizeInBytes) T *unicodeOuput, int unicodeBufferSizeInBytes, const T *formatString, int numFormatParameters, ...)
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{
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va_list argList;
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va_start( argList, numFormatParameters );
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ConstructStringVArgsInternal( unicodeOuput, unicodeBufferSizeInBytes, formatString, numFormatParameters, argList );
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va_end( argList );
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}
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template < typename T >
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static void ConstructStringVArgs(OUT_Z_BYTECAP(unicodeBufferSizeInBytes) T *unicodeOuput, int unicodeBufferSizeInBytes, const T *formatString, int numFormatParameters, va_list argList)
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{
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ConstructStringVArgsInternal( unicodeOuput, unicodeBufferSizeInBytes, formatString, numFormatParameters, argList );
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}
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template < typename T >
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static void ConstructString(OUT_Z_BYTECAP(unicodeBufferSizeInBytes) T *unicodeOutput, int unicodeBufferSizeInBytes, const T *formatString, KeyValues *localizationVariables)
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{
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ConstructStringKeyValuesInternal( unicodeOutput, unicodeBufferSizeInBytes, formatString, localizationVariables );
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}
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// Safe version of Construct String that has the compiler infer the buffer size
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template <size_t maxLenInChars, typename T >
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static void ConstructString_safe( OUT_Z_ARRAY T (&pDest)[maxLenInChars], const T *formatString, int numFormatParameters, ... )
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{
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va_list argList;
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va_start( argList, numFormatParameters );
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ConstructStringVArgsInternal( pDest, maxLenInChars * sizeof( *pDest ), formatString, numFormatParameters, argList );
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va_end( argList );
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}
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template <size_t maxLenInChars, typename T >
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static void ConstructString_safe( OUT_Z_ARRAY T (&pDest)[maxLenInChars], const T *formatString, KeyValues *localizationVariables )
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{
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ConstructStringKeyValuesInternal( pDest, maxLenInChars * sizeof( *pDest ), formatString, localizationVariables );
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}
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// Non-static version to be safe version of the virtual functions that utilize KVP
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template <size_t maxLenInChars, typename T >
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void ConstructString_safe( OUT_Z_ARRAY T( &pDest )[maxLenInChars], const char *formatString, KeyValues *localizationVariables )
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{
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ConstructString( pDest, maxLenInChars * sizeof( *pDest ), formatString, localizationVariables );
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}
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private:
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// internal "interface"
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static void ConstructStringVArgsInternal(OUT_Z_BYTECAP(unicodeBufferSizeInBytes) char *unicodeOutput, int unicodeBufferSizeInBytes, const char *formatString, int numFormatParameters, va_list argList);
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static void ConstructStringVArgsInternal(OUT_Z_BYTECAP(unicodeBufferSizeInBytes) wchar_t *unicodeOutput, int unicodeBufferSizeInBytes, const wchar_t *formatString, int numFormatParameters, va_list argList);
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static void ConstructStringKeyValuesInternal(OUT_Z_BYTECAP(unicodeBufferSizeInBytes) char *unicodeOutput, int unicodeBufferSizeInBytes, const char *formatString, KeyValues *localizationVariables);
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static void ConstructStringKeyValuesInternal(OUT_Z_BYTECAP(unicodeBufferSizeInBytes) wchar_t *unicodeOutput, int unicodeBufferSizeInBytes, const wchar_t *formatString, KeyValues *localizationVariables);
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};
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#ifdef GC
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typedef char locchar_t;
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#define loc_snprintf Q_snprintf
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#define loc_sprintf_safe V_sprintf_safe
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#define loc_sncat Q_strncat
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#define loc_scat_safe V_strcat_safe
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#define loc_sncpy Q_strncpy
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#define loc_scpy_safe V_strcpy_safe
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#define loc_strlen Q_strlen
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#define LOCCHAR( x ) x
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#else
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typedef wchar_t locchar_t;
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#define loc_snprintf V_snwprintf
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#define loc_sprintf_safe V_swprintf_safe
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#define loc_sncat V_wcsncat
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#define loc_scat_safe V_wcscat_safe
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#define loc_sncpy Q_wcsncpy
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#define loc_scpy_safe V_wcscpy_safe
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#define loc_strlen Q_wcslen
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#define LOCCHAR(x) L ## x
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#endif
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// --------------------------------------------------------------------------
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// Purpose:
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// --------------------------------------------------------------------------
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template < typename T >
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class TypedKeyValuesStringHelper
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{
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public:
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static const T *Read( KeyValues *pKeyValues, const char *pKeyName, const T *pDefaultValue );
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static void Write( KeyValues *pKeyValues, const char *pKeyName, const T *pValue );
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};
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// --------------------------------------------------------------------------
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template < >
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class TypedKeyValuesStringHelper<char>
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{
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public:
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static const char *Read( KeyValues *pKeyValues, const char *pKeyName, const char *pDefaultValue ) { return pKeyValues->GetString( pKeyName, pDefaultValue ); }
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static void Write( KeyValues *pKeyValues, const char *pKeyName, const char *pValue ) { pKeyValues->SetString( pKeyName, pValue ); }
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};
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// --------------------------------------------------------------------------
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template < >
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class TypedKeyValuesStringHelper<wchar_t>
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{
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public:
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static const wchar_t *Read( KeyValues *pKeyValues, const char *pKeyName, const wchar_t *pDefaultValue ) { return pKeyValues->GetWString( pKeyName, pDefaultValue ); }
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static void Write( KeyValues *pKeyValues, const char *pKeyName, const wchar_t *pValue ) { pKeyValues->SetWString( pKeyName, pValue ); }
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};
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// --------------------------------------------------------------------------
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// Purpose: CLocalizedStringArg<> is a class that will take a variable of any
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// arbitary type and convert it to a string of whatever character type
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// we're using for localization (locchar_t).
