//-----------------------------------------------------------------------------
// Finds and/or creates a symbol based on the string
//-----------------------------------------------------------------------------
void CLocalizedStringTable::AddString(char const *pString, wchar_t *pValue, const char *fileName)
{
if (!pString)
return;
wchar_t *str = Find(pString);
// it's already in the table
if (str)
return;
// didn't find, insert the string into the vector.
int len = strlen(pString) + 1;
int stridx = m_Names.AddMultipleToTail( len );
memcpy( &m_Names[stridx], pString, len * sizeof(char) );
len = wcslen(pValue) + 1;
int valueidx = m_Values.AddMultipleToTail( len );
memcpy( &m_Values[valueidx], pValue, len * sizeof(wchar_t) );
localizedstring_t stringMapItem;
stringMapItem.nameIndex = stridx;
stringMapItem.valueIndex = valueidx;
if (fileName)
{
stringMapItem.filename = fileName;
}
else
{
stringMapItem.filename = m_CurrentFile;
}
m_Lookup.Insert( stringMapItem );
}
void CVMPIServiceConnMgr::SendCurStateTo( int id )
{
CUtlVector<char> data;
data.AddToTail( VMPI_SERVICE_UI_PROTOCOL_VERSION );
data.AddToTail( VMPI_SERVICE_TO_UI_STATE );
data.AddMultipleToTail( sizeof( g_iCurState ), (char*)&g_iCurState );
data.AddToTail( (char)g_bScreensaverMode );
if ( g_pPassword )
data.AddMultipleToTail( strlen( g_pPassword ) + 1, g_pPassword );
else
data.AddToTail( 0 );
SendPacket( -1, data.Base(), data.Count() );
}
bool CJobWatchDlg::GetCurrentWorkerText(
CUtlVector<char> &text,
unsigned long &curMessageIndex )
{
text.SetSize( 0 );
unsigned long jobWorkerID;
if ( !GetCurJobWorkerID( jobWorkerID ) )
return false;
// Now copy all the text out.
CMySQLQuery query;
if ( curMessageIndex == 0 )
query.Format( "select * from text_messages where JobWorkerID=%lu", jobWorkerID );
else
query.Format( "select * from text_messages where JobWorkerID=%lu and MessageIndex >= %lu", jobWorkerID, curMessageIndex );
GetMySQL()->Execute( query );
while ( GetMySQL()->NextRow() )
{
const char *pTextStr = GetMySQL()->GetColumnValue( "text" ).String();
int len = strlen( pTextStr );
text.AddMultipleToTail( len, pTextStr );
curMessageIndex = GetMySQL()->GetColumnValue( "MessageIndex" ).UInt32() + 1;
}
text.AddToTail( 0 );
return true;
}
void VMPI_Stats_SpewHook( const char *pMsg )
{
CCriticalSectionLock csLock( &g_SpewTextCS );
csLock.Lock();
// Queue the text up so we can send it to the DB right away when we connect.
g_SpewText.AddMultipleToTail( strlen( pMsg ), pMsg );
}
void CopyListPanelToClipboard( vgui::ListPanel *pListPanel )
{
CUtlVector<char> textBuf;
// Write the headers.
int nColumns = pListPanel->GetNumColumnHeaders();
for ( int i=0; i < nColumns; i++ )
{
if ( i != 0 )
textBuf.AddToTail( '\t' );
char tempText[512];
if ( !pListPanel->GetColumnHeaderText( i, tempText, sizeof( tempText ) ) )
Error( "GetColumHeaderText( %d ) failed", i );
textBuf.AddMultipleToTail( strlen( tempText ), tempText );
}
textBuf.AddToTail( '\n' );
// Now write the rows.
int iCur = pListPanel->FirstItem();
while ( iCur != pListPanel->InvalidItemID() )
{
// Write the columns for this row.
for ( int i=0; i < nColumns; i++ )
{
if ( i != 0 )
textBuf.AddToTail( '\t' );
wchar_t tempTextWC[512];
char tempText[512];
pListPanel->GetCellText( iCur, i, tempTextWC, sizeof( tempTextWC ) );
g_pVGuiLocalize->ConvertUnicodeToANSI( tempTextWC, tempText, sizeof( tempText ) );
textBuf.AddMultipleToTail( strlen( tempText ), tempText );
}
textBuf.AddToTail( '\n' );
iCur = pListPanel->NextItem( iCur );
}
textBuf.AddToTail( 0 );
// Set the clipboard text.
