//========= Copyright © 1996-2005, Valve Corporation, All rights reserved. ============// // // Purpose: // // $NoKeywords: $ //=============================================================================// #include "tier0/dbg.h" #include #include #include #include "choreoevent.h" #include "choreoactor.h" #include "choreochannel.h" #include "mathlib/mathlib.h" #include "tier1/strtools.h" #include "choreoscene.h" #include "ichoreoeventcallback.h" #include "tier1/utlbuffer.h" // memdbgon must be the last include file in a .cpp file!!! #include "tier0/memdbgon.h" int CChoreoEvent::s_nGlobalID = 1; //----------------------------------------------------------------------------- // Purpose: // Input : *owner - // *name - // percentage - //----------------------------------------------------------------------------- CEventRelativeTag::CEventRelativeTag( CChoreoEvent *owner, const char *name, float percentage ) { Assert( owner ); Assert( name ); Assert( percentage >= 0.0f ); Assert( percentage <= 1.0f ); m_Name = name; m_flPercentage = percentage; m_pOwner = owner; } //----------------------------------------------------------------------------- // Purpose: // Input : src - //----------------------------------------------------------------------------- CEventRelativeTag::CEventRelativeTag( const CEventRelativeTag& src ) { m_Name = src.m_Name; m_flPercentage = src.m_flPercentage; m_pOwner = src.m_pOwner; } //----------------------------------------------------------------------------- // Purpose: // Output : const char //----------------------------------------------------------------------------- const char *CEventRelativeTag::GetName( void ) { return m_Name.Get(); } //----------------------------------------------------------------------------- // Purpose: // Output : float //----------------------------------------------------------------------------- float CEventRelativeTag::GetPercentage( void ) { return m_flPercentage; } //----------------------------------------------------------------------------- // Purpose: // Input : percentage - //----------------------------------------------------------------------------- void CEventRelativeTag::SetPercentage( float percentage ) { m_flPercentage = percentage; } //----------------------------------------------------------------------------- // Purpose: // Output : CChoreoEvent //----------------------------------------------------------------------------- CChoreoEvent *CEventRelativeTag::GetOwner( void ) { return m_pOwner; } //----------------------------------------------------------------------------- // Purpose: // Input : *event - //----------------------------------------------------------------------------- void CEventRelativeTag::SetOwner( CChoreoEvent *event ) { m_pOwner = event; } //----------------------------------------------------------------------------- // Purpose: Returns the corrected time based on the owner's length and start time // Output : float //----------------------------------------------------------------------------- float CEventRelativeTag::GetStartTime( void ) { Assert( m_pOwner ); if ( !m_pOwner ) { return 0.0f; } float ownerstart = m_pOwner->GetStartTime(); float ownerduration = m_pOwner->GetDuration(); return ( ownerstart + ownerduration * m_flPercentage ); } //----------------------------------------------------------------------------- // Purpose: // Input : *owner - // *name - // percentage - //----------------------------------------------------------------------------- CFlexTimingTag::CFlexTimingTag( CChoreoEvent *owner, const char *name, float percentage, bool locked ) : BaseClass( owner, name, percentage ) { m_bLocked = locked; } //----------------------------------------------------------------------------- // Purpose: // Input : src - //----------------------------------------------------------------------------- CFlexTimingTag::CFlexTimingTag( const CFlexTimingTag& src ) : BaseClass( src ) { m_bLocked = src.m_bLocked; } //----------------------------------------------------------------------------- // Purpose: // Output : Returns true on success, false on failure. //----------------------------------------------------------------------------- bool CFlexTimingTag::GetLocked( void ) { return m_bLocked; } //----------------------------------------------------------------------------- // Purpose: // Input : locked - //----------------------------------------------------------------------------- void CFlexTimingTag::SetLocked( bool locked ) { m_bLocked = locked; } //----------------------------------------------------------------------------- // Purpose: // Input : *owner - // *name - // percentage - //----------------------------------------------------------------------------- CEventAbsoluteTag::CEventAbsoluteTag( CChoreoEvent *owner, const char *name, float t ) { Assert( owner ); Assert( name ); Assert( t >= 0.0f ); m_Name = name; m_flPercentage = t; m_pOwner = owner; m_bLocked = false; m_bLinear = false; m_bEntry = false; m_bExit = false; } //----------------------------------------------------------------------------- // Purpose: // Input : src - //----------------------------------------------------------------------------- CEventAbsoluteTag::CEventAbsoluteTag( const CEventAbsoluteTag& src ) { m_Name = src.m_Name; m_flPercentage = src.m_flPercentage; m_pOwner = src.m_pOwner; m_bLocked = src.m_bLocked; m_bLinear = src.m_bLinear; m_bEntry = src.m_bEntry; m_bExit = src.m_bExit; } //----------------------------------------------------------------------------- // Purpose: // Output : const char //----------------------------------------------------------------------------- const char *CEventAbsoluteTag::GetName( void ) { return m_Name.Get(); } //----------------------------------------------------------------------------- // Purpose: // Output : float //----------------------------------------------------------------------------- float CEventAbsoluteTag::GetPercentage( void ) { return m_flPercentage; } //----------------------------------------------------------------------------- // Purpose: // Input : percentage - //----------------------------------------------------------------------------- void CEventAbsoluteTag::SetPercentage( float percentage ) { m_flPercentage = percentage; } //----------------------------------------------------------------------------- // Purpose: // Output : float //----------------------------------------------------------------------------- float CEventAbsoluteTag::GetEventTime( void ) { Assert( m_pOwner ); if ( !m_pOwner ) { return 0.0f; } float ownerduration = m_pOwner->GetDuration(); return (m_flPercentage * ownerduration); } //----------------------------------------------------------------------------- // Purpose: // Input : percentage - //----------------------------------------------------------------------------- void CEventAbsoluteTag::SetEventTime( float t ) { Assert( m_pOwner ); if ( !m_pOwner ) { return; } float ownerduration = m_pOwner->GetDuration(); m_flPercentage = (t / ownerduration); } //----------------------------------------------------------------------------- // Purpose: // Output : float //----------------------------------------------------------------------------- float CEventAbsoluteTag::GetAbsoluteTime( void ) { Assert( m_pOwner ); if ( !m_pOwner ) { return 0.0f; } float ownerstart = m_pOwner->GetStartTime(); float ownerduration = m_pOwner->GetDuration(); return (ownerstart + m_flPercentage * ownerduration); } //----------------------------------------------------------------------------- // Purpose: // Input : percentage - //----------------------------------------------------------------------------- void CEventAbsoluteTag::SetAbsoluteTime( float t ) { Assert( m_pOwner ); if ( !m_pOwner ) { return; } float ownerstart = m_pOwner->GetStartTime(); float ownerduration = m_pOwner->GetDuration(); m_flPercentage = (t - ownerstart) / ownerduration; } //----------------------------------------------------------------------------- // Purpose: // Output : CChoreoEvent //----------------------------------------------------------------------------- CChoreoEvent *CEventAbsoluteTag::GetOwner( void ) { return m_pOwner; } //----------------------------------------------------------------------------- // Purpose: // Input : *event - //----------------------------------------------------------------------------- void CEventAbsoluteTag::SetOwner( CChoreoEvent *event ) { m_pOwner = event; } //----------------------------------------------------------------------------- // Purpose: // Input : *event - //----------------------------------------------------------------------------- void CEventAbsoluteTag::SetLocked( bool bLocked ) { m_bLocked = bLocked; } //----------------------------------------------------------------------------- // Purpose: // Output : CChoreoEvent //----------------------------------------------------------------------------- bool CEventAbsoluteTag::GetLocked( void ) { return m_bLocked; } //----------------------------------------------------------------------------- // Purpose: // Input : *event - //----------------------------------------------------------------------------- void CEventAbsoluteTag::SetLinear( bool bLinear ) { m_bLinear = bLinear; } //----------------------------------------------------------------------------- // Purpose: // Output : CChoreoEvent //----------------------------------------------------------------------------- bool CEventAbsoluteTag::GetLinear( void ) { return m_bLinear; } //----------------------------------------------------------------------------- // Purpose: // Input : *event - //----------------------------------------------------------------------------- void CEventAbsoluteTag::SetEntry( bool bEntry ) { m_bEntry = bEntry; } //----------------------------------------------------------------------------- // Purpose: // Output : CChoreoEvent //----------------------------------------------------------------------------- bool CEventAbsoluteTag::GetEntry( void ) { return m_bEntry; } //----------------------------------------------------------------------------- // Purpose: // Input : *event - //----------------------------------------------------------------------------- void CEventAbsoluteTag::SetExit( bool bExit ) { m_bExit = bExit; } //----------------------------------------------------------------------------- // Purpose: // Output : CChoreoEvent //----------------------------------------------------------------------------- bool CEventAbsoluteTag::GetExit( void ) { return m_bExit; } // FLEX ANIMATIONS //----------------------------------------------------------------------------- // Purpose: Constructor // Input : *event - //----------------------------------------------------------------------------- CFlexAnimationTrack::CFlexAnimationTrack( CChoreoEvent *event ) { m_pEvent = event; m_pControllerName = NULL; m_bActive = false; m_bCombo = false; m_bServerSide = false; m_nFlexControllerIndex[ 0 ] = m_nFlexControllerIndex[ 1 ] = -1; m_nFlexControllerIndexRaw[ 0 ] = m_nFlexControllerIndexRaw[ 1 ] = LocalFlexController_t(-1); // base track has range, combo is always 0..1 m_flMin = 0.0f; m_flMax = 0.0f; } //----------------------------------------------------------------------------- // Purpose: // Input : src - //----------------------------------------------------------------------------- CFlexAnimationTrack::CFlexAnimationTrack( const CFlexAnimationTrack* src ) { m_pControllerName = NULL; SetFlexControllerName( src->m_pControllerName ? src->m_pControllerName : "" ); m_bActive = src->m_bActive; m_bCombo = src->m_bCombo; m_bServerSide = src->m_bServerSide; for ( int t = 0; t < 2; t++ ) { m_Samples[ t ].Purge(); for ( int i = 0 ;i < src->m_Samples[ t ].Count(); i++ ) { CExpressionSample s = src->m_Samples[ t ][ i ]; m_Samples[ t ].AddToTail( s ); } } for ( int side = 0; side < 2; side++ ) { m_nFlexControllerIndex[ side ] = src->m_nFlexControllerIndex[ side ]; m_nFlexControllerIndexRaw[ side ] = src->m_nFlexControllerIndexRaw[ side ]; } m_flMin = src->m_flMin; m_flMax = src->m_flMax; m_EdgeInfo[ 0 ] = src->m_EdgeInfo[ 0 ]; m_EdgeInfo[ 1 ] = src->m_EdgeInfo[ 1 ]; m_pEvent = NULL; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- CFlexAnimationTrack::~CFlexAnimationTrack( void ) { delete[] m_pControllerName; for ( int t = 0; t < 2; t++ ) { m_Samples[ t ].Purge(); } } //----------------------------------------------------------------------------- // Purpose: // Input : *event - //----------------------------------------------------------------------------- void CFlexAnimationTrack::SetEvent( CChoreoEvent *event ) { m_pEvent = event; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void CFlexAnimationTrack::Clear( void ) { for ( int t = 0; t < 2; t++ ) { m_Samples[ t ].RemoveAll(); } } //----------------------------------------------------------------------------- // Purpose: // Input : index - //----------------------------------------------------------------------------- void CFlexAnimationTrack::RemoveSample( int index, int type /*=0*/ ) { Assert( type == 0 || type == 1 ); m_Samples[ type ].Remove( index ); } //----------------------------------------------------------------------------- // Purpose: // Input : *name - //----------------------------------------------------------------------------- void CFlexAnimationTrack::SetFlexControllerName( const char *name ) { delete[] m_pControllerName; int len = Q_strlen( name ) + 1; m_pControllerName = new char[ len ]; Q_strncpy( m_pControllerName, name, len ); } //----------------------------------------------------------------------------- // Purpose: // Output : char const //----------------------------------------------------------------------------- const char *CFlexAnimationTrack::GetFlexControllerName( void ) { return m_pControllerName ? m_pControllerName : ""; } //----------------------------------------------------------------------------- // Purpose: // Output : int //----------------------------------------------------------------------------- int CFlexAnimationTrack::GetNumSamples( int type /*=0*/ ) { Assert( type == 0 || type == 1 ); return m_Samples[ type ].Count(); } //----------------------------------------------------------------------------- // Purpose: // Input : index - // Output : CExpressionSample //----------------------------------------------------------------------------- CExpressionSample *CFlexAnimationTrack::GetSample( int index, int type /*=0*/ ) { Assert( type == 0 || type == 1 ); if ( index < 0 || index >= GetNumSamples( type ) ) return NULL; return &m_Samples[ type ][ index ]; } //----------------------------------------------------------------------------- // Purpose: // Output : Returns true on success, false on failure. //----------------------------------------------------------------------------- bool CFlexAnimationTrack::IsTrackActive( void ) { return m_bActive; } //----------------------------------------------------------------------------- // Purpose: // Input : active - //----------------------------------------------------------------------------- void CFlexAnimationTrack::SetTrackActive( bool active ) { m_bActive = active; } void CFlexAnimationTrack::SetEdgeInfo( bool leftEdge, int curveType, float zero ) { int idx = leftEdge ? 0 : 1; m_EdgeInfo[ idx ].m_CurveType = curveType; m_EdgeInfo[ idx ].m_flZeroPos = zero; } void CFlexAnimationTrack::GetEdgeInfo( bool leftEdge, int& curveType, float& zero ) const { int idx = leftEdge ? 0 : 1; curveType = m_EdgeInfo[ idx ].m_CurveType; zero = m_EdgeInfo[ idx ].m_flZeroPos; } void CFlexAnimationTrack::SetEdgeActive( bool leftEdge, bool state ) { int idx = leftEdge ? 0 : 1; m_EdgeInfo[ idx ].m_bActive = state; } bool CFlexAnimationTrack::IsEdgeActive( bool leftEdge ) const { int idx = leftEdge ? 0 : 1; return m_EdgeInfo[ idx ].m_bActive; } int CFlexAnimationTrack::GetEdgeCurveType( bool leftEdge ) const { if ( !IsEdgeActive( leftEdge ) ) { return CURVE_DEFAULT; } int idx = leftEdge ? 0 : 1; return m_EdgeInfo[ idx ].m_CurveType; } float CFlexAnimationTrack::GetEdgeZeroValue( bool leftEdge ) const { if ( !IsEdgeActive( leftEdge ) ) { return 0.0f; } int idx = leftEdge ? 