source-engine/replay/cl_performancecontroller.cpp

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2020-04-23 00:56:21 +08:00
//========= Copyright Valve Corporation, All rights reserved. ============//
//
//=======================================================================================//
#include "cl_performancecontroller.h"
#include "cl_replaycontext.h"
#include "globalvars_base.h"
#include "cl_replaycontext.h"
#include "replay/replay.h"
#include "replay/ireplaycamera.h"
#include "replay/replayutils.h"
#include "replay/ireplayperformanceplaybackhandler.h"
#include "replay/ireplayperformanceeditor.h"
#include "filesystem.h"
#include "KeyValues.h"
#include "replaysystem.h"
#include "cl_replaymanager.h"
#include "vprof.h"
#include "cl_performance_common.h"
#include "engine/ivdebugoverlay.h"
#include "utlbuffer.h"
#undef Yield
#include "vstdlib/jobthread.h"
// memdbgon must be the last include file in a .cpp file!!!
#include "tier0/memdbgon.h"
//----------------------------------------------------------------------------------------
#ifdef _DEBUG
ConVar replay_simulate_long_save( "replay_simulate_long_save", "0", FCVAR_DONTRECORD, "Simulate a long save. Seconds." );
#endif
//----------------------------------------------------------------------------------------
class CSaveJob : public CJob
{
public:
CSaveJob( KeyValues *pInData, const char *pFullFilename )
: m_pInData( pInData )
{
SetFlags( GetFlags() | JF_IO );
V_strncpy( m_szFullFilename, pFullFilename, sizeof( m_szFullFilename ) );
}
virtual JobStatus_t DoExecute()
{
if ( !m_pInData )
return JOB_FAILED;
if ( !V_strlen( m_szFullFilename ) )
return JOB_FAILED;
#ifdef _DEBUG
const int nDelay = replay_simulate_long_save.GetInt();
if ( nDelay )
{
ThreadSleep( nDelay * 1000 );
}
#endif
return m_pInData->SaveToFile( g_pFullFileSystem, m_szFullFilename, "MOD" ) ? JOB_OK : JOB_FAILED;
}
private:
KeyValues *m_pInData;
char m_szFullFilename[MAX_OSPATH];
};
//----------------------------------------------------------------------------------------
CPerformanceController::CPerformanceController()
: m_pRoot( NULL ),
m_pCurEvent( NULL ),
m_pDbgRoot( NULL ),
m_pPlaybackHandler( NULL ),
m_pSetViewEvent( NULL ),
m_pSaveJob( NULL ),
m_bViewOverrideMode( false ),
m_bDirty( false ),
m_bLastSaveStatus( false ),
m_bRewinding( false ),
m_pSavedPerformance( NULL ),
m_pScratchPerformance( NULL ),
m_hReplay( REPLAY_HANDLE_INVALID ),
m_nState( STATE_DORMANT ),
m_pEditor( NULL ),
m_flLastCamSetViewTime( 0.0f ),
m_flTimeScale( 1.0f )
{
}
CPerformanceController::~CPerformanceController()
{
Cleanup();
}
void CPerformanceController::Cleanup()
{
AssertMsg(
!m_pScratchPerformance || m_pScratchPerformance != m_pSavedPerformance,
"Sanity check failed. We should never be assigning saved to scratch or vice versa."