vgui::system()->SetClipboardText( textBuf.Base(), textBuf.Count() );
}
void ResizeAnimationLayerCallback( void *pStruct, int offsetToUtlVector, int len )
{
C_BaseAnimatingOverlay *pEnt = (C_BaseAnimatingOverlay*)pStruct;
CUtlVector < CAnimationLayer > *pVec = &pEnt->m_AnimOverlay;
CUtlVector< CInterpolatedVar< CAnimationLayer > > *pVecIV = &pEnt->m_iv_AnimOverlay;
Assert( (char*)pVec - (char*)pEnt == offsetToUtlVector );
Assert( pVec->Count() == pVecIV->Count() );
Assert( pVec->Count() <= C_BaseAnimatingOverlay::MAX_OVERLAYS );
int diff = len - pVec->Count();
if ( diff != 0 )
{
// remove all entries
for ( int i=0; i < pVec->Count(); i++ )
{
pEnt->RemoveVar( &pVec->Element( i ) );
}
pEnt->InvalidatePhysicsRecursive( BOUNDS_CHANGED );
// adjust vector sizes
if ( diff > 0 )
{
for ( int i = 0; i < diff; ++i )
{
int j = pVec->AddToTail( );
(*pVec)[j].SetOwner( pEnt );
}
pVecIV->AddMultipleToTail( diff );
}
else
{
pVec->RemoveMultiple( len, -diff );
pVecIV->RemoveMultiple( len, -diff );
}
// Rebind all the variables in the ent's list.
for ( int i=0; i < len; i++ )
{
IInterpolatedVar *pWatcher = &pVecIV->Element( i );
pWatcher->SetDebugName( s_m_iv_AnimOverlayNames[i] );
pEnt->AddVar( &pVec->Element( i ), pWatcher, LATCH_ANIMATION_VAR, true );
}
}
// FIXME: need to set historical values of nOrder in pVecIV to MAX_OVERLAY
// Ensure capacity
pVec->EnsureCapacity( len );
int nNumAllocated = pVec->NumAllocated();
// This is important to do because EnsureCapacity doesn't actually call the constructors
// on the elements, but we need them to be initialized, otherwise it'll have out-of-range
// values which will piss off the datatable encoder.
UtlVector_InitializeAllocatedElements( pVec->Base() + pVec->Count(), nNumAllocated - pVec->Count() );
}
void ResizeAnimationLayerCallback( void *pStruct, int offsetToUtlVector, int len )
{
C_BaseAnimatingOverlay *pEnt = (C_BaseAnimatingOverlay*)pStruct;
CUtlVector < C_AnimationLayer > *pVec = &pEnt->m_AnimOverlay;
CUtlVector< CInterpolatedVar< C_AnimationLayer > > *pVecIV = &pEnt->m_iv_AnimOverlay;
Assert( (char*)pVec - (char*)pEnt == offsetToUtlVector );
Assert( pVec->Count() == pVecIV->Count() );
Assert( pVec->Count() <= C_BaseAnimatingOverlay::MAX_OVERLAYS );
int diff = len - pVec->Count();
if ( diff == 0 )
return;
// remove all entries
for ( int i=0; i < pVec->Count(); i++ )
{
pEnt->RemoveVar( &pVec->Element( i ) );
}
// adjust vector sizes
if ( diff > 0 )
{
pVec->AddMultipleToTail( diff );
pVecIV->AddMultipleToTail( diff );
}
else
{
pVec->RemoveMultiple( len, -diff );
pVecIV->RemoveMultiple( len, -diff );
}
// Rebind all the variables in the ent's list.
for ( int i=0; i < len; i++ )
{
IInterpolatedVar *pWatcher = &pVecIV->Element( i );
pWatcher->SetDebugName( s_m_iv_AnimOverlayNames[i] );
pEnt->AddVar( &pVec->Element( i ), pWatcher, LATCH_ANIMATION_VAR, true );
}
// FIXME: need to set historical values of nOrder in pVecIV to MAX_OVERLAY
}
void CVMPIServiceConnMgr::AddConsoleOutput( const char *pMsg )
{
// Tell clients of the new text string.
