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//========= Copyright Valve Corporation, All rights reserved. ============//
//
// Purpose:
//
//=============================================================================//
# include "cbase.h"
# include "animation.h"
# include "baseflex.h"
# include "filesystem.h"
# include "studio.h"
# include "choreoevent.h"
# include "choreoscene.h"
# include "choreoactor.h"
# include "vstdlib/random.h"
# include "engine/IEngineSound.h"
# include "tier1/strtools.h"
# include "KeyValues.h"
# include "ai_basenpc.h"
# include "ai_navigator.h"
# include "ai_moveprobe.h"
# include "sceneentity.h"
# include "ai_baseactor.h"
# include "datacache/imdlcache.h"
# include "tier1/byteswap.h"
// memdbgon must be the last include file in a .cpp file!!!
# include "tier0/memdbgon.h"
static ConVar scene_showlook ( " scene_showlook " , " 0 " , FCVAR_ARCHIVE , " When playing back, show the directions of look events. " ) ;
static ConVar scene_showmoveto ( " scene_showmoveto " , " 0 " , FCVAR_ARCHIVE , " When moving, show the end location. " ) ;
static ConVar scene_showunlock ( " scene_showunlock " , " 0 " , FCVAR_ARCHIVE , " Show when a vcd is playing but normal AI is running. " ) ;
// static ConVar scene_checktagposition( "scene_checktagposition", "0", FCVAR_ARCHIVE, "When playing back a choreographed scene, check the current position of the tags relative to where they were authored." );
// Fake layer # to force HandleProcessSceneEvent to actually allocate the layer during npc think time instead of in between.
# define REQUEST_DEFERRED_LAYER_ALLOCATION -2
extern bool g_bClientFlex ;
// ---------------------------------------------------------------------
//
// CBaseFlex -- physically simulated brush rectangular solid
//
// ---------------------------------------------------------------------
void * SendProxy_FlexWeights ( const SendProp * pProp , const void * pStruct , const void * pVarData , CSendProxyRecipients * pRecipients , int objectID )
{
// Don't any flexweights to client unless scene_clientflex.GetBool() is false
if ( ! g_bClientFlex )
return ( void * ) pVarData ;
else
return NULL ;
}
REGISTER_SEND_PROXY_NON_MODIFIED_POINTER ( SendProxy_FlexWeights ) ;
// SendTable stuff.
IMPLEMENT_SERVERCLASS_ST ( CBaseFlex , DT_BaseFlex )
// Note we can't totally disabled flexweights transmission since some things like blink and eye tracking are still done by the server
SendPropArray3 ( SENDINFO_ARRAY3 ( m_flexWeight ) , SendPropFloat ( SENDINFO_ARRAY ( m_flexWeight ) , 12 , SPROP_ROUNDDOWN , 0.0f , 1.0f ) /*, SendProxy_FlexWeights*/ ) ,
SendPropInt ( SENDINFO ( m_blinktoggle ) , 1 , SPROP_UNSIGNED ) ,
SendPropVector ( SENDINFO ( m_viewtarget ) , - 1 , SPROP_COORD ) ,
# ifdef HL2_DLL
SendPropFloat ( SENDINFO_VECTORELEM ( m_vecViewOffset , 0 ) , 0 , SPROP_NOSCALE ) ,
SendPropFloat ( SENDINFO_VECTORELEM ( m_vecViewOffset , 1 ) , 0 , SPROP_NOSCALE ) ,
SendPropFloat ( SENDINFO_VECTORELEM ( m_vecViewOffset , 2 ) , 0 , SPROP_NOSCALE ) ,
SendPropVector ( SENDINFO ( m_vecLean ) , - 1 , SPROP_COORD ) ,
SendPropVector ( SENDINFO ( m_vecShift ) , - 1 , SPROP_COORD ) ,
# endif
END_SEND_TABLE ( )
BEGIN_DATADESC ( CBaseFlex )
// m_blinktoggle
DEFINE_ARRAY ( m_flexWeight , FIELD_FLOAT , MAXSTUDIOFLEXCTRL ) ,
DEFINE_FIELD ( m_viewtarget , FIELD_POSITION_VECTOR ) ,
// m_SceneEvents
// m_FileList
DEFINE_FIELD ( m_flAllowResponsesEndTime , FIELD_TIME ) ,
// m_ActiveChoreoScenes
// DEFINE_FIELD( m_LocalToGlobal, CUtlRBTree < FS_LocalToGlobal_t , unsigned short > ),
// m_bUpdateLayerPriorities
DEFINE_FIELD ( m_flLastFlexAnimationTime , FIELD_TIME ) ,
# ifdef HL2_DLL
//DEFINE_FIELD( m_vecPrevOrigin, FIELD_POSITION_VECTOR ),
//DEFINE_FIELD( m_vecPrevVelocity, FIELD_VECTOR ),
DEFINE_FIELD ( m_vecLean , FIELD_VECTOR ) ,
DEFINE_FIELD ( m_vecShift , FIELD_VECTOR ) ,
# endif
END_DATADESC ( )
LINK_ENTITY_TO_CLASS ( funCBaseFlex , CBaseFlex ) ; // meaningless independant class!!
CBaseFlex : : CBaseFlex ( void ) :
m_LocalToGlobal ( 0 , 0 , FlexSettingLessFunc )
{
# ifdef _DEBUG
// default constructor sets the viewtarget to NAN
m_viewtarget . Init ( ) ;
# endif
m_bUpdateLayerPriorities = true ;
m_flLastFlexAnimationTime = 0.0 ;
}
CBaseFlex : : ~ CBaseFlex ( void )
{
m_LocalToGlobal . RemoveAll ( ) ;
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Assert ( m_SceneEvents . Count ( ) = = 0 ) ;
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}
void CBaseFlex : : SetModel ( const char * szModelName )
{
MDLCACHE_CRITICAL_SECTION ( ) ;
BaseClass : : SetModel ( szModelName ) ;
for ( LocalFlexController_t i = LocalFlexController_t ( 0 ) ; i < GetNumFlexControllers ( ) ; i + + )
{
SetFlexWeight ( i , 0.0f ) ;
}
}
void CBaseFlex : : SetViewtarget ( const Vector & viewtarget )
{
m_viewtarget = viewtarget ; // bah
}
void CBaseFlex : : SetFlexWeight ( LocalFlexController_t index , float value )
{
if ( index > = 0 & & index < GetNumFlexControllers ( ) )
{
CStudioHdr * pstudiohdr = GetModelPtr ( ) ;
if ( ! pstudiohdr )
return ;
mstudioflexcontroller_t * pflexcontroller = pstudiohdr - > pFlexcontroller ( index ) ;
if ( pflexcontroller - > max ! = pflexcontroller - > min )
{
value = ( value - pflexcontroller - > min ) / ( pflexcontroller - > max - pflexcontroller - > min ) ;
value = clamp ( value , 0.0f , 1.0f ) ;
}
m_flexWeight . Set ( index , value ) ;
}
}
float CBaseFlex : : GetFlexWeight ( LocalFlexController_t index )
{
if ( index > = 0 & & index < GetNumFlexControllers ( ) )
{
CStudioHdr * pstudiohdr = GetModelPtr ( ) ;
if ( ! pstudiohdr )
return 0 ;
mstudioflexcontroller_t * pflexcontroller = pstudiohdr - > pFlexcontroller ( index ) ;
if ( pflexcontroller - > max ! = pflexcontroller - > min )
{
return m_flexWeight [ index ] * ( pflexcontroller - > max - pflexcontroller - > min ) + pflexcontroller - > min ;
}
return m_flexWeight [ index ] ;
}
return 0.0 ;
}
LocalFlexController_t CBaseFlex : : FindFlexController ( const char * szName )
{
for ( LocalFlexController_t i = LocalFlexController_t ( 0 ) ; i < GetNumFlexControllers ( ) ; i + + )
{
if ( stricmp ( GetFlexControllerName ( i ) , szName ) = = 0 )
{
return i ;
}
}
// AssertMsg( 0, UTIL_VarArgs( "flexcontroller %s couldn't be mapped!!!\n", szName ) );
return LocalFlexController_t ( 0 ) ;
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
void CBaseFlex : : StartChoreoScene ( CChoreoScene * scene )
{
if ( m_ActiveChoreoScenes . Find ( scene ) ! = m_ActiveChoreoScenes . InvalidIndex ( ) )
{
return ;
}
m_ActiveChoreoScenes . AddToTail ( scene ) ;
m_bUpdateLayerPriorities = true ;
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
void CBaseFlex : : RemoveChoreoScene ( CChoreoScene * scene , bool canceled )
{
// Assert( m_ActiveChoreoScenes.Find( scene ) != m_ActiveChoreoScenes.InvalidIndex() );
m_ActiveChoreoScenes . FindAndRemove ( scene ) ;
m_bUpdateLayerPriorities = true ;
if ( canceled )
{
CAI_BaseNPC * myNpc = MyNPCPointer ( ) ;
if ( myNpc )
{
myNpc - > ClearSceneLock ( ) ;
}
}
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
int CBaseFlex : : GetScenePriority ( CChoreoScene * scene )
{
int iPriority = 0 ;
int c = m_ActiveChoreoScenes . Count ( ) ;
// count number of channels in scenes older than current
for ( int i = 0 ; i < c ; i + + )
{
CChoreoScene * pScene = m_ActiveChoreoScenes [ i ] ;
if ( ! pScene )
{
continue ;
}
if ( pScene = = scene )
{
break ;
}
iPriority + = pScene - > GetNumChannels ( ) ;
}
return iPriority ;
}
//-----------------------------------------------------------------------------
// Purpose: Remove all active SceneEvents
//-----------------------------------------------------------------------------
void CBaseFlex : : ClearSceneEvents ( CChoreoScene * scene , bool canceled )
{
if ( ! scene )
{
m_SceneEvents . RemoveAll ( ) ;
return ;
}
for ( int i = m_SceneEvents . Count ( ) - 1 ; i > = 0 ; i - - )
{
CSceneEventInfo * info = & m_SceneEvents [ i ] ;
Assert ( info ) ;
Assert ( info - > m_pScene ) ;
Assert ( info - > m_pEvent ) ;
if ( info - > m_pScene ! = scene )
continue ;
if ( ! ClearSceneEvent ( info , false , canceled ) )
{
// unknown expression to clear!!
Assert ( 0 ) ;
}
// Free this slot
info - > m_pEvent = NULL ;
info - > m_pScene = NULL ;
info - > m_bStarted = false ;
m_SceneEvents . Remove ( i ) ;
}
}
//-----------------------------------------------------------------------------
// Purpose: Stop specifics of expression
//-----------------------------------------------------------------------------
bool CBaseFlex : : ClearSceneEvent ( CSceneEventInfo * info , bool fastKill , bool canceled )
{
Assert ( info ) ;
Assert ( info - > m_pScene ) ;
Assert ( info - > m_pEvent ) ;
// FIXME: this code looks duplicated
switch ( info - > m_pEvent - > GetType ( ) )
{
case CChoreoEvent : : GESTURE :
case CChoreoEvent : : SEQUENCE :
{
if ( info - > m_iLayer > = 0 )
{
if ( fastKill )
{
FastRemoveLayer ( info - > m_iLayer ) ;
}
else if ( info - > m_pEvent - > GetType ( ) = = CChoreoEvent : : GESTURE )
{
if ( canceled )
{
// remove slower if interrupted
RemoveLayer ( info - > m_iLayer , 0.5 ) ;
}
else
{
RemoveLayer ( info - > m_iLayer , 0.1 ) ;
}
}
else
{
RemoveLayer ( info - > m_iLayer , 0.3 ) ;
}
}
}
return true ;
case CChoreoEvent : : MOVETO :
{
CAI_BaseNPC * myNpc = MyNPCPointer ( ) ;
if ( ! myNpc )
return true ;
// cancel moveto if it's distance based, of if the event was part of a canceled vcd
if ( IsMoving ( ) & & ( canceled | | info - > m_pEvent - > GetDistanceToTarget ( ) > 0.0 ) )
{
if ( ! info - > m_bHasArrived )
{
if ( info - > m_pScene )
{
Scene_Printf ( " %s : %8.2f: MOVETO canceled but actor %s not at goal \n " , info - > m_pScene - > GetFilename ( ) , info - > m_pScene - > GetTime ( ) , info - > m_pEvent - > GetActor ( ) - > GetName ( ) ) ;
}
}
myNpc - > GetNavigator ( ) - > StopMoving ( false ) ; // Stop moving
}
}
return true ;
case CChoreoEvent : : FACE :
case CChoreoEvent : : FLEXANIMATION :
case CChoreoEvent : : EXPRESSION :
case CChoreoEvent : : LOOKAT :
case CChoreoEvent : : GENERIC :
{
// no special rules
}
return true ;
case CChoreoEvent : : SPEAK :
{
// Tracker 15420: Issue stopsound if we need to cut this short...
