Team Fortress 2 Source Code as on 22/4/2020
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//========= Copyright Valve Corporation, All rights reserved. ============//
//
// Purpose: Real-Time Hierarchical Profiling
//
// $NoKeywords: $
//===========================================================================//
#include "pch_tier0.h"
#include "tier0/memalloc.h"
#include "tier0/valve_off.h"
#if defined(_WIN32) && !defined(_X360)
#define WIN_32_LEAN_AND_MEAN
#include <windows.h>
#endif
#include <assert.h>
#ifdef _WIN32
#pragma warning(disable:4073)
#pragma init_seg( lib )
#endif
#pragma warning(push, 1)
#pragma warning(disable:4786)
#pragma warning(disable:4530)
#include <map>
#include <vector>
#include <algorithm>
#pragma warning(pop)
#include "tier0/valve_on.h"
#include "tier0/vprof.h"
#include "tier0/l2cache.h"
#include "tier0/tslist.h"
#include "tier0/dynfunction.h"
#ifdef _X360
#include "xbox/xbox_console.h"
#else // NOT _X360:
#include "tier0/memdbgon.h"
#endif
// NOTE: Explicitly and intentionally using STL in here to not generate any
// cyclical dependencies between the low-level debug library and the higher
// level data structures (toml 01-27-03)
using namespace std;
#ifdef VPROF_ENABLED
#if defined(_X360) && !defined(_CERT) // enable PIX CPU trace:
#include "tracerecording.h"
#pragma comment( lib, "tracerecording.lib" )
#pragma comment( lib, "xbdm.lib" )
#endif
//-----------------------------------------------------------------------------
bool g_VProfSignalSpike;
//-----------------------------------------------------------------------------
CVProfile g_VProfCurrentProfile;
int CVProfNode::s_iCurrentUniqueNodeID = 0;
CVProfNode::~CVProfNode()
{
#if !defined( _WIN32 ) && !defined( POSIX )
delete m_pChild;
delete m_pSibling;
#endif
}
CVProfNode *CVProfNode::GetSubNode( const tchar *pszName, int detailLevel, const tchar *pBudgetGroupName, int budgetFlags )
{
// Try to find this sub node
CVProfNode * child = m_pChild;
while ( child )
{
if ( child->m_pszName == pszName )
{
return child;
}
child = child->m_pSibling;
}
// We didn't find it, so add it
CVProfNode * node = new CVProfNode( pszName, detailLevel, this, pBudgetGroupName, budgetFlags );
node->m_pSibling = m_pChild;
m_pChild = node;
return node;
}
CVProfNode *CVProfNode::GetSubNode( const tchar *pszName, int detailLevel, const tchar *pBudgetGroupName )
{
return GetSubNode( pszName, detailLevel, pBudgetGroupName, BUDGETFLAG_OTHER );
}
//-------------------------------------
void CVProfNode::EnterScope()
{
m_nCurFrameCalls++;
if ( m_nRecursions++ == 0 )
{
m_Timer.Start();
#ifndef _X360
if ( g_VProfCurrentProfile.UsePME() )
{
m_L2Cache.Start();
}
#else // 360 code:
if ( g_VProfCurrentProfile.UsePME() || ((m_iBitFlags & kRecordL2) != 0) )
{
m_PMCData.Start();
}
if ( (m_iBitFlags & kCPUTrace) != 0)
{
// this node is to be recorded. Which recording mode are we in?
switch ( g_VProfCurrentProfile.GetCPUTraceMode() )
{
case CVProfile::kFirstHitNode:
case CVProfile::kAllNodesInFrame_Recording:
case CVProfile::kAllNodesInFrame_RecordingMultiFrame:
// we are presently recording.
if ( !XTraceStartRecording( g_VProfCurrentProfile.GetCPUTraceFilename() ) )
{
Msg( "XTraceStartRecording failed, error code %d\n", GetLastError() );
}
default:
// no default.
break;
}
}
#endif
#ifdef VPROF_VTUNE_GROUP
g_VProfCurrentProfile.PushGroup( m_BudgetGroupID );
#endif
}
}
//-------------------------------------
bool CVProfNode::ExitScope()
{
if ( --m_nRecursions == 0 && m_nCurFrameCalls != 0 )
{
m_Timer.End();
m_CurFrameTime += m_Timer.GetDuration();
#ifndef _X360
if ( g_VProfCurrentProfile.UsePME() )
{
m_L2Cache.End();
m_iCurL2CacheMiss += m_L2Cache.GetL2CacheMisses();
}
#else // 360 code:
if ( g_VProfCurrentProfile.UsePME() || ((m_iBitFlags & kRecordL2) != 0) )
{
m_PMCData.End();
m_iCurL2CacheMiss += m_PMCData.GetL2CacheMisses();
m_iCurLoadHitStores += m_PMCData.GetLHS();
}
if ( (m_iBitFlags & kCPUTrace) != 0 )
{
// this node is enabled to be recorded. What mode are we in?
switch ( g_VProfCurrentProfile.GetCPUTraceMode() )
{
case CVProfile::kFirstHitNode:
{
// one-off recording. stop now.
if ( XTraceStopRecording() )
{
Msg( "CPU trace finished.\n" );
if ( g_VProfCurrentProfile.TraceCompleteEvent() )
{
// signal VXConsole that trace is completed
XBX_rTraceComplete();
}
}
// don't trace again next frame, overwriting the file.
g_VProfCurrentProfile.SetCPUTraceEnabled( CVProfile::kDisabled );
break;
}
case CVProfile::kAllNodesInFrame_Recording:
case CVProfile::kAllNodesInFrame_RecordingMultiFrame:
{
// one-off recording. stop now.
if ( XTraceStopRecording() )
{
if ( g_VProfCurrentProfile.GetCPUTraceMode() == CVProfile::kAllNodesInFrame_RecordingMultiFrame )
{
Msg( "%.3f msec in %s\n", m_CurFrameTime.GetMillisecondsF(), g_VProfCurrentProfile.GetCPUTraceFilename() );
}
else
{
Msg( "CPU trace finished.\n" );
}
}
// Spew time info for file to allow figuring it out later
g_VProfCurrentProfile.LatchMultiFrame( m_CurFrameTime.GetLongCycles() );
#if 0 // This doesn't want to work on the xbox360-- MoveFile not available or file still being put down to disk?
char suffix[ 32 ];
_snprintf( suffix, sizeof( suffix ), "_%.3f_msecs", flMsecs );
char fn[ 512 ];
strncpy( fn, g_VProfCurrentProfile.GetCPUTraceFilename(), sizeof( fn ) );
char *p = strrchr( fn, '.' );
if ( *p )
{
*p = 0;
}
strncat( fn, suffix, sizeof( fn ) );
strncat( fn, ".pix2", sizeof( fn ) );
BOOL bSuccess = MoveFile( g_VProfCurrentProfile.GetCPUTraceFilename(), fn );
if ( !bSuccess )
{
DWORD eCode = GetLastError();
Msg( "Error %d\n", eCode );
}
#endif
// we're still recording until the frame is done.
// but, increment the index.