CUtlVector<char> data;
data.AddToTail( VMPI_SERVICE_UI_PROTOCOL_VERSION );
data.AddToTail( VMPI_SERVICE_TO_UI_CONSOLE_TEXT );
data.AddMultipleToTail( strlen( pMsg ) + 1, pMsg );
SendPacket( -1, data.Base(), data.Count() );
}
void CStaticPropMgr::UnserializeLeafList( CUtlBuffer& buf )
{
int nCount = buf.GetInt();
m_StaticPropLeaves.Purge();
if ( nCount > 0 )
{
m_StaticPropLeaves.AddMultipleToTail( nCount );
buf.Get( m_StaticPropLeaves.Base(), nCount * sizeof(StaticPropLeafLump_t) );
}
}
int CALLBACK SetPasswordDlgProc(
HWND hwndDlg, // handle to dialog box
UINT uMsg, // message
WPARAM wParam, // first message parameter
LPARAM lParam // second message parameter
)
{
switch( uMsg )
{
case WM_INITDIALOG:
{
if ( g_pPassword )
{
HWND hWnd = GetDlgItem( hwndDlg, IDC_PASSWORD );
SetWindowText( hWnd, g_pPassword );
}
}
break;
case WM_COMMAND:
{
switch( wParam )
{
case IDOK:
{
// Set our new password.
HWND hWnd = GetDlgItem( hwndDlg, IDC_PASSWORD );
if ( hWnd )
{
char tempBuf[512];
GetWindowText( hWnd, tempBuf, sizeof( tempBuf ) );
// Send it to the service.
CUtlVector<char> data;
data.AddToTail( VMPI_SERVICE_UPDATE_PASSWORD );
data.AddMultipleToTail( strlen( tempBuf ) + 1, tempBuf );
g_ConnMgr.SendPacket( -1, data.Base(), data.Count() );
}
EndDialog( hwndDlg, 0 );
}
break;
case IDCANCEL:
{
EndDialog( hwndDlg, 0 );
}
break;
}
}
break;
}
return FALSE;
}
static void AddFuncInstance( CSimpleMapFile *pInstanceMapFile, CInstanceSpawn *pInstanceSpawn, const Vector &vPosition )
{
CUtlVector< MapEntityKeyValuePair_t > replacePairs;
replacePairs.AddMultipleToTail( pInstanceSpawn->GetAdditionalKeyValueCount() );
for ( int i = 0; i < pInstanceSpawn->GetAdditionalKeyValueCount(); ++ i )
{
replacePairs[i].m_pKey = pInstanceSpawn->GetAdditionalKeyValues()[i].m_Key;
replacePairs[i].m_pValue = pInstanceSpawn->GetAdditionalKeyValues()[i].m_Value;
}
pInstanceMapFile->AddFuncInstance( pInstanceSpawn->GetInstanceFilename(), QAngle( 0, 0, 0 ), vPosition, replacePairs.Base(), replacePairs.Count() );
}
static void LoadModelLODSource( s_model_t *pSrcModel )
{
CUtlVector<s_source_t *> lods;
int numLODs = g_ScriptLODs.Size();
lods.AddMultipleToTail( numLODs );
if( stricmp( pSrcModel->name, "blank" ) == 0 )
{
return;
}
GetLODSources( lods, pSrcModel );
}
void RecordArgument( void const* pMemory, int size )
{
if( !g_bDoRecord )
{
return;
}
Assert( g_ArgsRemaining > 0 );
int tail = g_pRecordingBuffer.Size();
g_pRecordingBuffer.AddMultipleToTail( size );
memcpy( &g_pRecordingBuffer[tail], pMemory, size );
if (--g_ArgsRemaining == 0)
WriteRecordingFile();
}
void SendPatchCommandToUIs( DWORD dwInstallerProcessId )
{
Msg( "SendPatchCommandToUIs\n ");
CUtlVector<char> data;
data.AddToTail( VMPI_SERVICE_UI_PROTOCOL_VERSION );
data.AddToTail( VMPI_SERVICE_TO_UI_PATCHING );
// This arg tells the UI whether to exit after running the command or not.