0 : 1; return m_EdgeInfo[ idx ].m_flZeroPos; } float CFlexAnimationTrack::GetDefaultEdgeZeroPos() const { float zero = 0.0f; if ( m_flMin != m_flMax ) { zero = ( 0.0f - m_flMin ) / ( m_flMax - m_flMin ); } return zero; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- float CFlexAnimationTrack::GetZeroValue( int type, bool leftSide ) { // Stereo track is always clamped to 0.5 and doesn't care about l/r settings if ( type == 1 ) { return 0.5f; } if ( IsEdgeActive( leftSide ) ) { return GetEdgeZeroValue( leftSide ); } return GetDefaultEdgeZeroPos(); } //----------------------------------------------------------------------------- // Purpose: // Input : number - // Output : CExpressionSample //----------------------------------------------------------------------------- CExpressionSample *CFlexAnimationTrack::GetBoundedSample( int number, bool& bClamped, int type /*=0*/ ) { Assert( type == 0 || type == 1 ); if ( number < 0 ) { // Search for two samples which span time f static CExpressionSample nullstart; nullstart.time = 0.0f; nullstart.value = GetZeroValue( type, true ); if ( type == 0 ) { nullstart.SetCurveType( GetEdgeCurveType( true ) ); } else { nullstart.SetCurveType( CURVE_DEFAULT ); } bClamped = true; return &nullstart; } else if ( number >= GetNumSamples( type ) ) { static CExpressionSample nullend; nullend.time = m_pEvent->GetDuration(); nullend.value = GetZeroValue( type, false ); if ( type == 0 ) { nullend.SetCurveType( GetEdgeCurveType( false ) ); } else { nullend.SetCurveType( CURVE_DEFAULT ); } bClamped = true; return &nullend; } bClamped = false; return GetSample( number, type ); } //----------------------------------------------------------------------------- // Purpose: // Input : time - // type - // Output : float //----------------------------------------------------------------------------- float CFlexAnimationTrack::GetIntensityInternal( float time, int type ) { Assert( type == 0 || type == 1 ); float retval = 0.0f; // find samples that span the time if ( !m_pEvent || !m_pEvent->HasEndTime() || time < m_pEvent->GetStartTime() ) { retval = GetZeroValue( type, true );; } else if ( time > m_pEvent->GetEndTime() ) { retval = GetZeroValue( type, false );; } else { float elapsed = time - m_pEvent->GetStartTime(); retval = GetFracIntensity( elapsed, type ); } // scale if (type == 0 && m_flMin != m_flMax) { retval = retval * (m_flMax - m_flMin) + m_flMin; } return retval; } //----------------------------------------------------------------------------- // Purpose: // Input : time - // type - // Output : float //----------------------------------------------------------------------------- float CFlexAnimationTrack::GetFracIntensity( float time, int type ) { float zeroValueLeft = GetZeroValue( type, true ); Assert( type == 0 || type == 1 ); // find samples that span the time if ( !m_pEvent || !m_pEvent->HasEndTime() ) return zeroValueLeft; int rampCount = GetNumSamples( type ); if ( rampCount < 1 ) { return zeroValueLeft; } CExpressionSample *esStart = NULL; CExpressionSample *esEnd = NULL; // do binary search for sample in time period int j = MAX( rampCount / 2, 1 ); int i = j; while ( i > -2 && i < rampCount + 1 ) { bool dummy; esStart = GetBoundedSample( i, dummy, type ); esEnd = GetBoundedSample( i + 1, dummy, type ); j = MAX( j / 2, 1 ); if ( time < esStart->time) { i -= j; } else if ( time > esEnd->time) { i += j; } else { if ( time == esEnd->time ) { ++i; esStart = GetBoundedSample( i, dummy, type ); esEnd = GetBoundedSample( i + 1, dummy, type ); } break; } } if (!esStart) { return zeroValueLeft; } int prev = i - 1; int next = i + 2; prev = MAX( -1, prev ); next = MIN( next, rampCount ); bool bBoundedSampleClamped[ 2 ]; CExpressionSample *esPre = GetBoundedSample( prev, bBoundedSampleClamped[ 0 ], type ); CExpressionSample *esNext = GetBoundedSample( next, bBoundedSampleClamped[ 1 ], type ); float dt = esEnd->time - esStart->time; Vector vPre( esPre->time, esPre->value, 0 ); Vector vStart( esStart->time, esStart->value, 0 ); Vector vEnd( esEnd->time, esEnd->value, 0 ); Vector vNext( esNext->time, esNext->value, 0 ); float f2 = 0.0f; if ( dt > 0.0f ) { f2 = ( time - esStart->time ) / ( dt ); } f2 = clamp( f2, 0.0f, 1.0f ); Vector vOut; int dummy; int earlypart, laterpart; // Not holding out value of previous curve... Interpolator_CurveInterpolatorsForType( esStart->GetCurveType(), dummy, earlypart ); Interpolator_CurveInterpolatorsForType( esEnd->GetCurveType(), laterpart, dummy ); if ( earlypart == INTERPOLATE_HOLD ) { // Hold "out" of previous sample (can cause a discontinuity) VectorLerp( vStart, vEnd, f2, vOut ); vOut.y = vStart.y; } else if ( laterpart == INTERPOLATE_HOLD ) { // Hold "out" of previous sample (can cause a discontinuity) VectorLerp( vStart, vEnd, f2, vOut ); vOut.y = vEnd.y; } else { bool sameCurveType = earlypart == laterpart ? true : false; if ( sameCurveType ) { Interpolator_CurveInterpolate( laterpart, vPre, vStart, vEnd, vNext, f2, vOut ); } else // curves differ, sigh { Vector vOut1, vOut2; Interpolator_CurveInterpolate( earlypart, vPre, vStart, vEnd, vNext, f2, vOut1 ); Interpolator_CurveInterpolate( laterpart, vPre, vStart, vEnd, vNext, f2, vOut2 ); VectorLerp( vOut1, vOut2, f2, vOut ); } } float retval = clamp( vOut.y, 0.0f, 1.0f ); return retval; } //----------------------------------------------------------------------------- // Purpose: // Input : time - // Output : float //----------------------------------------------------------------------------- float CFlexAnimationTrack::GetSampleIntensity( float time ) { return GetIntensityInternal( time, 0 ); } //----------------------------------------------------------------------------- // Purpose: // Input : time - // Output : float //----------------------------------------------------------------------------- float CFlexAnimationTrack::GetBalanceIntensity( float time ) { if ( IsComboType() ) { return GetIntensityInternal( time, 1 ); } return 1.0f; } // For a given time, computes 0->1 intensity value for the slider //----------------------------------------------------------------------------- // Purpose: // Input : time - // Output : float //----------------------------------------------------------------------------- float CFlexAnimationTrack::GetIntensity( float time, int side ) { float mag = GetSampleIntensity( time ); float scale = 1.0f; if ( IsComboType() ) { float balance = GetBalanceIntensity( time ); // Asking for left but balance is to right, then fall off as we go // further right if ( side == 0 && balance > 0.5f ) { scale = (1.0f - balance ) / 0.5f; } // Asking for right, but balance is left, fall off as we go left. else if ( side == 1 && balance < 0.5f ) { scale = ( balance / 0.5f ); } } return mag * scale; } //----------------------------------------------------------------------------- // Purpose: // Input : time - // value - //----------------------------------------------------------------------------- CExpressionSample *CFlexAnimationTrack::AddSample( float time, float value, int type /*=0*/ ) { Assert( type == 0 || type == 1 ); CExpressionSample sample; sample.time = time; sample.value = value; sample.selected = false; int idx = m_Samples[ type ].AddToTail( sample ); // Resort( type ); return &m_Samples[ type ][ idx ]; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void CFlexAnimationTrack::Resort( int type /*=0*/ ) { Assert( type == 0 || type == 1 ); for ( int i = 0; i < m_Samples[ type ].Count(); i++ ) { for ( int j = i + 1; j < m_Samples[ type ].Count(); j++ ) { CExpressionSample src = m_Samples[ type ][ i ]; CExpressionSample dest = m_Samples[ type ][ j ]; if ( src.time > dest.time ) { m_Samples[ type ][ i ] = dest; m_Samples[ type ][ j ] = src; } } } // Make sure nothing is out of range RemoveOutOfRangeSamples( 0 ); RemoveOutOfRangeSamples( 1 ); } //----------------------------------------------------------------------------- // Purpose: // Output : CChoreoEvent //----------------------------------------------------------------------------- CChoreoEvent *CFlexAnimationTrack::GetEvent( void ) { return m_pEvent; } //----------------------------------------------------------------------------- // Purpose: // Input : side - // Output : int //----------------------------------------------------------------------------- int CFlexAnimationTrack::GetFlexControllerIndex( int side /*= 0*/ ) { Assert( side == 0 || side == 1 ); if ( IsComboType() ) { return m_nFlexControllerIndex[ side ]; } return m_nFlexControllerIndex[ 0 ]; } //----------------------------------------------------------------------------- // Purpose: // Input : side - // Output : int //----------------------------------------------------------------------------- LocalFlexController_t CFlexAnimationTrack::GetRawFlexControllerIndex( int side /*= 0*/ ) { Assert( side == 0 || side == 1 ); if ( IsComboType() ) { return m_nFlexControllerIndexRaw[ side ]; } return m_nFlexControllerIndexRaw[ 0 ]; } //----------------------------------------------------------------------------- // Purpose: // Input : index - // side - //----------------------------------------------------------------------------- void CFlexAnimationTrack::SetFlexControllerIndex( LocalFlexController_t raw, int index, int