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hl2sdk/tier1/ilocalize.cpp
Nicholas Hastings 3957adff10 Sync with upstream (Issue #30).
Recompiled tier1 and mathlib  for all platforms will come in next commit.
2016-11-30 10:01:15 -05:00

262 lines
8.2 KiB
C++

//========= Copyright Valve Corporation, All rights reserved. ============//
#if defined( WIN32 ) && !defined( _X360 )
#include <windows.h>
#elif defined( POSIX )
#include <iconv.h>
#endif
#include "tier1/ilocalize.h"
#include "utlstring.h"
#ifdef _WIN32
#pragma warning( disable: 4018 ) // '<' : signed/unsigned mismatch
#endif
//-----------------------------------------------------------------------------
// Purpose: converts an english string to unicode
//-----------------------------------------------------------------------------
int ILocalize::ConvertANSIToUnicode(const char *ansi, wchar_t *unicode, int unicodeBufferSizeInBytes)
{
#ifdef POSIX
// Q_UTF8ToUnicode returns the number of bytes. This function is expected to return the number of chars.
return Q_UTF8ToUnicode(ansi, unicode, unicodeBufferSizeInBytes) / sizeof( wchar_t );
#else
int chars = MultiByteToWideChar(CP_UTF8, 0, ansi, -1, unicode, unicodeBufferSizeInBytes / sizeof(wchar_t));
unicode[(unicodeBufferSizeInBytes / sizeof(wchar_t)) - 1] = 0;
return chars;
#endif
}
//-----------------------------------------------------------------------------
// Purpose: converts an unicode string to an english string
//-----------------------------------------------------------------------------
int ILocalize::ConvertUnicodeToANSI(const wchar_t *unicode, char *ansi, int ansiBufferSize)
{
#ifdef POSIX
return Q_UnicodeToUTF8(unicode, ansi, ansiBufferSize);
#else
int result = WideCharToMultiByte(CP_UTF8, 0, unicode, -1, ansi, ansiBufferSize, NULL, NULL);
ansi[ansiBufferSize - 1] = 0;
return result;
#endif
}
//-----------------------------------------------------------------------------
// Purpose: construct string helper
//-----------------------------------------------------------------------------
template < typename T >
void ConstructStringVArgsInternal_Impl(T *unicodeOutput, int unicodeBufferSizeInBytes, const T *formatString, int numFormatParameters, va_list argList)
{
static const int k_cMaxFormatStringArguments = 9; // We only look one character ahead and start at %s1
Assert( numFormatParameters <= k_cMaxFormatStringArguments );
// Safety check
if ( unicodeOutput == NULL || unicodeBufferSizeInBytes < 1 )
{
return;
}
if ( !formatString || numFormatParameters > k_cMaxFormatStringArguments )
{
unicodeOutput[0] = 0;
return;
}
int unicodeBufferSize = unicodeBufferSizeInBytes / sizeof(T);
const T *searchPos = formatString;
T *outputPos = unicodeOutput;
T *argParams[k_cMaxFormatStringArguments];
for ( int i = 0; i < numFormatParameters; i++ )
{
argParams[i] = va_arg( argList, T* );
}
//assumes we can't have %s10
//assume both are 0 terminated?
int formatLength = StringFuncs<T>::Length( formatString );
while ( searchPos[0] != '\0' && unicodeBufferSize > 1 )
{
if ( formatLength >= 3 && searchPos[0] == '%' && searchPos[1] == 's' )
{
//this is an escape sequence - %s1, %s2 etc, up to %s9
int argindex = ( searchPos[2] ) - '0' - 1; // 0 for %s1, 1 for %s2, etc.
