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hl2sdk/tier1/utlbuffer.cpp

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2013-06-27 06:22:04 +08:00
//========= Copyright Valve Corporation, All rights reserved. ============//
//
// $Header: $
// $NoKeywords: $
//
// Serialization buffer
//===========================================================================//
#ifdef _WIN32
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#pragma warning (disable : 4514)
#endif
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#include "utlbuffer.h"
#include <stdio.h>
#include <stdarg.h>
#include <ctype.h>
#include <stdlib.h>
#include <limits.h>
#include "tier1/strtools.h"
#include "tier1/characterset.h"
// memdbgon must be the last include file in a .cpp file!!!
#include "tier0/memdbgon.h"
//-----------------------------------------------------------------------------
// Character conversions for C strings
//-----------------------------------------------------------------------------
class CUtlCStringConversion : public CUtlCharConversion
{
public:
CUtlCStringConversion( char nEscapeChar, const char *pDelimiter, int nCount, ConversionArray_t *pArray );
// Finds a conversion for the passed-in string, returns length
virtual char FindConversion( const char *pString, int *pLength );
private:
char m_pConversion[256];
};
//-----------------------------------------------------------------------------
// Character conversions for no-escape sequence strings
//-----------------------------------------------------------------------------
class CUtlNoEscConversion : public CUtlCharConversion
{
public:
CUtlNoEscConversion( char nEscapeChar, const char *pDelimiter, int nCount, ConversionArray_t *pArray ) :
CUtlCharConversion( nEscapeChar, pDelimiter, nCount, pArray ) {}
// Finds a conversion for the passed-in string, returns length
virtual char FindConversion( const char *pString, int *pLength ) { *pLength = 0; return 0; }
};
//-----------------------------------------------------------------------------
// List of character conversions
//-----------------------------------------------------------------------------
BEGIN_CUSTOM_CHAR_CONVERSION( CUtlCStringConversion, s_StringCharConversion, "\"", '\\' )
{ '\n', "n" },
{ '\t', "t" },
{ '\v', "v" },
{ '\b', "b" },
{ '\r', "r" },
{ '\f', "f" },
{ '\a', "a" },
{ '\\', "\\" },
{ '\?', "\?" },
{ '\'', "\'" },
{ '\"', "\"" },
END_CUSTOM_CHAR_CONVERSION( CUtlCStringConversion, s_StringCharConversion, "\"", '\\' )
CUtlCharConversion *GetCStringCharConversion()
{
return &s_StringCharConversion;
}
BEGIN_CUSTOM_CHAR_CONVERSION( CUtlNoEscConversion, s_NoEscConversion, "\"", 0x7F )
{ 0x7F, "" },
END_CUSTOM_CHAR_CONVERSION( CUtlNoEscConversion, s_NoEscConversion, "\"", 0x7F )
CUtlCharConversion *GetNoEscCharConversion()
{
return &s_NoEscConversion;
}
//-----------------------------------------------------------------------------
// Constructor
//-----------------------------------------------------------------------------
CUtlCStringConversion::CUtlCStringConversion( char nEscapeChar, const char *pDelimiter, int nCount, ConversionArray_t *pArray ) :
CUtlCharConversion( nEscapeChar, pDelimiter, nCount, pArray )
{
memset( m_pConversion, 0x0, sizeof(m_pConversion) );
for ( int i = 0; i < nCount; ++i )
{
m_pConversion[ (unsigned char) pArray[i].m_pReplacementString[0] ] = pArray[i].m_nActualChar;
}
}
// Finds a conversion for the passed-in string, returns length
char CUtlCStringConversion::FindConversion( const char *pString, int *pLength )
{
char c = m_pConversion[ (unsigned char) pString[0] ];
*pLength = (c != '\0') ? 1 : 0;
return c;
}
//-----------------------------------------------------------------------------
// Constructor
//-----------------------------------------------------------------------------
CUtlCharConversion::CUtlCharConversion( char nEscapeChar, const char *pDelimiter, int nCount, ConversionArray_t *pArray )
{
m_nEscapeChar = nEscapeChar;
m_pDelimiter = pDelimiter;
m_nCount = nCount;
m_nDelimiterLength = Q_strlen( pDelimiter );
m_nMaxConversionLength = 0;
memset( m_pReplacements, 0, sizeof(m_pReplacements) );
for ( int i = 0; i < nCount; ++i )
{
m_pList[i] = pArray[i].m_nActualChar;
ConversionInfo_t &info = m_pReplacements[ (unsigned char) m_pList[i] ];
Assert( info.m_pReplacementString == 0 );
info.m_pReplacementString = pArray[i].m_pReplacementString;
info.m_nLength = Q_strlen( info.m_pReplacementString );
if ( info.m_nLength > m_nMaxConversionLength )
{
m_nMaxConversionLength = info.m_nLength;
}
}
}
//-----------------------------------------------------------------------------
// Escape character + delimiter
//-----------------------------------------------------------------------------
char CUtlCharConversion::GetEscapeChar() const
{
return m_nEscapeChar;
}
const char *CUtlCharConversion::GetDelimiter() const
{
return m_pDelimiter;
}
int CUtlCharConversion::GetDelimiterLength() const
{
return m_nDelimiterLength;
}
//-----------------------------------------------------------------------------