data.AddToTail( 1 );
// First argument is the working directory, which is the cache path in this case.
data.AddMultipleToTail( V_strlen( g_FileCachePath ) + 1, g_FileCachePath );
// Second argument is the command line.
char waitAndRestartExe[MAX_PATH], serviceUIExe[MAX_PATH], commandLine[1024 * 8];
V_ComposeFileName( g_FileCachePath, "WaitAndRestart.exe", waitAndRestartExe, sizeof( waitAndRestartExe ) );
V_ComposeFileName( g_BaseAppPath, "vmpi_service_ui.exe", serviceUIExe, sizeof( serviceUIExe ) ); // We're running the UI from the same directory this exe is in.
char strSeconds[64];
V_snprintf( strSeconds, sizeof( strSeconds ), "*%lu", dwInstallerProcessId );
// IMPORTANT to use BuildCommandLineFromArgs here because it'll handle slashes and quotes correctly.
// If we don't do that, the command often won't work.
CUtlVector<char*> args;
args.AddToTail( waitAndRestartExe );
args.AddToTail( strSeconds );
args.AddToTail( g_BaseAppPath );
args.AddToTail( serviceUIExe );
BuildCommandLineFromArgs( args, commandLine, sizeof( commandLine ) );
data.AddMultipleToTail( V_strlen( commandLine ) + 1, commandLine );
if ( g_pConnMgr )
{
g_pConnMgr->SendPacket( -1, data.Base(), data.Count() );
Sleep( 1000 ); // Make sure this packet goes out.
}
}
//-----------------------------------------------------------------------------
// Purpose: Generate a list of file matching mask
//-----------------------------------------------------------------------------
int CScriptLib::FindFiles( char* pFileMask, bool bRecurse, CUtlVector<fileList_t> &fileList )
{
char dirPath[MAX_PATH];
char pattern[MAX_PATH];
char extension[MAX_PATH];
// get path only
strcpy( dirPath, pFileMask );
V_StripFilename( dirPath );
// get pattern only
V_FileBase( pFileMask, pattern, sizeof( pattern ) );
V_ExtractFileExtension( pFileMask, extension, sizeof( extension ) );
if ( extension[0] )
{
strcat( pattern, "." );
strcat( pattern, extension );
}
if ( !bRecurse )
{
GetFileList( dirPath, pattern, fileList );
}
else
{
// recurse and get the tree
CUtlVector< fileList_t > tempList;
CUtlVector< CUtlString > dirList;
RecurseFileTree_r( dirPath, 0, dirList );
for ( int i=0; i<dirList.Count(); i++ )
{
// iterate each directory found
tempList.Purge();
tempList.EnsureCapacity( dirList.Count() );
GetFileList( dirList[i].String(), pattern, tempList );
int start = fileList.AddMultipleToTail( tempList.Count() );
for ( int j=0; j<tempList.Count(); j++ )
{
fileList[start+j] = tempList[j];
}
}
}
return fileList.Count();
}
void RecordCommand( RecordingCommands_t cmd, int numargs )
{
if( !g_bDoRecord )
{
return;
}
Assert( g_ArgsRemaining == 0 );
g_CommandStartIdx = g_pRecordingBuffer.AddMultipleToTail( 6 );
// save space for the total command size
g_pRecordingBuffer[g_CommandStartIdx+4] = cmd;
g_pRecordingBuffer[g_CommandStartIdx+5] = numargs;
g_ArgsRemaining = numargs;
if (g_ArgsRemaining == 0)
WriteRecordingFile();
}
//-----------------------------------------------------------------------------
// This fills out boneMap, which is a mapping from src bone to src bone replacement (or to itself
// if there is no bone replacement.