side /*= 0*/ ) { Assert( side == 0 || side == 1 ); m_nFlexControllerIndex[ side ] = index; // Model specific m_nFlexControllerIndexRaw[ side ] = raw; } //----------------------------------------------------------------------------- // Purpose: // Input : combo - //----------------------------------------------------------------------------- void CFlexAnimationTrack::SetComboType( bool combo ) { m_bCombo = combo; } //----------------------------------------------------------------------------- // Purpose: // Output : Returns true on success, false on failure. //----------------------------------------------------------------------------- bool CFlexAnimationTrack::IsComboType( void ) { return m_bCombo; } //----------------------------------------------------------------------------- // Purpose: True if this should be simulated on the server side always // Input : state - //----------------------------------------------------------------------------- void CFlexAnimationTrack::SetServerSide( bool state ) { m_bServerSide = state; } //----------------------------------------------------------------------------- // Purpose: // Input : - // Output : Returns true on success, false on failure. //----------------------------------------------------------------------------- bool CFlexAnimationTrack::IsServerSide() const { return m_bServerSide; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void CFlexAnimationTrack::SetMin( float value ) { m_flMin = value; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void CFlexAnimationTrack::SetMax( float value ) { m_flMax = value; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- float CFlexAnimationTrack::GetMin( int type ) { if (type == 0) return m_flMin; else return 0.0f; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- float CFlexAnimationTrack::GetMax( int type ) { if (type == 0) return m_flMax; else return 1.0f; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- bool CFlexAnimationTrack::IsInverted( void ) { if (m_bInverted) return true; return false; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void CFlexAnimationTrack::SetInverted( bool isInverted ) { m_bInverted = isInverted; } //----------------------------------------------------------------------------- // Purpose: // Output : float //----------------------------------------------------------------------------- void CFlexAnimationTrack::RemoveOutOfRangeSamples( int type ) { Assert( m_pEvent ); if ( !m_pEvent ) return; Assert( m_pEvent->HasEndTime() ); float duration = m_pEvent->GetDuration(); int c = m_Samples[ type ].Count(); for ( int i = c-1; i >= 0; i-- ) { CExpressionSample src = m_Samples[ type ][ i ]; if ( src.time < 0 || src.time > duration ) { m_Samples[ type ].Remove( i ); } } } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- CChoreoEvent::CChoreoEvent( CChoreoScene *scene ) { Init( scene ); } //----------------------------------------------------------------------------- // Purpose: // Input : type - // *name - //----------------------------------------------------------------------------- CChoreoEvent::CChoreoEvent( CChoreoScene *scene, EVENTTYPE type, const char *name ) { Init( scene ); SetType( type ); SetName( name ); } //----------------------------------------------------------------------------- // Purpose: // Input : type - // *name - // *param - //----------------------------------------------------------------------------- CChoreoEvent::CChoreoEvent( CChoreoScene *scene, EVENTTYPE type, const char *name, const char *param ) { Init( scene ); SetType( type ); SetName( name ); SetParameters( param ); } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- CChoreoEvent::~CChoreoEvent( void ) { RemoveAllTracks(); ClearEventDependencies(); delete m_pSubScene; } //----------------------------------------------------------------------------- // Purpose: Assignment // Input : src - // Output : CChoreoEvent& //----------------------------------------------------------------------------- CChoreoEvent& CChoreoEvent::operator=( const CChoreoEvent& src ) { MEM_ALLOC_CREDIT(); // Copy global id when copying entity m_nGlobalID = src.m_nGlobalID; m_pActor = NULL; m_pChannel = NULL; m_nDefaultCurveType = src.m_nDefaultCurveType; m_fType = src.m_fType; m_Name = src.m_Name; m_Parameters = src.m_Parameters; m_Parameters2= src.m_Parameters2; m_Parameters3= src.m_Parameters3; m_flStartTime = src.m_flStartTime; m_flEndTime = src.m_flEndTime; m_bFixedLength = src.m_bFixedLength; m_flGestureSequenceDuration = src.m_flGestureSequenceDuration; m_bResumeCondition = src.m_bResumeCondition; m_bLockBodyFacing = src.m_bLockBodyFacing; m_flDistanceToTarget = src.m_flDistanceToTarget; m_bForceShortMovement = src.m_bForceShortMovement; m_bSyncToFollowingGesture = src.m_bSyncToFollowingGesture; m_bPlayOverScript = src.m_bPlayOverScript; m_bUsesTag = src.m_bUsesTag; m_TagName = src.m_TagName; m_TagWavName = src.m_TagWavName; ClearAllRelativeTags(); ClearAllTimingTags(); int t; for ( t = 0; t < NUM_ABS_TAG_TYPES; t++ ) { ClearAllAbsoluteTags( (AbsTagType)t ); } int i; for ( i = 0; i < src.m_RelativeTags.Count(); i++ ) { CEventRelativeTag newtag( src.m_RelativeTags[ i ] ); newtag.SetOwner( this ); m_RelativeTags.AddToTail( newtag ); } for ( i = 0; i < src.m_TimingTags.Count(); i++ ) { CFlexTimingTag newtag( src.m_TimingTags[ i ] ); newtag.SetOwner( this ); m_TimingTags.AddToTail( newtag ); } for ( t = 0; t < NUM_ABS_TAG_TYPES; t++ ) { for ( i = 0; i < src.m_AbsoluteTags[ t ].Count(); i++ ) { CEventAbsoluteTag newtag( src.m_AbsoluteTags[ t ][ i ] ); newtag.SetOwner( this ); m_AbsoluteTags[ t ].AddToTail( newtag ); } } RemoveAllTracks(); for ( i = 0 ; i < src.m_FlexAnimationTracks.Count(); i++ ) { CFlexAnimationTrack *newtrack = new CFlexAnimationTrack( src.m_FlexAnimationTracks[ i ] ); newtrack->SetEvent( this ); m_FlexAnimationTracks.AddToTail( newtrack ); } m_bTrackLookupSet = src.m_bTrackLookupSet; // FIXME: Use a safe handle? //m_pSubScene = src.m_pSubScene; m_bProcessing = src.m_bProcessing; m_bHasStopped = src.m_bHasStopped; m_pMixer = src.m_pMixer; m_pScene = src.m_pScene; m_nPitch = src.m_nPitch; m_nYaw = src.m_nYaw; m_nNumLoops = src.m_nNumLoops; m_nLoopsRemaining = src.m_nLoopsRemaining; // Copy ramp over m_Ramp = src.m_Ramp; m_ccType = src.m_ccType; m_CCToken = src.m_CCToken; m_bUsingCombinedSoundFile = src.m_bUsingCombinedSoundFile; m_uRequiredCombinedChecksum = src.m_uRequiredCombinedChecksum; m_nNumSlaves = src.m_nNumSlaves; m_flLastSlaveEndTime = src.m_flLastSlaveEndTime; m_bCCTokenValid = src.m_bCCTokenValid; m_bCombinedUsingGenderToken = src.m_bCombinedUsingGenderToken; m_bSuppressCaptionAttenuation = src.m_bSuppressCaptionAttenuation; m_bActive = src.m_bActive; return *this; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void CChoreoEvent::Init( CChoreoScene *scene ) { m_nGlobalID = s_nGlobalID++; m_nDefaultCurveType = CURVE_CATMULL_ROM_TO_CATMULL_ROM; m_fType = UNSPECIFIED; m_Name.Set(""); m_Parameters.Set(""); m_Parameters2.Set(""); m_Parameters3.Set(""); m_flStartTime = 0.0f; m_flEndTime = -1.0f; m_pActor = NULL; m_pChannel = NULL; m_pScene = scene; m_bFixedLength = false; m_bResumeCondition = false; SetUsingRelativeTag( false, 0, 0 ); m_bTrackLookupSet = false; m_bLockBodyFacing = false; m_flDistanceToTarget = 0.0f; m_bForceShortMovement = false; m_bSyncToFollowingGesture = false; m_bPlayOverScript = false; m_pSubScene = NULL; m_bProcessing = false; m_bHasStopped = false; m_pMixer = NULL; m_flGestureSequenceDuration = 0.0f; m_nPitch = m_nYaw = 0; m_nNumLoops = -1; m_nLoopsRemaining = 0; // Close captioning/localization support m_CCToken.Set(""); m_ccType = CC_MASTER; m_bUsingCombinedSoundFile = false; m_uRequiredCombinedChecksum = 0; m_nNumSlaves = 0; m_flLastSlaveEndTime = 0.0f; m_bCCTokenValid = false; m_bCombinedUsingGenderToken = false; m_bSuppressCaptionAttenuation = false; m_bActive = true; } //----------------------------------------------------------------------------- // Purpose: // Output : int //----------------------------------------------------------------------------- CChoreoEvent::EVENTTYPE CChoreoEvent::GetType( void ) { return (EVENTTYPE)m_fType; } //----------------------------------------------------------------------------- // Purpose: // Input : type - //----------------------------------------------------------------------------- void CChoreoEvent::SetType( EVENTTYPE type ) { m_fType = type; if ( m_fType == SPEAK || m_fType == SUBSCENE ) { m_bFixedLength = true; } else { m_bFixedLength = false; } } //----------------------------------------------------------------------------- // Purpose: // Input : *name - //----------------------------------------------------------------------------- void CChoreoEvent::SetName( const char *name ) { m_Name = name; } //----------------------------------------------------------------------------- // Purpose: // Output : const char //----------------------------------------------------------------------------- const char *CChoreoEvent::GetName( void ) { return m_Name.Get(); } //----------------------------------------------------------------------------- // Purpose: // Input : *param - //----------------------------------------------------------------------------- void CChoreoEvent::SetParameters( const char *param ) { m_Parameters = param; } //----------------------------------------------------------------------------- // Purpose: // Output : const char //----------------------------------------------------------------------------- const char *CChoreoEvent::GetParameters( void ) { return m_Parameters.Get(); } //----------------------------------------------------------------------------- // Purpose: // Input : *param - //----------------------------------------------------------------------------- void CChoreoEvent::SetParameters2( const char *param ) { int iLength = Q_strlen( param ); m_Parameters2 = param; // HACK: Remove trailing " " until faceposer is fixed if ( iLength > 0 ) { if ( param[iLength-1] == ' ' ) { char tmp[1024]; Q_strncpy( tmp, param, sizeof(tmp) ); tmp[iLength-1] = 0; m_Parameters2.Set(tmp); } } } //----------------------------------------------------------------------------- // Purpose: // Output : const char //----------------------------------------------------------------------------- const char *CChoreoEvent::GetParameters2( void ) { return m_Parameters2.Get(); } //----------------------------------------------------------------------------- // Purpose: // Input : *param - //----------------------------------------------------------------------------- void CChoreoEvent::SetParameters3( const char *param ) { int iLength = Q_strlen( param ); m_Parameters3 = param; // HACK: Remove trailing " " until faceposer is fixed if ( iLength > 0 ) { if ( param[iLength-1] == ' ' ) { char tmp[1024]; Q_strncpy( tmp, param, sizeof(tmp) ); tmp[iLength-1] = 0; m_Parameters3.Set(tmp); } } } //----------------------------------------------------------------------------- // Purpose: // Output : const char //----------------------------------------------------------------------------- const char *CChoreoEvent::GetParameters3( void ) { return m_Parameters3.Get(); } //----------------------------------------------------------------------------- // Purpose: debugging description // Output : const char //----------------------------------------------------------------------------- const char *CChoreoEvent::GetDescription( void ) { static char description[ 256 ]; description[ 0 ] = 0; if ( !GetActor() ) { Q_snprintf( description,sizeof(description), "global %s", m_Name.Get() ); } else { Assert( m_pChannel ); Q_snprintf( description,sizeof(description), "%s : %s : %s -- %s \"%s\"", m_pActor->GetName(), m_pChannel->GetName(), GetName(), NameForType( GetType() ), GetParameters() ); if ( GetType() == EXPRESSION ) { char sz[ 256 ]; Q_snprintf( sz,sizeof(sz), " \"%s\"", GetParameters2() ); Q_strncat( description, sz, sizeof(description), COPY_ALL_CHARACTERS ); } } return description; } //----------------------------------------------------------------------------- // Purpose: // Input : starttime - //----------------------------------------------------------------------------- void CChoreoEvent::SetStartTime( float starttime ) { m_flStartTime = starttime; if ( m_flEndTime != -1.0f ) { if ( m_flEndTime < m_flStartTime ) { m_flEndTime = m_flStartTime; } } } //----------------------------------------------------------------------------- // Purpose: // Output : float //----------------------------------------------------------------------------- float CChoreoEvent::GetStartTime( ) { return m_flStartTime; } //----------------------------------------------------------------------------- // Purpose: // Input : endtime - //----------------------------------------------------------------------------- void CChoreoEvent::SetEndTime( float endtime ) { bool changed = m_flEndTime != endtime; m_flEndTime = endtime; if ( endtime != -1.0f ) { if ( m_flEndTime < m_flStartTime ) { m_flEndTime = m_flStartTime; } if ( changed ) { OnEndTimeChanged(); } } } //----------------------------------------------------------------------------- // Purpose: // Output : float //----------------------------------------------------------------------------- float CChoreoEvent::GetEndTime( ) { return m_flEndTime; } //----------------------------------------------------------------------------- // Purpose: // Output : Returns true on success, false on failure. //----------------------------------------------------------------------------- bool CChoreoEvent::HasEndTime( void ) { return m_flEndTime != -1.0f ? true : false; } //----------------------------------------------------------------------------- // Purpose: // Output : float //----------------------------------------------------------------------------- float CChoreoEvent::GetCompletion( float time ) { float t = (time - GetStartTime()) / (GetEndTime() - GetStartTime()); if (t < 0.0f) return 0.0f; else if (t > 1.0f) return 1.0f; return t; } // ICurveDataAccessor method bool CChoreoEvent::CurveHasEndTime() { return HasEndTime(); } //----------------------------------------------------------------------------- // Default curve type //----------------------------------------------------------------------------- void CChoreoEvent::SetDefaultCurveType( int nCurveType ) { m_nDefaultCurveType = nCurveType; } int CChoreoEvent::GetDefaultCurveType() { return m_nDefaultCurveType; } float CCurveData::GetIntensity( ICurveDataAccessor *data, float time ) { float zeroValue = 0.0f; // find samples that span the time if ( !data->CurveHasEndTime() ) { return zeroValue; } int rampCount = GetCount(); if ( rampCount < 1 ) { // Full intensity return 1.0f; } CExpressionSample *esStart = NULL; CExpressionSample *esEnd = NULL; // do binary search for sample in time period int j = MAX( rampCount / 2, 1 ); int i = j; while ( i > -2 && i < rampCount + 1 ) { bool dummy; esStart = GetBoundedSample( data, i, dummy ); esEnd = GetBoundedSample( data, i + 1, dummy ); j = MAX( j / 2, 1 ); if ( time < esStart->time) { i -= j; } else if ( time > esEnd->time) { i += j; } else { break; } } if (!esStart) { return 1.0f; } int prev = i - 1; int next = i + 2; prev = MAX( -1, prev ); next = MIN( next, rampCount ); bool bBoundedSampleClamped[ 2 ]; CExpressionSample *esPre = GetBoundedSample( data, prev, bBoundedSampleClamped[ 0 ] ); CExpressionSample *esNext = GetBoundedSample( data, next, bBoundedSampleClamped[ 1 ] ); float dt = esEnd->time - esStart->time; Vector vPre( esPre->time, esPre->value, 0 ); Vector vStart( esStart->time, esStart->value, 0 ); Vector vEnd( esEnd->time, esEnd->value, 0 ); Vector vNext( esNext->time, esNext->value, 0 ); if ( bBoundedSampleClamped[ 0 ] ) { vPre.x = vStart.x; } if ( bBoundedSampleClamped[ 1 ] ) { vNext.x = vEnd.x; } float f2 = 0.0f; if ( dt > 0.0f ) { f2 = ( time - esStart->time ) / ( dt ); } f2 = clamp( f2, 0.0f, 1.0f ); Vector vOut; int dummy; int earlypart, laterpart; int startCurve = esStart->GetCurveType(); int endCurve = esEnd->GetCurveType(); if ( startCurve == CURVE_DEFAULT ) { startCurve = data->GetDefaultCurveType(); } if ( endCurve == CURVE_DEFAULT ) { endCurve = data->GetDefaultCurveType(); } // Not holding out value of previous curve... Interpolator_CurveInterpolatorsForType( startCurve, dummy, earlypart ); Interpolator_CurveInterpolatorsForType( endCurve, laterpart, dummy ); if ( earlypart == INTERPOLATE_HOLD ) { // Hold "out" of previous sample (can cause a discontinuity) VectorLerp( vStart, vEnd, f2, vOut ); vOut.y = vStart.y; } else if ( laterpart == INTERPOLATE_HOLD ) { // Hold "out" of previous sample (can cause a discontinuity) VectorLerp( vStart, vEnd, f2, vOut ); vOut.y = vEnd.y; } else { bool sameCurveType = earlypart == laterpart ? true : false; if ( sameCurveType ) { Interpolator_CurveInterpolate( laterpart, vPre, vStart, vEnd, vNext, f2, vOut ); } else // curves differ, sigh { Vector