g_VProfCurrentProfile.IncrementMultiTraceIndex();
break;
}
}
// g_VProfCurrentProfile.IsCPUTraceEnabled() &&
}
#endif
#ifdef VPROF_VTUNE_GROUP
g_VProfCurrentProfile.PopGroup();
#endif
}
return ( m_nRecursions == 0 );
}
//-------------------------------------
void CVProfNode::Pause()
{
if ( m_nRecursions > 0 )
{
m_Timer.End();
m_CurFrameTime += m_Timer.GetDuration();
#ifndef _X360
if ( g_VProfCurrentProfile.UsePME() )
{
m_L2Cache.End();
m_iCurL2CacheMiss += m_L2Cache.GetL2CacheMisses();
}
#else // 360 code:
if ( g_VProfCurrentProfile.UsePME() || ((m_iBitFlags & kRecordL2) != 0) )
{
m_PMCData.End();
m_iCurL2CacheMiss += m_PMCData.GetL2CacheMisses();
m_iCurLoadHitStores += m_PMCData.GetLHS();
}
#endif
}
if ( m_pChild )
{
m_pChild->Pause();
}
if ( m_pSibling )
{
m_pSibling->Pause();
}
}
//-------------------------------------
void CVProfNode::Resume()
{
if ( m_nRecursions > 0 )
{
m_Timer.Start();
#ifndef _X360
if ( g_VProfCurrentProfile.UsePME() )
{
m_L2Cache.Start();
}
#else
if ( g_VProfCurrentProfile.UsePME() || ((m_iBitFlags & kRecordL2) != 0) )
{
m_PMCData.Start();
}
#endif
}
if ( m_pChild )
{
m_pChild->Resume();
}
if ( m_pSibling )
{
m_pSibling->Resume();
}
}
//-------------------------------------
void CVProfNode::Reset()
{
m_nPrevFrameCalls = 0;
m_PrevFrameTime.Init();
m_nCurFrameCalls = 0;
m_CurFrameTime.Init();
m_nTotalCalls = 0;
m_TotalTime.Init();
m_PeakTime.Init();
m_iPrevL2CacheMiss = 0;
m_iCurL2CacheMiss = 0;
m_iTotalL2CacheMiss = 0;
#ifdef _X360
m_iPrevLoadHitStores = 0;
m_iCurLoadHitStores = 0;
m_iTotalLoadHitStores = 0;
#endif
if ( m_pChild )
{
m_pChild->Reset();
}
if ( m_pSibling )
{
m_pSibling->Reset();
}
}
//-------------------------------------
void CVProfNode::MarkFrame()
{
m_nPrevFrameCalls = m_nCurFrameCalls;
m_PrevFrameTime = m_CurFrameTime;
m_iPrevL2CacheMiss = m_iCurL2CacheMiss;
#ifdef _X360
m_iPrevLoadHitStores = m_iCurLoadHitStores;
#endif
m_nTotalCalls += m_nCurFrameCalls;
m_TotalTime += m_CurFrameTime;
if ( m_PeakTime.IsLessThan( m_CurFrameTime ) )
{
m_PeakTime = m_CurFrameTime;
}
m_CurFrameTime.Init();
m_nCurFrameCalls = 0;
m_iTotalL2CacheMiss += m_iCurL2CacheMiss;
m_iCurL2CacheMiss = 0;
#ifdef _X360
m_iTotalLoadHitStores += m_iCurLoadHitStores;
m_iCurLoadHitStores = 0;
#endif
if ( m_pChild )
{
m_pChild->MarkFrame();
}
if ( m_pSibling )
{
m_pSibling->MarkFrame();
}
}
//-------------------------------------
void CVProfNode::ResetPeak()
{
m_PeakTime.Init();
if ( m_pChild )
{
m_pChild->ResetPeak();
}
if ( m_pSibling )
{
m_pSibling->ResetPeak();
}
}
void CVProfNode::SetCurFrameTime( unsigned long milliseconds )
{
m_CurFrameTime.Init( (float)milliseconds );
}
#ifdef DBGFLAG_VALIDATE
//-----------------------------------------------------------------------------
// Purpose: Ensure that all of our internal structures are consistent, and
// account for all memory that we've allocated.
// Input: validator - Our global validator object
// pchName - Our name (typically a member var in our container)
//-----------------------------------------------------------------------------
void CVProfNode::Validate( CValidator &validator, tchar *pchName )
{
validator.Push( _T("CVProfNode"), this, pchName );
m_L2Cache.Validate( validator, _T("m_L2Cache") );
if ( m_pSibling )
m_pSibling->Validate( validator, _T("m_pSibling") );
if ( m_pChild )
m_pChild->Validate( validator, _T("m_pChild") );
validator.Pop( );
}
#endif // DBGFLAG_VALIDATE
//-----------------------------------------------------------------------------
struct TimeSums_t
{
const tchar *pszProfileScope;
int calls;
double time;
double timeLessChildren;
double peak;
};
static bool TimeCompare( const TimeSums_t &lhs, const TimeSums_t &rhs )
{
return ( lhs.time > rhs.time );
}
static bool TimeLessChildrenCompare( const TimeSums_t &lhs, const TimeSums_t &rhs )
{
return ( lhs.timeLessChildren > rhs.timeLessChildren );
}
static bool PeakCompare( const TimeSums_t &lhs, const TimeSums_t &rhs )
{
return ( lhs.peak > rhs.peak );
}
static bool AverageTimeCompare( const TimeSums_t &lhs, const TimeSums_t &rhs )
{
double avgLhs = ( lhs.calls ) ? lhs.time / (double)lhs.calls : 0.0;
double avgRhs = ( rhs.calls ) ? rhs.time / (double)rhs.calls : 0.0;
return ( avgLhs > avgRhs );
}
static bool AverageTimeLessChildrenCompare( const TimeSums_t &lhs, const TimeSums_t &rhs )
{
double avgLhs = ( lhs.calls ) ? lhs.timeLessChildren / (double)lhs.calls : 0.0;
double avgRhs = ( rhs.calls ) ? rhs.timeLessChildren / (double)rhs.calls : 0.0;
return ( avgLhs > avgRhs );
}
static bool PeakOverAverageCompare( const TimeSums_t &lhs, const TimeSums_t &rhs )
{
double avgLhs = ( lhs.calls ) ? lhs.time / (double)lhs.calls : 0.0;
double avgRhs = ( rhs.calls ) ? rhs.time / (double)rhs.calls : 0.0;
double lhsPoA = ( avgLhs != 0 ) ? lhs.peak / avgLhs : 0.0;
double rhsPoA = ( avgRhs != 0 ) ? rhs.peak / avgRhs : 0.0;
return ( lhsPoA > rhsPoA );
}
map<CVProfNode *, double> g_TimesLessChildren;
int g_TotalFrames;
map<const tchar *, size_t> g_TimeSumsMap;
vector<TimeSums_t> g_TimeSums;
CVProfNode * g_pStartNode;
const tchar * g_pszSumNode;
//-------------------------------------
void CVProfile::SumTimes( CVProfNode *pNode, int budgetGroupID )
{
if ( !pNode )
return; // this generally only happens on a failed FindNode()
bool bSetStartNode;
if ( !g_pStartNode && _tcscmp( pNode->GetName(), g_pszSumNode ) == 0 )
{
g_pStartNode = pNode;
bSetStartNode = true;
}
else
bSetStartNode = false;
if ( GetRoot() != pNode )
{
if ( g_pStartNode && pNode->GetTotalCalls() > 0 && ( budgetGroupID == -1 || pNode->GetBudgetGroupID() == budgetGroupID ) )
{
double timeLessChildren = pNode->GetTotalTimeLessChildren();
g_TimesLessChildren.insert( make_pair( pNode, timeLessChildren ) );
map<const tchar *, size_t>::iterator iter;
iter = g_TimeSumsMap.find( pNode->GetName() ); // intenionally using address of string rather than string compare (toml 01-27-03)
if ( iter == g_TimeSumsMap.end() )
{
TimeSums_t timeSums = { pNode->GetName(), pNode->GetTotalCalls(), pNode->GetTotalTime(), timeLessChildren, pNode->GetPeakTime() };
g_TimeSumsMap.insert( make_pair( pNode->GetName(), g_TimeSums.size() ) );
g_TimeSums.push_back( timeSums );
}
else
{
TimeSums_t &timeSums = g_TimeSums[iter->second];
timeSums.calls += pNode->GetTotalCalls();
timeSums.time += pNode->GetTotalTime();
timeSums.timeLessChildren += timeLessChildren;
if ( pNode->GetPeakTime() > timeSums.peak )
timeSums.peak = pNode->GetPeakTime();
}
}
if( ( !g_pStartNode || pNode != g_pStartNode ) && pNode->GetSibling() )
{
SumTimes( pNode->GetSibling(), budgetGroupID );
}
}
if( pNode->GetChild() )
{
SumTimes( pNode->GetChild(), budgetGroupID );
}
if ( bSetStartNode )
g_pStartNode = NULL;
}
//-------------------------------------
CVProfNode *CVProfile::FindNode( CVProfNode *pStartNode, const tchar *pszNode )
{
if ( _tcscmp( pStartNode->GetName(), pszNode ) != 0 )
{
CVProfNode *pFoundNode = NULL;
if ( pStartNode->GetSibling() )
{
pFoundNode = FindNode( pStartNode->GetSibling(), pszNode );
}
if ( !pFoundNode && pStartNode->GetChild() )
{
pFoundNode = FindNode( pStartNode->GetChild(), pszNode );
}
return pFoundNode;
}
return pStartNode;
}
//-------------------------------------
#ifdef _X360
void CVProfile::PMCDisableAllNodes(CVProfNode *pStartNode)
{
if (pStartNode == NULL)
{
pStartNode = GetRoot();
}
pStartNode->EnableL2andLHS(false);
if ( pStartNode->GetSibling() )
{
PMCDisableAllNodes(pStartNode->GetSibling());
}
if ( pStartNode->GetChild() )
{
PMCDisableAllNodes(pStartNode->GetChild());
}
}
// recursively set l2/lhs recording state for a node and all children AND SIBLINGS
static void PMCRecursiveL2Set(CVProfNode *pNode, bool enableState)
{
if ( pNode )
{
pNode->EnableL2andLHS(enableState);
if ( pNode->GetSibling() )
{
PMCRecursiveL2Set( pNode->GetSibling(), enableState );
}
if ( pNode->GetChild() )
{
PMCRecursiveL2Set( pNode->GetChild(), enableState );
}
}
}
bool CVProfile::PMCEnableL2Upon(const tchar *pszNodeName, bool bRecursive)
{
// PMCDisableAllNodes();
CVProfNode *pNode = FindNode( GetRoot(), pszNodeName );
if (pNode)
{
pNode->EnableL2andLHS(true);
if (bRecursive)
{
PMCRecursiveL2Set(pNode->GetChild(), true);
}
return true;
}
else
{
return false;
}
}
bool CVProfile::PMCDisableL2Upon(const tchar *pszNodeName, bool bRecursive)
{
// PMCDisableAllNodes();
CVProfNode *pNode = FindNode( GetRoot(), pszNodeName );
if ( pNode )
{
pNode->EnableL2andLHS( false );
if ( bRecursive )
{
PMCRecursiveL2Set( pNode->GetChild(), false );
}
return true;
}
else
{
return false;
}
}
static void DumpEnabledPMCNodesInner(CVProfNode* pNode)
{
if (!pNode)
return;
if (pNode->IsL2andLHSEnabled())
{
Msg( _T("\t%s\n"), pNode->GetName() );
}
// depth first printing clearer
if ( pNode->GetChild() )
{
DumpEnabledPMCNodesInner(pNode->GetChild());
}
if ( pNode->GetSibling() )
{
DumpEnabledPMCNodesInner(pNode->GetChild());
}
}
void CVProfile::DumpEnabledPMCNodes( void )
{
Msg( _T("Nodes enabled for PMC counters:\n") );
CVProfNode *pNode = GetRoot();
DumpEnabledPMCNodesInner( pNode );
Msg( _T("(end)\n") );
}
CVProfNode *CVProfile::CPUTraceGetEnabledNode(CVProfNode *pStartNode)
{
if (!pStartNode)
{
pStartNode = GetRoot();
}
if ( (pStartNode->m_iBitFlags & CVProfNode::kCPUTrace) != 0 )
{
return pStartNode;
}
if (pStartNode->GetSibling())
{
CVProfNode *retval = CPUTraceGetEnabledNode(pStartNode->GetSibling());
if (retval)
return retval;
}
if (pStartNode->GetChild())
{
CVProfNode *retval = CPUTraceGetEnabledNode(pStartNode->GetChild());
if (retval)
return retval;
}
return NULL;
}
const char *CVProfile::SetCPUTraceFilename( const char *filename )
{
strncpy( m_CPUTraceFilename, filename, sizeof( m_CPUTraceFilename ) );
return GetCPUTraceFilename();
}
/// Returns a pointer to an internal static, so you don't need to
/// make temporary char buffers for this to write into. What of it?