if ( argindex < 0 || argindex > k_cMaxFormatStringArguments )
{
Warning( "Bad format string in CLocalizeStringTable::ConstructString\n" );
*outputPos = '\0';
return;
}
if ( argindex < numFormatParameters )
{
T const *param = argParams[argindex];
if ( param == NULL )
param = StringFuncs<T>::NullDebugString();
int paramSize = StringFuncs<T>::Length(param);
if (paramSize >= unicodeBufferSize)
{
paramSize = unicodeBufferSize - 1;
}
memcpy(outputPos, param, paramSize * sizeof(T));
unicodeBufferSize -= paramSize;
outputPos += paramSize;
searchPos += 3;
formatLength -= 3;
}
else
{
AssertMsg( argindex < numFormatParameters, "ConstructStringVArgsInternal_Impl() - Found a %%s# escape sequence whose index was more than the number of args." );
//copy it over, char by char
*outputPos = *searchPos;
outputPos++;
unicodeBufferSize--;
searchPos++;
formatLength--;
}
}
else
{
//copy it over, char by char
*outputPos = *searchPos;
outputPos++;
unicodeBufferSize--;
searchPos++;
formatLength--;
}
}
// ensure null termination
Assert( outputPos - unicodeOutput < unicodeBufferSizeInBytes/sizeof(T) );
*outputPos = L'\0';
}
void ILocalize::ConstructStringVArgsInternal(char *unicodeOutput, int unicodeBufferSizeInBytes, const char *formatString, int numFormatParameters, va_list argList)
{
ConstructStringVArgsInternal_Impl<char>( unicodeOutput, unicodeBufferSizeInBytes, formatString, numFormatParameters, argList );
}
void ILocalize::ConstructStringVArgsInternal(wchar_t *unicodeOutput, int unicodeBufferSizeInBytes, const wchar_t *formatString, int numFormatParameters, va_list argList)
{
ConstructStringVArgsInternal_Impl<wchar_t>( unicodeOutput, unicodeBufferSizeInBytes, formatString, numFormatParameters, argList );
}
//-----------------------------------------------------------------------------
// Purpose: construct string helper
//-----------------------------------------------------------------------------
template < typename T >
const T *GetTypedKeyValuesString( KeyValues *pKeyValues, const char *pKeyName );
template < >
const char *GetTypedKeyValuesString<char>( KeyValues *pKeyValues, const char *pKeyName )
{
return pKeyValues->GetString( pKeyName, "[unknown]" );
}
template < >
const wchar_t *GetTypedKeyValuesString<wchar_t>( KeyValues *pKeyValues, const char *pKeyName )
{
return pKeyValues->GetWString( pKeyName, L"[unknown]" );
}
template < typename T >
void ConstructStringKeyValuesInternal_Impl( T *unicodeOutput, int unicodeBufferSizeInBytes, const T *formatString, KeyValues *localizationVariables )
{
T *outputPos = unicodeOutput;
//assumes we can't have %s10
//assume both are 0 terminated?
int unicodeBufferSize = unicodeBufferSizeInBytes / sizeof(T);
while ( *formatString != '\0' && unicodeBufferSize > 1 )
{
bool shouldAdvance = true;
if ( *formatString == '%' )
{
// this is an escape sequence that specifies a variable name
if ( formatString[1] == 's' && formatString[2] >= '0' && formatString[2] <= '9' )
{
// old style escape sequence, ignore
}
else if ( formatString[1] == '%' )
{
// just a '%' char, just write the second one
formatString++;
}
else if ( localizationVariables )
{
// get out the variable name
const T *varStart = formatString + 1;
const T *varEnd = StringFuncs<T>::FindChar( varStart, '%' );
if ( varEnd && *varEnd == '%' )
{
shouldAdvance = false;
// assume variable names must be ascii, do a quick convert
char variableName[32];
char *vset = variableName;
for ( const T *pws = varStart; pws < varEnd && (vset < variableName + sizeof(variableName) - 1); ++pws, ++vset )
{
*vset = (char)*pws;
}
*vset = 0;
// look up the variable name
const T *value = GetTypedKeyValuesString<T>( localizationVariables, variableName );
int paramSize = StringFuncs<T>::Length( value );
if (paramSize >= unicodeBufferSize)
{
paramSize = MAX( 0, unicodeBufferSize - 1 );
}
StringFuncs<T>::Copy( outputPos, value, paramSize );
unicodeBufferSize -= paramSize;
outputPos += paramSize;
formatString = varEnd + 1;
}
}
}
if (shouldAdvance)
{
//copy it over, char by char
*outputPos = *formatString;
outputPos++;
unicodeBufferSize--;
formatString++;
}
}
// ensure null termination
*outputPos = '\0';
}
void ILocalize::ConstructStringKeyValuesInternal(char *unicodeOutput, int unicodeBufferSizeInBytes, const char *formatString, KeyValues *localizationVariables)
{
ConstructStringKeyValuesInternal_Impl<char>( unicodeOutput, unicodeBufferSizeInBytes, formatString, localizationVariables );
}
void ILocalize::ConstructStringKeyValuesInternal(wchar_t *unicodeOutput, int unicodeBufferSizeInBytes, const wchar_t *formatString, KeyValues *localizationVariables)
{
ConstructStringKeyValuesInternal_Impl<wchar_t>( unicodeOutput, unicodeBufferSizeInBytes, formatString, localizationVariables );
}