// Constructor
//-----------------------------------------------------------------------------
const char *CUtlCharConversion::GetConversionString( char c ) const
{
return m_pReplacements[ (unsigned char) c ].m_pReplacementString;
}
int CUtlCharConversion::GetConversionLength( char c ) const
{
return m_pReplacements[ (unsigned char) c ].m_nLength;
}
int CUtlCharConversion::MaxConversionLength() const
{
return m_nMaxConversionLength;
}
//-----------------------------------------------------------------------------
// Finds a conversion for the passed-in string, returns length
//-----------------------------------------------------------------------------
char CUtlCharConversion::FindConversion( const char *pString, int *pLength )
{
for ( int i = 0; i < m_nCount; ++i )
{
if ( !Q_strcmp( pString, m_pReplacements[ (unsigned char) m_pList[i] ].m_pReplacementString ) )
{
*pLength = m_pReplacements[ (unsigned char) m_pList[i] ].m_nLength;
return m_pList[i];
}
}
*pLength = 0;
return '\0';
}
//-----------------------------------------------------------------------------
// constructors
//-----------------------------------------------------------------------------
CUtlBuffer::CUtlBuffer( int growSize, int initSize, int nFlags ) :
m_Error(0)
{
MEM_ALLOC_CREDIT();
m_Memory.Init( growSize, initSize );
m_Get = 0;
m_Put = 0;
m_nTab = 0;
m_nOffset = 0;
m_Flags = nFlags;
if ( (initSize != 0) && !IsReadOnly() )
{
m_nMaxPut = -1;
AddNullTermination();
}
else
{
m_nMaxPut = 0;
}
SetOverflowFuncs( &CUtlBuffer::GetOverflow, &CUtlBuffer::PutOverflow );
}
CUtlBuffer::CUtlBuffer( const void *pBuffer, int nSize, int nFlags ) :
m_Memory( (unsigned char*)pBuffer, nSize ), m_Error(0)
{
Assert( nSize != 0 );
m_Get = 0;
m_Put = 0;
m_nTab = 0;
m_nOffset = 0;
m_Flags = nFlags;
if ( IsReadOnly() )
{
m_nMaxPut = nSize;
}
else
{
m_nMaxPut = -1;
AddNullTermination();
}
SetOverflowFuncs( &CUtlBuffer::GetOverflow, &CUtlBuffer::PutOverflow );
}
//-----------------------------------------------------------------------------
// Modifies the buffer to be binary or text; Blows away the buffer and the CONTAINS_CRLF value.
//-----------------------------------------------------------------------------
void CUtlBuffer::SetBufferType( bool bIsText, bool bContainsCRLF )
{
#ifdef _DEBUG
// If the buffer is empty, there is no opportunity for this stuff to fail
if ( TellMaxPut() != 0 )
{
if ( IsText() )
{
if ( bIsText )
{
Assert( ContainsCRLF() == bContainsCRLF );
}
else
{
Assert( ContainsCRLF() );
}
}
else
{
if ( bIsText )
{
Assert( bContainsCRLF );
}
}
}
#endif
if ( bIsText )
{
m_Flags |= TEXT_BUFFER;
}
else
{
m_Flags &= ~TEXT_BUFFER;
}
if ( bContainsCRLF )
{
m_Flags |= CONTAINS_CRLF;
}
else
{
m_Flags &= ~CONTAINS_CRLF;
}
}
//-----------------------------------------------------------------------------
// Attaches the buffer to external memory....
//-----------------------------------------------------------------------------
void CUtlBuffer::SetExternalBuffer( void* pMemory, int nSize, int nInitialPut, int nFlags )
{
m_Memory.SetExternalBuffer( (unsigned char*)pMemory, nSize );
// Reset all indices; we just changed memory
m_Get = 0;
m_Put = nInitialPut;
m_nTab = 0;
m_Error = 0;
m_nOffset = 0;
m_Flags = nFlags;
m_nMaxPut = -1;
AddNullTermination();
}
//-----------------------------------------------------------------------------
// Assumes an external buffer but manages its deletion
//-----------------------------------------------------------------------------
void CUtlBuffer::AssumeMemory( void *pMemory, int nSize, int nInitialPut, int nFlags )
{
m_Memory.AssumeMemory( (unsigned char*) pMemory, nSize );
// Reset all indices; we just changed memory
m_Get = 0;
m_Put = nInitialPut;
m_nTab = 0;
m_Error = 0;
m_nOffset = 0;
m_Flags = nFlags;
m_nMaxPut = -1;
AddNullTermination();
}
//-----------------------------------------------------------------------------
// Makes sure we've got at least this much memory
//-----------------------------------------------------------------------------
void CUtlBuffer::EnsureCapacity( int num )
{
MEM_ALLOC_CREDIT();
// Add one extra for the null termination
num += 1;
if ( m_Memory.IsExternallyAllocated() )
{
if ( IsGrowable() && ( m_Memory.NumAllocated() < num ) )
{
m_Memory.ConvertToGrowableMemory( 0 );
}
else
{
num -= 1;
}
}
m_Memory.EnsureCapacity( num );
}
//-----------------------------------------------------------------------------
// Base get method from which all others derive
//-----------------------------------------------------------------------------
void CUtlBuffer::Get( void* pMem, int size )
{
if ( size > 0 && CheckGet( size ) )
{
int Index = m_Get - m_nOffset;
Assert( m_Memory.IsIdxValid( Index ) && m_Memory.IsIdxValid( Index + size - 1 ) );
memcpy( pMem, &m_Memory[ Index ], size );
m_Get += size;
}
}
//-----------------------------------------------------------------------------
// This will get at least 1 byte and up to nSize bytes.
// It will return the number of bytes actually read.