);
m_pSavedPerformance = NULL;
if ( m_pScratchPerformance )
{
delete m_pScratchPerformance;
m_pScratchPerformance = NULL;
}
CleanupStream();
CleanupDbgStream();
ClearDirtyFlag();
m_pCurEvent = NULL;
m_pEditor = NULL;
m_pPlaybackHandler = NULL;
m_hReplay = REPLAY_HANDLE_INVALID;
m_nState = STATE_DORMANT;
m_flLastCamSetViewTime = 0.0f;
m_flTimeScale = 1.0f;
// Remove all queued events
FOR_EACH_LL( m_EventQueue, i )
{
m_EventQueue[ i ]->deleteThis();
}
m_EventQueue.RemoveAll();
}
void CPerformanceController::CleanupStream()
{
if ( m_pRoot )
{
m_pRoot->deleteThis();
m_pRoot = NULL;
}
}
void CPerformanceController::CleanupDbgStream()
{
if ( m_pDbgRoot )
{
m_pDbgRoot->deleteThis();
m_pDbgRoot = NULL;
}
}
float CPerformanceController::GetTime() const
{
Assert( m_pCurEvent );
return atof( m_pCurEvent->GetName() );
}
void CPerformanceController::SetEditor( IReplayPerformanceEditor *pEditor )
{
AssertMsg( pEditor, "This is bad. You must supply a valid editor pointer." );
// Cache editor
m_pEditor = pEditor;
}
void CPerformanceController::StartRecording( CReplay *pReplay, bool bSnip )
{
Assert( !IsRecording() );
AssertMsg(
m_nState == STATE_PLAYING || !m_pRoot,
"Unless we're playing, root should be NULL here"
);
if ( m_nState == STATE_DORMANT )
{
Assert( !m_pSavedPerformance );
// Create the performance KeyValues
m_pRoot = new KeyValues( "performance" );
}
else if ( m_nState == STATE_PLAYING )
{
// Nuke everything after the current event, or does nothing if we've past the end of the playback stream
if ( bSnip )
{
Snip();
}
// When we go from playback to recording, we need to reset override view
g_pClient->GetReplayCamera()->ClearOverrideView();
}
// Update the state
m_nState = STATE_RECORDING;
// Mark as dirty
m_bDirty = true;
}
void CPerformanceController::Stop()
{
Assert( !m_bRewinding );
ClearRewinding();
Cleanup();
}
bool CPerformanceController::DumpStreamToFileAsync( const char *pFullFilename )
{
// m_pRoot can be NULL if the user only set an in and/or out point, and wants to save.
if ( !m_pRoot )
return true;
// Save the file
m_pSaveJob = new CSaveJob( m_pRoot, pFullFilename );
if ( !m_pSaveJob )
return false;
IThreadPool *pThreadPool = CL_GetThreadPool();
if ( !pThreadPool )
return false;
pThreadPool->AddJob( m_pSaveJob );
return true;
}
bool CPerformanceController::FlushReplay()
{
// Get the replay
CReplay *pReplay = GetReplay( m_hReplay );
if ( !pReplay )
return false;
// Add the performance to the replay and save
Assert( !m_pSavedPerformance || pReplay->HasPerformance( m_pSavedPerformance ) );
CL_GetReplayManager()->FlagReplayForFlush( pReplay, true );
return true;
}
bool CPerformanceController::SaveAsync()
{
if ( !m_pRoot )
return false;
if ( !m_pScratchPerformance )
{
AssertMsg( 0, "Scratch performance should always be valid at this point." );
return false;
}
// NOTE: m_pSavedPerformance should always be valid here, as 'save' is disabled until it
// has an actual performance to save to.
// Copy the relevant data from scratch -> saved - we want to preserve the filename
// the saved performance, and have no reason to copy over duplicate data (eg the replay
// handle).
m_pSavedPerformance->CopyTicks( m_pScratchPerformance );
// Copy title
V_wcsncpy( m_pSavedPerformance->m_wszTitle, m_pScratchPerformance->m_wszTitle, sizeof( m_pSavedPerformance->m_wszTitle ) );
// Use the saved performance's filename
DumpStreamToFileAsync( m_pSavedPerformance->GetFullPerformanceFilename() );
// Save the replay file
FlushReplay();
// Clear dirty flag
ClearDirtyFlag();
return true;
}
bool CPerformanceController::SaveAsAsync( const wchar_t *pTitle )
{
//
// NOTE: This function assumes the following:
//
// * We've already dealt with checking the given title versus existing performances
// in the replay and that the user has selected to overwrite.