//-----------------------------------------------------------------------------
static void BuildBoneLODMapping( CUtlVector<int> &boneMap, int lodID )
{
boneMap.AddMultipleToTail( g_numbones );
Assert( lodID < g_ScriptLODs.Size() );
LodScriptData_t& scriptLOD = g_ScriptLODs[lodID];
// First, create a direct mapping where no bones are collapsed
int i;
for( i = 0; i < g_numbones; i++ )
{
boneMap[i] = i;
}
for( i = 0; i < scriptLOD.boneReplacements.Size(); i++ )
{
const char *src, *dst;
src = scriptLOD.boneReplacements[i].GetSrcName();
dst = scriptLOD.boneReplacements[i].GetDstName();
int j = findGlobalBone( src );
int k = findGlobalBone( dst );
if ( j != -1 && k != -1)
{
boneMap[j] = k;
}
else if ( j == -1)
{
// FIXME: is this really an error? It could just be replacement command for bone that doesnt' exist anymore.
if (g_verbose)
{
MdlWarning( "Couldn't replace unknown bone \"%s\" with \"%s\"\n", src, dst );
}
}
else
{
// FIXME: is this really an error? It could just be replacement command for bone that doesnt' exist anymore.
if (g_verbose)
{
MdlWarning( "Couldn't replace bone \"%s\" with unknown \"%s\"\n", src, dst );
}
}
}
}
void EatTextModeKeyPresses()
{
if ( !g_bTextMode )
return;
static bool bFirstRun = true;
if ( bFirstRun )
{
bFirstRun = false;
MoveConsoleWindowToFront();
}
char ch;
while ( (ch = NextGetch()) != -1 )
{
if ( ch == 8 )
{
// Backspace..
if ( g_TextModeLine.Count() )
{
g_TextModeLine.Remove( g_TextModeLine.Count() - 1 );
}
}
else if ( ch == '\r' )
{
// Finish the line.
if ( g_TextModeLine.Count() )
{
g_TextModeLine.AddMultipleToTail( 2, "\n" );
Cbuf_AddText( g_TextModeLine.Base() );
g_TextModeLine.Purge();
}
printf( "\n" );
}
else
{
g_TextModeLine.AddToTail( ch );
}
printf( "%c", ch );
}
}
void CStaticPropMgr::UnserializeModels( CUtlBuffer& buf )
{
// Version check
if ( Mod_GameLumpVersion( GAMELUMP_STATIC_PROPS ) < 4 )
{
Warning("Really old map format! Static props can't be loaded...\n");
return;
}
int count = buf.GetInt();
// Gotta preallocate the static props here so no rellocations take place
// the leaf list stores pointers to these tricky little guys.
m_StaticProps.AddMultipleToTail(count);
for ( int i = 0; i < count; ++i )
{
StaticPropLump_t lump;
buf.Get( &lump, sizeof(StaticPropLump_t) );
m_StaticProps[i].Init( i, lump, m_StaticPropDict[lump.m_PropType].m_pModel );
// For distance-based fading, keep a list of the things that need
// to be faded out. Not sure if this is the optimal way of doing it
// but it's easy for now; we'll have to test later how large this list gets.
// If it's <100 or so, we should be fine
if (lump.m_Flags & STATIC_PROP_FLAG_FADES)
{
int idx = m_StaticPropFade.AddToTail();
StaticPropFade_t& fade = m_StaticPropFade[idx];
fade.m_Model = i;
fade.m_MinDistSq = lump.m_FadeMinDist * lump.m_FadeMinDist;
fade.m_MaxDistSq = lump.m_FadeMaxDist * lump.m_FadeMaxDist;
if (fade.m_MaxDistSq != fade.m_MinDistSq)
fade.m_FalloffFactor = 255.0f / (fade.m_MaxDistSq - fade.m_MinDistSq);
else
fade.m_FalloffFactor = 255.0f;
}
// Add the prop to the K-D tree for collision
m_StaticProps[i].InsertPropIntoKDTree( );
}
}
void CVradStaticPropMgr::UnserializeModels( CUtlBuffer& buf )
{
int count = buf.GetInt();
m_StaticProps.AddMultipleToTail(count);
for ( int i = 0; i < count; ++i )
{
StaticPropLump_t lump;
buf.Get( &lump, sizeof(StaticPropLump_t) );