//-----------------------------------------------------------------------------
int CUtlBuffer::GetUpTo( void *pMem, int nSize )
{
if ( CheckArbitraryPeekGet( 0, nSize ) )
{
int Index = m_Get - m_nOffset;
Assert( m_Memory.IsIdxValid( Index ) && m_Memory.IsIdxValid( Index + nSize - 1 ) );
memcpy( pMem, &m_Memory[ Index ], nSize );
m_Get += nSize;
return nSize;
}
return 0;
}
//-----------------------------------------------------------------------------
// Eats whitespace
//-----------------------------------------------------------------------------
void CUtlBuffer::EatWhiteSpace()
{
if ( IsText() && IsValid() )
{
while ( CheckGet( sizeof(char) ) )
{
if ( !isspace( *(const unsigned char*)PeekGet() ) )
break;
m_Get += sizeof(char);
}
}
}
//-----------------------------------------------------------------------------
// Eats C++ style comments
//-----------------------------------------------------------------------------
bool CUtlBuffer::EatCPPComment()
{
if ( IsText() && IsValid() )
{
// If we don't have a a c++ style comment next, we're done
const char *pPeek = (const char *)PeekGet( 2 * sizeof(char), 0 );
if ( !pPeek || ( pPeek[0] != '/' ) || ( pPeek[1] != '/' ) )
return false;
// Deal with c++ style comments
m_Get += 2;
// read complete line
for ( char c = GetChar(); IsValid(); c = GetChar() )
{
if ( c == '\n' )
break;
}
return true;
}
return false;
}
//-----------------------------------------------------------------------------
// Peeks how much whitespace to eat
//-----------------------------------------------------------------------------
int CUtlBuffer::PeekWhiteSpace( int nOffset )
{
if ( !IsText() || !IsValid() )
return 0;
while ( CheckPeekGet( nOffset, sizeof(char) ) )
{
if ( !isspace( *(unsigned char*)PeekGet( nOffset ) ) )
break;
nOffset += sizeof(char);
}
return nOffset;
}
//-----------------------------------------------------------------------------
// Peek size of sting to come, check memory bound
//-----------------------------------------------------------------------------
int CUtlBuffer::PeekStringLength()
{
if ( !IsValid() )
return 0;
// Eat preceeding whitespace
int nOffset = 0;
if ( IsText() )
{
nOffset = PeekWhiteSpace( nOffset );
}
int nStartingOffset = nOffset;
do
{
int nPeekAmount = 128;
// NOTE: Add 1 for the terminating zero!
if ( !CheckArbitraryPeekGet( nOffset, nPeekAmount ) )
{
if ( nOffset == nStartingOffset )
return 0;
return nOffset - nStartingOffset + 1;
}
const char *pTest = (const char *)PeekGet( nOffset );
if ( !IsText() )
{
for ( int i = 0; i < nPeekAmount; ++i )
{
// The +1 here is so we eat the terminating 0
if ( pTest[i] == 0 )
return (i + nOffset - nStartingOffset + 1);
}
}
else
{
for ( int i = 0; i < nPeekAmount; ++i )
{
// The +1 here is so we eat the terminating 0
if ( isspace((unsigned char)pTest[i]) || (pTest[i] == 0) )
return (i + nOffset - nStartingOffset + 1);
}
}
nOffset += nPeekAmount;
} while ( true );
}
//-----------------------------------------------------------------------------
// Peek size of line to come, check memory bound
//-----------------------------------------------------------------------------
int CUtlBuffer::PeekLineLength()
{
if ( !IsValid() )
return 0;
int nOffset = 0;
int nStartingOffset = nOffset;
do
{
int nPeekAmount = 128;
// NOTE: Add 1 for the terminating zero!
if ( !CheckArbitraryPeekGet( nOffset, nPeekAmount ) )
{
if ( nOffset == nStartingOffset )
return 0;
return nOffset - nStartingOffset + 1;
}
const char *pTest = (const char *)PeekGet( nOffset );
for ( int i = 0; i < nPeekAmount; ++i )
{
// The +2 here is so we eat the terminating '\n' and 0
if ( pTest[i] == '\n' || pTest[i] == '\r' )
return (i + nOffset - nStartingOffset + 2);
// The +1 here is so we eat the terminating 0
if ( pTest[i] == 0 )
return (i + nOffset - nStartingOffset + 1);
}
nOffset += nPeekAmount;
} while ( true );
}
//-----------------------------------------------------------------------------
// Does the next bytes of the buffer match a pattern?
//-----------------------------------------------------------------------------
bool CUtlBuffer::PeekStringMatch( int nOffset, const char *pString, int nLen )
{
if ( !CheckPeekGet( nOffset, nLen ) )
return false;
return !Q_strncmp( (const char*)PeekGet(nOffset), pString, nLen );
}
//-----------------------------------------------------------------------------
// This version of PeekStringLength converts \" to \\ and " to \, etc.
// It also reads a " at the beginning and end of the string
//-----------------------------------------------------------------------------
int CUtlBuffer::PeekDelimitedStringLength( CUtlCharConversion *pConv, bool bActualSize )
{
if ( !IsText() || !pConv )
return PeekStringLength();
// Eat preceeding whitespace
int nOffset = 0;
if ( IsText() )
{
nOffset = PeekWhiteSpace( nOffset );
}
if ( !PeekStringMatch( nOffset, pConv->GetDelimiter(), pConv->GetDelimiterLength() ) )
return 0;
// Try to read ending ", but don't accept \"
int nActualStart = nOffset;
nOffset += pConv->GetDelimiterLength();
int nLen = 1; // Starts at 1 for the '\0' termination
do
{
if ( PeekStringMatch( nOffset, pConv->GetDelimiter(), pConv->GetDelimiterLength() ) )
break;
if ( !CheckPeekGet( nOffset, 1 ) )
break;
char c = *(const char*)PeekGet( nOffset );
++nLen;
++nOffset;
if ( c == pConv->GetEscapeChar() )
{
int nLength = pConv->MaxConversionLength();
if ( !CheckArbitraryPeekGet( nOffset, nLength ) )
break;
pConv->FindConversion( (const char*)PeekGet(nOffset), &nLength );
nOffset += nLength;
}
} while (true);
return bActualSize ? nLen : nOffset - nActualStart + pConv->GetDelimiterLength() + 1;
}
//-----------------------------------------------------------------------------
// Reads a null-terminated string
//-----------------------------------------------------------------------------
void CUtlBuffer::GetStringInternal( char *pString, size_t maxLenInChars )
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{
if ( !IsValid() )
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{
*pString = 0;
return;
}
Assert( maxLenInChars != 0 );
if ( maxLenInChars == 0 )
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{
return;
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}
// Remember, this *includes* the null character
// It will be 0, however, if the buffer is empty.