//
CReplay *pReplay = m_pEditor->GetReplay();
if ( !pReplay )
{
AssertMsg( 0, "Replay must exist!" );
return false;
}
// Find existing performance in replay, if it exists.
CReplayPerformance *pExistingPerformance = pReplay->GetPerformanceWithTitle( pTitle );
if ( !pExistingPerformance )
{
// Create and add a new performance to the replay with a unique filename - do not generate a title since we will
// use the incoming title.
CReplayPerformance *pCopy = pReplay->AddNewPerformance( false, true );
// Copy the ticks, which is all we care about
pCopy->CopyTicks( m_pScratchPerformance );
// Set the title
pCopy->SetTitle( pTitle );
// Dump to the new file and save the replay
if ( !DumpStreamToFileAsync( pCopy->GetFullPerformanceFilename() ) ||
!FlushReplay() )
{
return false;
}
// If we didn't spawn a thread, we want this to be true here, since the replay flushed
// and DumpStreamToFileAsync() succeeded.
m_bLastSaveStatus = true;
// Saved performance is now replaced with the newly created performance
m_pSavedPerformance = pCopy;
// Clear dirty flag
ClearDirtyFlag();
return true;
}
// Overwriting an existing performance?
else
{
// Performance with the given name already exists - overwrite it (again, this function
// assumes that any UI around asking the user if they're sure they want to replace has
// already been navigated, and the user has selected to overwrite).
m_pSavedPerformance = pExistingPerformance;
}
// Copy the title to the scratch
V_wcsncpy( m_pScratchPerformance->m_wszTitle, pTitle, MAX_TAKE_TITLE_LENGTH * sizeof( wchar_t ) );
// Attempt to save
if ( !SaveAsync() )
return false;
// Clear dirty flag
ClearDirtyFlag();
return true;
}
bool CPerformanceController::IsSaving() const
{
return m_pSaveJob != NULL;
}
void CPerformanceController::SaveThink()
{
if ( !m_pSaveJob )
return;
if ( m_pSaveJob->IsFinished() )
{
// Cache save status
m_bLastSaveStatus = m_pSaveJob->GetStatus() == JOB_OK;
m_pSaveJob->Release();
m_pSaveJob = NULL;
}
}
bool CPerformanceController::GetLastSaveStatus() const
{
return m_bLastSaveStatus;
}
void CPerformanceController::ClearDirtyFlag()
{
m_bDirty = false;
}
bool CPerformanceController::IsRecording() const
{
return m_nState == STATE_RECORDING;
}
bool CPerformanceController::IsPlaying() const
{
return m_nState == STATE_PLAYING;
}
bool CPerformanceController::IsPlaybackDataLeft()
{
return m_pCurEvent && m_pCurEvent->GetNextTrueSubKey();
}
bool CPerformanceController::IsDirty() const
{
return m_bDirty;
}
void CPerformanceController::NotifyDirty()
{
AssertMsg( GetPerformance() != NULL, "Can't mark empty performance as dirty." );
m_bDirty = true;
}
void CPerformanceController::OnSignonStateFull()
{
if ( !g_pEngineClient->IsDemoPlayingBack() )
return;
// User hit rewind button (which reloads the map)?
if ( m_bRewinding )
{
// Setup controller for playback from existing data.
SetupPlaybackExistingStream();
// Clear rewinding
ClearRewinding();
// Let the editor know the rewind has completed.
m_pEditor->OnRewindComplete();
}
else
{
AssertMsg( !m_pScratchPerformance, "Scratch replay should not be valid yet." );
// If we've gotten this far and the replay is invalid, we're likely playing back a
// regular demo and didn't early out somewhere up the chain.
CReplay *pReplay = g_pReplayDemoPlayer->GetCurrentReplay();
if ( !pReplay )
return;
// Cache replay
m_hReplay = pReplay->GetHandle();
// Play a performance from the beginning.