vOut1, vOut2; Interpolator_CurveInterpolate( earlypart, vPre, vStart, vEnd, vNext, f2, vOut1 ); Interpolator_CurveInterpolate( laterpart, vPre, vStart, vEnd, vNext, f2, vOut2 ); VectorLerp( vOut1, vOut2, f2, vOut ); } } float retval = clamp( vOut.y, 0.0f, 1.0f ); return retval; } //----------------------------------------------------------------------------- // Purpose: Get intensity for event, bounded by scene global intensity // Output : float //----------------------------------------------------------------------------- float CChoreoEvent::GetIntensity( float scenetime ) { float global_intensity = 1.0f; if ( m_pScene ) { global_intensity = m_pScene->GetSceneRampIntensity( scenetime ); } else { Assert( 0 ); } float event_intensity = _GetIntensity( scenetime ); return global_intensity * event_intensity; } //----------------------------------------------------------------------------- // Purpose: // Output : float //----------------------------------------------------------------------------- float CChoreoEvent::_GetIntensity( float scenetime ) { // Convert to event local time float time = scenetime - GetStartTime(); return m_Ramp.GetIntensity( this, time ); } float CChoreoEvent::GetIntensityArea( float scenetime ) { // Convert to event local time float time = scenetime - GetStartTime(); return m_Ramp.GetIntensityArea( this, time ); } //----------------------------------------------------------------------------- // Purpose: // Output : float //----------------------------------------------------------------------------- float CCurveData::GetIntensityArea( ICurveDataAccessor *data, float time ) { float zeroValue = 0.0f; // find samples that span the time if ( !data->CurveHasEndTime() ) { return zeroValue; } int rampCount = GetCount(); if ( rampCount < 1 ) { // Full intensity return 1.0f; } CExpressionSample *esStart = NULL; CExpressionSample *esEnd = NULL; // do binary search for sample in time period int j = MAX( rampCount / 2, 1 ); int i = j; while ( i > -2 && i < rampCount + 1 ) { bool dummy; esStart = GetBoundedSample( data, i, dummy ); esEnd = GetBoundedSample( data, i + 1, dummy ); j = MAX( j / 2, 1 ); if ( time < esStart->time) { i -= j; } else if ( time > esEnd->time) { i += j; } else { break; } } UpdateIntensityArea( data ); float flTotal = 0.0f; flTotal = m_RampAccumulator[i+1]; int prev = i - 1; int next = i + 2; prev = MAX( -1, prev ); next = MIN( next, rampCount ); bool bBoundedSampleClamped[ 2 ]; CExpressionSample *esPre = GetBoundedSample( data, prev, bBoundedSampleClamped[ 0 ] ); CExpressionSample *esNext = GetBoundedSample( data, next, bBoundedSampleClamped[ 1 ] ); float dt = esEnd->time - esStart->time; Vector vPre( esPre->time, esPre->value, 0 ); Vector vStart( esStart->time, esStart->value, 0 ); Vector vEnd( esEnd->time, esEnd->value, 0 ); Vector vNext( esNext->time, esNext->value, 0 ); if ( bBoundedSampleClamped[ 0 ] ) { vPre.x = vStart.x; } if ( bBoundedSampleClamped[ 1 ] ) { vNext.x = vEnd.x; } float f2 = 0.0f; if ( dt > 0.0f ) { f2 = ( time - esStart->time ) / ( dt ); } f2 = clamp( f2, 0.0f, 1.0f ); Vector vOut; int dummy; int earlypart, laterpart; int startCurve = esStart->GetCurveType(); int endCurve = esEnd->GetCurveType(); if ( startCurve == CURVE_DEFAULT ) { startCurve = data->GetDefaultCurveType(); } if ( endCurve == CURVE_DEFAULT ) { endCurve = data->GetDefaultCurveType(); } // Not holding out value of previous curve... Interpolator_CurveInterpolatorsForType( startCurve, dummy, earlypart ); Interpolator_CurveInterpolatorsForType( endCurve, laterpart, dummy ); // FIXME: needs other curve types Catmull_Rom_Spline_Integral_Normalize( vPre, vStart, vEnd, vNext, f2, vOut ); // Con_Printf( "Accum %f : Partial %f\n", flTotal, vOut.y * (vEnd.x - vStart.x) * f2 ); flTotal = flTotal + clamp( vOut.y, 0.0f, 1.0f ) * (vEnd.x - vStart.x); return flTotal; } void CCurveData::UpdateIntensityArea( ICurveDataAccessor *data ) { int rampCount = GetCount();; if ( rampCount < 1 ) { return; } if (m_RampAccumulator.Count() == rampCount + 2) { return; } m_RampAccumulator.SetCount( rampCount + 2 ); int i = -1; bool dummy; CExpressionSample *esPre = GetBoundedSample( data, i - 1, dummy ); CExpressionSample *esStart = GetBoundedSample( data, i, dummy ); CExpressionSample *esEnd = GetBoundedSample( data, MIN( i + 1, rampCount ), dummy ); Vector vPre( esPre->time, esPre->value, 0 ); Vector vStart( esStart->time, esStart->value, 0 ); Vector vEnd( esEnd->time, esEnd->value, 0 ); Vector vOut; for (i = -1; i < rampCount; i++) { CExpressionSample *esNext = GetBoundedSample( data, MIN( i + 2, rampCount ), dummy ); Vector vNext( esNext->time, esNext->value, 0 ); Catmull_Rom_Spline_Integral_Normalize( vPre, vStart, vEnd, vNext, 1.0f, vOut ); m_RampAccumulator[i+1] = clamp( vOut.y, 0.0f, 1.0f ) * (vEnd.x - vStart.x); vPre = vStart; vStart = vEnd; vEnd = vNext; } } //----------------------------------------------------------------------------- // Purpose: // Input : dt - //----------------------------------------------------------------------------- void CChoreoEvent::OffsetStartTime( float dt ) { SetStartTime( GetStartTime() + dt ); } //----------------------------------------------------------------------------- // Purpose: // Input : dt - //----------------------------------------------------------------------------- void CChoreoEvent::OffsetEndTime( float dt ) { if ( HasEndTime() ) { SetEndTime( GetEndTime() + dt ); } } //----------------------------------------------------------------------------- // Purpose: // Input : dt - //----------------------------------------------------------------------------- void CChoreoEvent::OffsetTime( float dt ) { if ( HasEndTime() ) { m_flEndTime += dt; } m_flStartTime += dt; } //----------------------------------------------------------------------------- // Purpose: // Input : *actor - //----------------------------------------------------------------------------- void CChoreoEvent::SetActor( CChoreoActor *actor ) { m_pActor = actor; } //----------------------------------------------------------------------------- // Purpose: // Output : CChoreoActor //----------------------------------------------------------------------------- CChoreoActor *CChoreoEvent::GetActor( void ) { return m_pActor; } //----------------------------------------------------------------------------- // Purpose: // Input : *channel - //----------------------------------------------------------------------------- void CChoreoEvent::SetChannel( CChoreoChannel *channel ) { m_pChannel = channel; } //----------------------------------------------------------------------------- // Purpose: // Output : CChoreoChannel //----------------------------------------------------------------------------- CChoreoChannel *CChoreoEvent::GetChannel( void ) { return m_pChannel; } //----------------------------------------------------------------------------- // Purpose: // Input : *scene - //----------------------------------------------------------------------------- void CChoreoEvent::SetSubScene( CChoreoScene *scene ) { m_pSubScene = scene; } //----------------------------------------------------------------------------- // Purpose: // Output : CChoreoScene //----------------------------------------------------------------------------- CChoreoScene *CChoreoEvent::GetSubScene( void ) { return m_pSubScene; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- struct EventNameMap_t { CChoreoEvent::EVENTTYPE type; char const *name; }; static EventNameMap_t g_NameMap[] = { { CChoreoEvent::UNSPECIFIED, "unspecified" }, // error condition!!! { CChoreoEvent::SECTION, "section" }, { CChoreoEvent::EXPRESSION, "expression" }, { CChoreoEvent::LOOKAT, "lookat" }, { CChoreoEvent::MOVETO, "moveto" }, { CChoreoEvent::SPEAK, "speak" }, { CChoreoEvent::GESTURE, "gesture" }, { CChoreoEvent::SEQUENCE, "sequence" }, { CChoreoEvent::FACE, "face" }, { CChoreoEvent::FIRETRIGGER, "firetrigger" }, { CChoreoEvent::FLEXANIMATION, "flexanimation" }, { CChoreoEvent::SUBSCENE, "subscene" }, { CChoreoEvent::LOOP, "loop" }, { CChoreoEvent::INTERRUPT, "interrupt" }, { CChoreoEvent::STOPPOINT, "stoppoint" }, { CChoreoEvent::PERMIT_RESPONSES, "permitresponses" }, { CChoreoEvent::GENERIC, "generic" }, { CChoreoEvent::CAMERA, "camera" }, { CChoreoEvent::SCRIPT, "script" }, }; //----------------------------------------------------------------------------- // Purpose: A simple class to verify the names data above at runtime //----------------------------------------------------------------------------- class