/// You're not hanging on to that pointer. That would be foolish.
const char *CVProfile::GetCPUTraceFilename()
{
static char retBuf[256];
switch ( m_iCPUTraceEnabled )
{
case kAllNodesInFrame_WaitingForMark:
case kAllNodesInFrame_Recording:
_snprintf( retBuf, sizeof( retBuf ), "e:\\%.128s%.4d.pix2", m_CPUTraceFilename, m_iSuccessiveTraceIndex );
break;
case kAllNodesInFrame_WaitingForMarkMultiFrame:
case kAllNodesInFrame_RecordingMultiFrame:
_snprintf( retBuf, sizeof( retBuf ), "e:\\%.128s_%.4d_%.4d.pix2", m_CPUTraceFilename, m_nFrameCount, m_iSuccessiveTraceIndex );
break;
default:
_snprintf( retBuf, sizeof( retBuf ), "e:\\%.128s.pix2", m_CPUTraceFilename );
}
return retBuf;
}
bool CVProfile::TraceCompleteEvent( void )
{
return m_bTraceCompleteEvent;
}
CVProfNode *CVProfile::CPUTraceEnableForNode(const tchar *pszNodeName)
{
// disable whatever may be enabled already (we can only trace one node at a time)
CPUTraceDisableAllNodes();
CVProfNode *which = FindNode(GetRoot(), pszNodeName);
if (which)
{
which->m_iBitFlags |= CVProfNode::kCPUTrace;
return which;
}
else
return NULL;
}
void CVProfile::CPUTraceDisableAllNodes(CVProfNode *pStartNode)
{
if (!pStartNode)
{
pStartNode = GetRoot();
}
pStartNode->m_iBitFlags &= ~CVProfNode::kCPUTrace;
if (pStartNode->GetSibling())
{
CPUTraceDisableAllNodes(pStartNode->GetSibling());
}
if (pStartNode->GetChild())
{
CPUTraceDisableAllNodes(pStartNode->GetChild());
}
}
#endif
//-------------------------------------
void CVProfile::SumTimes( const tchar *pszStartNode, int budgetGroupID )
{
if ( GetRoot()->GetChild() )
{
if ( pszStartNode == NULL )
g_pStartNode = GetRoot();
else
g_pStartNode = NULL;
g_pszSumNode = pszStartNode;
SumTimes( GetRoot(), budgetGroupID );
g_pStartNode = NULL;
}
}
//-------------------------------------
// This array lets us generate the commonly used indent levels
// without looping. That then lets us print our vprof nodes
// in a single call, which is more efficient and works better
// with output streams like ETW where each call represents a
// 'line' of text. Indent levels beyond what is represented
// in this array are, regretfully, clamped, however the highest
// indent level seen in testing was 10.
static const char* s_indentText[] =
{
"", // 0
"", // 1
"| ", // 2
"| | ", // 3
"| | | ", // 4
"| | | | ", // 5
"| | | | | ", // 6
"| | | | | | ", // 7
"| | | | | | | ", // 8
"| | | | | | | | ", // 9
"| | | | | | | | | ", // 10
"| | | | | | | | | | ", // 11
"| | | | | | | | | | | ", // 12
"| | | | | | | | | | | | ", // 13
"| | | | | | | | | | | | | ", // 14
};
void CVProfile::DumpNodes( CVProfNode *pNode, int indent, bool bAverageAndCountOnly )
{
if ( !pNode )
return; // this generally only happens on a failed FindNode()
bool fIsRoot = ( pNode == GetRoot() );
if ( fIsRoot || pNode == g_pStartNode )
{
if( bAverageAndCountOnly )
{
m_pOutputStream( _T(" Avg Time/Frame (ms)\n") );
m_pOutputStream( _T("[ func+child func ] Count\n") );
m_pOutputStream( _T(" ---------- ------ ------\n") );
}
else
{
m_pOutputStream( _T(" Sum (ms) Avg Time/Frame (ms) Avg Time/Call (ms)\n") );
m_pOutputStream( _T("[ func+child func ] [ func+child func ] [ func+child func ] Count Peak\n") );
m_pOutputStream( _T(" ---------- ------ ---------- ------ ---------- ------ ------ ------\n") );
}
}
if ( !fIsRoot )
{
map<CVProfNode *, double>::iterator iterTimeLessChildren = g_TimesLessChildren.find( pNode );
indent = Max( indent, 0 );
indent = Min( indent, (int)ARRAYSIZE( s_indentText ) - 1 );
const char* indentText = s_indentText[ indent ];
double dNodeTime = 0;
if(iterTimeLessChildren != g_TimesLessChildren.end())
dNodeTime = iterTimeLessChildren->second;
if( bAverageAndCountOnly )
{
m_pOutputStream( _T(" %10.3f %6.2f %6d %s%s\n"),
( pNode->GetTotalCalls() > 0 ) ? pNode->GetTotalTime() / (double)NumFramesSampled() : 0,
( pNode->GetTotalCalls() > 0 ) ? dNodeTime / (double)NumFramesSampled() : 0,
pNode->GetTotalCalls(), indentText, pNode->GetName() );
}
else
{
m_pOutputStream( _T(" %10.3f %6.2f %10.3f %6.2f %10.3f %6.2f %6d %6.2f %s%s\n"),
pNode->GetTotalTime(), dNodeTime,
( pNode->GetTotalCalls() > 0 ) ? pNode->GetTotalTime() / (double)NumFramesSampled() : 0,
( pNode->GetTotalCalls() > 0 ) ? dNodeTime / (double)NumFramesSampled() : 0,
( pNode->GetTotalCalls() > 0 ) ? pNode->GetTotalTime() / (double)pNode->GetTotalCalls() : 0,
( pNode->GetTotalCalls() > 0 ) ? dNodeTime / (double)pNode->GetTotalCalls() : 0,
pNode->GetTotalCalls(), pNode->GetPeakTime(), indentText, pNode->GetName() );
}
}
if( pNode->GetChild() )
{
DumpNodes( pNode->GetChild(), indent + 1, bAverageAndCountOnly );
}
if( !( fIsRoot || pNode == g_pStartNode ) && pNode->GetSibling() )
{
DumpNodes( pNode->GetSibling(), indent, bAverageAndCountOnly );
}
}
//-------------------------------------
#if defined( _X360 )
static void CalcBudgetGroupTimes_Recursive( CVProfNode *pNode, unsigned int *groupTimes, int numGroups, float flScale )
{
int groupID;
CVProfNode *nodePtr;
groupID = pNode->GetBudgetGroupID();
if ( groupID >= numGroups )
{
return;
}
groupTimes[groupID] += flScale*pNode->GetPrevTimeLessChildren();
nodePtr = pNode->GetSibling();
if ( nodePtr )
{
CalcBudgetGroupTimes_Recursive( nodePtr, groupTimes, numGroups, flScale );
}
nodePtr = pNode->GetChild();
if ( nodePtr )
{
CalcBudgetGroupTimes_Recursive( nodePtr, groupTimes, numGroups, flScale );
}
}
static void CalcBudgetGroupL2CacheMisses_Recursive( CVProfNode *pNode, unsigned int *groupTimes, int numGroups, float flScale )
{
int groupID;
CVProfNode *nodePtr;
groupID = pNode->GetBudgetGroupID();
if ( groupID >= numGroups )
{
return;
}
groupTimes[groupID] += flScale*pNode->GetPrevL2CacheMissLessChildren();
nodePtr = pNode->GetSibling();
if ( nodePtr )
{
CalcBudgetGroupL2CacheMisses_Recursive( nodePtr, groupTimes, numGroups, flScale );
}
nodePtr = pNode->GetChild();
if ( nodePtr )
{
CalcBudgetGroupL2CacheMisses_Recursive( nodePtr, groupTimes, numGroups, flScale );
}
}
static void CalcBudgetGroupLHS_Recursive( CVProfNode *pNode, unsigned int *groupTimes, int numGroups, float flScale )
{
int groupID;
CVProfNode *nodePtr;
groupID = pNode->GetBudgetGroupID();
if ( groupID >= numGroups )
{
return;
}
groupTimes[groupID] += flScale*pNode->GetPrevLoadHitStoreLessChildren();
nodePtr = pNode->GetSibling();
if ( nodePtr )
{
CalcBudgetGroupLHS_Recursive( nodePtr, groupTimes, numGroups, flScale );
}
nodePtr = pNode->GetChild();
if ( nodePtr )
{
CalcBudgetGroupLHS_Recursive( nodePtr, groupTimes, numGroups, flScale );
}
}
void CVProfile::VXConsoleReportMode( VXConsoleReportMode_t mode )
{
m_ReportMode = mode;
}
void CVProfile::VXConsoleReportScale( VXConsoleReportMode_t mode, float flScale )
{
m_pReportScale[mode] = flScale;
}
//-----------------------------------------------------------------------------
// Send the all the counter attributes once to VXConsole at profiling start
//-----------------------------------------------------------------------------
void CVProfile::VXProfileStart()
{
const char *names[XBX_MAX_PROFILE_COUNTERS];