VectorCopy( lump.m_Origin, m_StaticProps[i].m_Origin );
VectorCopy( lump.m_Angles, m_StaticProps[i].m_Angles );
m_StaticProps[i].m_ModelIdx = lump.m_PropType;
m_StaticProps[i].m_Handle = TREEDATA_INVALID_HANDLE;
// Add the prop to the tree for collision, but only if it isn't
// marked as not casting a shadow
if ((lump.m_Flags & STATIC_PROP_NO_SHADOW) == 0)
InsertPropIntoTree( i );
}
}
//-----------------------------------------------------------------------------
// Purpose: sets the value in the index
//-----------------------------------------------------------------------------
void CLocalizedStringTable::SetValueByIndex(StringIndex_t index, wchar_t *newValue)
{
// get the existing string
localizedstring_t &lstr = m_Lookup[index];
wchar_t *wstr = &m_Values[lstr.valueIndex];
// see if the new string will fit within the old memory
int newLen = wcslen(newValue);
int oldLen = wcslen(wstr);
if (newLen > oldLen)
{
// it won't fit, so allocate new memory - this is wasteful, but only happens in edit mode
lstr.valueIndex = m_Values.AddMultipleToTail(newLen + 1);
memcpy(&m_Values[lstr.valueIndex], newValue, (newLen + 1) * sizeof(wchar_t));
}
else
{
// copy the string into the old position
wcscpy(wstr, newValue);
}
}
void BlendCorners( CCoreDispInfo **ppListBase, int listSize )
{
CUtlVector<int> nbCornerVerts;
for ( int iDisp=0; iDisp < listSize; iDisp++ )
{
CCoreDispInfo *pDisp = ppListBase[iDisp];
int iNeighbors[512];
int nNeighbors = GetAllNeighbors( pDisp, iNeighbors );
// Make sure we have room for all the neighbors.
nbCornerVerts.RemoveAll();
nbCornerVerts.EnsureCapacity( nNeighbors );
nbCornerVerts.AddMultipleToTail( nNeighbors );
// For each corner.
for ( int iCorner=0; iCorner < 4; iCorner++ )
{
// Has it been touched?
CVertIndex cornerVert = pDisp->GetCornerPointIndex( iCorner );
int iCornerVert = pDisp->VertIndexToInt( cornerVert );
const Vector &vCornerVert = pDisp->GetVert( iCornerVert );
// For each displacement sharing this corner..
Vector vAverage = pDisp->GetNormal( iCornerVert );
for ( int iNeighbor=0; iNeighbor < nNeighbors; iNeighbor++ )
{
int iNBListIndex = iNeighbors[iNeighbor];
CCoreDispInfo *pNeighbor = ppListBase[iNBListIndex];
// Find out which vert it is on the neighbor.
int iNBCorner = FindNeighborCornerVert( pNeighbor, vCornerVert );
if ( iNBCorner == -1 )
{
nbCornerVerts[iNeighbor] = -1; // remove this neighbor from the list.
}
else
{
CVertIndex viNBCornerVert = pNeighbor->GetCornerPointIndex( iNBCorner );
int iNBVert = pNeighbor->VertIndexToInt( viNBCornerVert );
nbCornerVerts[iNeighbor] = iNBVert;
vAverage += pNeighbor->GetNormal( iNBVert );
}
}
// Blend all the neighbor normals with this one.
VectorNormalize( vAverage );
pDisp->SetNormal( iCornerVert, vAverage );
#if defined( USE_SCRATCHPAD )
ScratchPad_DrawArrowSimple(
g_pPad,
pDisp->GetVert( iCornerVert ),
pDisp->GetNormal( iCornerVert ),
Vector( 0, 0, 1 ),
25 );
#endif
for ( int iNeighbor=0; iNeighbor < nNeighbors; iNeighbor++ )
{
int iNBListIndex = iNeighbors[iNeighbor];
if ( nbCornerVerts[iNeighbor] == -1 )
continue;
CCoreDispInfo *pNeighbor = ppListBase[iNBListIndex];
pNeighbor->SetNormal( nbCornerVerts[iNeighbor], vAverage );
}
}
}
}
void CNetViewThread::UpdateServicesFromNetView()
{
HANDLE hChildStdoutRd, hChildStdoutWr;
// Set the bInheritHandle flag so pipe handles are inherited.