int nLen = PeekStringLength();
if ( IsText() )
{
EatWhiteSpace();
}
if ( nLen <= 0 )
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{
*pString = 0;
m_Error |= GET_OVERFLOW;
return;
}
const size_t nCharsToRead = V_min( (size_t)nLen, maxLenInChars ) - 1;
Get( pString, nCharsToRead );
pString[nCharsToRead] = 0;
if ( (size_t)nLen > (nCharsToRead + 1) )
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{
SeekGet( SEEK_CURRENT, nLen - (nCharsToRead + 1) );
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}
// Read the terminating NULL in binary formats
if ( !IsText() )
{
VerifyEquals( GetChar(), 0 );
}
}
//-----------------------------------------------------------------------------
// Reads up to and including the first \n
//-----------------------------------------------------------------------------
void CUtlBuffer::GetLine( char* pLine, int nMaxChars )
{
Assert( IsText() && !ContainsCRLF() );
if ( !IsValid() )
{
*pLine = 0;
return;
}
if ( nMaxChars == 0 )
{
nMaxChars = INT_MAX;
}
// Remember, this *includes* the null character
// It will be 0, however, if the buffer is empty.
int nLen = PeekLineLength();
if ( nLen == 0 )
{
*pLine = 0;
m_Error |= GET_OVERFLOW;
return;
}
// Strip off the terminating NULL
if ( nLen <= nMaxChars )
{
Get( pLine, nLen - 1 );
pLine[ nLen - 1 ] = 0;
}
else
{
Get( pLine, nMaxChars - 1 );
pLine[ nMaxChars - 1 ] = 0;
SeekGet( SEEK_CURRENT, nLen - 1 - nMaxChars );
}
}
//-----------------------------------------------------------------------------
// This version of GetString converts \ to \\ and " to \", etc.
// It also places " at the beginning and end of the string
//-----------------------------------------------------------------------------
char CUtlBuffer::GetDelimitedCharInternal( CUtlCharConversion *pConv )
{
char c = GetChar();
if ( c == pConv->GetEscapeChar() )
{
int nLength = pConv->MaxConversionLength();
if ( !CheckArbitraryPeekGet( 0, nLength ) )
return '\0';
c = pConv->FindConversion( (const char *)PeekGet(), &nLength );
SeekGet( SEEK_CURRENT, nLength );
}
return c;
}
char CUtlBuffer::GetDelimitedChar( CUtlCharConversion *pConv )
{
if ( !IsText() || !pConv )
return GetChar( );
return GetDelimitedCharInternal( pConv );
}
void CUtlBuffer::GetDelimitedString( CUtlCharConversion *pConv, char *pString, int nMaxChars )
{
if ( !IsText() || !pConv )
{
GetStringInternal( pString, nMaxChars );
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return;
}
if (!IsValid())
{
*pString = 0;
return;
}
if ( nMaxChars == 0 )
{
nMaxChars = INT_MAX;
}
EatWhiteSpace();
if ( !PeekStringMatch( 0, pConv->GetDelimiter(), pConv->GetDelimiterLength() ) )
return;
// Pull off the starting delimiter
SeekGet( SEEK_CURRENT, pConv->GetDelimiterLength() );
int nRead = 0;
while ( IsValid() )
{
if ( PeekStringMatch( 0, pConv->GetDelimiter(), pConv->GetDelimiterLength() ) )
{
SeekGet( SEEK_CURRENT, pConv->GetDelimiterLength() );
break;
}
char c = GetDelimitedCharInternal( pConv );
if ( nRead < nMaxChars )
{
pString[nRead] = c;
++nRead;
}
}
if ( nRead >= nMaxChars )
{
nRead = nMaxChars - 1;
}
pString[nRead] = '\0';
}
//-----------------------------------------------------------------------------
// Checks if a get is ok
//-----------------------------------------------------------------------------
bool CUtlBuffer::CheckGet( int nSize )
{
if ( m_Error & GET_OVERFLOW )
return false;
if ( TellMaxPut() < m_Get + nSize )
{
m_Error |= GET_OVERFLOW;
return false;
}
if ( ( m_Get < m_nOffset ) || ( m_Memory.NumAllocated() < m_Get - m_nOffset + nSize ) )
{
if ( !OnGetOverflow( nSize ) )
{
m_Error |= GET_OVERFLOW;
return false;
}
}
return true;
}
//-----------------------------------------------------------------------------
// Checks if a peek get is ok
//-----------------------------------------------------------------------------
bool CUtlBuffer::CheckPeekGet( int nOffset, int nSize )
{
if ( m_Error & GET_OVERFLOW )
return false;
// Checking for peek can't set the overflow flag
bool bOk = CheckGet( nOffset + nSize );
m_Error &= ~GET_OVERFLOW;
return bOk;
}
//-----------------------------------------------------------------------------
// Call this to peek arbitrarily long into memory. It doesn't fail unless
// it can't read *anything* new
//-----------------------------------------------------------------------------
bool CUtlBuffer::CheckArbitraryPeekGet( int nOffset, int &nIncrement )
{
if ( TellGet() + nOffset >= TellMaxPut() )
{
nIncrement = 0;
return false;
}
if ( TellGet() + nOffset + nIncrement > TellMaxPut() )
{
nIncrement = TellMaxPut() - TellGet() - nOffset;
}
// NOTE: CheckPeekGet could modify TellMaxPut for streaming files
// We have to call TellMaxPut again here
CheckPeekGet( nOffset, nIncrement );
int nMaxGet = TellMaxPut() - TellGet();
if ( nMaxGet < nIncrement )
{
nIncrement = nMaxGet;
}
return (nIncrement != 0);
}
//-----------------------------------------------------------------------------
// Peek part of the butt
//-----------------------------------------------------------------------------
const void* CUtlBuffer::PeekGet( int nMaxSize, int nOffset )
{
if ( !CheckPeekGet( nOffset, nMaxSize ) )
return NULL;
int Index = m_Get + nOffset - m_nOffset;
Assert( m_Memory.IsIdxValid( Index ) && m_Memory.IsIdxValid( Index + nMaxSize - 1 ) );
return &m_Memory[ Index ];
}
//-----------------------------------------------------------------------------
// Change where I'm reading
//-----------------------------------------------------------------------------
void CUtlBuffer::SeekGet( SeekType_t type, int offset )
{
switch( type )
{
case SEEK_HEAD:
m_Get = offset;
break;
case SEEK_CURRENT:
m_Get += offset;
break;
case SEEK_TAIL:
m_Get = m_nMaxPut - offset;
break;
}
if ( m_Get > m_nMaxPut )
{
m_Error |= GET_OVERFLOW;
}
else
{
m_Error &= ~GET_OVERFLOW;
if ( m_Get < m_nOffset || m_Get >= m_nOffset + Size() )
{
OnGetOverflow( -1 );
}
}
}
//-----------------------------------------------------------------------------
// Parse...