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//
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// Independently it isn't very useful, though it can be used to sort-of-
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// intelligently fill out the correct format string. It's designed to be
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// used for the arguments of CConstructLocalizedString, which can be of
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// arbitrary number and type.
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//
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// If you pass in a (non-specialized) pointer, the code will assume that
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// you meant that pointer to be used as a localized string. This will
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// still fail to compile if some non-string type is passed in, but will
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// handle weird combinations of const/volatile/whatever automatically.
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// --------------------------------------------------------------------------
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// The base implementation doesn't do anything except fail to compile if you
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// use it. Getting an "incomplete type" error here means that you tried to construct
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// a localized string with a type that doesn't have a specialization.
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template < typename T >
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class CLocalizedStringArg;
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// --------------------------------------------------------------------------
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template < typename T >
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class CLocalizedStringArgStringImpl
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{
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public:
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enum { kIsValid = true };
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CLocalizedStringArgStringImpl( const locchar_t *pStr ) : m_pStr( pStr ) { }
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const locchar_t *GetLocArg() const { Assert( m_pStr ); return m_pStr; }
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private:
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const locchar_t *m_pStr;
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};
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// --------------------------------------------------------------------------
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template < typename T >
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class CLocalizedStringArg<T *> : public CLocalizedStringArgStringImpl<T>
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{
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public:
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CLocalizedStringArg( const locchar_t *pStr ) : CLocalizedStringArgStringImpl<T>( pStr ) { }
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};
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// --------------------------------------------------------------------------
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template < typename T >
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class CLocalizedStringArgPrintfImpl
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{
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public:
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enum { kIsValid = true };
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CLocalizedStringArgPrintfImpl( T value, const locchar_t *loc_Format ) { loc_snprintf( m_cBuffer, kBufferSize, loc_Format, value ); }
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const locchar_t *GetLocArg() const { return m_cBuffer; }
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private:
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enum { kBufferSize = 128, };
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locchar_t m_cBuffer[ kBufferSize ];
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};
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// --------------------------------------------------------------------------
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template < >
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class CLocalizedStringArg<uint16> : public CLocalizedStringArgPrintfImpl<uint16>
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{
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public:
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CLocalizedStringArg( uint16 unValue ) : CLocalizedStringArgPrintfImpl<uint16>( unValue, LOCCHAR("%u") ) { }
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};
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// --------------------------------------------------------------------------
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template < >
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class CLocalizedStringArg<uint32> : public CLocalizedStringArgPrintfImpl<uint32>
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{
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public:
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CLocalizedStringArg( uint32 unValue ) : CLocalizedStringArgPrintfImpl<uint32>( unValue, LOCCHAR("%u") ) { }
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};
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// --------------------------------------------------------------------------
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template < >
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class CLocalizedStringArg<uint64> : public CLocalizedStringArgPrintfImpl<uint64>
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{
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public:
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CLocalizedStringArg( uint64 unValue ) : CLocalizedStringArgPrintfImpl<uint64>( unValue, LOCCHAR("%llu") ) { }
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};
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// --------------------------------------------------------------------------
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template < >
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class CLocalizedStringArg<float> : public CLocalizedStringArgPrintfImpl<float>
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{
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public:
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// Display one decimal point if we've got a value less than one, and no point
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// if we're greater than one or are effectively zero.