if ( canceled )
{
StopSound ( info - > m_pEvent - > GetParameters ( ) ) ;
# ifdef HL2_EPISODIC
// If we were holding the semaphore because of this speech, release it
CAI_BaseActor * pBaseActor = dynamic_cast < CAI_BaseActor * > ( this ) ;
if ( pBaseActor )
{
pBaseActor - > GetExpresser ( ) - > ForceNotSpeaking ( ) ;
}
# endif
}
}
return true ;
}
return false ;
}
//-----------------------------------------------------------------------------
// Purpose: Add string indexed scene/expression/duration to list of active SceneEvents
// Input : scenefile -
// expression -
// duration -
//-----------------------------------------------------------------------------
void CBaseFlex : : AddSceneEvent ( CChoreoScene * scene , CChoreoEvent * event , CBaseEntity * pTarget )
{
if ( ! scene | | ! event )
{
Msg ( " CBaseFlex::AddSceneEvent: scene or event was NULL!!! \n " ) ;
return ;
}
CChoreoActor * actor = event - > GetActor ( ) ;
if ( ! actor )
{
Msg ( " CBaseFlex::AddSceneEvent: event->GetActor() was NULL!!! \n " ) ;
return ;
}
CSceneEventInfo info ;
memset ( ( void * ) & info , 0 , sizeof ( info ) ) ;
info . m_pEvent = event ;
info . m_pScene = scene ;
info . m_hTarget = pTarget ;
info . m_bStarted = false ;
if ( StartSceneEvent ( & info , scene , event , actor , pTarget ) )
{
m_SceneEvents . AddToTail ( info ) ;
}
else
{
Scene_Printf ( " CBaseFlex::AddSceneEvent: event failed \n " ) ;
// Assert( 0 ); // expression failed to start
}
}
//-----------------------------------------------------------------------------
// Starting various expression types
//-----------------------------------------------------------------------------
bool CBaseFlex : : RequestStartSequenceSceneEvent ( CSceneEventInfo * info , CChoreoScene * scene , CChoreoEvent * event , CChoreoActor * actor , CBaseEntity * pTarget )
{
info - > m_nSequence = LookupSequence ( event - > GetParameters ( ) ) ;
// make sure sequence exists
if ( info - > m_nSequence < 0 )
{
Warning ( " CSceneEntity %s : \" %s \" unable to find sequence \" %s \" \n " , STRING ( GetEntityName ( ) ) , actor - > GetName ( ) , event - > GetParameters ( ) ) ;
return false ;
}
// This is a bit of a hack, but we need to defer the actual allocation until Process which will sync the layer allocation
// to the NPCs think/m_flAnimTime instead of some arbitrary tick
info - > m_iLayer = REQUEST_DEFERRED_LAYER_ALLOCATION ;
info - > m_pActor = actor ;
return true ;
}
bool CBaseFlex : : RequestStartGestureSceneEvent ( CSceneEventInfo * info , CChoreoScene * scene , CChoreoEvent * event , CChoreoActor * actor , CBaseEntity * pTarget )
{
info - > m_nSequence = LookupSequence ( event - > GetParameters ( ) ) ;
// make sure sequence exists
if ( info - > m_nSequence < 0 )
{
Warning ( " CSceneEntity %s : \" %s \" unable to find gesture \" %s \" \n " , STRING ( GetEntityName ( ) ) , actor - > GetName ( ) , event - > GetParameters ( ) ) ;
return false ;
}
// This is a bit of a hack, but we need to defer the actual allocation until Process which will sync the layer allocation
// to the NPCs think/m_flAnimTime instead of some arbitrary tick
info - > m_iLayer = REQUEST_DEFERRED_LAYER_ALLOCATION ;
info - > m_pActor = actor ;
return true ;
}
bool CBaseFlex : : HandleStartSequenceSceneEvent ( CSceneEventInfo * info , CChoreoScene * scene , CChoreoEvent * event , CChoreoActor * actor )
{
Assert ( info - > m_iLayer = = REQUEST_DEFERRED_LAYER_ALLOCATION ) ;
info - > m_nSequence = LookupSequence ( event - > GetParameters ( ) ) ;
info - > m_iLayer = - 1 ;
if ( info - > m_nSequence < 0 )
{
Warning ( " CSceneEntity %s : \" %s \" unable to find sequence \" %s \" \n " , STRING ( GetEntityName ( ) ) , actor - > GetName ( ) , event - > GetParameters ( ) ) ;
return false ;
}
if ( ! EnterSceneSequence ( scene , event ) )
{
if ( ! event - > GetPlayOverScript ( ) )
{
// this has failed to start
Warning ( " CSceneEntity %s : \" %s \" failed to start sequence \" %s \" \n " , STRING ( GetEntityName ( ) ) , actor - > GetName ( ) , event - > GetParameters ( ) ) ;
return false ;
}
// Start anyways, just use normal no-movement, must be in IDLE rules
}
info - > m_iPriority = actor - > FindChannelIndex ( event - > GetChannel ( ) ) ;
info - > m_iLayer = AddLayeredSequence ( info - > m_nSequence , info - > m_iPriority + GetScenePriority ( scene ) ) ;
SetLayerNoRestore ( info - > m_iLayer , true ) ;
SetLayerWeight ( info - > m_iLayer , 0.0 ) ;
bool looping = ( ( GetSequenceFlags ( GetModelPtr ( ) , info - > m_nSequence ) & STUDIO_LOOPING ) ! = 0 ) ;
if ( ! looping )
{
// figure out the animtime when this was frame 0
float dt = scene - > GetTime ( ) - event - > GetStartTime ( ) ;
float seq_duration = SequenceDuration ( info - > m_nSequence ) ;
float flCycle = dt / seq_duration ;
flCycle = flCycle - ( int ) flCycle ; // loop
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SetLayerCycle ( info - > m_iLayer , flCycle , flCycle ) ;
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SetLayerPlaybackRate ( info - > m_iLayer , 0.0 ) ;
}
else
{
SetLayerPlaybackRate ( info - > m_iLayer , 1.0 ) ;
}
if ( IsMoving ( ) )
{
info - > m_flWeight = 0.0 ;
}
else
{
info - > m_flWeight = 1.0 ;
}
return true ;
}
bool CBaseFlex : : HandleStartGestureSceneEvent ( CSceneEventInfo * info , CChoreoScene * scene , CChoreoEvent * event , CChoreoActor * actor )
{
Assert ( info - > m_iLayer = = REQUEST_DEFERRED_LAYER_ALLOCATION ) ;
info - > m_nSequence = LookupSequence ( event - > GetParameters ( ) ) ;
info - > m_iLayer = - 1 ;
if ( info - > m_nSequence < 0 )
{
Warning ( " CSceneEntity %s : \" %s \" unable to find gesture \" %s \" \n " , STRING ( GetEntityName ( ) ) , actor - > GetName ( ) , event - > GetParameters ( ) ) ;
return false ;
}
// FIXME: this seems like way too much code
info - > m_bIsGesture = false ;
KeyValues * seqKeyValues = GetSequenceKeyValues ( info - > m_nSequence ) ;
if ( seqKeyValues )
{
// Do we have a build point section?
KeyValues * pkvAllFaceposer = seqKeyValues - > FindKey ( " faceposer " ) ;
if ( pkvAllFaceposer )
{
KeyValues * pkvType = pkvAllFaceposer - > FindKey ( " type " ) ;
if ( pkvType )
{
info - > m_bIsGesture = ( stricmp ( pkvType - > GetString ( ) , " gesture " ) = = 0 ) ? true : false ;
}
}
// FIXME: fixup tags that should be set as "linear", should be done in faceposer
char szStartLoop [ CEventAbsoluteTag : : MAX_EVENTTAG_LENGTH ] = { " loop " } ;
char szEndLoop [ CEventAbsoluteTag : : MAX_EVENTTAG_LENGTH ] = { " end " } ;
// check in the tag indexes
KeyValues * pkvFaceposer ;
for ( pkvFaceposer = pkvAllFaceposer - > GetFirstSubKey ( ) ; pkvFaceposer ; pkvFaceposer = pkvFaceposer - > GetNextKey ( ) )
{
if ( ! stricmp ( pkvFaceposer - > GetName ( ) , " startloop " ) )
{
V_strcpy_safe ( szStartLoop , pkvFaceposer - > GetString ( ) ) ;
}
else if ( ! stricmp ( pkvFaceposer - > GetName ( ) , " endloop " ) )
{
V_strcpy_safe ( szEndLoop , pkvFaceposer - > GetString ( ) ) ;
}
}
CEventAbsoluteTag * ptag ;
ptag = event - > FindAbsoluteTag ( CChoreoEvent : : ORIGINAL , szStartLoop ) ;
if ( ptag )
{
ptag - > SetLinear ( true ) ;
}
ptag = event - > FindAbsoluteTag ( CChoreoEvent : : PLAYBACK , szStartLoop ) ;
if ( ptag )
{
ptag - > SetLinear ( true ) ;
}
ptag = event - > FindAbsoluteTag ( CChoreoEvent : : ORIGINAL , szEndLoop ) ;
if ( ptag )
{
ptag - > SetLinear ( true ) ;
}
ptag = event - > FindAbsoluteTag ( CChoreoEvent : : PLAYBACK , szEndLoop ) ;
if ( ptag )
{
ptag - > SetLinear ( true ) ;
}
if ( pkvAllFaceposer )
{
CStudioHdr * pstudiohdr = GetModelPtr ( ) ;
mstudioseqdesc_t & seqdesc = pstudiohdr - > pSeqdesc ( info - > m_nSequence ) ;
mstudioanimdesc_t & animdesc = pstudiohdr - > pAnimdesc ( pstudiohdr - > iRelativeAnim ( info - > m_nSequence , seqdesc . anim ( 0 , 0 ) ) ) ;
// check in the tag indexes
KeyValues * pkvFaceposer ;
for ( pkvFaceposer = pkvAllFaceposer - > GetFirstSubKey ( ) ; pkvFaceposer ; pkvFaceposer = pkvFaceposer - > GetNextKey ( ) )
{
if ( ! stricmp ( pkvFaceposer - > GetName ( ) , " tags " ) )
{
KeyValues * pkvTags ;
for ( pkvTags = pkvFaceposer - > GetFirstSubKey ( ) ; pkvTags ; pkvTags = pkvTags - > GetNextKey ( ) )
{
int maxFrame = animdesc . numframes - 2 ; // FIXME: this is off by one!
if ( maxFrame > 0 )
{
float percentage = ( float ) pkvTags - > GetInt ( ) / maxFrame ;
CEventAbsoluteTag * ptag = event - > FindAbsoluteTag ( CChoreoEvent : : ORIGINAL , pkvTags - > GetName ( ) ) ;
if ( ptag )
{
if ( fabs ( ptag - > GetPercentage ( ) - percentage ) > 0.05 )
{
DevWarning ( " %s repositioned tag: %s : %.3f -> %.3f (%s:%s:%s) \n " , scene - > GetFilename ( ) , pkvTags - > GetName ( ) , ptag - > GetPercentage ( ) , percentage , scene - > GetFilename ( ) , actor - > GetName ( ) , event - > GetParameters ( ) ) ;
// reposition tag
ptag - > SetPercentage ( percentage ) ;
}
}
}
}
}
}
if ( ! event - > VerifyTagOrder ( ) )
{
DevWarning ( " out of order tags : %s : (%s:%s:%s) \n " , scene - > GetFilename ( ) , actor - > GetName ( ) , event - > GetName ( ) , event - > GetParameters ( ) ) ;
}
}
seqKeyValues - > deleteThis ( ) ;
}
// initialize posture suppression
// FIXME: move priority of base animation so that layers can be inserted before
// FIXME: query stopping, post idle layer to figure out correct weight
// GetIdleLayerWeight()?
if ( ! info - > m_bIsGesture & & IsMoving ( ) )
{
info - > m_flWeight = 0.0 ;
}
else
{
info - > m_flWeight = 1.0 ;
}
// this happens before StudioFrameAdvance()
info - > m_iPriority = actor - > FindChannelIndex ( event - > GetChannel ( ) ) ;
info - > m_iLayer = AddLayeredSequence ( info - > m_nSequence , info - > m_iPriority + GetScenePriority ( scene ) ) ;
SetLayerNoRestore ( info - > m_iLayer , true ) ;
SetLayerDuration ( info - > m_iLayer , event - > GetDuration ( ) ) ;
SetLayerWeight ( info - > m_iLayer , 0.0 ) ;
bool looping = ( ( GetSequenceFlags ( GetModelPtr ( ) , info - > m_nSequence ) & STUDIO_LOOPING ) ! = 0 ) ;
if ( looping )
{
DevMsg ( 1 , " vcd error, gesture %s of model %s is marked as STUDIO_LOOPING! \n " ,
event - > GetParameters ( ) , STRING ( GetModelName ( ) ) ) ;
}
SetLayerLooping ( info - > m_iLayer , false ) ; // force to not loop
float duration = event - > GetDuration ( ) ;
// figure out the animtime when this was frame 0
float flEventCycle = ( scene - > GetTime ( ) - event - > GetStartTime ( ) ) / duration ;
float flCycle = event - > GetOriginalPercentageFromPlaybackPercentage ( flEventCycle ) ;
SetLayerCycle ( info - > m_iLayer , flCycle , 0.0 ) ;
SetLayerPlaybackRate ( info - > m_iLayer , 0.0 ) ;
return true ;
}
bool CBaseFlex : : StartFacingSceneEvent ( CSceneEventInfo * info , CChoreoScene * scene , CChoreoEvent * event , CChoreoActor * actor , CBaseEntity * pTarget )
{
if ( pTarget )
{
// Don't allow FACE commands while sitting in the vehicle
CAI_BaseNPC * myNpc = MyNPCPointer ( ) ;
if ( myNpc & & myNpc - > IsInAVehicle ( ) )
return false ;
info - > m_bIsMoving = false ;
return true ;
}
return false ;
}
bool CBaseFlex : : StartMoveToSceneEvent ( CSceneEventInfo * info , CChoreoScene * scene , CChoreoEvent * event , CChoreoActor * actor , CBaseEntity * pTarget )
{
if ( pTarget )
{
info - > m_bIsMoving = false ;
info - > m_bHasArrived = false ;
CAI_BaseNPC * myNpc = MyNPCPointer ( ) ;
if ( ! myNpc )
{
return false ;
}
EnterSceneSequence ( scene , event , true ) ;
// If they're already moving, stop them
//
// Don't stop them during restore because that will set a stopping path very
// nearby, causing us to signal arrival prematurely in CheckSceneEventCompletion.