CReplayPerformance *pPerformance = g_pReplayDemoPlayer->GetCurrentPerformance();
if ( pPerformance )
{
SetupPlaybackFromPerformance( pPerformance );
// Make a copy of the performance we're playing back so the user can make changes
// w/o fucking up the original.
m_pScratchPerformance = pPerformance->MakeCopy();
}
else
{
CreateNewScratchPerformance( pReplay );
}
}
}
float CPerformanceController::GetPlaybackTimeScale() const
{
return m_flTimeScale;
}
void CPerformanceController::CreateNewScratchPerformance( CReplay *pReplay )
{
// Create a new performance, but don't add it to the replay yet
m_pScratchPerformance = CL_GetPerformanceManager()->CreatePerformance( pReplay );
// Give it a default name
m_pScratchPerformance->AutoNameIfHasNoTitle( pReplay->m_szMapName );
// Generate a filename for the new performance
m_pScratchPerformance->SetFilename( CL_GetPerformanceManager()->GeneratePerformanceFilename( pReplay ) );
}
//----------------------------------------------------------------------------------------
void CPerformanceController::NotifyPauseState( bool bPaused )
{
if ( m_bPaused == bPaused )
return;
m_bPaused = bPaused;
// Unpause?
if ( !bPaused )
{
// Add queued events
for( int i = m_EventQueue.Tail(); i != m_EventQueue.InvalidIndex(); i = m_EventQueue.Previous( i ) )
{
KeyValues *pCurEvent = m_EventQueue[ i ];
AddEvent( pCurEvent );
}
m_EventQueue.RemoveAll();
}
}
CReplayPerformance *CPerformanceController::GetPerformance()
{
return m_pScratchPerformance;
}
CReplayPerformance *CPerformanceController::GetSavedPerformance()
{
return m_pSavedPerformance;
}
bool CPerformanceController::HasSavedPerformance()
{
return m_pSavedPerformance != NULL;
}
void CPerformanceController::Snip()
{
if ( !m_pCurEvent )
return;
const float flTime = GetTime();
// Go through all events and delete anything on or after flSnipTime
for ( KeyValues *pCurEvent = m_pRoot->GetFirstTrueSubKey(); pCurEvent != NULL; )
{
// Get next first, in case we delete
KeyValues *pNext = pCurEvent->GetNextTrueSubKey();
const float flCurEventTime = atof( pCurEvent->GetName() );
if ( flCurEventTime >= flTime )
{
// Delete the key
m_pRoot->RemoveSubKey( pCurEvent );
pCurEvent->deleteThis();
}
pCurEvent = pNext;
}
}
bool CPerformanceController::IsCameraChangeEvent( int nType ) const
{
return nType >= EVENTTYPE_CAMERA_CHANGE_BEGIN && nType <= EVENTTYPE_CAMERA_CHANGE_END;
}
void CPerformanceController::NotifyRewinding()
{
m_bRewinding = true;
m_flLastCamSetViewTime = 0.0f;
}
void CPerformanceController::ClearRewinding()
{
m_bRewinding = false;
}
//----------------------------------------------------------------------------------------
#define CREATE_EVENT( time_, type_ ) \
new KeyValues( Replay_va( "%f", time_ ), "type", type_ )
#define RECORD_EVENT_( event_, time_, type_ ) \
event_ = CREATE_EVENT( time_, type_ ); \
AddEvent( event_ )
#define RECORD_EVENT( event_, time_, type_ ) \
KeyValues *event_ = RECORD_EVENT_( event_, time_, type_ )
#define QUEUE_OR_RECORD_EVENT( event_, time_, type_ ) \
if ( !m_pRoot ) \
return; \
\
KeyValues *event_; \
if ( m_bPaused ) \
{ \
KeyValues *pQueuedEvent = CREATE_EVENT( time_, type_ ); \
event_ = pQueuedEvent; \
m_EventQueue.AddToHead( pQueuedEvent ); \
RemoveDuplicateEventsFromQueue(); \
} \
else \
{ \
RECORD_EVENT_( event_, time_, type_ ); \
}
void CPerformanceController::RemoveDuplicateEventsFromQueue()
{
// Add queued events - only add the most recent camera change event, and the most recent
// player change event.