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CLocalizedStringArg( float fValue )
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: CLocalizedStringArgPrintfImpl<float>( fValue,
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fabsf( fValue ) <= FLT_EPSILON || fabsf( fValue ) >= 1.0f ? LOCCHAR("%.0f") : LOCCHAR("%.1f") )
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{
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//
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}
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};
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// --------------------------------------------------------------------------
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// Purpose:
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// --------------------------------------------------------------------------
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class CConstructLocalizedString
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{
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public:
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template < typename T >
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CConstructLocalizedString( const locchar_t *loc_Format, T arg0 )
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{
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COMPILE_TIME_ASSERT( CLocalizedStringArg<T>::kIsValid );
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m_loc_Buffer[0] = '\0';
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if ( loc_Format )
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{
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::ILocalize::ConstructString( m_loc_Buffer, sizeof( m_loc_Buffer ), loc_Format, 1, CLocalizedStringArg<T>( arg0 ).GetLocArg() );
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}
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}
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template < typename T, typename U >
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CConstructLocalizedString( const locchar_t *loc_Format, T arg0, U arg1 )
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{
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COMPILE_TIME_ASSERT( CLocalizedStringArg<T>::kIsValid );
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COMPILE_TIME_ASSERT( CLocalizedStringArg<U>::kIsValid );
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m_loc_Buffer[0] = '\0';
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if ( loc_Format )
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{
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::ILocalize::ConstructString( m_loc_Buffer, sizeof( m_loc_Buffer ), loc_Format, 2, CLocalizedStringArg<T>( arg0 ).GetLocArg(), CLocalizedStringArg<U>( arg1 ).GetLocArg() );
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}
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}
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template < typename T, typename U, typename V >
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CConstructLocalizedString( const locchar_t *loc_Format, T arg0, U arg1, V arg2 )
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{
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COMPILE_TIME_ASSERT( CLocalizedStringArg<T>::kIsValid );
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COMPILE_TIME_ASSERT( CLocalizedStringArg<U>::kIsValid );
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COMPILE_TIME_ASSERT( CLocalizedStringArg<V>::kIsValid );
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m_loc_Buffer[0] = '\0';
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if ( loc_Format )
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{
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::ILocalize::ConstructString( m_loc_Buffer,
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sizeof( m_loc_Buffer ),
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loc_Format,
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3,
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CLocalizedStringArg<T>( arg0 ).GetLocArg(),
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CLocalizedStringArg<U>( arg1 ).GetLocArg(),
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CLocalizedStringArg<V>( arg2 ).GetLocArg() );
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}
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}
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template < typename T, typename U, typename V, typename W >
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CConstructLocalizedString( const locchar_t *loc_Format, T arg0, U arg1, V arg2, W arg3 )
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{
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COMPILE_TIME_ASSERT( CLocalizedStringArg<T>::kIsValid );
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COMPILE_TIME_ASSERT( CLocalizedStringArg<U>::kIsValid );
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COMPILE_TIME_ASSERT( CLocalizedStringArg<V>::kIsValid );
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COMPILE_TIME_ASSERT( CLocalizedStringArg<W>::kIsValid );
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m_loc_Buffer[0] = '\0';
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if ( loc_Format )
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{
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::ILocalize::ConstructString( m_loc_Buffer,
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sizeof( m_loc_Buffer ),
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loc_Format,
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4,
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CLocalizedStringArg<T>( arg0 ).GetLocArg(),
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CLocalizedStringArg<U>( arg1 ).GetLocArg(),
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CLocalizedStringArg<V>( arg2 ).GetLocArg(),
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CLocalizedStringArg<W>( arg3 ).GetLocArg() );
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}
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}