// BEWARE: the behavior of this bug depended on the order in which the entities were restored!!
if ( myNpc - > IsMoving ( ) & & ! scene - > IsRestoring ( ) )
{
myNpc - > GetNavigator ( ) - > StopMoving ( false ) ;
}
return true ;
}
return false ;
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
bool CBaseFlex : : StartSceneEvent ( CSceneEventInfo * info , CChoreoScene * scene , CChoreoEvent * event , CChoreoActor * actor , CBaseEntity * pTarget )
{
switch ( event - > GetType ( ) )
{
case CChoreoEvent : : SEQUENCE :
return RequestStartSequenceSceneEvent ( info , scene , event , actor , pTarget ) ;
case CChoreoEvent : : GESTURE :
return RequestStartGestureSceneEvent ( info , scene , event , actor , pTarget ) ;
case CChoreoEvent : : FACE :
return StartFacingSceneEvent ( info , scene , event , actor , pTarget ) ;
// FIXME: move this to an CBaseActor
case CChoreoEvent : : MOVETO :
return StartMoveToSceneEvent ( info , scene , event , actor , pTarget ) ;
case CChoreoEvent : : LOOKAT :
info - > m_hTarget = pTarget ;
return true ;
case CChoreoEvent : : FLEXANIMATION :
info - > InitWeight ( this ) ;
return true ;
case CChoreoEvent : : SPEAK :
return true ;
case CChoreoEvent : : EXPRESSION : // These are handled client-side
return true ;
}
return false ;
}
//-----------------------------------------------------------------------------
// Purpose: Remove expression
// Input : scenefile -
// expression -
//-----------------------------------------------------------------------------
void CBaseFlex : : RemoveSceneEvent ( CChoreoScene * scene , CChoreoEvent * event , bool fastKill )
{
Assert ( event ) ;
for ( int i = 0 ; i < m_SceneEvents . Count ( ) ; i + + )
{
CSceneEventInfo * info = & m_SceneEvents [ i ] ;
Assert ( info ) ;
Assert ( info - > m_pEvent ) ;
if ( info - > m_pScene ! = scene )
continue ;
if ( info - > m_pEvent ! = event )
continue ;
if ( ClearSceneEvent ( info , fastKill , false ) )
{
// Free this slot
info - > m_pEvent = NULL ;
info - > m_pScene = NULL ;
info - > m_bStarted = false ;
m_SceneEvents . Remove ( i ) ;
2022-03-01 20:00:42 +00:00
return ;
2020-04-22 16:56:21 +00:00
}
}
// many events refuse to start due to bogus parameters
}
//-----------------------------------------------------------------------------
// Purpose: Checks to see if the event should be considered "completed"
//-----------------------------------------------------------------------------
bool CBaseFlex : : CheckSceneEvent ( float currenttime , CChoreoScene * scene , CChoreoEvent * event )
{
for ( int i = 0 ; i < m_SceneEvents . Count ( ) ; i + + )
{
CSceneEventInfo * info = & m_SceneEvents [ i ] ;
Assert ( info ) ;
Assert ( info - > m_pEvent ) ;
if ( info - > m_pScene ! = scene )
continue ;
if ( info - > m_pEvent ! = event )
continue ;
return CheckSceneEventCompletion ( info , currenttime , scene , event ) ;
}
return true ;
}
bool CBaseFlex : : CheckSceneEventCompletion ( CSceneEventInfo * info , float currenttime , CChoreoScene * scene , CChoreoEvent * event )
{
switch ( event - > GetType ( ) )
{
case CChoreoEvent : : MOVETO :
{
CAI_BaseNPC * npc = MyNPCPointer ( ) ;
if ( npc )
{
// check movement, check arrival
if ( npc - > GetNavigator ( ) - > IsGoalActive ( ) )
{
const Task_t * pCurTask = npc - > GetTask ( ) ;
if ( pCurTask & & ( pCurTask - > iTask = = TASK_PLAY_SCENE | | pCurTask - > iTask = = TASK_WAIT_FOR_MOVEMENT ) )
{
float preload = event - > GetEndTime ( ) - currenttime ;
if ( preload < 0 )
{
//Msg("%.1f: no preload\n", currenttime );
return false ;
}
float t = npc - > GetTimeToNavGoal ( ) ;
// Msg("%.1f: preload (%s:%.1f) %.1f %.1f\n", currenttime, event->GetName(), event->GetEndTime(), preload, t );
// FIXME: t is zero if no path can be built!
if ( t > 0.0f & & t < = preload )
{
return true ;
}
return false ;
}
}
else if ( info - > m_bHasArrived )
{
return true ;
}
else if ( info - > m_bStarted & & ! npc - > IsCurSchedule ( SCHED_SCENE_GENERIC ) )
{
// FIXME: There's still a hole in the logic is the save happens immediately after the SS steals the npc but before their AI has run again
Warning ( " %s : %8.2f: waiting for actor %s to complete MOVETO but actor not in SCHED_SCENE_GENERIC \n " , scene - > GetFilename ( ) , scene - > GetTime ( ) , event - > GetActor ( ) - > GetName ( ) ) ;
// no longer in a scene :P
return true ;
}
// still trying
return false ;
}
}
break ;
default :
break ;
}
return true ;
}
//-----------------------------------------------------------------------------
// Purpose: Default implementation
//-----------------------------------------------------------------------------
void CBaseFlex : : ProcessSceneEvents ( void )
{
VPROF ( " CBaseFlex::ProcessSceneEvents " ) ;
// slowly decay to netural expression
for ( LocalFlexController_t i = LocalFlexController_t ( 0 ) ; i < GetNumFlexControllers ( ) ; i + + )
{
SetFlexWeight ( i , GetFlexWeight ( i ) * 0.95 ) ;
}
bool bHasForegroundEvents = false ;
// Iterate SceneEvents and look for active slots
for ( int i = 0 ; i < m_SceneEvents . Count ( ) ; i + + )
{
CSceneEventInfo * info = & m_SceneEvents [ i ] ;
Assert ( info ) ;
// FIXME: Need a safe handle to m_pEvent in case of memory deletion?
CChoreoEvent * event = info - > m_pEvent ;
Assert ( event ) ;
CChoreoScene * scene = info - > m_pScene ;
Assert ( scene ) ;
if ( scene & & ! scene - > IsBackground ( ) )
{
bHasForegroundEvents = true ;
}
if ( ProcessSceneEvent ( info , scene , event ) )
{
info - > m_bStarted = true ;
}
}
if ( bHasForegroundEvents & & scene_showunlock . GetBool ( ) )
{
CAI_BaseNPC * myNpc = MyNPCPointer ( ) ;
if ( myNpc & & ! ( myNpc - > GetState ( ) = = NPC_STATE_SCRIPT | | myNpc - > IsCurSchedule ( SCHED_SCENE_GENERIC ) ) )
{
Vector p0 = myNpc - > GetHullMins ( ) ;
Vector p1 = myNpc - > GetHullMaxs ( ) ;
p0 . z = p1 . z + 2 ;
p1 . z = p1 . z + 2 ;
NDebugOverlay : : Box ( myNpc - > GetAbsOrigin ( ) , p0 , p1 , 255 , 0 , 0 , 0 , 0.12 ) ;
}
}
// any needed layer priorites have now been reset
m_bUpdateLayerPriorities = false ;
}
class CFlexSceneFileManager : CAutoGameSystem
{
public :
CFlexSceneFileManager ( char const * name ) : CAutoGameSystem ( name )
{
}
virtual bool Init ( )
{
// Trakcer 16692: Preload these at startup to avoid hitch first time we try to load them during actual gameplay
FindSceneFile ( NULL , " phonemes " , true ) ;
FindSceneFile ( NULL , " phonemes_weak " , true ) ;
FindSceneFile ( NULL , " phonemes_strong " , true ) ;
# if defined( HL2_DLL )
FindSceneFile ( NULL , " random " , true ) ;
FindSceneFile ( NULL , " randomAlert " , true ) ;
# endif
return true ;
}
// Tracker 14992: We used to load 18K of .vfes for every CBaseFlex who lipsynced, but now we only load those files once globally.
// Note, we could wipe these between levels, but they don't ever load more than the weak/normal/strong phoneme classes that I can tell
// so I'll just leave them loaded forever for now
virtual void Shutdown ( )
{
DeleteSceneFiles ( ) ;
}
//-----------------------------------------------------------------------------
// Purpose: Sets up translations
// Input : *instance -
// *pSettinghdr -
// Output : void
//-----------------------------------------------------------------------------
void EnsureTranslations ( CBaseFlex * instance , const flexsettinghdr_t * pSettinghdr )
{
// The only time instance is NULL is in Init() above, where we're just loading the .vfe files off of the hard disk.
if ( instance )
{
instance - > EnsureTranslations ( pSettinghdr ) ;
}
}
const void * FindSceneFile ( CBaseFlex * instance , const char * filename , bool allowBlockingIO )
{
// See if it's already loaded
int i ;
for ( i = 0 ; i < m_FileList . Size ( ) ; i + + )
{
CFlexSceneFile * file = m_FileList [ i ] ;
if ( file & & ! stricmp ( file - > filename , filename ) )
{
// Make sure translations (local to global flex controller) are set up for this instance
EnsureTranslations ( instance , ( const flexsettinghdr_t * ) file - > buffer ) ;
return file - > buffer ;
}
}
if ( ! allowBlockingIO )
{
return NULL ;
}
// Load file into memory
void * buffer = NULL ;
int len = filesystem - > ReadFileEx ( UTIL_VarArgs ( " expressions/%s.vfe " , filename ) , " GAME " , & buffer , false , true ) ;
if ( ! len )
return NULL ;
// Create scene entry
CFlexSceneFile * pfile = new CFlexSceneFile ;
// Remember filename
Q_strncpy ( pfile - > filename , filename , sizeof ( pfile - > filename ) ) ;
// Remember data pointer
pfile - > buffer = buffer ;
// Add to list
m_FileList . AddToTail ( pfile ) ;
// Swap the entire file
if ( IsX360 ( ) )
{
CByteswap swap ;
swap . ActivateByteSwapping ( true ) ;
byte * pData = ( byte * ) buffer ;
flexsettinghdr_t * pHdr = ( flexsettinghdr_t * ) pData ;
swap . SwapFieldsToTargetEndian ( pHdr ) ;
// Flex Settings
flexsetting_t * pFlexSetting = ( flexsetting_t * ) ( ( byte * ) pHdr + pHdr - > flexsettingindex ) ;
for ( int i = 0 ; i < pHdr - > numflexsettings ; + + i , + + pFlexSetting )
{
swap . SwapFieldsToTargetEndian ( pFlexSetting ) ;
flexweight_t * pWeight = ( flexweight_t * ) ( ( ( byte * ) pFlexSetting ) + pFlexSetting - > settingindex ) ;
for ( int j = 0 ; j < pFlexSetting - > numsettings ; + + j , + + pWeight )
{
swap . SwapFieldsToTargetEndian ( pWeight ) ;
}
}
// indexes
pData = ( byte * ) pHdr + pHdr - > indexindex ;
swap . SwapBufferToTargetEndian ( ( int * ) pData , ( int * ) pData , pHdr - > numindexes ) ;
// keymappings
pData = ( byte * ) pHdr + pHdr - > keymappingindex ;
swap . SwapBufferToTargetEndian ( ( int * ) pData , ( int * ) pData , pHdr - > numkeys ) ;
// keyname indices
pData = ( byte * ) pHdr + pHdr - > keynameindex ;
swap . SwapBufferToTargetEndian ( ( int * ) pData , ( int * ) pData , pHdr - > numkeys ) ;
}
// Fill in translation table
EnsureTranslations ( instance , ( const flexsettinghdr_t * ) pfile - > buffer ) ;
// Return data
return pfile - > buffer ;
}
private :
void DeleteSceneFiles ( )
{
while ( m_FileList . Size ( ) > 0 )
{
CFlexSceneFile * file = m_FileList [ 0 ] ;
m_FileList . Remove ( 0 ) ;
filesystem - > FreeOptimalReadBuffer ( file - > buffer ) ;
delete file ;
}
}
CUtlVector < CFlexSceneFile * > m_FileList ;
} ;
// Singleton manager
CFlexSceneFileManager g_FlexSceneFileManager ( " CFlexSceneFileManager " ) ;
//-----------------------------------------------------------------------------
// Purpose: Each CBaseFlex maintains a UtlRBTree of mappings, one for each loaded flex scene file it uses. This is used to
// sort the entries in the RBTree
// Input : lhs -
// rhs -
// Output : Returns true on success, false on failure.