SECURITY_ATTRIBUTES saAttr;
saAttr.nLength = sizeof(SECURITY_ATTRIBUTES);
saAttr.bInheritHandle = TRUE;
saAttr.lpSecurityDescriptor = NULL;
if( CreatePipe( &hChildStdoutRd, &hChildStdoutWr, &saAttr, 0 ) )
{
STARTUPINFO si;
memset(&si, 0, sizeof si);
si.cb = sizeof(si);
si.dwFlags = STARTF_USESTDHANDLES;
si.hStdOutput = hChildStdoutWr;
PROCESS_INFORMATION pi;
if( CreateProcess(
NULL,
"net view",
NULL, // lpProcessAttributes
NULL, // lpThreadAttributes
TRUE, // bInheritHandls
DETACHED_PROCESS, // dwCreationFlags
NULL, // lpEnvironment
NULL, // lpCurrentDirectory
&si, // lpStartupInfo
&pi // lpProcessInformation
) )
{
// read from pipe..
#define BUFFER_SIZE 8192
char buffer[BUFFER_SIZE];
BOOL bDone = FALSE;
CUtlVector<char> totalBuffer;
while(1)
{
DWORD dwCount = 0;
DWORD dwRead = 0;
// read from input handle
PeekNamedPipe(hChildStdoutRd, NULL, NULL, NULL, &dwCount, NULL);
if (dwCount)
{
dwCount = min (dwCount, BUFFER_SIZE - 1);
ReadFile(hChildStdoutRd, buffer, dwCount, &dwRead, NULL);
}
if(dwRead)
{
buffer[dwRead] = 0;
totalBuffer.AddMultipleToTail( dwRead, buffer );
}
// check process termination
else if( WaitForSingleObject( pi.hProcess, 1000 ) != WAIT_TIMEOUT )
{
if ( bDone )
break;
bDone = TRUE; // next time we get it
}
}
// Now parse the output.
totalBuffer.AddToTail( 0 );
ParseComputerNames( totalBuffer.Base() );
}
CloseHandle( hChildStdoutRd );
CloseHandle( hChildStdoutWr );
}
}
void BuildPingHeader( CUtlVector<char> &data, char packetID, int iState )
{
// Figure out the computer's name.
char computerName[128];
DWORD computerNameLen = sizeof( computerName );
GetComputerName( computerName, &computerNameLen );
// Ping back at them.
data.AddToTail( VMPI_PROTOCOL_VERSION );
data.AddToTail( packetID );
data.AddToTail( (char)iState );
DWORD liveTime = GetTickCount() - g_AppStartTime;
data.AddMultipleToTail( sizeof( liveTime ), (char*)&liveTime );
data.AddMultipleToTail( sizeof( g_SocketPort ), (char*)&g_SocketPort );
data.AddMultipleToTail( strlen( computerName ) + 1, computerName );
if ( g_hRunningProcess )
data.AddMultipleToTail( strlen( g_CurMasterName ) + 1, g_CurMasterName );
else
data.AddMultipleToTail( 1, "" );
// Write in how long the worker app has been running.
DWORD appRunTime = 0;
if ( g_hRunningProcess )
appRunTime = GetTickCount() - g_CreateProcessTime;
data.AddMultipleToTail( sizeof( appRunTime ), (char*)&appRunTime );
// Finally, write the password.
if ( g_pPassword )
data.AddMultipleToTail( strlen( g_pPassword ) + 1, g_pPassword );
else
data.AddToTail( 0 );
data.AddMultipleToTail( V_strlen( g_VersionString ) + 1, g_VersionString );
int processorPercentage, memoryUsageMegabytes;
GetRunningProcessStats( processorPercentage, memoryUsageMegabytes );
// Write processor percentage.
data.AddToTail( (char)processorPercentage );
// Write the EXE name.
data.AddMultipleToTail( V_strlen( g_RunningProcess_ExeName ) + 1, g_RunningProcess_ExeName );
// Write memory usage.
short memUsageShort = (short)memoryUsageMegabytes;
data.AddMultipleToTail( sizeof( memUsageShort ), (const char*)&memUsageShort );
// Write the map name.
data.AddMultipleToTail( V_strlen( g_RunningProcess_MapName ) + 1, g_RunningProcess_MapName );
}
//-----------------------------------------------------------------------------
// Computes LOD vertices for a model piece.