//-----------------------------------------------------------------------------
#ifdef _WIN32
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#pragma warning ( disable : 4706 )
#endif
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int CUtlBuffer::VaScanf( const char* pFmt, va_list list )
{
Assert( pFmt );
if ( m_Error || !IsText() )
return 0;
int numScanned = 0;
int nLength;
char c;
char* pEnd;
while ( (c = *pFmt++) )
{
// Stop if we hit the end of the buffer
if ( m_Get >= TellMaxPut() )
{
m_Error |= GET_OVERFLOW;
break;
}
switch (c)
{
case ' ':
// eat all whitespace
EatWhiteSpace();
break;
case '%':
{
// Conversion character... try to convert baby!
char type = *pFmt++;
if (type == 0)
return numScanned;
switch(type)
{
case 'c':
{
char* ch = va_arg( list, char * );
if ( CheckPeekGet( 0, sizeof(char) ) )
{
*ch = *(const char*)PeekGet();
++m_Get;
}
else
{
*ch = 0;
return numScanned;
}
}
break;
case 'i':
case 'd':
{
int* i = va_arg( list, int * );
// NOTE: This is not bullet-proof; it assumes numbers are < 128 characters
nLength = 128;
if ( !CheckArbitraryPeekGet( 0, nLength ) )
{
*i = 0;
return numScanned;
}
*i = strtol( (char*)PeekGet(), &pEnd, 10 );
int nBytesRead = (int)( pEnd - (char*)PeekGet() );
if ( nBytesRead == 0 )
return numScanned;
m_Get += nBytesRead;
}
break;
case 'x':
{
int* i = va_arg( list, int * );
// NOTE: This is not bullet-proof; it assumes numbers are < 128 characters
nLength = 128;
if ( !CheckArbitraryPeekGet( 0, nLength ) )
{
*i = 0;
return numScanned;
}
*i = strtol( (char*)PeekGet(), &pEnd, 16 );
int nBytesRead = (int)( pEnd - (char*)PeekGet() );
if ( nBytesRead == 0 )
return numScanned;
m_Get += nBytesRead;
}
break;
case 'u':
{
unsigned int* u = va_arg( list, unsigned int *);
// NOTE: This is not bullet-proof; it assumes numbers are < 128 characters
nLength = 128;
if ( !CheckArbitraryPeekGet( 0, nLength ) )
{
*u = 0;
return numScanned;
}
*u = strtoul( (char*)PeekGet(), &pEnd, 10 );
int nBytesRead = (int)( pEnd - (char*)PeekGet() );
if ( nBytesRead == 0 )
return numScanned;
m_Get += nBytesRead;
}
break;
case 'f':
{
float* f = va_arg( list, float *);
// NOTE: This is not bullet-proof; it assumes numbers are < 128 characters
nLength = 128;
if ( !CheckArbitraryPeekGet( 0, nLength ) )
{
*f = 0.0f;
return numScanned;
}
*f = (float)strtod( (char*)PeekGet(), &pEnd );
int nBytesRead = (int)( pEnd - (char*)PeekGet() );
if ( nBytesRead == 0 )
return numScanned;
m_Get += nBytesRead;
}
break;
case 's':
{
char* s = va_arg( list, char * );
GetStringInternal( s, 256 );
2013-06-27 06:22:04 +08:00
}
break;
default:
{
// unimplemented scanf type
Assert(0);
return numScanned;
}
break;
}
++numScanned;
}
break;
default:
{
// Here we have to match the format string character
// against what's in the buffer or we're done.