//-----------------------------------------------------------------------------
bool CBaseFlex : : FlexSettingLessFunc ( const FS_LocalToGlobal_t & lhs , const FS_LocalToGlobal_t & rhs )
{
return lhs . m_Key < rhs . m_Key ;
}
//-----------------------------------------------------------------------------
// Purpose: Since everyone shared a pSettinghdr now, we need to set up the localtoglobal mapping per entity, but
// we just do this in memory with an array of integers (could be shorts, I suppose)
// Input : *pSettinghdr -
//-----------------------------------------------------------------------------
void CBaseFlex : : EnsureTranslations ( const flexsettinghdr_t * pSettinghdr )
{
Assert ( pSettinghdr ) ;
FS_LocalToGlobal_t entry ( pSettinghdr ) ;
unsigned short idx = m_LocalToGlobal . Find ( entry ) ;
if ( idx ! = m_LocalToGlobal . InvalidIndex ( ) )
return ;
entry . SetCount ( pSettinghdr - > numkeys ) ;
for ( int i = 0 ; i < pSettinghdr - > numkeys ; + + i )
{
entry . m_Mapping [ i ] = FindFlexController ( pSettinghdr - > pLocalName ( i ) ) ;
}
m_LocalToGlobal . Insert ( entry ) ;
}
//-----------------------------------------------------------------------------
// Purpose: Look up instance specific mapping
// Input : *pSettinghdr -
// key -
// Output : int
//-----------------------------------------------------------------------------
LocalFlexController_t CBaseFlex : : FlexControllerLocalToGlobal ( const flexsettinghdr_t * pSettinghdr , int key )
{
FS_LocalToGlobal_t entry ( pSettinghdr ) ;
int idx = m_LocalToGlobal . Find ( entry ) ;
if ( idx = = m_LocalToGlobal . InvalidIndex ( ) )
{
// This should never happen!!!
Assert ( 0 ) ;
Warning ( " Unable to find mapping for flexcontroller %i, settings %p on %i/%s \n " , key , pSettinghdr , entindex ( ) , GetClassname ( ) ) ;
EnsureTranslations ( pSettinghdr ) ;
idx = m_LocalToGlobal . Find ( entry ) ;
if ( idx = = m_LocalToGlobal . InvalidIndex ( ) )
{
Error ( " CBaseFlex::FlexControllerLocalToGlobal failed! \n " ) ;
}
}
FS_LocalToGlobal_t & result = m_LocalToGlobal [ idx ] ;
// Validate lookup
Assert ( result . m_nCount ! = 0 & & key < result . m_nCount ) ;
LocalFlexController_t index = result . m_Mapping [ key ] ;
return index ;
}
//-----------------------------------------------------------------------------
// Purpose:
// Input : *filename -
//-----------------------------------------------------------------------------
const void * CBaseFlex : : FindSceneFile ( const char * filename )
{
// Ask manager to get the globally cached scene instead.
return g_FlexSceneFileManager . FindSceneFile ( this , filename , false ) ;
}
ConVar ai_expression_optimization ( " ai_expression_optimization " , " 0 " , FCVAR_NONE , " Disable npc background expressions when you can't see them. " ) ;
ConVar ai_expression_frametime ( " ai_expression_frametime " , " 0.05 " , FCVAR_NONE , " Maximum frametime to still play background expressions. " ) ;
//-----------------------------------------------------------------------------
// Various methods to process facial SceneEvents:
//-----------------------------------------------------------------------------
bool CBaseFlex : : ProcessFlexAnimationSceneEvent ( CSceneEventInfo * info , CChoreoScene * scene , CChoreoEvent * event )
{
VPROF ( " CBaseFlex::ProcessFlexAnimationSceneEvent " ) ;
if ( event - > HasEndTime ( ) )
{
// don't bother with flex animation if the player can't see you
CAI_BaseNPC * myNpc = MyNPCPointer ( ) ;
if ( myNpc )
{
if ( ! myNpc - > HasCondition ( COND_IN_PVS ) )
return true ;
if ( ai_expression_optimization . GetBool ( ) )
{
if ( scene - > IsBackground ( ) )
{
// if framerate too slow, disable
if ( gpGlobals - > frametime > ai_expression_frametime . GetFloat ( ) )
{
info - > m_bHasArrived = true ;
info - > m_flNext = gpGlobals - > curtime + RandomFloat ( 0.7 , 1.2 ) ;
}
// only check occasionally
else if ( info - > m_flNext < = gpGlobals - > curtime )
{
CBasePlayer * pPlayer = UTIL_GetLocalPlayer ( ) ;
// if not in view, disable
info - > m_bHasArrived = ( pPlayer & & ! pPlayer - > FInViewCone ( this ) ) ;
info - > m_flNext = gpGlobals - > curtime + RandomFloat ( 0.7 , 1.2 ) ;
}
if ( info - > m_bHasArrived )
{
// NDebugOverlay::Box( myNpc->GetAbsOrigin(), myNpc->GetHullMins(), myNpc->GetHullMaxs(), 255, 0, 0, 0, 0.22 );
return true ;
}
// NDebugOverlay::Box( myNpc->GetAbsOrigin(), myNpc->GetHullMins(), myNpc->GetHullMaxs(), 0, 255, 0, 0, 0.22 );
}
}
}
AddFlexAnimation ( info ) ;
}
return true ;
}
bool CBaseFlex : : ProcessFlexSettingSceneEvent ( CSceneEventInfo * info , CChoreoScene * scene , CChoreoEvent * event )
{
// Flexanimations have to have an end time!!!
if ( ! event - > HasEndTime ( ) )
return true ;
VPROF ( " CBaseFlex::ProcessFlexSettingSceneEvent " ) ;
// Look up the actual strings
const char * scenefile = event - > GetParameters ( ) ;
const char * name = event - > GetParameters2 ( ) ;
// Have to find both strings
if ( scenefile & & name )
{
// Find the scene file
const flexsettinghdr_t * pExpHdr = ( const flexsettinghdr_t * ) FindSceneFile ( scenefile ) ;
if ( pExpHdr )
{
float scenetime = scene - > GetTime ( ) ;
float scale = event - > GetIntensity ( scenetime ) ;
// Add the named expression
AddFlexSetting ( name , scale , pExpHdr , ! info - > m_bStarted ) ;
}
}
return true ;
}
bool CBaseFlex : : ProcessFacingSceneEvent ( CSceneEventInfo * info , CChoreoScene * scene , CChoreoEvent * event )
{
// make sure target exists
if ( info - > m_hTarget = = NULL )
return false ;
VPROF ( " CBaseFlex::ProcessFacingSceneEvent " ) ;
// make sure we're still able to play this command
if ( ! EnterSceneSequence ( scene , event , true ) )
{
return false ;
}
if ( ! info - > m_bStarted )
{
info - > m_flInitialYaw = GetLocalAngles ( ) . y ;
}
// lock in place if aiming at self
if ( info - > m_hTarget = = this )
{
return true ;
}
CAI_BaseNPC * myNpc = MyNPCPointer ( ) ;
if ( myNpc )
{
if ( info - > m_bIsMoving ! = IsMoving ( ) )
{
info - > m_flInitialYaw = GetLocalAngles ( ) . y ;
}
info - > m_bIsMoving = IsMoving ( ) ;
// Msg("%f : %f - %f\n", scene->GetTime(), event->GetStartTime(), event->GetEndTime() );
// FIXME: why are the splines ill behaved at the end?
float intensity = event - > GetIntensity ( scene - > GetTime ( ) ) ;
if ( info - > m_bIsMoving )
{
myNpc - > AddFacingTarget ( info - > m_hTarget , intensity , 0.2 ) ;
}
else
{
float goalYaw = myNpc - > CalcIdealYaw ( info - > m_hTarget - > EyePosition ( ) ) ;
float diff = UTIL_AngleDiff ( goalYaw , info - > m_flInitialYaw ) ;
float idealYaw = UTIL_AngleMod ( info - > m_flInitialYaw + diff * intensity ) ;
// Msg("yaw %.1f : %.1f (%.1f)\n", info->m_flInitialYaw, idealYaw, intensity );
myNpc - > GetMotor ( ) - > SetIdealYawAndUpdate ( idealYaw ) ;
}
return true ;
}
return false ;
}
static Activity DetermineExpressionMoveActivity ( CChoreoEvent * event , CAI_BaseNPC * pNPC )
{
Activity activity = ACT_WALK ;
const char * sParam2 = event - > GetParameters2 ( ) ;
if ( ! sParam2 | | ! sParam2 [ 0 ] )
return activity ;
// Custom distance styles are appended to param2 with a space as a separator
const char * pszAct = Q_strstr ( sParam2 , " " ) ;
char szActName [ 256 ] ;
if ( pszAct )
{
Q_strncpy ( szActName , sParam2 , sizeof ( szActName ) ) ;
szActName [ ( pszAct - sParam2 ) ] = ' \0 ' ;
pszAct = szActName ;
}
else
{
pszAct = sParam2 ;
}
if ( ! Q_stricmp ( pszAct , " Walk " ) )
{
activity = ACT_WALK ;
}
else if ( ! Q_stricmp ( pszAct , " Run " ) )
{
activity = ACT_RUN ;
}
else if ( ! Q_stricmp ( pszAct , " CrouchWalk " ) )
{
activity = ACT_WALK_CROUCH ;
}
else
{
// Try and resolve the activity name
activity = ( Activity ) ActivityList_IndexForName ( pszAct ) ;
if ( activity = = ACT_INVALID )
{
// Assume it's a sequence name
pNPC - > m_iszSceneCustomMoveSeq = AllocPooledString ( pszAct ) ;
activity = ACT_SCRIPT_CUSTOM_MOVE ;
}
}
return activity ;
}
bool CBaseFlex : : ProcessMoveToSceneEvent ( CSceneEventInfo * info , CChoreoScene * scene , CChoreoEvent * event )
{
// make sure target exists
if ( info - > m_hTarget = = NULL )
return false ;
// FIXME: move to CBaseActor or BaseNPC
CAI_BaseNPC * myNpc = MyNPCPointer ( ) ;
if ( ! myNpc )
return false ;
VPROF ( " CBaseFlex::ProcessMoveToSceneEvent " ) ;
// make sure we're still able to play this command
if ( ! EnterSceneSequence ( scene , event , true ) )
{
return false ;
}
// lock in place if aiming at self
if ( info - > m_hTarget = = this )
{
return true ;
}
// If we're in a vehicle, make us exit and *then* begin the run
if ( myNpc - > IsInAVehicle ( ) )
{
// Make us exit and wait
myNpc - > ExitVehicle ( ) ;
return false ;
}
const Task_t * pCurTask = myNpc - > GetTask ( ) ;
if ( ! info - > m_bIsMoving & & ( ! IsMoving ( ) | | pCurTask - > iTask = = TASK_STOP_MOVING ) )
{
if ( pCurTask & & ( pCurTask - > iTask = = TASK_PLAY_SCENE | | pCurTask - > iTask = = TASK_WAIT_FOR_MOVEMENT | | pCurTask - > iTask = = TASK_STOP_MOVING ) )
{
Activity moveActivity = DetermineExpressionMoveActivity ( event , myNpc ) ;
// AI_NavGoal_t goal( info->m_hTarget->EyePosition(), moveActivity, AIN_HULL_TOLERANCE );
myNpc - > SetTarget ( info - > m_hTarget ) ;
float flDistTolerance ;
flDistTolerance = myNpc - > GetHullWidth ( ) / 2.0 ;
// flDistTolerance = AIN_HULL_TOLERANCE;
if ( event - > m_bForceShortMovement )
{
flDistTolerance = 0.1f ;
}
AI_NavGoal_t goal ( GOALTYPE_TARGETENT , moveActivity , flDistTolerance , AIN_UPDATE_TARGET_POS ) ;
float flDist = ( info - > m_hTarget - > EyePosition ( ) - GetAbsOrigin ( ) ) . Length2D ( ) ;
if ( flDist > MAX ( MAX ( flDistTolerance , 0.1 ) , event - > GetDistanceToTarget ( ) ) )
{
// Msg("flDist %.1f\n", flDist );
int result = false ;
if ( ! myNpc - > IsUnreachable ( info - > m_hTarget ) )
{
result = myNpc - > GetNavigator ( ) - > SetGoal ( goal , AIN_CLEAR_TARGET ) ;
if ( ! result )
{
myNpc - > RememberUnreachable ( info - > m_hTarget , 1.5 ) ;
}
}
if ( result )
{
myNpc - > GetNavigator ( ) - > SetMovementActivity ( moveActivity ) ;
myNpc - > GetNavigator ( ) - > SetArrivalDistance ( event - > GetDistanceToTarget ( ) ) ;
info - > m_bIsMoving = true ;
}
else
{
// need route build failure case
// Msg("actor %s unable to build route\n", STRING( myNpc->GetEntityName() ) );
// Assert(0);
if ( developer . GetInt ( ) > 0 & & scene_showmoveto . GetBool ( ) )
{
Vector vTestPoint ;
