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mirror of https://github.com/alliedmodders/hl2sdk.git synced 2024-12-22 09:38:56 +08:00
hl2sdk/tier1/kvpacker.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

286 lines
5.9 KiB
C++

//========= Copyright Valve Corporation, All rights reserved. ============//
//
// Purpose: Contains a branch-neutral binary packer for KeyValues trees.
//
// $NoKeywords: $
//
//=============================================================================//
#include <KeyValues.h>
#include "kvpacker.h"
#include "tier0/dbg.h"
#include "utlbuffer.h"
// memdbgon must be the last include file in a .cpp file!!!
#include <tier0/memdbgon.h>
#define KEYVALUES_TOKEN_SIZE 1024
// writes KeyValue as binary data to buffer
bool KVPacker::WriteAsBinary( KeyValues *pNode, CUtlBuffer &buffer )
{
if ( buffer.IsText() ) // must be a binary buffer
return false;
if ( !buffer.IsValid() ) // must be valid, no overflows etc
return false;
// Write subkeys:
// loop through all our peers
for ( KeyValues *dat = pNode; dat != NULL; dat = dat->GetNextKey() )
{
// write type
switch ( dat->GetDataType() )
{
case KeyValues::TYPE_NONE:
{
buffer.PutUnsignedChar( PACKTYPE_NONE );
break;
}
case KeyValues::TYPE_STRING:
{
buffer.PutUnsignedChar( PACKTYPE_STRING );
break;
}
case KeyValues::TYPE_WSTRING:
{
buffer.PutUnsignedChar( PACKTYPE_WSTRING );
break;
}
case KeyValues::TYPE_INT:
{
buffer.PutUnsignedChar( PACKTYPE_INT );
break;
}
case KeyValues::TYPE_UINT64:
{
buffer.PutUnsignedChar( PACKTYPE_UINT64 );
break;
}
case KeyValues::TYPE_FLOAT:
{
buffer.PutUnsignedChar( PACKTYPE_FLOAT );
break;
}
case KeyValues::TYPE_COLOR:
{
buffer.PutUnsignedChar( PACKTYPE_COLOR );
break;
}
case KeyValues::TYPE_PTR:
{
buffer.PutUnsignedChar( PACKTYPE_PTR );
break;
}
default:
break;
}
// write name
buffer.PutString( dat->GetName() );
// write value
switch ( dat->GetDataType() )
{
case KeyValues::TYPE_NONE:
{
if( !WriteAsBinary( dat->GetFirstSubKey(), buffer ) )
return false;
break;
}
case KeyValues::TYPE_STRING:
{
if (dat->GetString() && *(dat->GetString()))
{
buffer.PutString( dat->GetString() );
}
else
{
buffer.PutString( "" );
}
break;
}
case KeyValues::TYPE_WSTRING:
{
int nLength = dat->GetWString() ? Q_wcslen( dat->GetWString() ) : 0;
buffer.PutShort( nLength );
for( int k = 0; k < nLength; ++ k )
{
buffer.PutShort( ( unsigned short ) dat->GetWString()[k] );
}
break;
}
case KeyValues::TYPE_INT:
{
buffer.PutInt( dat->GetInt() );
break;
}
case KeyValues::TYPE_UINT64:
{
buffer.PutInt64( dat->GetUint64() );
break;
}
case KeyValues::TYPE_FLOAT:
{
buffer.PutFloat( dat->GetFloat() );
break;
}
case KeyValues::TYPE_COLOR:
{
Color color = dat->GetColor();
buffer.PutUnsignedChar( color[0] );
buffer.PutUnsignedChar( color[1] );
buffer.PutUnsignedChar( color[2] );
buffer.PutUnsignedChar( color[3] );
break;
}
case KeyValues::TYPE_PTR:
{
buffer.PutUnsignedInt( (int)dat->GetPtr() );
break;
}
default:
break;
}
}
// write tail, marks end of peers
buffer.PutUnsignedChar( PACKTYPE_NULLMARKER );
return buffer.IsValid();
}
// read KeyValues from binary buffer, returns true if parsing was successful
bool KVPacker::ReadAsBinary( KeyValues *pNode, CUtlBuffer &buffer )
{
if ( buffer.IsText() ) // must be a binary buffer
return false;
if ( !buffer.IsValid() ) // must be valid, no overflows etc
return false;
pNode->Clear();
char token[KEYVALUES_TOKEN_SIZE];
KeyValues *dat = pNode;
EPackType ePackType = (EPackType)buffer.GetUnsignedChar();
// loop through all our peers
while ( true )
{
if ( ePackType == PACKTYPE_NULLMARKER )
break; // no more peers
buffer.GetString( token );
token[KEYVALUES_TOKEN_SIZE-1] = 0;
dat->SetName( token );
switch ( ePackType )
{
case PACKTYPE_NONE:
{
KeyValues *pNewNode = new KeyValues("");
dat->AddSubKey( pNewNode );
if( !ReadAsBinary( pNewNode, buffer ) )
return false;
break;
}
case PACKTYPE_STRING:
{
buffer.GetString( token );
token[KEYVALUES_TOKEN_SIZE-1] = 0;
dat->SetStringValue( token );
break;
}
case PACKTYPE_WSTRING:
{
int nLength = buffer.GetShort();
if ( nLength >= 0 && nLength*sizeof( uint16 ) <= (uint)buffer.GetBytesRemaining() )
{
if ( nLength > 0 )
{
wchar_t *pTemp = (wchar_t *)malloc( sizeof( wchar_t ) * (1 + nLength) );
for ( int k = 0; k < nLength; ++k )
{
pTemp[k] = buffer.GetShort(); // ugly, but preserving existing behavior
}
pTemp[nLength] = 0;
dat->SetWString( NULL, pTemp );
free( pTemp );
}
else
dat->SetWString( NULL, L"" );
}
break;
}
case PACKTYPE_INT:
{
dat->SetInt( NULL, buffer.GetInt() );
break;
}
case PACKTYPE_UINT64:
{
dat->SetUint64( NULL, (uint64)buffer.GetInt64() );
break;
}
case PACKTYPE_FLOAT:
{
dat->SetFloat( NULL, buffer.GetFloat() );
break;
}
case PACKTYPE_COLOR:
{
Color color(
buffer.GetUnsignedChar(),
buffer.GetUnsignedChar(),
buffer.GetUnsignedChar(),
buffer.GetUnsignedChar() );
dat->SetColor( NULL, color );
break;
}
case PACKTYPE_PTR:
{
dat->SetPtr( NULL, (void*)buffer.GetUnsignedInt() );
break;
}
default:
break;
}
if ( !buffer.IsValid() ) // error occured
return false;
ePackType = (EPackType)buffer.GetUnsignedChar();
if ( ePackType == PACKTYPE_NULLMARKER )
break;
// new peer follows
KeyValues *pNewPeer = new KeyValues("");
dat->SetNextKey( pNewPeer );
dat = pNewPeer;
}
return buffer.IsValid();
}