if ( !CheckPeekGet( 0, sizeof(char) ) )
return numScanned;
if ( c != *(const char*)PeekGet() )
return numScanned;
++m_Get;
}
}
}
return numScanned;
}
#ifdef _WIN32
2013-06-27 06:22:04 +08:00
#pragma warning ( default : 4706 )
#endif
2013-06-27 06:22:04 +08:00
int CUtlBuffer::Scanf( const char* pFmt, ... )
{
va_list args;
va_start( args, pFmt );
int count = VaScanf( pFmt, args );
va_end( args );
return count;
}
//-----------------------------------------------------------------------------
// Advance the get index until after the particular string is found
// Do not eat whitespace before starting. Return false if it failed
//-----------------------------------------------------------------------------
bool CUtlBuffer::GetToken( const char *pToken )
{
Assert( pToken );
// Look for the token
int nLen = Q_strlen( pToken );
int nSizeToCheck = Size() - TellGet() - m_nOffset;
int nGet = TellGet();
do
{
int nMaxSize = TellMaxPut() - TellGet();
if ( nMaxSize < nSizeToCheck )
{
nSizeToCheck = nMaxSize;
}
if ( nLen > nSizeToCheck )
break;
if ( !CheckPeekGet( 0, nSizeToCheck ) )
break;
const char *pBufStart = (const char*)PeekGet();
const char *pFoundEnd = Q_strnistr( pBufStart, pToken, nSizeToCheck );
if ( pFoundEnd )
{
size_t nOffset = (size_t)pFoundEnd - (size_t)pBufStart;
SeekGet( CUtlBuffer::SEEK_CURRENT, nOffset + nLen );
return true;
}
SeekGet( CUtlBuffer::SEEK_CURRENT, nSizeToCheck - nLen - 1 );
nSizeToCheck = Size() - (nLen-1);
} while ( true );
SeekGet( CUtlBuffer::SEEK_HEAD, nGet );
return false;
}
//-----------------------------------------------------------------------------
// (For text buffers only)
// Parse a token from the buffer:
// Grab all text that lies between a starting delimiter + ending delimiter
// (skipping whitespace that leads + trails both delimiters).
// Note the delimiter checks are case-insensitive.
// If successful, the get index is advanced and the function returns true,
// otherwise the index is not advanced and the function returns false.
//-----------------------------------------------------------------------------
bool CUtlBuffer::ParseToken( const char *pStartingDelim, const char *pEndingDelim, char* pString, int nMaxLen )
{
int nCharsToCopy = 0;
int nCurrentGet = 0;
size_t nEndingDelimLen;
// Starting delimiter is optional
char emptyBuf = '\0';
if ( !pStartingDelim )
{
pStartingDelim = &emptyBuf;
}
// Ending delimiter is not
Assert( pEndingDelim && pEndingDelim[0] );
nEndingDelimLen = Q_strlen( pEndingDelim );
int nStartGet = TellGet();
char nCurrChar;
int nTokenStart = -1;
EatWhiteSpace( );
while ( *pStartingDelim )
{
nCurrChar = *pStartingDelim++;
if ( !isspace((unsigned char)nCurrChar) )
{
if ( tolower( GetChar() ) != tolower( nCurrChar ) )
goto parseFailed;
}
else
{
EatWhiteSpace();
}
}
EatWhiteSpace();
nTokenStart = TellGet();
if ( !GetToken( pEndingDelim ) )
goto parseFailed;
nCurrentGet = TellGet();
nCharsToCopy = (nCurrentGet - nEndingDelimLen) - nTokenStart;
if ( nCharsToCopy >= nMaxLen )
{
nCharsToCopy = nMaxLen - 1;
}
if ( nCharsToCopy > 0 )
{
SeekGet( CUtlBuffer::SEEK_HEAD, nTokenStart );
Get( pString, nCharsToCopy );
if ( !IsValid() )
goto parseFailed;
// Eat trailing whitespace
for ( ; nCharsToCopy > 0; --nCharsToCopy )
{
if ( !isspace( (unsigned char)pString[ nCharsToCopy-1 ] ) )
break;
}
}
pString[ nCharsToCopy ] = '\0';
// Advance the Get index
SeekGet( CUtlBuffer::SEEK_HEAD, nCurrentGet );
return true;
parseFailed:
// Revert the get index
SeekGet( SEEK_HEAD, nStartGet );
pString[0] = '\0';
return false;
}
//-----------------------------------------------------------------------------
// Parses the next token, given a set of character breaks to stop at
//-----------------------------------------------------------------------------
int CUtlBuffer::ParseToken( characterset_t *pBreaks, char *pTokenBuf, int nMaxLen, bool bParseComments )
{
Assert( nMaxLen > 0 );
pTokenBuf[0] = 0;
// skip whitespace + comments
while ( true )
{
if ( !IsValid() )
return -1;
EatWhiteSpace();
if ( bParseComments )
{
if ( !EatCPPComment() )
break;
}
else
{
break;
}
}
char c = GetChar();
// End of buffer
if ( c == 0 )
return -1;
// handle quoted strings specially
if ( c == '\"' )
{
int nLen = 0;
while( IsValid() )
{
c = GetChar();
if ( c == '\"' || !c )
{
pTokenBuf[nLen] = 0;
return nLen;
}
pTokenBuf[nLen] = c;
if ( ++nLen == nMaxLen )
{
pTokenBuf[nLen-1] = 0;
return nMaxLen;
}
}
// In this case, we hit the end of the buffer before hitting the end qoute
pTokenBuf[nLen] = 0;
return nLen;
}
// parse single characters
if ( IN_CHARACTERSET( *pBreaks, c ) )
{
pTokenBuf[0] = c;
pTokenBuf[1] = 0;
return 1;
}
// parse a regular word
int nLen = 0;
while ( true )
{
pTokenBuf[nLen] = c;
if ( ++nLen == nMaxLen )
{
pTokenBuf[nLen-1] = 0;
return nMaxLen;
}
c = GetChar();
if ( !IsValid() )
break;
if ( IN_CHARACTERSET( *pBreaks, c ) || c == '\"' || c <= ' ' )
{
SeekGet( SEEK_CURRENT, -1 );
break;
}
}
pTokenBuf[nLen] = 0;
return nLen;
}
//-----------------------------------------------------------------------------
// Serialization
//-----------------------------------------------------------------------------
void CUtlBuffer::Put( const void *pMem, int size )
{
if ( size && CheckPut( size ) )
{
int Index = m_Put - m_nOffset;
Assert( m_Memory.IsIdxValid( Index ) && m_Memory.IsIdxValid( Index + size - 1 ) );
if( Index >= 0 )
{
memcpy( &m_Memory[ Index ], pMem, size );
m_Put += size;
AddNullTermination();
}
}
}
//-----------------------------------------------------------------------------
// Writes a null-terminated string
//-----------------------------------------------------------------------------
void CUtlBuffer::PutString( const char* pString )
{
if (!IsText())
{
if ( pString )
{
// Not text? append a null at the end.