myNpc - > GetMoveProbe ( ) - > FloorPoint ( info - > m_hTarget - > EyePosition ( ) , MASK_NPCSOLID , 0 , - 64 , & vTestPoint ) ;
NDebugOverlay : : HorzArrow ( GetAbsOrigin ( ) + Vector ( 0 , 0 , 1 ) , vTestPoint + Vector ( 0 , 0 , 1 ) , 4 , 255 , 0 , 255 , 0 , false , 0.12 ) ;
NDebugOverlay : : Box ( vTestPoint , myNpc - > GetHullMins ( ) , myNpc - > GetHullMaxs ( ) , 255 , 0 , 255 , 0 , 0.12 ) ;
}
}
}
else
{
info - > m_bHasArrived = true ;
}
}
}
else if ( IsMoving ( ) )
{
// float flDist = (myNpc->GetNavigator()->GetGoalPos() - GetAbsOrigin()).Length2D();
float flDist = ( info - > m_hTarget - > EyePosition ( ) - GetAbsOrigin ( ) ) . Length2D ( ) ;
if ( flDist < = event - > GetDistanceToTarget ( ) )
{
myNpc - > GetNavigator ( ) - > StopMoving ( false ) ; // Stop moving
info - > m_bHasArrived = true ;
}
}
else
{
info - > m_bIsMoving = false ;
}
// show movement target
if ( developer . GetInt ( ) > 0 & & scene_showmoveto . GetBool ( ) & & IsMoving ( ) )
{
Vector vecStart , vTestPoint ;
vecStart = myNpc - > GetNavigator ( ) - > GetGoalPos ( ) ;
myNpc - > GetMoveProbe ( ) - > FloorPoint ( vecStart , MASK_NPCSOLID , 0 , - 64 , & vTestPoint ) ;
int r , g , b ;
r = b = g = 0 ;
if ( myNpc - > GetNavigator ( ) - > CanFitAtPosition ( vTestPoint , MASK_NPCSOLID ) )
{
if ( myNpc - > GetMoveProbe ( ) - > CheckStandPosition ( vTestPoint , MASK_NPCSOLID ) )
{
if ( event - > IsResumeCondition ( ) )
{
g = 255 ;
}
else
{
r = 255 ; g = 255 ;
}
}
else
{
b = 255 ; g = 255 ;
}
}
else
{
r = 255 ;
}
NDebugOverlay : : HorzArrow ( GetAbsOrigin ( ) + Vector ( 0 , 0 , 1 ) , vTestPoint + Vector ( 0 , 0 , 1 ) , 4 , r , g , b , 0 , false , 0.12 ) ;
NDebugOverlay : : Box ( vTestPoint , myNpc - > GetHullMins ( ) , myNpc - > GetHullMaxs ( ) , r , g , b , 0 , 0.12 ) ;
}
// handled in task
return true ;
}
bool CBaseFlex : : ProcessLookAtSceneEvent ( CSceneEventInfo * info , CChoreoScene * scene , CChoreoEvent * event )
{
VPROF ( " CBaseFlex::ProcessLookAtSceneEvent " ) ;
CAI_BaseNPC * myNpc = MyNPCPointer ( ) ;
if ( myNpc & & info - > m_hTarget ! = NULL )
{
float intensity = event - > GetIntensity ( scene - > GetTime ( ) ) ;
// clamp in-ramp to 0.3 seconds
float flDuration = scene - > GetTime ( ) - event - > GetStartTime ( ) ;
float flMaxIntensity = flDuration < 0.3f ? SimpleSpline ( flDuration / 0.3f ) : 1.0f ;
intensity = clamp ( intensity , 0.0f , flMaxIntensity ) ;
myNpc - > AddLookTarget ( info - > m_hTarget , intensity , 0.1 ) ;
if ( developer . GetInt ( ) > 0 & & scene_showlook . GetBool ( ) & & info - > m_hTarget )
{
Vector tmp = info - > m_hTarget - > EyePosition ( ) - myNpc - > EyePosition ( ) ;
VectorNormalize ( tmp ) ;
Vector p0 = myNpc - > EyePosition ( ) ;
NDebugOverlay : : VertArrow ( p0 , p0 + tmp * ( 4 + 16 * intensity ) , 4 , 255 , 255 , 255 , 0 , true , 0.12 ) ;
}
}
return true ;
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
bool CBaseFlex : : ProcessSceneEvent ( CSceneEventInfo * info , CChoreoScene * scene , CChoreoEvent * event )
{
VPROF ( " CBaseFlex::ProcessSceneEvent " ) ;
switch ( event - > GetType ( ) )
{
case CChoreoEvent : : FLEXANIMATION :
return ProcessFlexAnimationSceneEvent ( info , scene , event ) ;
case CChoreoEvent : : EXPRESSION :
return ProcessFlexSettingSceneEvent ( info , scene , event ) ;
case CChoreoEvent : : SEQUENCE :
return ProcessSequenceSceneEvent ( info , scene , event ) ;
case CChoreoEvent : : GESTURE :
return ProcessGestureSceneEvent ( info , scene , event ) ;
case CChoreoEvent : : FACE :
return ProcessFacingSceneEvent ( info , scene , event ) ;
case CChoreoEvent : : MOVETO :
return ProcessMoveToSceneEvent ( info , scene , event ) ;
case CChoreoEvent : : LOOKAT :
return ProcessLookAtSceneEvent ( info , scene , event ) ;
case CChoreoEvent : : SPEAK :
return true ;
default :
{
Msg ( " unknown type %d in ProcessSceneEvent() \n " , event - > GetType ( ) ) ;
Assert ( 0 ) ;
}
}
return false ;
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
bool CBaseFlex : : IsRunningSceneMoveToEvent ( )
{
for ( int i = m_SceneEvents . Count ( ) - 1 ; i > = 0 ; i - - )
{
CSceneEventInfo * info = & m_SceneEvents [ i ] ;
CChoreoEvent * event = info - > m_pEvent ;
if ( event & & event - > GetType ( ) = = CChoreoEvent : : MOVETO )
return true ;
}
return false ;
}
flexsetting_t const * CBaseFlex : : FindNamedSetting ( flexsettinghdr_t const * pSettinghdr , const char * expr )
{
int i ;
const flexsetting_t * pSetting = NULL ;
for ( i = 0 ; i < pSettinghdr - > numflexsettings ; i + + )
{
pSetting = pSettinghdr - > pSetting ( i ) ;
if ( ! pSetting )
continue ;
const char * name = pSetting - > pszName ( ) ;
if ( ! stricmp ( name , expr ) )
break ;
}
if ( i > = pSettinghdr - > numflexsettings )
{
return NULL ;
}
return pSetting ;
}
//-----------------------------------------------------------------------------
// Purpose:
// Input : *event -
//-----------------------------------------------------------------------------
void CBaseFlex : : AddFlexAnimation ( CSceneEventInfo * info )
{
if ( ! info )
return ;
// don't bother with flex animation if the player can't see you
CAI_BaseNPC * myNpc = MyNPCPointer ( ) ;
if ( myNpc & & ! myNpc - > HasCondition ( COND_IN_PVS ) )
return ;
CChoreoEvent * event = info - > m_pEvent ;
if ( ! event )
return ;
CChoreoScene * scene = info - > m_pScene ;
if ( ! scene )
return ;
if ( ! event - > GetTrackLookupSet ( ) )
{
// Create lookup data
for ( int i = 0 ; i < event - > GetNumFlexAnimationTracks ( ) ; i + + )
{
CFlexAnimationTrack * track = event - > GetFlexAnimationTrack ( i ) ;
if ( ! track )
continue ;
if ( track - > IsComboType ( ) )
{
char name [ 512 ] ;
Q_strncpy ( name , " right_ " , sizeof ( name ) ) ;
Q_strncat ( name , track - > GetFlexControllerName ( ) , sizeof ( name ) , COPY_ALL_CHARACTERS ) ;
track - > SetFlexControllerIndex ( FindFlexController ( name ) , 0 , 0 ) ;
if ( CAI_BaseActor : : IsServerSideFlexController ( name ) )
{
Assert ( ! " Should stereo controllers ever be server side only? " ) ;
track - > SetServerSide ( true ) ;
}
Q_strncpy ( name , " left_ " , sizeof ( name ) ) ;
Q_strncat ( name , track - > GetFlexControllerName ( ) , sizeof ( name ) , COPY_ALL_CHARACTERS ) ;
track - > SetFlexControllerIndex ( FindFlexController ( name ) , 0 , 1 ) ;
if ( CAI_BaseActor : : IsServerSideFlexController ( name ) )
{
Assert ( ! " Should stereo controllers ever be server side only? " ) ;
track - > SetServerSide ( true ) ;
}
}
else
{
track - > SetFlexControllerIndex ( FindFlexController ( ( char * ) track - > GetFlexControllerName ( ) ) , 0 ) ;
// Only non-combo tracks can be server side
track - > SetServerSide ( CAI_BaseActor : : IsServerSideFlexController ( track - > GetFlexControllerName ( ) ) ) ;
}
}
event - > SetTrackLookupSet ( true ) ;
}
float scenetime = scene - > GetTime ( ) ;
// decay if this is a background scene and there's other flex animations playing
float weight = event - > GetIntensity ( scenetime ) * info - > UpdateWeight ( this ) ;
{
VPROF ( " AddFlexAnimation_SetFlexWeight " ) ;
// Compute intensity for each track in animation and apply
// Iterate animation tracks
for ( int i = 0 ; i < event - > GetNumFlexAnimationTracks ( ) ; i + + )
{
CFlexAnimationTrack * track = event - > GetFlexAnimationTrack ( i ) ;
if ( ! track )
continue ;
// Disabled
if ( ! track - > IsTrackActive ( ) )
continue ;
// If we are doing client side flexing, skip all tracks which are not server side
if ( g_bClientFlex & & ! track - > IsServerSide ( ) )
continue ;
// Map track flex controller to global name
if ( track - > IsComboType ( ) )
{
for ( int side = 0 ; side < 2 ; side + + )
{
LocalFlexController_t controller = track - > GetRawFlexControllerIndex ( side ) ;
// Get spline intensity for controller
float flIntensity = track - > GetIntensity ( scenetime , side ) ;
if ( controller > = LocalFlexController_t ( 0 ) )
{
float orig = GetFlexWeight ( controller ) ;
SetFlexWeight ( controller , orig * ( 1 - weight ) + flIntensity * weight ) ;
}
}
}
else
{
LocalFlexController_t controller = track - > GetRawFlexControllerIndex ( 0 ) ;
// Get spline intensity for controller
float flIntensity = track - > GetIntensity ( scenetime , 0 ) ;
if ( controller > = LocalFlexController_t ( 0 ) )
{
float orig = GetFlexWeight ( controller ) ;
SetFlexWeight ( controller , orig * ( 1 - weight ) + flIntensity * weight ) ;
}
}
}
}
info - > m_bStarted = true ;
}
//-----------------------------------------------------------------------------
// Purpose:
// Input : *expr -
// scale -
// *pSettinghdr -
// newexpression -
//-----------------------------------------------------------------------------
void CBaseFlex : : AddFlexSetting ( const char * expr , float scale ,
const flexsettinghdr_t * pSettinghdr , bool newexpression )
{
int i ;
const flexsetting_t * pSetting = NULL ;
// Find the named setting in the base
for ( i = 0 ; i < pSettinghdr - > numflexsettings ; i + + )
{
pSetting = pSettinghdr - > pSetting ( i ) ;
if ( ! pSetting )
continue ;
const char * name = pSetting - > pszName ( ) ;
if ( ! stricmp ( name , expr ) )
break ;
}
if ( i > = pSettinghdr - > numflexsettings )
{
return ;
}
flexweight_t * pWeights = NULL ;
int truecount = pSetting - > psetting ( ( byte * ) pSettinghdr , 0 , & pWeights ) ;
if ( ! pWeights )
return ;
for ( i = 0 ; i < truecount ; i + + , pWeights + + )
{
// Translate to local flex controller
// this is translating from the settings's local index to the models local index
LocalFlexController_t index = FlexControllerLocalToGlobal ( pSettinghdr , pWeights - > key ) ;
// blend scaled weighting in to total
float s = clamp ( scale * pWeights - > influence , 0.0f , 1.0f ) ;
float value = GetFlexWeight ( index ) * ( 1.0f - s ) + pWeights - > weight * s ;
SetFlexWeight ( index , value ) ;
}
}
//-----------------------------------------------------------------------------
// Purpose:
// Input : *actor -
// *parameters -
//-----------------------------------------------------------------------------
bool CBaseFlex : : ProcessGestureSceneEvent ( CSceneEventInfo * info , CChoreoScene * scene , CChoreoEvent * event )
{
if ( ! info | | ! event | | ! scene )
return false ;
if ( info - > m_iLayer = = REQUEST_DEFERRED_LAYER_ALLOCATION )
{
HandleStartGestureSceneEvent ( info , scene , event , info - > m_pActor ) ;
}
if ( info - > m_iLayer > = 0 )
{
// this happens after StudioFrameAdvance()
// FIXME; this needs to be adjusted by npc offset to scene time? Known?