unsigned int colors[XBX_MAX_PROFILE_COUNTERS];
int numGroups;
int counterGroup;
const char *pGroupName;
int i;
int r,g,b,a;
// vprof system must be running
if ( m_enabled <= 0 || !m_UpdateMode )
{
return;
}
if ( m_UpdateMode & VPROF_UPDATE_BUDGET )
{
// update budget profiling
numGroups = g_VProfCurrentProfile.GetNumBudgetGroups();
if ( numGroups > XBX_MAX_PROFILE_COUNTERS )
{
numGroups = XBX_MAX_PROFILE_COUNTERS;
}
for ( i=0; i<numGroups; i++ )
{
names[i] = g_VProfCurrentProfile.GetBudgetGroupName( i );
g_VProfCurrentProfile.GetBudgetGroupColor( i, r, g, b, a );
colors[i] = XMAKECOLOR( r, g, b );
}
// send all the profile attributes
XBX_rSetProfileAttributes( "cpu", numGroups, names, colors );
}
if ( m_UpdateMode & (VPROF_UPDATE_TEXTURE_GLOBAL|VPROF_UPDATE_TEXTURE_PERFRAME) )
{
// update texture profiling
numGroups = 0;
counterGroup = (m_UpdateMode & VPROF_UPDATE_TEXTURE_GLOBAL) ? COUNTER_GROUP_TEXTURE_GLOBAL : COUNTER_GROUP_TEXTURE_PER_FRAME;
for ( i=0; i<g_VProfCurrentProfile.GetNumCounters(); i++ )
{
if ( g_VProfCurrentProfile.GetCounterGroup( i ) == counterGroup )
{
// strip undesired prefix
pGroupName = g_VProfCurrentProfile.GetCounterName( i );
if ( !strnicmp( pGroupName, "texgroup_frame_", 15 ) )
{
pGroupName += 15;
}
else if ( !strnicmp( pGroupName, "texgroup_global_", 16 ) )
{
pGroupName += 16;
}
names[numGroups] = pGroupName;
g_VProfCurrentProfile.GetBudgetGroupColor( numGroups, r, g, b, a );
colors[numGroups] = XMAKECOLOR( r, g, b );
numGroups++;
if ( numGroups == XBX_MAX_PROFILE_COUNTERS )
{
break;
}
}
}
// send all the profile attributes
XBX_rSetProfileAttributes( "texture", numGroups, names, colors );
}
}
//-----------------------------------------------------------------------------
// Send the counters to VXConsole
//-----------------------------------------------------------------------------
void CVProfile::VXProfileUpdate()
{
int i;
int counterGroup;
int numGroups;
unsigned int groupData[XBX_MAX_PROFILE_COUNTERS];
// vprof system must be running
if ( m_enabled <= 0 || !m_UpdateMode )
{
return;
}
if ( m_UpdateMode & VPROF_UPDATE_BUDGET )
{
// send the cpu counters
numGroups = g_VProfCurrentProfile.GetNumBudgetGroups();
if ( numGroups > XBX_MAX_PROFILE_COUNTERS )
{
numGroups = XBX_MAX_PROFILE_COUNTERS;
}
memset( groupData, 0, numGroups * sizeof( unsigned int ) );
CVProfNode *pNode = g_VProfCurrentProfile.GetRoot();
if ( pNode && pNode->GetChild() )
{
switch ( m_ReportMode )
{
default:
case VXCONSOLE_REPORT_TIME:
CalcBudgetGroupTimes_Recursive( pNode->GetChild(), groupData, numGroups, m_pReportScale[VXCONSOLE_REPORT_TIME] );
break;
case VXCONSOLE_REPORT_L2CACHE_MISSES:
CalcBudgetGroupL2CacheMisses_Recursive( pNode->GetChild(), groupData, numGroups, m_pReportScale[VXCONSOLE_REPORT_L2CACHE_MISSES] );
break;
case VXCONSOLE_REPORT_LOAD_HIT_STORE:
CalcBudgetGroupLHS_Recursive( pNode->GetChild(), groupData, numGroups, m_pReportScale[VXCONSOLE_REPORT_LOAD_HIT_STORE] );
break;
}
}
XBX_rSetProfileData( "cpu", numGroups, groupData );
}
if ( m_UpdateMode & ( VPROF_UPDATE_TEXTURE_GLOBAL|VPROF_UPDATE_TEXTURE_PERFRAME ) )
{
// send the texture counters
numGroups = 0;
counterGroup = ( m_UpdateMode & VPROF_UPDATE_TEXTURE_GLOBAL ) ? COUNTER_GROUP_TEXTURE_GLOBAL : COUNTER_GROUP_TEXTURE_PER_FRAME;
for ( i = 0; i < g_VProfCurrentProfile.GetNumCounters(); i++ )
{
if ( g_VProfCurrentProfile.GetCounterGroup( i ) == counterGroup )
{
// get the size in bytes
groupData[numGroups++] = g_VProfCurrentProfile.GetCounterValue( i );
if ( numGroups == XBX_MAX_PROFILE_COUNTERS )
{
break;
}
}
}
XBX_rSetProfileData( "texture", numGroups, groupData );
}
}
void CVProfile::VXEnableUpdateMode( int event, bool bEnable )
{
// enable or disable the updating of specified events
if ( bEnable )
{
m_UpdateMode |= event;
}
else
{
m_UpdateMode &= ~event;
}
// force a resend of possibly affected attributes
VXProfileStart();
}
#define MAX_VPROF_NODES_IN_LIST 4096
static void VXBuildNodeList_r( CVProfNode *pNode, xVProfNodeItem_t *pNodeList, int *pNumNodes )
{
if ( !pNode )
{
return;
}
if ( *pNumNodes >= MAX_VPROF_NODES_IN_LIST )
{
// list full
return;
}
// add to list
pNodeList[*pNumNodes].pName = (const char *)pNode->GetName();
pNodeList[*pNumNodes].pBudgetGroupName = g_VProfCurrentProfile.GetBudgetGroupName( pNode->GetBudgetGroupID() );
int r, g, b, a;
g_VProfCurrentProfile.GetBudgetGroupColor( pNode->GetBudgetGroupID(), r, g, b, a );
pNodeList[*pNumNodes].budgetGroupColor = XMAKECOLOR( r, g, b );
pNodeList[*pNumNodes].totalCalls = pNode->GetTotalCalls();
pNodeList[*pNumNodes].inclusiveTime = pNode->GetTotalTime();
pNodeList[*pNumNodes].exclusiveTime = pNode->GetTotalTimeLessChildren();
(*pNumNodes)++;
CVProfNode *nodePtr = pNode->GetSibling();
if ( nodePtr )
{
VXBuildNodeList_r( nodePtr, pNodeList, pNumNodes );
}
nodePtr = pNode->GetChild();
if ( nodePtr )
{
VXBuildNodeList_r( nodePtr, pNodeList, pNumNodes );
}
}
void CVProfile::VXSendNodes( void )
{
Pause();
xVProfNodeItem_t *pNodeList = (xVProfNodeItem_t *)stackalloc( MAX_VPROF_NODES_IN_LIST * sizeof(xVProfNodeItem_t) );
int numNodes = 0;
VXBuildNodeList_r( GetRoot(), pNodeList, &numNodes );
// send to vxconsole
XBX_rVProfNodeList( numNodes, pNodeList );
Resume();
}
#endif
//-------------------------------------
static void DumpSorted( CVProfile::StreamOut_t outputStream, const tchar *pszHeading, double totalTime, bool (*pfnSort)( const TimeSums_t &, const TimeSums_t & ), int maxLen = 999999 )
{
unsigned i;
vector<TimeSums_t> sortedSums;
sortedSums = g_TimeSums;
sort( sortedSums.begin(), sortedSums.end(), pfnSort );
outputStream( _T("%s\n"), pszHeading);
outputStream( _T(" Scope Calls Calls/Frame Time+Child Pct Time Pct Avg/Frame Avg/Call Avg-NoChild Peak\n"));
outputStream( _T(" ---------------------------------------------------- ----------- ----------- ----------- ------ ----------- ------ ----------- ----------- ----------- -----------\n"));
for ( i = 0; i < sortedSums.size() && i < (unsigned)maxLen; i++ )
{
double avg = ( sortedSums[i].calls ) ? sortedSums[i].time / (double)sortedSums[i].calls : 0.0;
double avgLessChildren = ( sortedSums[i].calls ) ? sortedSums[i].timeLessChildren / (double)sortedSums[i].calls : 0.0;
outputStream( _T(" %52.52s%12d%12.3f%12.3f%7.2f%12.3f%7.2f%12.3f%12.3f%12.3f%12.3f\n"),
sortedSums[i].pszProfileScope,
sortedSums[i].calls,
(float)sortedSums[i].calls / (float)g_TotalFrames,
sortedSums[i].time,
min( ( sortedSums[i].time / totalTime ) * 100.0, 100.0 ),
sortedSums[i].timeLessChildren,
min( ( sortedSums[i].timeLessChildren / totalTime ) * 100.0, 100.0 ),
sortedSums[i].time / (float)g_TotalFrames,
avg,
avgLessChildren,
sortedSums[i].peak );
}
}
#if _X360
// Dump information on all nodes with PMC recording
static void DumpPMC( CVProfNode *pNode, bool &bPrintHeader, uint64 L2thresh = 1, uint64 LHSthresh = 1 )
{
if (!pNode) return;
uint64 l2 = pNode->GetL2CacheMisses();
uint64 lhs = pNode->GetLoadHitStores();
if ( l2 > L2thresh &&
lhs > LHSthresh )
{
// met threshold.