bool bFoundCameraChange = false;
bool bFoundPlayerChange = false;
bool bFoundSetView = false;
bool bFoundTimeScale = false;
for( int i = m_EventQueue.Head(); i != m_EventQueue.InvalidIndex(); )
{
KeyValues *pCurEvent = m_EventQueue[ i ];
const int nType = pCurEvent->GetInt( "type" );
bool bDitchEvent = false;
bool bSetupCut = false;
// Determine whether we should record the event or not
if ( nType == EVENTTYPE_CHANGEPLAYER )
{
bDitchEvent = bFoundPlayerChange;
bFoundPlayerChange = true;
}
else if ( IsCameraChangeEvent( nType ) )
{
bDitchEvent = bFoundCameraChange;
bFoundCameraChange = true;
}
else if ( nType == EVENTTYPE_CAMERA_SETVIEW )
{
bDitchEvent = bFoundSetView;
bFoundSetView = true;
bSetupCut = true; // If we end up keeping this event, it should be a cut.
}
else if ( nType == EVENTTYPE_TIMESCALE )
{
bDitchEvent = bFoundTimeScale;
bFoundTimeScale = true;
}
// Setup as cut
if ( bSetupCut )
{
pCurEvent->SetInt( "cut", 1 );
}
int itNext = m_EventQueue.Next( i );
if ( bDitchEvent )
{
#if _DEBUG
CUtlBuffer buf;
pCurEvent->RecursiveSaveToFile( buf, 1 );
IF_REPLAY_DBG( Warning( "Ditching event of type %s\n...", ( const char * )buf.Base() ) );
#endif
// Free the event
pCurEvent->deleteThis();
m_EventQueue.Remove( i );
}
i = itNext;
}
}
void CPerformanceController::AddEvent( KeyValues *pEvent )
{
IF_REPLAY_DBG2(
CUtlBuffer buf;
pEvent->RecursiveSaveToFile( buf, 1 );
Warning( "Recording event:\n%s\n", ( const char * )buf.Base() );
);
m_pRoot->AddSubKey( pEvent );
}
void CPerformanceController::AddEvent_Camera_Change_FirstPerson( float flTime, int nEntityIndex )
{
QUEUE_OR_RECORD_EVENT( pEvent, flTime, EVENTTYPE_CAMERA_CHANGE_FIRSTPERSON );
pEvent->SetInt( "ent", nEntityIndex );
}
void CPerformanceController::AddEvent_Camera_Change_ThirdPerson( float flTime, int nEntityIndex )
{
QUEUE_OR_RECORD_EVENT( pEvent, flTime, EVENTTYPE_CAMERA_CHANGE_THIRDPERSON );
pEvent->SetInt( "ent", nEntityIndex );
}
void CPerformanceController::AddEvent_Camera_Change_Free( float flTime )
{
QUEUE_OR_RECORD_EVENT( pEvent, flTime, EVENTTYPE_CAMERA_CHANGE_FREE );
}
void CPerformanceController::AddEvent_Camera_ChangePlayer( float flTime, int nEntIndex )
{
QUEUE_OR_RECORD_EVENT( pEvent, flTime, EVENTTYPE_CHANGEPLAYER );
pEvent->SetInt( "ent", nEntIndex );
}
void CPerformanceController::AddEvent_Camera_SetView( const SetViewParams_t &params )
{
QUEUE_OR_RECORD_EVENT( pEvent, params.m_flTime, EVENTTYPE_CAMERA_SETVIEW );
pEvent->SetString( "pos", Replay_va( "%f %f %f", params.m_pOrigin->x, params.m_pOrigin->y, params.m_pOrigin->z ) );
pEvent->SetString( "ang", Replay_va( "%f %f %f", params.m_pAngles->x, params.m_pAngles->y, params.m_pAngles->z ) );
pEvent->SetFloat( "fov", params.m_flFov );
pEvent->SetFloat( "a", params.m_flAccel );
pEvent->SetFloat( "s", params.m_flSpeed );
pEvent->SetFloat( "rf", params.m_flRotationFilter );
}
void CPerformanceController::AddEvent_TimeScale( float flTime, float flScale )
{
QUEUE_OR_RECORD_EVENT( pEvent, flTime, EVENTTYPE_TIMESCALE );
pEvent->SetFloat( "scale", flScale );
m_flTimeScale = flScale;
}
//----------------------------------------------------------------------------------------
bool CPerformanceController::SetupPlaybackHandler()
{
IReplayPerformancePlaybackHandler *pHandler = g_pClient->GetPerformancePlaybackHandler();
if ( !pHandler )
return false;
// Cache
m_pPlaybackHandler = pHandler;
return true;
}
void CPerformanceController::FinishBeginPerformancePlayback()
{
// Root should be setup by now
Assert( m_pRoot );
// Make sure the camera isn't setup for camera override
// TODO: Definitely need this here?