size_t nLen = Q_strlen( pString ) + 1;
Put( pString, nLen * sizeof(char) );
return;
}
else
{
PutTypeBin<char>( 0 );
}
}
else if (pString)
{
int nTabCount = ( m_Flags & AUTO_TABS_DISABLED ) ? 0 : m_nTab;
if ( nTabCount > 0 )
{
if ( WasLastCharacterCR() )
{
PutTabs();
}
const char* pEndl = strchr( pString, '\n' );
while ( pEndl )
{
size_t nSize = (size_t)pEndl - (size_t)pString + sizeof(char);
Put( pString, nSize );
pString = pEndl + 1;
if ( *pString )
{
PutTabs();
pEndl = strchr( pString, '\n' );
}
else
{
pEndl = NULL;
}
}
}
size_t nLen = Q_strlen( pString );
if ( nLen )
{
Put( pString, nLen * sizeof(char) );
}
}
}
//-----------------------------------------------------------------------------
// This version of PutString converts \ to \\ and " to \", etc.
// It also places " at the beginning and end of the string
//-----------------------------------------------------------------------------
inline void CUtlBuffer::PutDelimitedCharInternal( CUtlCharConversion *pConv, char c )
{
int l = pConv->GetConversionLength( c );
if ( l == 0 )
{
PutChar( c );
}
else
{
PutChar( pConv->GetEscapeChar() );
Put( pConv->GetConversionString( c ), l );
}
}
void CUtlBuffer::PutDelimitedChar( CUtlCharConversion *pConv, char c )
{
if ( !IsText() || !pConv )
{
PutChar( c );
return;
}
PutDelimitedCharInternal( pConv, c );
}
void CUtlBuffer::PutDelimitedString( CUtlCharConversion *pConv, const char *pString )
{
if ( !IsText() || !pConv )
{
PutString( pString );
return;
}
if ( WasLastCharacterCR() )
{
PutTabs();
}
Put( pConv->GetDelimiter(), pConv->GetDelimiterLength() );
int nLen = pString ? Q_strlen( pString ) : 0;
for ( int i = 0; i < nLen; ++i )
{
PutDelimitedCharInternal( pConv, pString[i] );
}
if ( WasLastCharacterCR() )
{
PutTabs();
}
Put( pConv->GetDelimiter(), pConv->GetDelimiterLength() );
}
void CUtlBuffer::VaPrintf( const char* pFmt, va_list list )
{
char temp[2048];
#ifdef DBGFLAG_ASSERT
int nLen =
#endif
Q_vsnprintf( temp, sizeof( temp ), pFmt, list );
Assert( nLen < 2048 );
PutString( temp );
}
void CUtlBuffer::Printf( const char* pFmt, ... )
{
va_list args;
va_start( args, pFmt );
VaPrintf( pFmt, args );
va_end( args );
}
//-----------------------------------------------------------------------------
// Calls the overflow functions
//-----------------------------------------------------------------------------
void CUtlBuffer::SetOverflowFuncs( UtlBufferOverflowFunc_t getFunc, UtlBufferOverflowFunc_t putFunc )
{
m_GetOverflowFunc = getFunc;
m_PutOverflowFunc = putFunc;
}
//-----------------------------------------------------------------------------
// Calls the overflow functions
//-----------------------------------------------------------------------------
bool CUtlBuffer::OnPutOverflow( int nSize )
{
return (this->*m_PutOverflowFunc)( nSize );
}
bool CUtlBuffer::OnGetOverflow( int nSize )
{
return (this->*m_GetOverflowFunc)( nSize );
}
//-----------------------------------------------------------------------------
// Checks if a put is ok
//-----------------------------------------------------------------------------
bool CUtlBuffer::PutOverflow( int nSize )
{
MEM_ALLOC_CREDIT();
if ( m_Memory.IsExternallyAllocated() )
{
if ( !IsGrowable() )
return false;
m_Memory.ConvertToGrowableMemory( 0 );
}
while( Size() < m_Put - m_nOffset + nSize )
{
m_Memory.Grow();
}
return true;
}
bool CUtlBuffer::GetOverflow( int nSize )
{
return false;
}
//-----------------------------------------------------------------------------
// Checks if a put is ok
//-----------------------------------------------------------------------------
bool CUtlBuffer::CheckPut( int nSize )
{
if ( ( m_Error & PUT_OVERFLOW ) || IsReadOnly() )
return false;
if ( ( m_Put < m_nOffset ) || ( m_Memory.NumAllocated() < m_Put - m_nOffset + nSize ) )
{
if ( !OnPutOverflow( nSize ) )
{
m_Error |= PUT_OVERFLOW;
return false;
}
}
return true;
}
void CUtlBuffer::SeekPut( SeekType_t type, int offset )
{
int nNextPut = m_Put;
switch( type )
{
case SEEK_HEAD:
nNextPut = offset;
break;
case SEEK_CURRENT:
nNextPut += offset;
break;
case SEEK_TAIL:
nNextPut = m_nMaxPut - offset;
break;
}
// Force a write of the data
// FIXME: We could make this more optimal potentially by writing out
// the entire buffer if you seek outside the current range
// NOTE: This call will write and will also seek the file to nNextPut.