// FIXME: what should this do when the scene loops?
float duration = event - > GetDuration ( ) ;
float flEventCycle = ( scene - > GetTime ( ) - event - > GetStartTime ( ) ) / duration ;
float flCycle = event - > GetOriginalPercentageFromPlaybackPercentage ( flEventCycle ) ;
SetLayerCycle ( info - > m_iLayer , flCycle ) ;
float flWeight = event - > GetIntensity ( scene - > GetTime ( ) ) ;
/*
if ( stricmp ( event - > GetParameters ( ) , " m_g_arms_crossed " ) = = 0 )
{
Msg ( " %.2f (%.2f) : %s : %.3f (%.3f) %.2f \n " , scene - > GetTime ( ) , scene - > GetTime ( ) - event - > GetStartTime ( ) , event - > GetParameters ( ) , flCycle , flEventCycle , flWeight ) ;
}
*/
// fade out/in if npc is moving
if ( ! info - > m_bIsGesture )
{
if ( IsMoving ( ) )
{
info - > m_flWeight = MAX ( info - > m_flWeight - 0.2 , 0.0 ) ;
}
else
{
info - > m_flWeight = MIN ( info - > m_flWeight + 0.2 , 1.0 ) ;
}
}
// 3x^2-2x^3
float spline = 3 * info - > m_flWeight * info - > m_flWeight - 2 * info - > m_flWeight * info - > m_flWeight * info - > m_flWeight ;
SetLayerWeight ( info - > m_iLayer , flWeight * spline ) ;
// update layer priority
if ( m_bUpdateLayerPriorities )
{
SetLayerPriority ( info - > m_iLayer , info - > m_iPriority + GetScenePriority ( scene ) ) ;
}
/*
Msg ( " %d : %.2f (%.2f) : %.3f %.3f : %.3f \n " ,
info - > m_iLayer ,
scene - > GetTime ( ) ,
( scene - > GetTime ( ) - event - > GetStartTime ( ) ) / duration ,
flCycle ,
flNextCycle ,
rate ) ;
*/
}
return true ;
}
//-----------------------------------------------------------------------------
// Purpose:
// Input : *actor -
// *parameters -
//-----------------------------------------------------------------------------
bool CBaseFlex : : ProcessSequenceSceneEvent ( CSceneEventInfo * info , CChoreoScene * scene , CChoreoEvent * event )
{
if ( ! info | | ! event | | ! scene )
return false ;
bool bNewlyAllocated = false ;
if ( info - > m_iLayer = = REQUEST_DEFERRED_LAYER_ALLOCATION )
{
bool result = HandleStartSequenceSceneEvent ( info , scene , event , info - > m_pActor ) ;
if ( ! result )
return false ;
bNewlyAllocated = true ;
}
if ( info - > m_iLayer > = 0 )
{
float flWeight = event - > GetIntensity ( scene - > GetTime ( ) ) ;
// force layer to zero weight in newly allocated, fixed bug with inter-think spawned sequences blending in badly
if ( bNewlyAllocated )
flWeight = 0.0 ;
CAI_BaseNPC * myNpc = MyNPCPointer ( ) ;
// fade out/in if npc is moving
bool bFadeOut = IsMoving ( ) ;
if ( myNpc & & ! ( myNpc - > IsCurSchedule ( SCHED_SCENE_GENERIC ) | | myNpc - > GetActivity ( ) = = ACT_IDLE_ANGRY | | myNpc - > GetActivity ( ) = = ACT_IDLE ) )
{
bFadeOut = true ;
if ( info - > m_flWeight = = 1.0 )
{
Warning ( " %s playing CChoreoEvent::SEQUENCE but AI has forced them to do something different \n " , STRING ( GetEntityName ( ) ) ) ;
}
}
if ( bFadeOut )
{
info - > m_flWeight = MAX ( info - > m_flWeight - 0.2 , 0.0 ) ;
}
else
{
info - > m_flWeight = MIN ( info - > m_flWeight + 0.2 , 1.0 ) ;
}
float spline = 3 * info - > m_flWeight * info - > m_flWeight - 2 * info - > m_flWeight * info - > m_flWeight * info - > m_flWeight ;
SetLayerWeight ( info - > m_iLayer , flWeight * spline ) ;
bool looping = ( ( GetSequenceFlags ( GetModelPtr ( ) , info - > m_nSequence ) & STUDIO_LOOPING ) ! = 0 ) ;
if ( ! looping )
{
float dt = scene - > GetTime ( ) - event - > GetStartTime ( ) ;
float seq_duration = SequenceDuration ( info - > m_nSequence ) ;
float flCycle = dt / seq_duration ;
flCycle = clamp ( flCycle , 0.f , 1.0f ) ;
SetLayerCycle ( info - > m_iLayer , flCycle ) ;
}
if ( myNpc )
{
myNpc - > AddSceneLock ( 0.2 ) ;
}
// update layer priority
if ( m_bUpdateLayerPriorities )
{
SetLayerPriority ( info - > m_iLayer , info - > m_iPriority + GetScenePriority ( scene ) ) ;
}
}
// FIXME: clean up cycle index from restart
return true ;
}
//-----------------------------------------------------------------------------
// Purpose: Returns true if the actor is not currently in a scene OR if the actor
// is in a scene (checked externally), but a PERMIT_RESPONSES event is active and
// the permit time period has enough time remaining to handle the response in full.
// Input : response_length -
//-----------------------------------------------------------------------------
bool CBaseFlex : : PermitResponse ( float response_length )
{
// Nothing set, disallow it
if ( m_flAllowResponsesEndTime < = 0.0f )
{
return false ;
}
// If response ends before end of allow time, then that's okay
if ( gpGlobals - > curtime + response_length < = m_flAllowResponsesEndTime )
{
return true ;
}
// Disallow responses for now
return false ;
}
//-----------------------------------------------------------------------------
// Purpose: Set response end time (0 to clear response blocking)
// Input : endtime -
//-----------------------------------------------------------------------------
void CBaseFlex : : SetPermitResponse ( float endtime )
{
// Mark time after which we'll be occupied again (if in a scene)
// Note a value of <= 0.0f means unset (always allow actor to speak if not in a scene,
// and always disallow if in a scene)
m_flAllowResponsesEndTime = endtime ;
}
//-----------------------------------------------------------------------------
// Purpose: Play a one-shot scene
// Input :
// Output :
//-----------------------------------------------------------------------------
float CBaseFlex : : PlayScene ( const char * pszScene , float flDelay , AI_Response * response , IRecipientFilter * filter /* = NULL */ )
{
return InstancedScriptedScene ( this , pszScene , NULL , flDelay , false , response , false , filter ) ;
}
//-----------------------------------------------------------------------------
// Purpose: Generate a one-shot scene in memory with one track which is to play the named sound on the actor
// Input : *soundname -
// Output : float
//-----------------------------------------------------------------------------
float CBaseFlex : : PlayAutoGeneratedSoundScene ( const char * soundname )
{
return InstancedAutoGeneratedSoundScene ( this , soundname ) ;
}
// FIXME: move to CBaseActor
bool CBaseFlex : : EnterSceneSequence ( CChoreoScene * scene , CChoreoEvent * event , bool bRestart )
{
CAI_BaseNPC * myNpc = MyNPCPointer ( ) ;
if ( ! myNpc )
{
// In multiplayer, we allow players to play scenes
if ( IsPlayer ( ) )
return true ;
return false ;
}
// 2 seconds past current event, or 0.2 seconds past end of scene, whichever is shorter
float flDuration = MIN ( 2.0 , MIN ( event - > GetEndTime ( ) - scene - > GetTime ( ) + 2.0 , scene - > FindStopTime ( ) - scene - > GetTime ( ) + 0.2 ) ) ;
if ( myNpc - > IsCurSchedule ( SCHED_SCENE_GENERIC ) )
{
myNpc - > AddSceneLock ( flDuration ) ;
return true ;
}
// for now, don't interrupt sequences that don't understand being interrupted
if ( myNpc - > GetCurSchedule ( ) )
{
CAI_ScheduleBits testBits ;
myNpc - > GetCurSchedule ( ) - > GetInterruptMask ( & testBits ) ;
testBits . Clear ( COND_PROVOKED ) ;
if ( testBits . IsAllClear ( ) )
{
return false ;
}
}
if ( myNpc - > IsInterruptable ( ) )
{
if ( myNpc - > m_hCine )
{
// Assert( !(myNpc->GetFlags() & FL_FLY ) );
myNpc - > ExitScriptedSequence ( ) ;
}
myNpc - > OnStartScene ( ) ;
myNpc - > SetSchedule ( SCHED_SCENE_GENERIC ) ;
myNpc - > AddSceneLock ( flDuration ) ;
return true ;
}
return false ;
}
bool CBaseFlex : : ExitSceneSequence ( void )
{
return true ;
}
//-----------------------------------------------------------------------------
// Purpose: keep track of last valid flex animation time and returns if the current info should play theirs
//-----------------------------------------------------------------------------
bool CBaseFlex : : IsSuppressedFlexAnimation ( CSceneEventInfo * info )
{
// check for suppression if the current info is a background
if ( info - > m_pScene & & info - > m_pScene - > IsBackground ( ) )
{
// allow for slight jitter
return m_flLastFlexAnimationTime > gpGlobals - > curtime - GetAnimTimeInterval ( ) * 1.5 ;
}
// keep track of last non-suppressable flex animation
m_flLastFlexAnimationTime = gpGlobals - > curtime ;
return false ;
}
//-----------------------------------------------------------------------------
// Purpose: Clear out body lean states that are invalidated with Teleport
//-----------------------------------------------------------------------------
void CBaseFlex : : Teleport ( const Vector * newPosition , const QAngle * newAngles , const Vector * newVelocity )
{
BaseClass : : Teleport ( newPosition , newAngles , newVelocity ) ;
# ifdef HL2_DLL
// clear out Body Lean
m_vecPrevOrigin = vec3_origin ;
# endif
}
//-----------------------------------------------------------------------------
// Purpose: keep track of accel/decal and lean the body
//-----------------------------------------------------------------------------
void CBaseFlex : : DoBodyLean ( void )
{
# ifdef HL2_DLL
CAI_BaseNPC * myNpc = MyNPCPointer ( ) ;
if ( myNpc )
{
Vector vecDelta ;
Vector vecPos ;
Vector vecOrigin = GetAbsOrigin ( ) ;
if ( m_vecPrevOrigin = = vec3_origin )
{
m_vecPrevOrigin = vecOrigin ;
}
vecDelta = vecOrigin - m_vecPrevOrigin ;
vecDelta . x = clamp ( vecDelta . x , - 50 , 50 ) ;
vecDelta . y = clamp ( vecDelta . y , - 50 , 50 ) ;
vecDelta . z = clamp ( vecDelta . z , - 50 , 50 ) ;
float dt = gpGlobals - > curtime - GetLastThink ( ) ;
bool bSkip = ( ( GetFlags ( ) & ( FL_FLY | FL_SWIM ) ) ! = 0 ) | | ( GetMoveParent ( ) ! = NULL ) | | ( GetGroundEntity ( ) = = NULL ) | | ( GetGroundEntity ( ) - > IsMoving ( ) ) ;
bSkip | = myNpc - > TaskRanAutomovement ( ) | | ( myNpc - > GetVehicleEntity ( ) ! = NULL ) ;
if ( ! bSkip )
{
if ( vecDelta . LengthSqr ( ) > m_vecPrevVelocity . LengthSqr ( ) )
{
float decay = ExponentialDecay ( 0.6 , 0.1 , dt ) ;
m_vecPrevVelocity = m_vecPrevVelocity * ( decay ) + vecDelta * ( 1.f - decay ) ;
}
else
{
float decay = ExponentialDecay ( 0.4 , 0.1 , dt ) ;
m_vecPrevVelocity = m_vecPrevVelocity * ( decay ) + vecDelta * ( 1.f - decay ) ;
}
vecPos = m_vecPrevOrigin + m_vecPrevVelocity ;
float decay = ExponentialDecay ( 0.5 , 0.1 , dt ) ;
m_vecShift = m_vecShift * ( decay ) + ( vecOrigin - vecPos ) * ( 1.f - decay ) ; // FIXME: Scale this
m_vecLean = ( vecOrigin - vecPos ) * 1.0 ; // FIXME: Scale this
}
else
{
m_vecPrevVelocity = vecDelta ;
float decay = ExponentialDecay ( 0.5 , 0.1 , dt ) ;
m_vecShift = m_vecLean * decay ;
m_vecLean = m_vecShift * decay ;
}
m_vecPrevOrigin = vecOrigin ;
/*
DevMsg ( " %.2f %.2f %.2f (%.2f %.2f %.2f) \n " ,
m_vecLean . Get ( ) . x , m_vecLean . Get ( ) . y , m_vecLean . Get ( ) . z ,
vecDelta . x , vecDelta . y , vecDelta . z ) ;
*/
}
# endif
}
//-----------------------------------------------------------------------------
// Purpose: initialize weight for background events
//-----------------------------------------------------------------------------
void CSceneEventInfo : : InitWeight ( CBaseFlex * pActor )
{
if ( pActor - > IsSuppressedFlexAnimation ( this ) )
{
m_flWeight = 0.0 ;
}
else
{
m_flWeight = 1.0 ;
}
}
//-----------------------------------------------------------------------------
// Purpose: update weight for background events. Only call once per think
//-----------------------------------------------------------------------------
float CSceneEventInfo : : UpdateWeight ( CBaseFlex * pActor )
{
// decay if this is a background scene and there's other flex animations playing
if ( pActor - > IsSuppressedFlexAnimation ( this ) )
{
m_flWeight = MAX ( m_flWeight - 0.2 , 0.0 ) ;
}
else
{
m_flWeight = MIN ( m_flWeight + 0.1 , 1.0 ) ;
}
return m_flWeight ;
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
class CFlexCycler : public CBaseFlex
{
private :
DECLARE_CLASS ( CFlexCycler , CBaseFlex ) ;
public :
DECLARE_DATADESC ( ) ;
CFlexCycler ( ) { m_iszSentence = NULL_STRING ; m_sentence = 0 ; }
void GenericCyclerSpawn ( char * szModel , Vector vecMin , Vector vecMax ) ;
virtual int ObjectCaps ( void ) { return ( BaseClass : : ObjectCaps ( ) | FCAP_IMPULSE_USE ) ; }
int OnTakeDamage ( const CTakeDamageInfo & info ) ;
void Spawn ( void ) ;
void Think ( void ) ;
virtual void ProcessSceneEvents ( void ) ;
// Don't treat as a live target
virtual bool IsAlive ( void ) { return FALSE ; }
float m_flextime ;
LocalFlexController_t m_flexnum ;
float m_flextarget [ 64 ] ;
float m_blinktime ;
float m_looktime ;
Vector m_lookTarget ;
float m_speaktime ;
int m_istalking ;
int m_phoneme ;
string_t m_iszSentence ;
int m_sentence ;
void SetFlexTarget ( LocalFlexController_t flexnum ) ;
LocalFlexController_t LookupFlex ( const char * szTarget ) ;
} ;
BEGIN_DATADESC ( CFlexCycler )
DEFINE_FIELD ( m_flextime , FIELD_TIME ) ,
DEFINE_FIELD ( m_flexnum , FIELD_INTEGER ) ,
DEFINE_ARRAY ( m_flextarget , FIELD_FLOAT , 64 ) ,
DEFINE_FIELD ( m_blinktime , FIELD_TIME ) ,
DEFINE_FIELD ( m_looktime , FIELD_TIME ) ,
DEFINE_FIELD ( m_lookTarget , FIELD_POSITION_VECTOR ) ,
DEFINE_FIELD ( m_speaktime , FIELD_TIME ) ,
DEFINE_FIELD ( m_istalking , FIELD_INTEGER ) ,
DEFINE_FIELD ( m_phoneme , FIELD_INTEGER ) ,
DEFINE_KEYFIELD ( m_iszSentence , FIELD_STRING , " Sentence " ) ,
DEFINE_FIELD ( m_sentence , FIELD_INTEGER ) ,
END_DATADESC ( )
//
// we should get rid of all the other cyclers and replace them with this.