CCheckEventNames { public: CCheckEventNames() { if ( ARRAYSIZE( g_NameMap ) != CChoreoEvent::NUM_TYPES ) { Error( "g_NameMap contains %i entries, CChoreoEvent::NUM_TYPES == %i!", ARRAYSIZE( g_NameMap ), CChoreoEvent::NUM_TYPES ); } for ( int i = 0; i < CChoreoEvent::NUM_TYPES; ++i ) { if ( !g_NameMap[ i ].name ) { Error( "g_NameMap: Event type at %i has NULL name string!", i ); } if ( (CChoreoEvent::EVENTTYPE)(i) == g_NameMap[ i ].type ) continue; Error( "g_NameMap: Event type at %i has wrong value (%i)!", i, (int)g_NameMap[ i ].type ); } } }; static CCheckEventNames g_CheckNamesSingleton; //----------------------------------------------------------------------------- // Purpose: // Input : *name - // Output : int //----------------------------------------------------------------------------- CChoreoEvent::EVENTTYPE CChoreoEvent::TypeForName( const char *name ) { for ( int i = 0; i < NUM_TYPES; ++i ) { EventNameMap_t *slot = &g_NameMap[ i ]; if ( !Q_stricmp( name, slot->name ) ) return slot->type; } Assert( !"CChoreoEvent::TypeForName failed!!!" ); return UNSPECIFIED; } //----------------------------------------------------------------------------- // Purpose: // Input : type - // Output : const char //----------------------------------------------------------------------------- const char *CChoreoEvent::NameForType( EVENTTYPE type ) { int i = (int)type; if ( i < 0 || i >= NUM_TYPES ) { Assert( "!CChoreoEvent::NameForType: bogus type!" ); // returns "unspecified!!!"; return g_NameMap[ 0 ].name; } return g_NameMap[ i ].name; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- struct CCNameMap_t { CChoreoEvent::CLOSECAPTION type; char const *name; }; static CCNameMap_t g_CCNameMap[] = { { CChoreoEvent::CC_MASTER, "cc_master" }, // error condition!!! { CChoreoEvent::CC_SLAVE, "cc_slave" }, { CChoreoEvent::CC_DISABLED, "cc_disabled" }, }; //----------------------------------------------------------------------------- // Purpose: A simple class to verify the names data above at runtime //----------------------------------------------------------------------------- class CCheckCCNames { public: CCheckCCNames() { if ( ARRAYSIZE( g_CCNameMap ) != CChoreoEvent::NUM_CC_TYPES ) { Error( "g_CCNameMap contains %i entries, CChoreoEvent::NUM_CC_TYPES == %i!", ARRAYSIZE( g_CCNameMap ), CChoreoEvent::NUM_CC_TYPES ); } for ( int i = 0; i < CChoreoEvent::NUM_CC_TYPES; ++i ) { if ( !g_CCNameMap[ i ].name ) { Error( "g_NameMap: CC type at %i has NULL name string!", i ); } if ( (CChoreoEvent::CLOSECAPTION)(i) == g_CCNameMap[ i ].type ) continue; Error( "g_CCNameMap: Event type at %i has wrong value (%i)!", i, (int)g_CCNameMap[ i ].type ); } } }; static CCheckCCNames g_CheckCCNamesSingleton; //----------------------------------------------------------------------------- // Purpose: // Input : *name - // Output : CLOSECAPTION //----------------------------------------------------------------------------- CChoreoEvent::CLOSECAPTION CChoreoEvent::CCTypeForName( const char *name ) { for ( int i = 0; i < NUM_CC_TYPES; ++i ) { CCNameMap_t *slot = &g_CCNameMap[ i ]; if ( !Q_stricmp( name, slot->name ) ) return slot->type; } Assert( !"CChoreoEvent::TypeForName failed!!!" ); return CC_MASTER; } //----------------------------------------------------------------------------- // Purpose: // Input : type - // Output : const char //----------------------------------------------------------------------------- const char *CChoreoEvent::NameForCCType( CLOSECAPTION type ) { int i = (int)type; if ( i < 0 || i >= NUM_CC_TYPES ) { Assert( "!CChoreoEvent::NameForType: bogus type!" ); // returns "unspecified!!!"; return g_CCNameMap[ 0 ].name; } return g_CCNameMap[ i ].name; } //----------------------------------------------------------------------------- // Purpose: Is the event something that can be sized ( a wave file, e.g. ) // Output : Returns true on success, false on failure. //----------------------------------------------------------------------------- bool CChoreoEvent::IsFixedLength( void ) { return m_bFixedLength; } //----------------------------------------------------------------------------- // Purpose: // Input : isfixedlength - //----------------------------------------------------------------------------- void CChoreoEvent::SetFixedLength( bool isfixedlength ) { m_bFixedLength = isfixedlength; } //----------------------------------------------------------------------------- // Purpose: // Input : resumecondition - //----------------------------------------------------------------------------- void CChoreoEvent::SetResumeCondition( bool resumecondition ) { m_bResumeCondition = resumecondition; } //----------------------------------------------------------------------------- // Purpose: // Output : Returns true on success, false on failure. //----------------------------------------------------------------------------- bool CChoreoEvent::IsResumeCondition( void ) { return m_bResumeCondition; } //----------------------------------------------------------------------------- // Purpose: // Input : lockbodyfacing - //----------------------------------------------------------------------------- void CChoreoEvent::SetLockBodyFacing( bool lockbodyfacing ) { m_bLockBodyFacing = lockbodyfacing; } //----------------------------------------------------------------------------- // Purpose: // Output : Returns true on success, false on failure. //----------------------------------------------------------------------------- bool CChoreoEvent::IsLockBodyFacing( void ) { return m_bLockBodyFacing; } //----------------------------------------------------------------------------- // Purpose: // Input : distancetotarget - //----------------------------------------------------------------------------- void CChoreoEvent::SetDistanceToTarget( float distancetotarget ) { m_flDistanceToTarget = distancetotarget; } //----------------------------------------------------------------------------- // Purpose: // Output : Returns ideal distance to target //----------------------------------------------------------------------------- float CChoreoEvent::GetDistanceToTarget( void ) { return m_flDistanceToTarget; } //----------------------------------------------------------------------------- // Purpose: // Input : set if small (sub-1/2 bbox) movements are forced //----------------------------------------------------------------------------- void CChoreoEvent::SetForceShortMovement( bool bForceShortMovement ) { m_bForceShortMovement = bForceShortMovement; } //----------------------------------------------------------------------------- // Purpose: // Output : get if small (sub-1/2 bbox) movements are forced //----------------------------------------------------------------------------- bool CChoreoEvent::GetForceShortMovement( void ) { return m_bForceShortMovement; } //----------------------------------------------------------------------------- // Purpose: // Input : set if the gesture should sync its exit tag with the following gestures entry tag //----------------------------------------------------------------------------- void CChoreoEvent::SetSyncToFollowingGesture( bool bSyncToFollowingGesture ) { m_bSyncToFollowingGesture = bSyncToFollowingGesture; } //----------------------------------------------------------------------------- // Purpose: // Output : get if the gesture should sync its exit tag with the following gestures entry tag //----------------------------------------------------------------------------- bool CChoreoEvent::GetSyncToFollowingGesture( void ) { return m_bSyncToFollowingGesture; } //----------------------------------------------------------------------------- // Purpose: // Input : set if the sequence should player overtop of an underlying SS //----------------------------------------------------------------------------- void CChoreoEvent::SetPlayOverScript( bool bPlayOverScript ) { m_bPlayOverScript = bPlayOverScript; } //----------------------------------------------------------------------------- // Purpose: // Output : get if the sequence should player overtop of an underlying SS //----------------------------------------------------------------------------- bool CChoreoEvent::GetPlayOverScript( void ) { return m_bPlayOverScript; } //----------------------------------------------------------------------------- // Purpose: // Output : float //----------------------------------------------------------------------------- float