if (bPrintHeader)
{
// print header
Msg( _T("-- 360 PMC information --\n") );
Msg( _T("Scope L2/call L2/frame LHS/call LHS/frame\n") );
Msg( _T("---------------------------------------------------- --------- --------- --------- ---------\n") );
bPrintHeader = false;
}
// print
float calls = pNode->GetTotalCalls();
float frames = g_TotalFrames;
Msg( _T("%52.52s %9.2f %9.2f %9.2f %9.2f\n"), pNode->GetName(), l2/calls, l2/frames, lhs/calls, lhs/frames );
}
if ( pNode->GetSibling() )
{
DumpPMC( pNode->GetSibling(), bPrintHeader, L2thresh, LHSthresh );
}
if ( pNode->GetChild() )
{
DumpPMC( pNode->GetChild(), bPrintHeader, L2thresh, LHSthresh );
}
}
#endif
//-------------------------------------
void CVProfile::SetOutputStream( StreamOut_t outputStream )
{
if ( outputStream != NULL )
m_pOutputStream = outputStream;
else
m_pOutputStream = Msg;
}
//-------------------------------------
void CVProfile::OutputReport( int type, const tchar *pszStartNode, int budgetGroupID )
{
m_pOutputStream( _T("******** BEGIN VPROF REPORT ********\n"));
#ifdef _MSC_VER
#if (_MSC_VER < 1300)
m_pOutputStream( _T(" (note: this report exceeds the output capacity of MSVC debug window. Use console window or console log.) \n"));
#endif
#endif
g_TotalFrames = max( NumFramesSampled() - 1, 1 );
if ( NumFramesSampled() == 0 || GetTotalTimeSampled() == 0)
m_pOutputStream( _T("No samples\n") );
else
{
if ( type & VPRT_SUMMARY )
{
m_pOutputStream( _T("-- Summary --\n") );
m_pOutputStream( _T("%d frames sampled for %.2f seconds\n"), g_TotalFrames, GetTotalTimeSampled() / 1000.0 );
m_pOutputStream( _T("Average %.2f fps, %.2f ms per frame\n"), 1000.0 / ( GetTotalTimeSampled() / g_TotalFrames ), GetTotalTimeSampled() / g_TotalFrames );
m_pOutputStream( _T("Peak %.2f ms frame\n"), GetPeakFrameTime() );
double timeAccountedFor = 100.0 - ( m_Root.GetTotalTimeLessChildren() / m_Root.GetTotalTime() );
m_pOutputStream( _T("%.0f pct of time accounted for\n"), min( 100.0, timeAccountedFor ) );
m_pOutputStream( _T("\n") );
}
if ( pszStartNode == NULL )
{
pszStartNode = GetRoot()->GetName();
}
SumTimes( pszStartNode, budgetGroupID );
// Dump the hierarchy
if ( type & VPRT_HIERARCHY )
{
m_pOutputStream( _T("-- Hierarchical Call Graph --\n"));
if ( pszStartNode == NULL )
g_pStartNode = NULL;
else
g_pStartNode = FindNode( GetRoot(), pszStartNode );
DumpNodes( (!g_pStartNode) ? GetRoot() : g_pStartNode, 0, false );
m_pOutputStream( _T("\n") );
}
if ( type & VPRT_HIERARCHY_TIME_PER_FRAME_AND_COUNT_ONLY )
{
m_pOutputStream( _T("-- Hierarchical Call Graph --\n"));
if ( pszStartNode == NULL )
g_pStartNode = NULL;
else
g_pStartNode = FindNode( GetRoot(), pszStartNode );
DumpNodes( (!g_pStartNode) ? GetRoot() : g_pStartNode, 0, true );
m_pOutputStream( _T("\n") );
}
int maxLen = ( type & VPRT_LIST_TOP_ITEMS_ONLY ) ? 25 : 999999;
if ( type & VPRT_LIST_BY_TIME )
{
DumpSorted( m_pOutputStream, _T("-- Profile scopes sorted by time (including children) --"), GetTotalTimeSampled(), TimeCompare, maxLen );
m_pOutputStream( _T("\n") );
}
if ( type & VPRT_LIST_BY_TIME_LESS_CHILDREN )
{
DumpSorted( m_pOutputStream, _T("-- Profile scopes sorted by time (without children) --"), GetTotalTimeSampled(), TimeLessChildrenCompare, maxLen );
m_pOutputStream( _T("\n") );
}
if ( type & VPRT_LIST_BY_AVG_TIME )
{
DumpSorted( m_pOutputStream, _T("-- Profile scopes sorted by average time (including children) --"), GetTotalTimeSampled(), AverageTimeCompare, maxLen );
m_pOutputStream( _T("\n") );
}
if ( type & VPRT_LIST_BY_AVG_TIME_LESS_CHILDREN )
{
DumpSorted( m_pOutputStream, _T("-- Profile scopes sorted by average time (without children) --"), GetTotalTimeSampled(), AverageTimeLessChildrenCompare, maxLen );
m_pOutputStream( _T("\n") );
}
if ( type & VPRT_LIST_BY_PEAK_TIME )
{
DumpSorted( m_pOutputStream, _T("-- Profile scopes sorted by peak --"), GetTotalTimeSampled(), PeakCompare, maxLen);
m_pOutputStream( _T("\n") );
}
if ( type & VPRT_LIST_BY_PEAK_OVER_AVERAGE )
{
DumpSorted( m_pOutputStream, _T("-- Profile scopes sorted by peak over average (including children) --"), GetTotalTimeSampled(), PeakOverAverageCompare, maxLen );
m_pOutputStream( _T("\n") );
}
// TODO: Functions by time less children
// TODO: Functions by time averages
// TODO: Functions by peak
// TODO: Peak deviation from average
g_TimesLessChildren.clear();
g_TimeSumsMap.clear();
g_TimeSums.clear();
#ifdef _X360
bool bPrintedHeader = true;
DumpPMC( FindNode( GetRoot(), pszStartNode ), bPrintedHeader );
#endif
}
m_pOutputStream( _T("******** END VPROF REPORT ********\n"));
}
//=============================================================================
CVProfile::CVProfile()
: m_Root( _T("Root"), 0, NULL, VPROF_BUDGETGROUP_OTHER_UNACCOUNTED, 0 ),
m_pCurNode( &m_Root ),
m_nFrames( 0 ),
m_enabled( 0 ),
m_pausedEnabledDepth( 0 ),
m_fAtRoot( true ),
m_pOutputStream( Msg )
{
#ifdef VPROF_VTUNE_GROUP
m_GroupIDStackDepth = 1;
m_GroupIDStack[0] = 0; // VPROF_BUDGETGROUP_OTHER_UNACCOUNTED
#endif
m_TargetThreadId = ThreadGetCurrentId();
// Go ahead and allocate 32 slots for budget group names
MEM_ALLOC_CREDIT();
m_pBudgetGroups = new CVProfile::CBudgetGroup[32];
m_nBudgetGroupNames = 0;
m_nBudgetGroupNamesAllocated = 32;
// Add these here so that they will always be in the same order.