g_pClient->GetReplayCamera()->ClearOverrideView();
// Set to initial event
m_pCurEvent = m_pRoot->GetFirstTrueSubKey();
IF_REPLAY_DBG(
m_pDbgRoot = m_pRoot->MakeCopy();
);
m_nState = STATE_PLAYING;
m_bViewOverrideMode = false;
}
void CPerformanceController::SetupPlaybackExistingStream()
{
// m_pRoot can be NULL here if the user is watching the original replay and has rewound
// without changing anything.
if ( !m_pRoot )
return;
if ( !SetupPlaybackHandler() )
return;
FinishBeginPerformancePlayback();
}
void CPerformanceController::SetupPlaybackFromPerformance( CReplayPerformance *pPerformance )
{
AssertMsg( !m_pSavedPerformance, "This probably hit because either SaveNow() or Discard() were not called. One of those should always be called on disconnect after watching or editing a replay." );
AssertMsg( !m_pScratchPerformance, "Scratch performance should be NULL here." );
if ( !pPerformance )
return;
if ( !pPerformance->m_pReplay )
{
AssertMsg( 0, "Performance passed in with an invalid replay pointer! This bad!" );
return;
}
if ( !SetupPlaybackHandler() )
return;
// Cache off the performance and replay for playback
m_pSavedPerformance = pPerformance;
m_pScratchPerformance = NULL;
m_hReplay = pPerformance->m_pReplay->GetHandle();
// Read the file
Assert( !m_pRoot );
const char *pFilename = pPerformance->GetFullPerformanceFilename();
m_pRoot = new KeyValues( pFilename );
if ( !m_pRoot->LoadFromFile( g_pFullFileSystem, pFilename ) )
{
Warning( "Failed to load replay file, \"%s\"!\n", pFilename );
return;
}
FinishBeginPerformancePlayback();
}
void CPerformanceController::ReadSetViewEvent( KeyValues *pEventSubKey, Vector &origin, QAngle &angles, float &fov,
float *pAccel, float *pSpeed, float *pRotFilter )
{
const char *pViewStr[2];
pViewStr[0] = pEventSubKey->GetString( "pos" );
pViewStr[1] = pEventSubKey->GetString( "ang" );
sscanf( pViewStr[0], "%f %f %f", &origin.x, &origin.y, &origin.z );
sscanf( pViewStr[1], "%f %f %f", &angles.x, &angles.y, &angles.z );
fov = pEventSubKey->GetFloat( "fov", 90 );
if ( pAccel && pSpeed && pRotFilter )
{
*pAccel = pEventSubKey->GetFloat( "a" );
*pSpeed = pEventSubKey->GetFloat( "s" );
*pRotFilter = pEventSubKey->GetFloat( "rf" );
}
}
void CPerformanceController::PlaybackThink()
{
static Vector aOrigin[3];
static QAngle aAngles[3];
static float aFov[3];
float flAccel = 0.0f, flSpeed = 0.0f, flRotFilter = 0.0f;
KeyValues *pSearch = NULL;
float t;
if ( !IsPlaying() )
return;
if ( !m_pCurEvent )
return;
if ( !m_pPlaybackHandler )
return;
CReplay *pReplay = GetReplay( m_hReplay );
if ( !pReplay )
return;
const CGlobalVarsBase *g_pClientGlobalVariables = g_pEngineClient->GetClientGlobalVars();
const int nReplaySpawnTick = pReplay->m_nSpawnTick;