//
class CGenericFlexCycler : public CFlexCycler
{
public :
DECLARE_CLASS ( CGenericFlexCycler , CFlexCycler ) ;
void Spawn ( void ) { GenericCyclerSpawn ( ( char * ) STRING ( GetModelName ( ) ) , Vector ( - 16 , - 16 , 0 ) , Vector ( 16 , 16 , 72 ) ) ; }
} ;
LINK_ENTITY_TO_CLASS ( cycler_flex , CGenericFlexCycler ) ;
ConVar flex_expression ( " flex_expression " , " - " ) ;
ConVar flex_talk ( " flex_talk " , " 0 " ) ;
// Cycler member functions
void CFlexCycler : : GenericCyclerSpawn ( char * szModel , Vector vecMin , Vector vecMax )
{
if ( ! szModel | | ! * szModel )
{
Warning ( " cycler at %.0f %.0f %0.f missing modelname \n " , GetAbsOrigin ( ) . x , GetAbsOrigin ( ) . y , GetAbsOrigin ( ) . z ) ;
UTIL_Remove ( this ) ;
return ;
}
PrecacheModel ( szModel ) ;
SetModel ( szModel ) ;
CFlexCycler : : Spawn ( ) ;
UTIL_SetSize ( this , vecMin , vecMax ) ;
Vector vecEyeOffset ;
GetEyePosition ( GetModelPtr ( ) , vecEyeOffset ) ;
SetViewOffset ( vecEyeOffset ) ;
InitBoneControllers ( ) ;
if ( GetNumFlexControllers ( ) < 5 )
Warning ( " cycler_flex used on model %s without enough flexes. \n " , szModel ) ;
}
void CFlexCycler : : Spawn ( )
{
Precache ( ) ;
/*
if ( m_spawnflags & FCYCLER_NOTSOLID )
{
SetSolid ( SOLID_NOT ) ;
}
else
{
SetSolid ( SOLID_SLIDEBOX ) ;
}
*/
SetSolid ( SOLID_BBOX ) ;
AddSolidFlags ( FSOLID_NOT_STANDABLE ) ;
SetMoveType ( MOVETYPE_NONE ) ;
m_takedamage = DAMAGE_YES ;
m_iHealth = 80000 ; // no cycler should die
m_flPlaybackRate = 1.0f ;
m_flGroundSpeed = 0 ;
SetNextThink ( gpGlobals - > curtime + 1.0f ) ;
ResetSequenceInfo ( ) ;
m_flCycle = random - > RandomFloat ( 0 , 1.0 ) ;
}
const char * predef_flexcontroller_names [ ] = {
" right_lid_raiser " ,
" left_lid_raiser " ,
" right_lid_tightener " ,
" left_lid_tightener " ,
" right_lid_droop " ,
" left_lid_droop " ,
" right_inner_raiser " ,
" left_inner_raiser " ,
" right_outer_raiser " ,
" left_outer_raiser " ,
" right_lowerer " ,
" left_lowerer " ,
" right_cheek_raiser " ,
" left_cheek_raiser " ,
" wrinkler " ,
" right_upper_raiser " ,
" left_upper_raiser " ,
" right_corner_puller " ,
" left_corner_puller " ,
" corner_depressor " ,
" chin_raiser " ,
" right_puckerer " ,
" left_puckerer " ,
" right_funneler " ,
" left_funneler " ,
" tightener " ,
" jaw_clencher " ,
" jaw_drop " ,
" right_mouth_drop " ,
" left_mouth_drop " ,
NULL } ;
float predef_flexcontroller_values [ 7 ] [ 30 ] = {
/* 0 */ { 0.700 , 0.560 , 0.650 , 0.650 , 0.650 , 0.585 , 0.000 , 0.000 , 0.400 , 0.040 , 0.000 , 0.000 , 0.450 , 0.450 , 0.000 , 0.000 , 0.000 , 0.750 , 0.000 , 0.000 , 0.000 , 0.000 , 0.000 , 0.000 , 0.000 , 0.150 , 1.000 , 0.000 , 0.000 , 0.000 } ,
/* 1 */ { 0.450 , 0.450 , 0.450 , 0.450 , 0.000 , 0.000 , 0.000 , 0.000 , 0.300 , 0.300 , 0.000 , 0.000 , 0.250 , 0.250 , 0.000 , 0.000 , 0.000 , 0.750 , 0.750 , 0.000 , 0.000 , 0.000 , 0.000 , 0.400 , 0.400 , 0.000 , 1.000 , 0.000 , 0.050 , 0.050 } ,
/* 2 */ { 0.200 , 0.200 , 0.500 , 0.500 , 0.150 , 0.150 , 0.100 , 0.100 , 0.150 , 0.150 , 0.000 , 0.000 , 0.700 , 0.700 , 0.000 , 0.000 , 0.000 , 0.750 , 0.750 , 0.000 , 0.200 , 0.000 , 0.000 , 0.000 , 0.000 , 0.000 , 0.850 , 0.000 , 0.000 , 0.000 } ,
/* 3 */ { 0.000 , 0.000 , 0.000 , 0.000 , 0.000 , 0.000 , 0.300 , 0.300 , 0.000 , 0.000 , 0.000 , 0.000 , 0.000 , 0.000 , 0.100 , 0.000 , 0.000 , 0.000 , 0.000 , 0.700 , 0.300 , 0.000 , 0.000 , 0.200 , 0.200 , 0.000 , 0.000 , 0.300 , 0.000 , 0.000 } ,
/* 4 */ { 0.450 , 0.450 , 0.000 , 0.000 , 0.450 , 0.450 , 0.000 , 0.000 , 0.000 , 0.000 , 0.450 , 0.450 , 0.000 , 0.000 , 0.000 , 0.000 , 0.000 , 0.000 , 0.000 , 0.000 , 0.000 , 0.000 , 0.000 , 0.000 , 0.000 , 0.300 , 0.000 , 0.000 , 0.000 , 0.000 } ,
/* 5 */ { 0.000 , 0.000 , 0.350 , 0.350 , 0.150 , 0.150 , 0.300 , 0.300 , 0.450 , 0.450 , 0.000 , 0.000 , 0.200 , 0.200 , 0.000 , 0.000 , 0.000 , 0.000 , 0.000 , 0.000 , 0.000 , 0.200 , 0.200 , 0.000 , 0.000 , 0.300 , 0.000 , 0.000 , 0.000 , 0.000 } ,
/* 6 */ { 0.000 , 0.000 , 0.650 , 0.650 , 0.750 , 0.750 , 0.000 , 0.000 , 0.000 , 0.000 , 0.300 , 0.300 , 0.000 , 0.000 , 0.000 , 0.250 , 0.250 , 0.000 , 0.000 , 0.000 , 0.000 , 0.000 , 0.000 , 0.000 , 0.000 , 0.000 , 0.000 , 0.000 , 0.000 , 0.000 }
} ;
//-----------------------------------------------------------------------------
// Purpose: Changes sequences when shot
//-----------------------------------------------------------------------------
int CFlexCycler : : OnTakeDamage ( const CTakeDamageInfo & info )
{
int nSequence = GetSequence ( ) + 1 ;
if ( ! IsValidSequence ( nSequence ) )
{
nSequence = 0 ;
}
ResetSequence ( nSequence ) ;
m_flCycle = 0 ;
return 0 ;
}
void CFlexCycler : : SetFlexTarget ( LocalFlexController_t flexnum )
{
m_flextarget [ flexnum ] = random - > RandomFloat ( 0.5 , 1.0 ) ;
const char * pszType = GetFlexControllerType ( flexnum ) ;
// zero out all other flexes of the same type
for ( LocalFlexController_t i = LocalFlexController_t ( 0 ) ; i < GetNumFlexControllers ( ) ; i + + )
{
if ( i ! = flexnum )
{
const char * pszOtherType = GetFlexControllerType ( i ) ;
if ( stricmp ( pszType , pszOtherType ) = = 0 )
{
m_flextarget [ i ] = 0 ;
}
}
}
// HACK, for now, consider then linked is named "right_" or "left_"
if ( strncmp ( " right_ " , GetFlexControllerName ( flexnum ) , 6 ) = = 0 )
{
m_flextarget [ flexnum + 1 ] = m_flextarget [ flexnum ] ;
}
else if ( strncmp ( " left_ " , GetFlexControllerName ( flexnum ) , 5 ) = = 0 )
{
m_flextarget [ flexnum - 1 ] = m_flextarget [ flexnum ] ;
}
}
LocalFlexController_t CFlexCycler : : LookupFlex ( const char * szTarget )
{
for ( LocalFlexController_t i = LocalFlexController_t ( 0 ) ; i < GetNumFlexControllers ( ) ; i + + )
{
const char * pszFlex = GetFlexControllerName ( i ) ;
if ( stricmp ( szTarget , pszFlex ) = = 0 )
{
return i ;
}
}
return LocalFlexController_t ( - 1 ) ;
}
void CFlexCycler : : Think ( void )
{
SetNextThink ( gpGlobals - > curtime + 0.1f ) ;
StudioFrameAdvance ( ) ;
if ( IsSequenceFinished ( ) & & ! SequenceLoops ( ) )
{
// ResetSequenceInfo();
// hack to avoid reloading model every frame
m_flAnimTime = gpGlobals - > curtime ;
m_flPlaybackRate = 1.0 ;
m_bSequenceFinished = false ;
m_flLastEventCheck = 0 ;
m_flCycle = 0 ;
}
// only do this if they have more than eyelid movement
if ( GetNumFlexControllers ( ) > 2 )
{
const char * pszExpression = flex_expression . GetString ( ) ;
if ( pszExpression & & pszExpression [ 0 ] = = ' + ' & & pszExpression [ 1 ] ! = ' \0 ' )
{
int i ;
int j = atoi ( & pszExpression [ 1 ] ) ;
for ( i = 0 ; i < GetNumFlexControllers ( ) ; i + + )
{
m_flextarget [ m_flexnum ] = 0 ;
}
for ( i = 0 ; i < 35 & & predef_flexcontroller_names [ i ] ; i + + )
{
m_flexnum = LookupFlex ( predef_flexcontroller_names [ i ] ) ;
m_flextarget [ m_flexnum ] = predef_flexcontroller_values [ j ] [ i ] ;
// Msg( "%s %.3f\n", predef_flexcontroller_names[i], predef_flexcontroller_values[j][i] );
}
}
else if ( pszExpression & & ( pszExpression [ 0 ] = = ' 1 ' ) & & ( pszExpression [ 1 ] = = ' \0 ' ) ) // 1 for maxed controller values
{
for ( LocalFlexController_t i = LocalFlexController_t ( 0 ) ; i < GetNumFlexControllers ( ) ; i + + )
{
// Max everything out...