// VPROF_BUDGETGROUP_OTHER_UNACCOUNTED has to be FIRST!!!!
BudgetGroupNameToBudgetGroupID( VPROF_BUDGETGROUP_OTHER_UNACCOUNTED, BUDGETFLAG_OTHER | BUDGETFLAG_SERVER );
BudgetGroupNameToBudgetGroupID( VPROF_BUDGETGROUP_WORLD_RENDERING, BUDGETFLAG_CLIENT );
BudgetGroupNameToBudgetGroupID( VPROF_BUDGETGROUP_DISPLACEMENT_RENDERING, BUDGETFLAG_CLIENT );
BudgetGroupNameToBudgetGroupID( VPROF_BUDGETGROUP_GAME, BUDGETFLAG_OTHER | BUDGETFLAG_SERVER );
BudgetGroupNameToBudgetGroupID( VPROF_BUDGETGROUP_PLAYER, BUDGETFLAG_OTHER | BUDGETFLAG_SERVER );
BudgetGroupNameToBudgetGroupID( VPROF_BUDGETGROUP_NPCS, BUDGETFLAG_OTHER | BUDGETFLAG_SERVER );
BudgetGroupNameToBudgetGroupID( VPROF_BUDGETGROUP_SERVER_ANIM, BUDGETFLAG_OTHER | BUDGETFLAG_SERVER );
BudgetGroupNameToBudgetGroupID( VPROF_BUDGETGROUP_CLIENT_ANIMATION, BUDGETFLAG_CLIENT );
BudgetGroupNameToBudgetGroupID( VPROF_BUDGETGROUP_PHYSICS, BUDGETFLAG_OTHER | BUDGETFLAG_SERVER );
BudgetGroupNameToBudgetGroupID( VPROF_BUDGETGROUP_STATICPROP_RENDERING, BUDGETFLAG_CLIENT );
BudgetGroupNameToBudgetGroupID( VPROF_BUDGETGROUP_MODEL_RENDERING, BUDGETFLAG_CLIENT );
BudgetGroupNameToBudgetGroupID( VPROF_BUDGETGROUP_MODEL_FAST_PATH_RENDERING,BUDGETFLAG_CLIENT );
BudgetGroupNameToBudgetGroupID( VPROF_BUDGETGROUP_LIGHTCACHE, BUDGETFLAG_CLIENT );
BudgetGroupNameToBudgetGroupID( VPROF_BUDGETGROUP_BRUSHMODEL_RENDERING, BUDGETFLAG_CLIENT );
BudgetGroupNameToBudgetGroupID( VPROF_BUDGETGROUP_SHADOW_RENDERING, BUDGETFLAG_CLIENT );
BudgetGroupNameToBudgetGroupID( VPROF_BUDGETGROUP_DETAILPROP_RENDERING, BUDGETFLAG_CLIENT );
BudgetGroupNameToBudgetGroupID( VPROF_BUDGETGROUP_PARTICLE_RENDERING, BUDGETFLAG_CLIENT );
BudgetGroupNameToBudgetGroupID( VPROF_BUDGETGROUP_ROPES, BUDGETFLAG_CLIENT );
BudgetGroupNameToBudgetGroupID( VPROF_BUDGETGROUP_DLIGHT_RENDERING, BUDGETFLAG_CLIENT );
BudgetGroupNameToBudgetGroupID( VPROF_BUDGETGROUP_OTHER_NETWORKING, BUDGETFLAG_OTHER | BUDGETFLAG_SERVER );
BudgetGroupNameToBudgetGroupID( VPROF_BUDGETGROUP_OTHER_SOUND, BUDGETFLAG_OTHER | BUDGETFLAG_SERVER );
BudgetGroupNameToBudgetGroupID( VPROF_BUDGETGROUP_OTHER_VGUI, BUDGETFLAG_OTHER | BUDGETFLAG_SERVER );
BudgetGroupNameToBudgetGroupID( VPROF_BUDGETGROUP_OTHER_FILESYSTEM, BUDGETFLAG_OTHER | BUDGETFLAG_SERVER );
BudgetGroupNameToBudgetGroupID( VPROF_BUDGETGROUP_PREDICTION, BUDGETFLAG_CLIENT );
BudgetGroupNameToBudgetGroupID( VPROF_BUDGETGROUP_INTERPOLATION, BUDGETFLAG_CLIENT );
BudgetGroupNameToBudgetGroupID( VPROF_BUDGETGROUP_SWAP_BUFFERS, BUDGETFLAG_CLIENT );
BudgetGroupNameToBudgetGroupID( VPROF_BUDGETGROUP_OCCLUSION, BUDGETFLAG_CLIENT );
BudgetGroupNameToBudgetGroupID( VPROF_BUDGETGROUP_OVERLAYS, BUDGETFLAG_CLIENT );
BudgetGroupNameToBudgetGroupID( VPROF_BUDGETGROUP_TOOLS, BUDGETFLAG_OTHER | BUDGETFLAG_CLIENT );
BudgetGroupNameToBudgetGroupID( VPROF_BUDGETGROUP_TEXTURE_CACHE, BUDGETFLAG_CLIENT );
BudgetGroupNameToBudgetGroupID( VPROF_BUDGETGROUP_REPLAY, BUDGETFLAG_SERVER );
// BudgetGroupNameToBudgetGroupID( VPROF_BUDGETGROUP_DISP_HULLTRACES );
m_bPMEInit = false;
m_bPMEEnabled = false;
#ifdef _X360
m_UpdateMode = 0;
m_iCPUTraceEnabled = kDisabled;
m_bTraceCompleteEvent = false;
m_iSuccessiveTraceIndex = 0;
m_ReportMode = VXCONSOLE_REPORT_TIME;
m_pReportScale[VXCONSOLE_REPORT_TIME] = 1000.0f;
m_pReportScale[VXCONSOLE_REPORT_L2CACHE_MISSES] = 1.0f;
m_pReportScale[VXCONSOLE_REPORT_LOAD_HIT_STORE] = 0.1f;
m_nFrameCount = 0;
m_nFramesRemaining = 1;
m_WorstCycles = 0;
m_WorstTraceFilename[ 0 ] = 0;
#endif
}
CVProfile::~CVProfile()
{
Term();
}
void CVProfile::FreeNodes_R( CVProfNode *pNode )
{
CVProfNode *pNext;
for ( CVProfNode *pChild = pNode->GetChild(); pChild; pChild = pNext )
{
pNext = pChild->GetSibling();
FreeNodes_R( pChild );
}
if ( pNode == GetRoot() )
{
pNode->m_pChild = NULL;
}
else
{
delete pNode;
}
}
void CVProfile::Term()
{
int i;
for( i = 0; i < m_nBudgetGroupNames; i++ )
{
delete [] m_pBudgetGroups[i].m_pName;
}
delete m_pBudgetGroups;
m_nBudgetGroupNames = m_nBudgetGroupNamesAllocated = 0;
m_pBudgetGroups = NULL;
int n;
for( n = 0; n < m_NumCounters; n++ )
{
delete [] m_CounterNames[n];
m_CounterNames[n] = NULL;
}
m_NumCounters = 0;
// Free the nodes.
if ( GetRoot() )
{
FreeNodes_R( GetRoot() );
}
}
#define COLORMIN 160
#define COLORMAX 255
static int g_ColorLookup[4] =
{
COLORMIN,
COLORMAX,
COLORMIN+(COLORMAX-COLORMIN)/3,
COLORMIN+((COLORMAX-COLORMIN)*2)/3,
};
#define GET_BIT( val, bitnum ) ( ( val >> bitnum ) & 0x1 )
void CVProfile::GetBudgetGroupColor( int budgetGroupID, int &r, int &g, int &b, int &a )
{
budgetGroupID = budgetGroupID % ( 1 << 6 );
int index;
index = GET_BIT( budgetGroupID, 0 ) | ( GET_BIT( budgetGroupID, 5 ) << 1 );
r = g_ColorLookup[index];
index = GET_BIT( budgetGroupID, 1 ) | ( GET_BIT( budgetGroupID, 4 ) << 1 );
g = g_ColorLookup[index];
index = GET_BIT( budgetGroupID, 2 ) | ( GET_BIT( budgetGroupID, 3 ) << 1 );
b = g_ColorLookup[index];
a = 255;
}
// return -1 if it doesn't exist.