Assert( nReplaySpawnTick >= 0 );
const float flCurTime = g_pClientGlobalVariables->curtime - g_pEngine->TicksToTime( nReplaySpawnTick );
float flEventTime = 0;
bool bShouldCut = false;
while ( 1 )
{
// Get event time
flEventTime = GetTime();
// Get out if this event shouldn't fire yet
if ( flEventTime > flCurTime )
break;
IF_REPLAY_DBG2(
CUtlBuffer buf;
m_pCurEvent->RecursiveSaveToFile( buf, 1 );
Warning( "%s\n", ( const char * )buf.Base() );
);
switch ( m_pCurEvent->GetInt( "type", EVENTTYPE_INVALID ) )
{
case EVENTTYPE_CAMERA_CHANGE_FIRSTPERSON:
m_bViewOverrideMode = false;
m_pPlaybackHandler->OnEvent_Camera_Change_FirstPerson( flEventTime, m_pCurEvent->GetInt( "ent" ) );
break;
case EVENTTYPE_CAMERA_CHANGE_THIRDPERSON:
m_bViewOverrideMode = true;
m_pPlaybackHandler->OnEvent_Camera_Change_ThirdPerson( flEventTime, m_pCurEvent->GetInt( "ent" ) );
break;
case EVENTTYPE_CAMERA_CHANGE_FREE:
m_bViewOverrideMode = true;
m_pPlaybackHandler->OnEvent_Camera_Change_Free( flEventTime );
break;
case EVENTTYPE_CHANGEPLAYER:
m_pPlaybackHandler->OnEvent_Camera_ChangePlayer( flEventTime, m_pCurEvent->GetInt( "ent" ) );
break;
case EVENTTYPE_CAMERA_SETVIEW:
AssertMsg( m_bViewOverrideMode, "Camera mode needs to be set before a setview can take effect." );
if ( m_bViewOverrideMode )
{
// Get sample for current time
ReadSetViewEvent( m_pCurEvent, aOrigin[0], aAngles[0], aFov[0], &flAccel, &flSpeed, &flRotFilter );
// g_pEngineClient->Con_NPrintf( 0, "sample 0 time: %f", flEventTime );
m_flLastCamSetViewTime = flEventTime;
m_pSetViewEvent = m_pCurEvent; // Stomp any previous set view - we want the last one
bShouldCut = bShouldCut || m_pCurEvent->GetBool( "cut" ); // We cut if any set-view event cuts, otherwise we will interpolate
}
break;
case EVENTTYPE_TIMESCALE:
m_flTimeScale = m_pCurEvent->GetFloat( "scale" );
m_pPlaybackHandler->OnEvent_TimeScale( flEventTime, m_flTimeScale );
break;
default:
AssertMsg( 0, "Unknown event in performance playback!\n" );
Warning( "Unknown event in performance playback!\n" );
}
// Get next event (or NULL if there isn't one)
m_pCurEvent = m_pCurEvent->GetNextTrueSubKey();
// Get out if no more events
if ( !m_pCurEvent )
break;
}
// If in override mode, interpolate and setup camera
if ( m_bViewOverrideMode && m_pSetViewEvent )
{
if ( bShouldCut )
{
DBG2( "CUT\n" );
aOrigin[2] = aOrigin[0];
aAngles[2] = aAngles[0];
aFov[2] = aFov[0];
}
else
{
// Default second sample to first, in case we don't find a sample to interpolate with
aOrigin[1] = aOrigin[0];
aAngles[1] = aAngles[0];
aFov[1] = aFov[0];
// Parameter for interpolation
t = 0.0f;
// Seek forward to half a second from current event time and see if there
// are any other set view events.