OnPutOverflow( -nNextPut-1 );
m_Put = nNextPut;
AddNullTermination();
}
void CUtlBuffer::ActivateByteSwapping( bool bActivate )
{
m_Byteswap.ActivateByteSwapping( bActivate );
}
void CUtlBuffer::SetBigEndian( bool bigEndian )
{
m_Byteswap.SetTargetBigEndian( bigEndian );
}
bool CUtlBuffer::IsBigEndian( void )
{
return m_Byteswap.IsTargetBigEndian();
}
//-----------------------------------------------------------------------------
// null terminate the buffer
//-----------------------------------------------------------------------------
void CUtlBuffer::AddNullTermination( void )
{
if ( m_Put > m_nMaxPut )
{
if ( !IsReadOnly() && ((m_Error & PUT_OVERFLOW) == 0) )
{
// Add null termination value
if ( CheckPut( 1 ) )
{
int Index = m_Put - m_nOffset;
Assert( m_Memory.IsIdxValid( Index ) );
if( Index >= 0 )
{
m_Memory[ Index ] = 0;
}
}
else
{
// Restore the overflow state, it was valid before...
m_Error &= ~PUT_OVERFLOW;
}
}
m_nMaxPut = m_Put;
}
}
//-----------------------------------------------------------------------------
// Converts a buffer from a CRLF buffer to a CR buffer (and back)
// Returns false if no conversion was necessary (and outBuf is left untouched)
// If the conversion occurs, outBuf will be cleared.
//-----------------------------------------------------------------------------
bool CUtlBuffer::ConvertCRLF( CUtlBuffer &outBuf )
{
if ( !IsText() || !outBuf.IsText() )
return false;
if ( ContainsCRLF() == outBuf.ContainsCRLF() )
return false;
int nInCount = TellMaxPut();
outBuf.Purge();
outBuf.EnsureCapacity( nInCount );
bool bFromCRLF = ContainsCRLF();
// Start reading from the beginning
int nGet = TellGet();
int nPut = TellPut();
int nGetDelta = 0;
int nPutDelta = 0;
const char *pBase = (const char*)Base();
int nCurrGet = 0;
while ( nCurrGet < nInCount )
{
const char *pCurr = &pBase[nCurrGet];
if ( bFromCRLF )
{
const char *pNext = Q_strnistr( pCurr, "\r\n", nInCount - nCurrGet );
if ( !pNext )
{
outBuf.Put( pCurr, nInCount - nCurrGet );
break;
}
int nBytes = (size_t)pNext - (size_t)pCurr;
outBuf.Put( pCurr, nBytes );
outBuf.PutChar( '\n' );
nCurrGet += nBytes + 2;
if ( nGet >= nCurrGet - 1 )
{
--nGetDelta;
}
if ( nPut >= nCurrGet - 1 )
{
--nPutDelta;
}
}
else
{
const char *pNext = Q_strnchr( pCurr, '\n', nInCount - nCurrGet );
if ( !pNext )
{
outBuf.Put( pCurr, nInCount - nCurrGet );
break;
}
int nBytes = (size_t)pNext - (size_t)pCurr;
outBuf.Put( pCurr, nBytes );
outBuf.PutChar( '\r' );
outBuf.PutChar( '\n' );
nCurrGet += nBytes + 1;
if ( nGet >= nCurrGet )
{
++nGetDelta;
}
if ( nPut >= nCurrGet )
{
++nPutDelta;
}
}
}
Assert( nPut + nPutDelta <= outBuf.TellMaxPut() );
outBuf.SeekGet( SEEK_HEAD, nGet + nGetDelta );
outBuf.SeekPut( SEEK_HEAD, nPut + nPutDelta );
return true;
}
//-----------------------------------------------------------------------------
// Fast swap
//-----------------------------------------------------------------------------
void CUtlBuffer::Swap( CUtlBuffer &buf )
{
V_swap( m_Get, buf.m_Get );
V_swap( m_Put, buf.m_Put );
V_swap( m_nMaxPut, buf.m_nMaxPut );
V_swap( m_Error, buf.m_Error );
m_Memory.Swap( buf.m_Memory );
}
//-----------------------------------------------------------------------------
// Fast swap w/ a CUtlMemory.
//-----------------------------------------------------------------------------
void CUtlBuffer::Swap( CUtlMemory<uint8> &mem )
{
m_Get = 0;
m_Put = mem.Count();
m_nMaxPut = mem.Count();
m_Error = 0;
m_Memory.Swap( mem );
}
//---------------------------------------------------------------------------
// Implementation of CUtlInplaceBuffer
//---------------------------------------------------------------------------
CUtlInplaceBuffer::CUtlInplaceBuffer( int growSize /* = 0 */, int initSize /* = 0 */, int nFlags /* = 0 */ ) :
CUtlBuffer( growSize, initSize, nFlags )
{
}
bool CUtlInplaceBuffer::InplaceGetLinePtr( char **ppszInBufferPtr, int *pnLineLength )
{
Assert( IsText() && !ContainsCRLF() );
int nLineLen = PeekLineLength();
if ( nLineLen <= 1 )
{
SeekGet( SEEK_TAIL, 0 );
return false;
}
-- nLineLen; // because it accounts for putting a terminating null-character
char *pszLine = ( char * ) const_cast< void * >( PeekGet() );
SeekGet( SEEK_CURRENT, nLineLen );
// Set the out args
if ( ppszInBufferPtr )
*ppszInBufferPtr = pszLine;
if ( pnLineLength )
*pnLineLength = nLineLen;
return true;
}
char * CUtlInplaceBuffer::InplaceGetLinePtr( void )
{
char *pszLine = NULL;
int nLineLen = 0;
if ( InplaceGetLinePtr( &pszLine, &nLineLen ) )
{
Assert( nLineLen >= 1 );
switch ( pszLine[ nLineLen - 1 ] )
{
case '\n':
case '\r':
pszLine[ nLineLen - 1 ] = 0;
if ( -- nLineLen )
{
switch ( pszLine[ nLineLen - 1 ] )
{
case '\n':
case '\r':
pszLine[ nLineLen - 1 ] = 0;
break;
}
}
break;
default:
Assert( pszLine[ nLineLen ] == 0 );
break;
}
}
return pszLine;
}