int CVProfile::FindBudgetGroupName( const tchar *pBudgetGroupName )
{
int i;
for( i = 0; i < m_nBudgetGroupNames; i++ )
{
if( _tcsicmp( pBudgetGroupName, m_pBudgetGroups[i].m_pName ) == 0 )
{
return i;
}
}
return -1;
}
int CVProfile::AddBudgetGroupName( const tchar *pBudgetGroupName, int budgetFlags )
{
MEM_ALLOC_CREDIT();
tchar *pNewString = new tchar[ _tcslen( pBudgetGroupName ) + 1 ];
_tcscpy( pNewString, pBudgetGroupName );
if( m_nBudgetGroupNames + 1 > m_nBudgetGroupNamesAllocated )
{
m_nBudgetGroupNamesAllocated *= 2;
m_nBudgetGroupNamesAllocated = max( m_nBudgetGroupNames + 6, m_nBudgetGroupNamesAllocated );
CBudgetGroup *pNew = new CBudgetGroup[ m_nBudgetGroupNamesAllocated ];
for ( int i=0; i < m_nBudgetGroupNames; i++ )
pNew[i] = m_pBudgetGroups[i];
delete [] m_pBudgetGroups;
m_pBudgetGroups = pNew;
}
m_pBudgetGroups[m_nBudgetGroupNames].m_pName = pNewString;
m_pBudgetGroups[m_nBudgetGroupNames].m_BudgetFlags = budgetFlags;
m_nBudgetGroupNames++;
if( m_pNumBudgetGroupsChangedCallBack )
{
(*m_pNumBudgetGroupsChangedCallBack)();
}
#if defined( _X360 )
// re-start with all the known budgets
VXProfileStart();
#endif
return m_nBudgetGroupNames - 1;
}
int CVProfile::BudgetGroupNameToBudgetGroupID( const tchar *pBudgetGroupName, int budgetFlagsToORIn )
{
int budgetGroupID = FindBudgetGroupName( pBudgetGroupName );
if( budgetGroupID == -1 )
{
budgetGroupID = AddBudgetGroupName( pBudgetGroupName, budgetFlagsToORIn );
}
else
{
m_pBudgetGroups[budgetGroupID].m_BudgetFlags |= budgetFlagsToORIn;
}
return budgetGroupID;
}
int CVProfile::BudgetGroupNameToBudgetGroupID( const tchar *pBudgetGroupName )
{
return BudgetGroupNameToBudgetGroupID( pBudgetGroupName, BUDGETFLAG_OTHER );
}
int CVProfile::GetNumBudgetGroups( void )
{
return m_nBudgetGroupNames;
}
void CVProfile::RegisterNumBudgetGroupsChangedCallBack( void (*pCallBack)(void) )
{
m_pNumBudgetGroupsChangedCallBack = pCallBack;
}
void CVProfile::HideBudgetGroup( int budgetGroupID, bool bHide )
{
if( budgetGroupID != -1 )
{
if ( bHide )
m_pBudgetGroups[budgetGroupID].m_BudgetFlags |= BUDGETFLAG_HIDDEN;
else
m_pBudgetGroups[budgetGroupID].m_BudgetFlags &= ~BUDGETFLAG_HIDDEN;
}
}
int *CVProfile::FindOrCreateCounter( const tchar *pName, CounterGroup_t eCounterGroup )
{
Assert( m_NumCounters+1 < MAXCOUNTERS );
if ( m_NumCounters + 1 >= MAXCOUNTERS || !InTargetThread() )
{
static int dummy;
return &dummy;
}
int i;
for( i = 0; i < m_NumCounters; i++ )
{
if( _tcsicmp( m_CounterNames[i], pName ) == 0 )
{
// found it!
return &m_Counters[i];
}
}
// NOTE: These get freed in ~CVProfile.
MEM_ALLOC_CREDIT();
tchar *pNewName = new tchar[_tcslen( pName ) + 1];
_tcscpy( pNewName, pName );
m_Counters[m_NumCounters] = 0;
m_CounterGroups[m_NumCounters] = (char)eCounterGroup;
m_CounterNames[m_NumCounters++] = pNewName;
return &m_Counters[m_NumCounters-1];
}
void CVProfile::ResetCounters( CounterGroup_t eCounterGroup )
{
int i;
for( i = 0; i < m_NumCounters; i++ )
{
if ( m_CounterGroups[i] == eCounterGroup )
m_Counters[i] = 0;
}
}
int CVProfile::GetNumCounters() const
{
return m_NumCounters;
}
const tchar *CVProfile::GetCounterName( int index ) const
{
Assert( index >= 0 && index < m_NumCounters );
return m_CounterNames[index];
}
int CVProfile::GetCounterValue( int index ) const
{
Assert( index >= 0 && index < m_NumCounters );
return m_Counters[index];
}
const tchar *CVProfile::GetCounterNameAndValue( int index, int &val ) const
{
Assert( index >= 0 && index < m_NumCounters );
val = m_Counters[index];
return m_CounterNames[index];
}
CounterGroup_t CVProfile::GetCounterGroup( int index ) const
{
Assert( index >= 0 && index < m_NumCounters );
return (CounterGroup_t)m_CounterGroups[index];
}
#ifdef _X360
void CVProfile::LatchMultiFrame( int64 cycles )
{
if ( cycles > m_WorstCycles )
{
strncpy( m_WorstTraceFilename, GetCPUTraceFilename(), sizeof( m_WorstTraceFilename ) );
m_WorstCycles = cycles;
}
}
void CVProfile::SpewWorstMultiFrame()
{
CCycleCount cc( m_WorstCycles );
m_pOutputStream( "%s == %.3f msec\n", m_WorstTraceFilename, cc.GetMillisecondsF() );
}
#endif
#ifdef DBGFLAG_VALIDATE
#ifdef _WIN64
#error the below is presumably broken on 64 bit
#endif // _WIN64
const int k_cSTLMapAllocOffset = 4;
#define GET_INTERNAL_MAP_ALLOC_PTR( pMap ) \
( * ( (void **) ( ( ( byte * ) ( pMap ) ) + k_cSTLMapAllocOffset ) ) )
//-----------------------------------------------------------------------------
// Purpose: Ensure that all of our internal structures are consistent, and
// account for all memory that we've allocated.
// Input: validator - Our global validator object
// pchName - Our name (typically a member var in our container)
//-----------------------------------------------------------------------------
void CVProfile::Validate( CValidator &validator, tchar *pchName )
{
validator.Push( _T("CVProfile"), this, pchName );
m_Root.Validate( validator, _T("m_Root") );
for ( int iBudgetGroup=0; iBudgetGroup < m_nBudgetGroupNames; iBudgetGroup++ )
validator.ClaimMemory( m_pBudgetGroups[iBudgetGroup].m_pName );
validator.ClaimMemory( m_pBudgetGroups );
// The std template map class allocates memory internally, but offer no way to get
// access to their pointer. Since this is for debug purposes only and the
// std template classes don't change, just look at the well-known offset. This
// is arguably sick and wrong, kind of like marrying a squirrel.
validator.ClaimMemory( GET_INTERNAL_MAP_ALLOC_PTR( &g_TimesLessChildren ) );
validator.ClaimMemory( GET_INTERNAL_MAP_ALLOC_PTR( &g_TimeSumsMap ) );
validator.Pop( );
}
#endif // DBGFLAG_VALIDATE
#endif // VPROF_ENABLED
#ifdef RAD_TELEMETRY_ENABLED
TelemetryData g_Telemetry;
static HTELEMETRY g_tmContext;
static TmU8 *g_pTmMemoryArena = NULL;
static bool g_TelemetryLoaded = false;
static unsigned int g_TelemetryFrameCount = 0;
static bool g_fTelemetryLevelChanged = false;
static const TmU32 TELEMETRY_ARENA_SIZE = 8 * 1024 * 1024; // How much memory we want Telemetry to use.
struct ThreadNameInfo_t
{
TSLNodeBase_t base;
ThreadId_t ThreadID;
char szName[ 64 ];
};
static CTSSimpleList< ThreadNameInfo_t > g_ThreadNamesList;
static bool g_bThreadNameArrayChanged = false;
static int g_ThreadNameArrayCount = 0;
static ThreadNameInfo_t *g_ThreadNameArray[64];
void TelemetryThreadSetDebugName( ThreadId_t id, const char *pszName )
{
ThreadNameInfo_t *pThreadNameInfo = new ThreadNameInfo_t;
if( id == ( uint32 )-1 )
{
id = ThreadGetCurrentId();
}
pThreadNameInfo->ThreadID = id;
strncpy( pThreadNameInfo->szName, pszName, ARRAYSIZE( pThreadNameInfo->szName ) );
pThreadNameInfo->szName[ ARRAYSIZE( pThreadNameInfo->szName ) - 1 ] = 0;
g_ThreadNamesList.Push( pThreadNameInfo );
g_bThreadNameArrayChanged = true;
}
static void UpdateTelemetryThreadNames()
{
if( g_bThreadNameArrayChanged )
{
// Go through and add any new thread names we got in our thread safe list to our thread names array.