//-----------------------------------------------------------------------------
static void UnifyModelLODs( s_model_t *pSrcModel )
{
CUtlVector<s_source_t *> lods;
int nNumLODs = g_ScriptLODs.Count();
lods.AddMultipleToTail( nNumLODs );
if( Q_stricmp( pSrcModel->name, "blank" ) == 0 )
return;
// lod source are not gauranteed to be unique
// an lod's source may be the same source at multiple lods
// and therefore shared
GetLODSources( lods, pSrcModel );
// each lod has a unique vertex mapping table
int nLodID;
int *pMeshVertIndexMaps[MAX_NUM_LODS];
for ( nLodID = 0; nLodID < MAX_NUM_LODS; nLodID++ )
{
if ( nLodID < nNumLODs && lods[nLodID] )
{
pMeshVertIndexMaps[nLodID] = new int[lods[nLodID]->numvertices];
#ifdef _DEBUG
memset( pMeshVertIndexMaps[nLodID], 0xDD, lods[nLodID]->numvertices * sizeof(int) );
#endif
}
else
{
pMeshVertIndexMaps[nLodID] = NULL;
}
}
// These hold the aggregate data for the model that grows as lods are processed
CVertexDictionary vertexDictionary;
CUtlVector<s_face_t> faces;
CUtlVector<s_mesh_t> meshes;
meshes.AddMultipleToTail( MAXSTUDIOSKINS );
Assert( meshes.Count() == MAXSTUDIOSKINS );
memset( meshes.Base(), 0, meshes.Count() * sizeof( s_mesh_t ) );
int nMeshID;
for( nMeshID = 0; nMeshID < pSrcModel->source->nummeshes; nMeshID++ )
{
s_mesh_t *pVertexDictMesh = &meshes[pSrcModel->source->meshindex[nMeshID]];
pVertexDictMesh->numvertices = 0;
pVertexDictMesh->vertexoffset = vertexDictionary.VertexCount();
pVertexDictMesh->numfaces = 0;
pVertexDictMesh->faceoffset = faces.Count();
// First build up information for LOD 0
if ( !lods[0] )
continue;
// lookup the material used by this mesh
int nMaterialID = lods[0]->meshindex[nMeshID];
s_mesh_t *pLOD0Mesh = FindMeshByMaterial( lods[0], nMaterialID );
if ( !pLOD0Mesh )
continue;
// populate with all vertices from LOD 0
int nStart = vertexDictionary.VertexCount();
CopyVerts( 0, lods[0], pLOD0Mesh, vertexDictionary, pVertexDictMesh, pMeshVertIndexMaps[0] );
vertexDictionary.SetRootVertexRange( nStart, vertexDictionary.VertexCount() );
MarkRootLODBones( vertexDictionary );
// only fix up the faces for the highest lod since the lowest ones are going
// to be reprocessed later.
CopyFaces( lods[0], pLOD0Mesh, faces, pVertexDictMesh );
// Now, for each LOD, try to build meshes using the vertices in LOD 0.
// Ideally, vertices used in an LOD would be in LOD 0 for the benefit of shared vertices.
// If we don't find vertices in LOD 0, this code will add vertices into LOD 0's list
// of vertices for the next LOD to find
for ( nLodID = 1; nLodID < nNumLODs; ++nLodID )
{
s_source_t *pCurrLOD = lods[nLodID];
if ( !pCurrLOD )
continue;
// Find the mesh that matches the material
// mesh may not be present or could be culled due to $removemesh commands
s_mesh_t *pCurrLODMesh = FindOrCullMesh( nLodID, pCurrLOD, nMaterialID );
if ( !pCurrLODMesh )
continue;
CreateLODVertsInDictionary( nLodID, lods[0], pCurrLOD, pCurrLODMesh, pVertexDictMesh, vertexDictionary, pMeshVertIndexMaps[nLodID]);
}
}
#ifdef _DEBUG
Msg( "Total vertex count: %d\n", vertexDictionary.VertexCount() );
#endif
// save the data we just built into the processed data section
// The processed data has all of the verts that are needed for all LODs.
SetProcessedWithDictionary( lods, vertexDictionary, faces, meshes, pMeshVertIndexMaps );
// PrintSourceVerts( lods[0] );
}