m_flextarget [ i ] = 1.0f ;
SetFlexWeight ( i , m_flextarget [ i ] ) ;
}
}
else if ( pszExpression & & ( pszExpression [ 0 ] = = ' ^ ' ) & & ( pszExpression [ 1 ] = = ' \0 ' ) ) // ^ for sine wave
{
for ( LocalFlexController_t i = LocalFlexController_t ( 0 ) ; i < GetNumFlexControllers ( ) ; i + + )
{
// Throw a differently offset sine wave on all of the flex controllers
float fFlexTime = i * ( 1.0f / ( float ) GetNumFlexControllers ( ) ) + gpGlobals - > curtime ;
m_flextarget [ i ] = sinf ( fFlexTime ) * 0.5f + 0.5f ;
SetFlexWeight ( i , m_flextarget [ i ] ) ;
}
}
else if ( pszExpression & & pszExpression [ 0 ] ! = ' \0 ' & & strcmp ( pszExpression , " + " ) ! = 0 )
{
char szExpression [ 128 ] ;
char szTemp [ 32 ] ;
Q_strncpy ( szExpression , pszExpression , sizeof ( szExpression ) ) ;
char * pszExpression = szExpression ;
while ( * pszExpression ! = ' \0 ' )
{
if ( * pszExpression = = ' + ' )
* pszExpression = ' ' ;
pszExpression + + ;
}
pszExpression = szExpression ;
while ( * pszExpression )
{
if ( * pszExpression ! = ' ' )
{
if ( * pszExpression = = ' - ' )
{
for ( LocalFlexController_t i = LocalFlexController_t ( 0 ) ; i < GetNumFlexControllers ( ) ; i + + )
{
m_flextarget [ i ] = 0 ;
}
}
else if ( * pszExpression = = ' ? ' )
{
for ( LocalFlexController_t i = LocalFlexController_t ( 0 ) ; i < GetNumFlexControllers ( ) ; i + + )
{
Msg ( " \" %s \" " , GetFlexControllerName ( i ) ) ;
}
Msg ( " \n " ) ;
flex_expression . SetValue ( " " ) ;
}
else
{
if ( sscanf ( pszExpression , " %31s " , szTemp ) = = 1 )
{
m_flexnum = LookupFlex ( szTemp ) ;
2022-03-01 20:00:42 +00:00
if ( m_flexnum ! = - 1 & & m_flextarget [ m_flexnum ] ! = 1 )
2020-04-22 16:56:21 +00:00
{
m_flextarget [ m_flexnum ] = 1.0 ;
// SetFlexTarget( m_flexnum );
}
pszExpression + = strlen ( szTemp ) - 1 ;
}
}
}
pszExpression + + ;
}
}
else if ( m_flextime < gpGlobals - > curtime )
{
// m_flextime = gpGlobals->curtime + 1.0; // RandomFloat( 0.1, 0.5 );
m_flextime = gpGlobals - > curtime + random - > RandomFloat ( 0.3 , 0.5 ) * ( 30.0 / GetNumFlexControllers ( ) ) ;
m_flexnum = ( LocalFlexController_t ) random - > RandomInt ( 0 , GetNumFlexControllers ( ) - 1 ) ;
// m_flexnum = (pflex->num + 1) % r_psubmodel->numflexes;
if ( m_flextarget [ m_flexnum ] = = 1 )
{
m_flextarget [ m_flexnum ] = 0 ;
// pflex->time = cl.time + 0.1;
}
else if ( stricmp ( GetFlexControllerType ( m_flexnum ) , " phoneme " ) ! = 0 )
{
if ( strstr ( GetFlexControllerName ( m_flexnum ) , " upper_raiser " ) = = NULL )
{
Msg ( " %s:%s \n " , GetFlexControllerType ( m_flexnum ) , GetFlexControllerName ( m_flexnum ) ) ;
SetFlexTarget ( m_flexnum ) ;
}
}
#if 0
char szWhat [ 256 ] ;
szWhat [ 0 ] = ' \0 ' ;
for ( int i = 0 ; i < GetNumFlexControllers ( ) ; i + + )
{
if ( m_flextarget [ i ] = = 1.0 )
{
if ( stricmp ( GetFlexFacs ( i ) , " upper " ) ! = 0 & & stricmp ( GetFlexFacs ( i ) , " lower " ) ! = 0 )
{
if ( szWhat [ 0 ] = = ' \0 ' )
Q_strncat ( szWhat , " - " , sizeof ( szWhat ) , COPY_ALL_CHARACTERS ) ;
else
Q_strncat ( szWhat , " + " , sizeof ( szWhat ) , COPY_ALL_CHARACTERS ) ;
Q_strncat ( szWhat , GetFlexFacs ( i ) , sizeof ( szWhat ) , COPY_ALL_CHARACTERS ) ;
}
}
}
Msg ( " %s \n " , szWhat ) ;
# endif
}
// slide it up.
for ( LocalFlexController_t i = LocalFlexController_t ( 0 ) ; i < GetNumFlexControllers ( ) ; i + + )
{
float weight = GetFlexWeight ( i ) ;
if ( weight ! = m_flextarget [ i ] )
{
weight = weight + ( m_flextarget [ i ] - weight ) / random - > RandomFloat ( 2.0 , 4.0 ) ;
}
weight = clamp ( weight , 0.0f , 1.0f ) ;
SetFlexWeight ( i , weight ) ;
}
# if 1
if ( flex_talk . GetInt ( ) = = - 1 )
{
m_istalking = 1 ;
char pszSentence [ 256 ] ;
Q_snprintf ( pszSentence , sizeof ( pszSentence ) , " %s%d " , STRING ( m_iszSentence ) , m_sentence + + ) ;
int sentenceIndex = engine - > SentenceIndexFromName ( pszSentence ) ;
if ( sentenceIndex > = 0 )
{
Msg ( " %d : %s \n " , sentenceIndex , pszSentence ) ;
CPASAttenuationFilter filter ( this ) ;
CBaseEntity : : EmitSentenceByIndex ( filter , entindex ( ) , CHAN_VOICE , sentenceIndex , 1 , SNDLVL_TALKING , 0 , PITCH_NORM ) ;
}
else
{
m_sentence = 0 ;
}
flex_talk . SetValue ( " 0 " ) ;
}
else if ( ! FStrEq ( flex_talk . GetString ( ) , " 0 " ) )
{
int sentenceIndex = engine - > SentenceIndexFromName ( flex_talk . GetString ( ) ) ;
if ( sentenceIndex > = 0 )
{
CPASAttenuationFilter filter ( this ) ;
CBaseEntity : : EmitSentenceByIndex ( filter , entindex ( ) , CHAN_VOICE , sentenceIndex , 1 , SNDLVL_TALKING , 0 , PITCH_NORM ) ;
}
flex_talk . SetValue ( " 0 " ) ;
}
# else
if ( flex_talk . GetInt ( ) )
{
if ( m_speaktime < gpGlobals - > curtime )
{
if ( m_phoneme = = 0 )
{
for ( m_phoneme = 0 ; m_phoneme < GetNumFlexControllers ( ) ; m_phoneme + + )
{
if ( stricmp ( GetFlexFacs ( m_phoneme ) , " 27 " ) = = 0 )
break ;
}
}
m_istalking = ! m_istalking ;
if ( m_istalking )
{
m_looktime = gpGlobals - > curtime - 1.0 ;
m_speaktime = gpGlobals - > curtime + random - > RandomFloat ( 0.5 , 2.0 ) ;
}
else
{
m_speaktime = gpGlobals - > curtime + random - > RandomFloat ( 1.0 , 3.0 ) ;
}
}
for ( i = m_phoneme ; i < GetNumFlexControllers ( ) ; i + + )
{
SetFlexWeight ( i , 0.0f ) ;
}
if ( m_istalking )
{
m_flextime = gpGlobals - > curtime + random - > RandomFloat ( 0.0 , 0.2 ) ;
m_flexWeight [ random - > RandomInt ( m_phoneme , GetNumFlexControllers ( ) - 1 ) ] = random - > RandomFloat ( 0.5 , 1.0 ) ;
float mouth = random - > RandomFloat ( 0.0 , 1.0 ) ;
float jaw = random - > RandomFloat ( 0.0 , 1.0 ) ;
m_flexWeight [ m_phoneme - 2 ] = jaw * ( mouth ) ;
m_flexWeight [ m_phoneme - 1 ] = jaw * ( 1.0 - mouth ) ;
}
}
else
{
m_istalking = 0 ;
}
# endif
// blink
if ( m_blinktime < gpGlobals - > curtime )
{
Blink ( ) ;
m_blinktime = gpGlobals - > curtime + random - > RandomFloat ( 1.5 , 4.5 ) ;
}
}
Vector forward , right , up ;
GetVectors ( & forward , & right , & up ) ;
CBaseEntity * pPlayer = ( CBaseEntity * ) UTIL_GetLocalPlayer ( ) ;
if ( pPlayer )
{
if ( pPlayer - > GetSmoothedVelocity ( ) . Length ( ) ! = 0 & & DotProduct ( forward , pPlayer - > EyePosition ( ) - EyePosition ( ) ) > 0.5 )
{
m_lookTarget = pPlayer - > EyePosition ( ) ;
m_looktime = gpGlobals - > curtime + random - > RandomFloat ( 2.0 , 4.0 ) ;
}
else if ( m_looktime < gpGlobals - > curtime )
{
if ( ( ! m_istalking ) & & random - > RandomInt ( 0 , 1 ) = = 0 )
{
m_lookTarget = EyePosition ( ) + forward * 128 + right * random - > RandomFloat ( - 64 , 64 ) + up * random - > RandomFloat ( - 32 , 32 ) ;
m_looktime = gpGlobals - > curtime + random - > RandomFloat ( 0.3 , 1.0 ) ;
if ( m_blinktime - 0.5 < gpGlobals - > curtime )
{
Blink ( ) ;
}
}
else
{
m_lookTarget = pPlayer - > EyePosition ( ) ;
m_looktime = gpGlobals - > curtime + random - > RandomFloat ( 1.0 , 4.0 ) ;
}
}
#if 0
float dt = acos ( DotProduct ( ( m_lookTarget - EyePosition ( ) ) . Normalize ( ) , ( m_viewtarget - EyePosition ( ) ) . Normalize ( ) ) ) ;
if ( dt > M_PI / 4 )
{
dt = ( M_PI / 4 ) * dt ;
m_viewtarget = ( ( 1 - dt ) * m_viewtarget + dt * m_lookTarget ) ;
}
# endif
SetViewtarget ( m_lookTarget ) ;
}
// Handle any facial animation from scene playback
// FIXME: do we still actually need flex cyclers?
// AddSceneSceneEvents();
}
void CFlexCycler : : ProcessSceneEvents ( void )
{
// Don't do anything since we handle facial stuff in Think()
}
BEGIN_BYTESWAP_DATADESC ( flexsettinghdr_t )
DEFINE_FIELD ( id , FIELD_INTEGER ) ,
DEFINE_FIELD ( version , FIELD_INTEGER ) ,
DEFINE_ARRAY ( name , FIELD_CHARACTER , 64 ) ,
DEFINE_FIELD ( length , FIELD_INTEGER ) ,
DEFINE_FIELD ( numflexsettings , FIELD_INTEGER ) ,
DEFINE_FIELD ( flexsettingindex , FIELD_INTEGER ) ,
DEFINE_FIELD ( nameindex , FIELD_INTEGER ) ,
DEFINE_FIELD ( numindexes , FIELD_INTEGER ) ,
DEFINE_FIELD ( indexindex , FIELD_INTEGER ) ,
DEFINE_FIELD ( numkeys , FIELD_INTEGER ) ,
DEFINE_FIELD ( keynameindex , FIELD_INTEGER ) ,
DEFINE_FIELD ( keymappingindex , FIELD_INTEGER ) ,
END_BYTESWAP_DATADESC ( )
BEGIN_BYTESWAP_DATADESC ( flexsetting_t )
DEFINE_FIELD ( nameindex , FIELD_INTEGER ) ,
DEFINE_FIELD ( obsolete1 , FIELD_INTEGER ) ,
DEFINE_FIELD ( numsettings , FIELD_INTEGER ) ,
DEFINE_FIELD ( index , FIELD_INTEGER ) ,
DEFINE_FIELD ( obsolete2 , FIELD_INTEGER ) ,
DEFINE_FIELD ( settingindex , FIELD_INTEGER ) ,
END_BYTESWAP_DATADESC ( )
BEGIN_BYTESWAP_DATADESC ( flexweight_t )
DEFINE_FIELD ( key , FIELD_INTEGER ) ,
DEFINE_FIELD ( weight , FIELD_FLOAT ) ,
DEFINE_FIELD ( influence , FIELD_FLOAT ) ,
END_BYTESWAP_DATADESC ( )