for( ThreadNameInfo_t *pThreadNameInfo = g_ThreadNamesList.Pop();
pThreadNameInfo;
pThreadNameInfo = g_ThreadNamesList.Pop() )
{
if( g_ThreadNameArrayCount < ARRAYSIZE( g_ThreadNameArray ) )
{
g_ThreadNameArray[ g_ThreadNameArrayCount ] = pThreadNameInfo;
g_ThreadNameArrayCount++;
}
else
{
delete pThreadNameInfo;
}
}
tmThreadName( g_tmContext, ThreadGetCurrentId(), "MainThrd" );
for( int i = 0; i < g_ThreadNameArrayCount; i++ )
{
tmThreadName( g_tmContext, g_ThreadNameArray[i]->ThreadID, g_ThreadNameArray[i]->szName );
}
g_bThreadNameArrayChanged = false;
}
}
static bool TelemetryInitialize()
{
if( g_tmContext )
{
TmConnectionStatus status = tmGetConnectionStatus( g_tmContext );
if( status == TMCS_CONNECTED || status == TMCS_CONNECTING )
return true;
}
TmErrorCode retVal;
if( !g_TelemetryLoaded )
{
// Pass in 0 if you want to use the release mode DLL or 1 if you want to
// use the checked DLL. The checked DLL is compiled with optimizations but
// does extra run time checks and reporting.
int nLoadTelemetry = tmLoadTelemetry( 0 );
retVal = tmStartup();
if ( retVal != TM_OK )
{
Warning( "TelemetryInit() failed: tmStartup() returned %d, tmLoadTelemetry() returned %d.\n", retVal, nLoadTelemetry );
return false;
}
if( !g_pTmMemoryArena )
{
g_pTmMemoryArena = new TmU8[ TELEMETRY_ARENA_SIZE ];
}
retVal = tmInitializeContext( &g_tmContext, g_pTmMemoryArena, TELEMETRY_ARENA_SIZE );
if ( retVal != TM_OK )
{
delete [] g_pTmMemoryArena;
g_pTmMemoryArena = NULL;
Warning( "TelemetryInit() failed: tmInitializeContext() returned %d.\n", retVal );
return false;
}
g_TelemetryLoaded = true;
}
const char *pGameName = "tf2";
#if defined( IS_WINDOWS_PC )
char baseExeFilename[512];
if( GetModuleFileName ( GetModuleHandle( NULL ), baseExeFilename, sizeof( baseExeFilename ) ) )
{
char *pExt = strrchr( baseExeFilename, '.' );
if( pExt )
*pExt = 0;
char *pSeparator = strrchr( baseExeFilename, '\\' );
pGameName = pSeparator ? ( pSeparator + 1 ) : baseExeFilename;
}
// If you've got \\perforce\symbols on your _NT_SYMBOL_PATH, tmOpen() can take a massively long
// time in the symInitialize() routine. Since we don't really need that, kill it here.
putenv( "_NT_SYMBOL_PATH=" );
#endif
const char *pServerAddress = g_Telemetry.ServerAddress[0] ? g_Telemetry.ServerAddress : "localhost";
TmConnectionType tmType = !V_tier0_stricmp( pServerAddress, "FILE" ) ? TMCT_FILE : TMCT_TCP;
Msg( "TELEMETRY: Calling tmOpen( %s )...\n", pServerAddress );
char szBuildInfo[ 2048 ];
_snprintf( szBuildInfo, ARRAYSIZE( szBuildInfo ), "%s: %s", __DATE__ __TIME__, Plat_GetCommandLineA() );
szBuildInfo[ ARRAYSIZE( szBuildInfo ) - 1 ] = 0;
TmU32 TmOpenFlags = TMOF_DEFAULT | TMOF_MINIMAL_CONTEXT_SWITCHES;
/* TmOpenFlags |= TMOF_DISABLE_CONTEXT_SWITCHES | TMOF_INIT_NETWORKING*/
retVal = tmOpen( g_tmContext, pGameName, szBuildInfo, pServerAddress, tmType,
TELEMETRY_DEFAULT_PORT, TmOpenFlags, 1000 );
if ( retVal != TM_OK )
{
Warning( "TelemetryInitialize() failed: tmOpen returned %d.\n", retVal );
return false;
}
Msg( "Telemetry initialized at level %u.\n", g_Telemetry.Level );
// Make sure we set all the thread names.
g_bThreadNameArrayChanged = true;
UpdateTelemetryThreadNames();
return true;
}
static void TelemetryShutdown( bool InDtor = false )
{
if( g_tmContext )
{
// Msg can't be called here as tier0 may have already been shut down...
if( !InDtor )
{
Msg( "Shutting down telemetry.\n" );
}
TmConnectionStatus status = tmGetConnectionStatus( g_tmContext );
if( status == TMCS_CONNECTED || status == TMCS_CONNECTING )
tmClose( g_tmContext );
// Discontinue new usage of the context before shutting it down (multithreading).
memset( g_Telemetry.tmContext, 0, sizeof( g_Telemetry.tmContext ) );
HTELEMETRY hShutdown = g_tmContext;
g_tmContext = NULL;
tmShutdownContext( hShutdown );
tmShutdown();
g_TelemetryLoaded = false;
}
}
// Helper class to initialize Telemetry.
class CTelemetryRegister
{
public:
CTelemetryRegister() {}
~CTelemetryRegister() { TelemetryShutdown( true ); }
} g_TelemetryRegister;
PLATFORM_INTERFACE void TelemetrySetLevel( unsigned int Level )
{
if( Level != g_Telemetry.Level )
{
DevMsg( "TelemetrySetLevel changed from 0x%x to 0x%x\n", g_Telemetry.Level, Level );
g_Telemetry.Level = Level;
g_TelemetryFrameCount = g_Telemetry.FrameCount;
g_fTelemetryLevelChanged = true;
}
}
static void TelemetryPlots()
{
if( g_Telemetry.playbacktick )
{
tmPlotU32( TELEMETRY_LEVEL1, TMPT_INTEGER, 0, g_Telemetry.playbacktick, "game/PlaybackTick" );
g_Telemetry.playbacktick = 0;
}
for( int i = 0; i < g_VProfCurrentProfile.GetNumCounters(); i++ )
{
if( g_VProfCurrentProfile.GetCounterGroup( i ) == COUNTER_GROUP_TELEMETRY )
{
int val;
const char *name = g_VProfCurrentProfile.GetCounterNameAndValue( i, val );
tmPlotI32( TELEMETRY_LEVEL1, TMPT_INTEGER, 0, val, name );
}
}
g_VProfCurrentProfile.ResetCounters( COUNTER_GROUP_TELEMETRY );
}
PLATFORM_INTERFACE void TelemetryTick()
{
static double s_d0 = Plat_FloatTime();
static TmU64 s_t0 = tmFastTime();
if( !g_Telemetry.Level && g_Telemetry.DemoTickStart && ( (uint32)g_Telemetry.playbacktick > g_Telemetry.DemoTickStart ) )
{
TelemetrySetLevel( 2 );
g_Telemetry.DemoTickStart = 0;
}
if( g_Telemetry.Level && g_Telemetry.DemoTickEnd && ( (uint32)g_Telemetry.playbacktick > g_Telemetry.DemoTickEnd ) )
{
TelemetrySetLevel( 0 );
g_Telemetry.DemoTickEnd = ( uint32 )-1;
}
// People can NIL out contexts in the TelemetryData structure to control
// the level and what sections to log. We always need to do ticks though,
// so use master context for this.
if( g_tmContext )
{
// Update any new thread names.
UpdateTelemetryThreadNames();
if ( g_Telemetry.Level > 0 )
TelemetryPlots();
// Do a Telemetry Tick.
tmTick( g_tmContext );
// Update flRDTSCToMilliSeconds.
TmU64 s_t1 = tmFastTime();
double s_d1 = Plat_FloatTime();
g_Telemetry.flRDTSCToMilliSeconds = 1000.0f / ( ( s_t1 - s_t0 ) / ( s_d1 - s_d0 ) );
s_d0 = s_d1;
s_t0 = s_t1;
// Check if we're only supposed to run X amount of frames.
if( g_TelemetryFrameCount && !tmIsPaused( g_tmContext ) )
{
g_TelemetryFrameCount--;
if( !g_TelemetryFrameCount )
TelemetrySetLevel( 0 );
}
}
if( g_fTelemetryLevelChanged )
{
g_fTelemetryLevelChanged = false;
memset( g_Telemetry.tmContext, 0, sizeof( g_Telemetry.tmContext ) );
if( g_Telemetry.Level == 0 )
{
// Calling shutdown here invalidates all the telemetry context handles.
// Background threads in the middle of Tm__Zone'd calls may crash...
TelemetryShutdown();
}
else
{
if( !TelemetryInitialize() )
{
g_Telemetry.Level = 0;
}
else
{
tmPause( g_tmContext, 0 );
uint32 Level = MIN( g_Telemetry.Level, ARRAYSIZE( g_Telemetry.tmContext ) );
for( uint32 i = 0; i < Level; i++ )
{
g_Telemetry.tmContext[i] = g_tmContext;
}
}
}
// TM_SET_TIMELINE_SECTION_NAME( g_tmContext, "Level:0x%x", g_Telemetry.Level );
// To disable various telemetry features, use the tmEnable() function as so:
// TM_ENABLE( g_tmContext, TMO_SUPPORT_PLOT, 0 );
}
}
#endif // RAD_TELEMETRY_ENABLED