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template < typename T, typename U, typename V, typename W, typename X >
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CConstructLocalizedString( const locchar_t *loc_Format, T arg0, U arg1, V arg2, W arg3, X arg4 )
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{
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COMPILE_TIME_ASSERT( CLocalizedStringArg<T>::kIsValid );
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COMPILE_TIME_ASSERT( CLocalizedStringArg<U>::kIsValid );
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COMPILE_TIME_ASSERT( CLocalizedStringArg<V>::kIsValid );
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COMPILE_TIME_ASSERT( CLocalizedStringArg<W>::kIsValid );
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COMPILE_TIME_ASSERT( CLocalizedStringArg<X>::kIsValid );
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m_loc_Buffer[0] = '\0';
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if ( loc_Format )
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{
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::ILocalize::ConstructString( m_loc_Buffer,
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sizeof( m_loc_Buffer ),
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loc_Format,
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5,
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CLocalizedStringArg<T>( arg0 ).GetLocArg(),
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CLocalizedStringArg<U>( arg1 ).GetLocArg(),
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CLocalizedStringArg<V>( arg2 ).GetLocArg(),
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CLocalizedStringArg<W>( arg3 ).GetLocArg(),
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CLocalizedStringArg<X>( arg4 ).GetLocArg() );
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}
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}
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template < typename T, typename U, typename V, typename W, typename X, typename Y >
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CConstructLocalizedString( const locchar_t *loc_Format, T arg0, U arg1, V arg2, W arg3, X arg4, Y arg5 )
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{
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COMPILE_TIME_ASSERT( CLocalizedStringArg<T>::kIsValid );
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COMPILE_TIME_ASSERT( CLocalizedStringArg<U>::kIsValid );
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COMPILE_TIME_ASSERT( CLocalizedStringArg<V>::kIsValid );
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COMPILE_TIME_ASSERT( CLocalizedStringArg<W>::kIsValid );
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COMPILE_TIME_ASSERT( CLocalizedStringArg<X>::kIsValid );
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COMPILE_TIME_ASSERT( CLocalizedStringArg<Y>::kIsValid );
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m_loc_Buffer[0] = '\0';
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if ( loc_Format )
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{
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::ILocalize::ConstructString( m_loc_Buffer,
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sizeof( m_loc_Buffer ),
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loc_Format,
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6,
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CLocalizedStringArg<T>( arg0 ).GetLocArg(),
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CLocalizedStringArg<U>( arg1 ).GetLocArg(),
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CLocalizedStringArg<V>( arg2 ).GetLocArg(),
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CLocalizedStringArg<W>( arg3 ).GetLocArg(),
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CLocalizedStringArg<X>( arg4 ).GetLocArg(),
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CLocalizedStringArg<Y>( arg5 ).GetLocArg() );
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}
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}
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template < typename T, typename U, typename V, typename W, typename X, typename Y, typename Z >
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CConstructLocalizedString( const locchar_t *loc_Format, T arg0, U arg1, V arg2, W arg3, X arg4, Y arg5, Z arg6)
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{
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COMPILE_TIME_ASSERT( CLocalizedStringArg<T>::kIsValid );
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COMPILE_TIME_ASSERT( CLocalizedStringArg<U>::kIsValid );
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COMPILE_TIME_ASSERT( CLocalizedStringArg<V>::kIsValid );
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COMPILE_TIME_ASSERT( CLocalizedStringArg<W>::kIsValid );
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COMPILE_TIME_ASSERT( CLocalizedStringArg<X>::kIsValid );
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COMPILE_TIME_ASSERT( CLocalizedStringArg<Y>::kIsValid );
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COMPILE_TIME_ASSERT( CLocalizedStringArg<Z>::kIsValid );
|
|
|
|
m_loc_Buffer[0] = '\0';
|
|
|
|
if ( loc_Format )
|
|
{
|
|
::ILocalize::ConstructString( m_loc_Buffer,
|
|
sizeof( m_loc_Buffer ),
|
|
loc_Format,
|
|
7,
|
|
CLocalizedStringArg<T>( arg0 ).GetLocArg(),
|
|
CLocalizedStringArg<U>( arg1 ).GetLocArg(),
|
|
CLocalizedStringArg<V>( arg2 ).GetLocArg(),
|
|
CLocalizedStringArg<W>( arg3 ).GetLocArg(),
|
|
CLocalizedStringArg<X>( arg4 ).GetLocArg(),
|
|
CLocalizedStringArg<Y>( arg5 ).GetLocArg(),
|
|
CLocalizedStringArg<Z>( arg6 ).GetLocArg() );
|
|
}
|
|
}
|
|
|
|
CConstructLocalizedString( const locchar_t *loc_Format, KeyValues *pKeyValues )
|
|
{
|
|
m_loc_Buffer[0] = '\0';
|
|
|
|
if ( loc_Format && pKeyValues )
|
|
{
|
|
::ILocalize::ConstructString( m_loc_Buffer, sizeof( m_loc_Buffer ), loc_Format, pKeyValues );
|
|
}
|
|
}
|
|
|
|
operator const locchar_t *() const
|
|
{
|
|
return m_loc_Buffer;
|
|
}
|
|
|
|
private:
|
|
enum { kBufferSize = 512, };
|
|
locchar_t m_loc_Buffer[ kBufferSize ];
|
|
};
|
|
|
|
#endif // TIER1_ILOCALIZE_H
|