pSearch = m_pSetViewEvent->GetNextTrueSubKey();
while ( pSearch )
{
// Another sample not available
float flSearchTime = atof( pSearch->GetName() );
if ( flSearchTime > m_flLastCamSetViewTime + 0.5f )
break;
if ( pSearch->GetInt( "type", EVENTTYPE_INVALID ) == EVENTTYPE_CAMERA_SETVIEW )
{
// Found next sample within half a second - calc interpolation parameter & get data
float flDiff = flSearchTime - m_flLastCamSetViewTime;
Assert( flDiff > 0.0f );
if ( flDiff > 0.0f )
{
t = clamp ( ( flCurTime - m_flLastCamSetViewTime ) / flDiff, 0.0f, 1.0f );
// If the next set-view is a cut, we don't want to interpolate
if ( pSearch->GetBool( "cut" ) )
{
const int iSrc = clamp( (int)( .5f + t ), 0, 1 ); // Round t to 0 or 1, so we set the camera to the current frame if t < 0.5f, and we set the camera to the 'cut'/next frame if t >= 0.5.
aOrigin[2] = aOrigin[ iSrc ];
aAngles[2] = aAngles[ iSrc ];
aFov[2] = aFov[ iSrc ];
}
else
{
ReadSetViewEvent( pSearch, aOrigin[1], aAngles[1], aFov[1], &flAccel, &flSpeed, &flRotFilter );
}
}
break;
}
pSearch = pSearch->GetNextTrueSubKey();
}
// Interpolate
aOrigin[2] = Lerp( t, aOrigin[0], aOrigin[1] );
aAngles[2] = Lerp( t, aAngles[0], aAngles[1] ); // NOTE: Calls QuaternionSlerp() internally
aFov[2] = Lerp( t, aFov[0], aFov[1] );
}
// Setup current view
SetViewParams_t params( flEventTime, &aOrigin[2], &aAngles[2], aFov[2], flAccel, flSpeed, flRotFilter );
m_pPlaybackHandler->OnEvent_Camera_SetView( params );
}
IF_REPLAY_DBG( DebugRender() );
}
void CPerformanceController::DebugRender()
{
KeyValues *pIt = m_pDbgRoot->GetFirstTrueSubKey();
Vector prevpos, pos;
QAngle angles;
float fov;
bool bPrev = false;
g_pDebugOverlay->ClearDeadOverlays();
while ( pIt )
{
if ( pIt->GetInt( "type", EVENTTYPE_INVALID ) == EVENTTYPE_CAMERA_SETVIEW )
{
ReadSetViewEvent( pIt, pos, angles, fov, NULL, NULL, NULL );
// Skip first view event since no previous
if ( !bPrev )
{
bPrev = true;
}
else
{
const bool bCut = pIt->GetBool( "cut" );
const int r = bCut ? 0 : 255;
const int g = bCut ? 255 : 0;
const int b = 0;
Vector tickpos = pos + Vector(10,0,0);
g_pDebugOverlay->AddLineOverlay( prevpos, pos, r, g, b, true, 0.0f );
g_pDebugOverlay->AddLineOverlay( pos, tickpos, 0, 255, 255, true, 0.0f );
}
prevpos = pos;
}
pIt = pIt->GetNextTrueSubKey();
}
}
//----------------------------------------------------------------------------------------
void CPerformanceController::Think()
{
VPROF_BUDGET( "CReplayPerformancePlayer::Think", VPROF_BUDGETGROUP_REPLAY );
CBaseThinker::Think();
PlaybackThink();
}
float CPerformanceController::GetNextThinkTime() const
{
return 0.0f;
}
//----------------------------------------------------------------------------------------