CChoreoEvent::GetDuration( void ) { if ( HasEndTime() ) { return GetEndTime() - GetStartTime(); } return 0.0f; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void CChoreoEvent::ClearAllRelativeTags( void ) { m_RelativeTags.Purge(); } //----------------------------------------------------------------------------- // Purpose: // Output : int //----------------------------------------------------------------------------- int CChoreoEvent::GetNumRelativeTags( void ) { return m_RelativeTags.Count(); } //----------------------------------------------------------------------------- // Purpose: // Input : tagnum - // Output : CEventRelativeTag //----------------------------------------------------------------------------- CEventRelativeTag *CChoreoEvent::GetRelativeTag( int tagnum ) { Assert( tagnum >= 0 && tagnum < m_RelativeTags.Count() ); return &m_RelativeTags[ tagnum ]; } //----------------------------------------------------------------------------- // Purpose: // Input : *tagname - // percentage - //----------------------------------------------------------------------------- void CChoreoEvent::AddRelativeTag( const char *tagname, float percentage ) { CEventRelativeTag rt( this, tagname, percentage ); m_RelativeTags.AddToTail( rt ); } //----------------------------------------------------------------------------- // Purpose: // Input : *tagname - //----------------------------------------------------------------------------- void CChoreoEvent::RemoveRelativeTag( const char *tagname ) { for ( int i = 0; i < m_RelativeTags.Count(); i++ ) { CEventRelativeTag *prt = &m_RelativeTags[ i ]; if ( !prt ) continue; if ( !stricmp( prt->GetName(), tagname ) ) { m_RelativeTags.Remove( i ); return; } } } //----------------------------------------------------------------------------- // Purpose: // Input : *tagname - // Output : CEventRelativeTag * //----------------------------------------------------------------------------- CEventRelativeTag * CChoreoEvent::FindRelativeTag( const char *tagname ) { for ( int i = 0; i < m_RelativeTags.Count(); i++ ) { CEventRelativeTag *prt = &m_RelativeTags[ i ]; if ( !prt ) continue; if ( !stricmp( prt->GetName(), tagname ) ) { return prt; } } return NULL; } //----------------------------------------------------------------------------- // Purpose: // Output : Returns true on success, false on failure. //----------------------------------------------------------------------------- bool CChoreoEvent::IsUsingRelativeTag( void ) { return m_bUsesTag; } //----------------------------------------------------------------------------- // Purpose: // Input : usetag - // 0 - //----------------------------------------------------------------------------- void CChoreoEvent::SetUsingRelativeTag( bool usetag, const char *tagname /*= 0*/, const char *wavname /* = 0 */ ) { m_bUsesTag = usetag; if ( tagname ) { m_TagName = tagname; } else { m_TagName.Set(""); } if ( wavname ) { m_TagWavName = wavname; } else { m_TagWavName.Set(""); } } //----------------------------------------------------------------------------- // Purpose: // Output : const char //----------------------------------------------------------------------------- const char *CChoreoEvent::GetRelativeTagName( void ) { return m_TagName.Get(); } //----------------------------------------------------------------------------- // Purpose: // Output : const char //----------------------------------------------------------------------------- const char *CChoreoEvent::GetRelativeWavName( void ) { return m_TagWavName.Get(); } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void CChoreoEvent::ClearAllTimingTags( void ) { m_TimingTags.Purge(); } //----------------------------------------------------------------------------- // Purpose: // Output : int //----------------------------------------------------------------------------- int CChoreoEvent::GetNumTimingTags( void ) { return m_TimingTags.Count(); } //----------------------------------------------------------------------------- // Purpose: // Input : tagnum - // Output : CEventRelativeTag //----------------------------------------------------------------------------- CFlexTimingTag *CChoreoEvent::GetTimingTag( int tagnum ) { Assert( tagnum >= 0 && tagnum < m_TimingTags.Count() ); return &m_TimingTags[ tagnum ]; } //----------------------------------------------------------------------------- // Purpose: // Input : *tagname - // percentage - //----------------------------------------------------------------------------- void CChoreoEvent::AddTimingTag( const char *tagname, float percentage, bool locked ) { CFlexTimingTag tt( this, tagname, percentage, locked ); m_TimingTags.AddToTail( tt ); // Sort tags CFlexTimingTag temp( (CChoreoEvent *)0x1, "", 0.0f, false ); // ugly bubble sort for ( int i = 0; i < m_TimingTags.Count(); i++ ) { for ( int j = i + 1; j < m_TimingTags.Count(); j++ ) { CFlexTimingTag *t1 = &m_TimingTags[ i ]; CFlexTimingTag *t2 = &m_TimingTags[ j ]; if ( t1->GetPercentage() > t2->GetPercentage() ) { temp = *t1; *t1 = *t2; *t2 = temp; } } } } //----------------------------------------------------------------------------- // Purpose: // Input : *tagname - //----------------------------------------------------------------------------- void CChoreoEvent::RemoveTimingTag( const char *tagname ) { for ( int i = 0; i < m_TimingTags.Count(); i++ ) { CFlexTimingTag *ptt = &m_TimingTags[ i ]; if ( !ptt ) continue; if ( !stricmp( ptt->GetName(), tagname ) ) { m_TimingTags.Remove( i ); return; } } } //----------------------------------------------------------------------------- // Purpose: // Input : *tagname - // Output : CEventRelativeTag * //----------------------------------------------------------------------------- CFlexTimingTag * CChoreoEvent::FindTimingTag( const char *tagname ) { for ( int i = 0; i < m_TimingTags.Count(); i++ ) { CFlexTimingTag *ptt = &m_TimingTags[ i ]; if ( !ptt ) continue; if ( !stricmp( ptt->GetName(), tagname ) ) { return ptt; } } return NULL; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void CChoreoEvent::OnEndTimeChanged( void ) { int c = GetNumFlexAnimationTracks(); for ( int i = 0; i < c; i++ ) { CFlexAnimationTrack *track = GetFlexAnimationTrack( i ); Assert( track ); if ( !track ) continue; track->Resort( 0 ); } } //----------------------------------------------------------------------------- // Purpose: // Output : int //----------------------------------------------------------------------------- int CChoreoEvent::GetNumFlexAnimationTracks( void ) { return m_FlexAnimationTracks.Count(); } //----------------------------------------------------------------------------- // Purpose: // Input : index - // Output : CFlexAnimationTrack //----------------------------------------------------------------------------- CFlexAnimationTrack *CChoreoEvent::GetFlexAnimationTrack( int index ) { if ( index < 0 || index >= GetNumFlexAnimationTracks() ) return NULL; return m_FlexAnimationTracks[ index ]; } //----------------------------------------------------------------------------- // Purpose: // Input : *controllername - // Output : CFlexAnimationTrack //----------------------------------------------------------------------------- CFlexAnimationTrack *CChoreoEvent::AddTrack( const char *controllername ) { CFlexAnimationTrack *newTrack = new CFlexAnimationTrack( this ); newTrack->SetFlexControllerName( controllername ); m_FlexAnimationTracks.AddToTail( newTrack ); return newTrack; } //----------------------------------------------------------------------------- // Purpose: // Input : index - //----------------------------------------------------------------------------- void CChoreoEvent::RemoveTrack( int index ) { CFlexAnimationTrack *track = GetFlexAnimationTrack( index ); if ( !track ) return; m_FlexAnimationTracks.Remove( index ); delete track; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void CChoreoEvent::RemoveAllTracks( void ) { while ( GetNumFlexAnimationTracks() > 0 ) { RemoveTrack( 0 ); } } //----------------------------------------------------------------------------- // Purpose: // Input : *controllername - // Output : CFlexAnimationTrack //----------------------------------------------------------------------------- CFlexAnimationTrack *CChoreoEvent::FindTrack( const char *controllername ) { for ( int i = 0; i < GetNumFlexAnimationTracks(); i++ ) { CFlexAnimationTrack *t = GetFlexAnimationTrack( i ); if ( t && !stricmp( t->GetFlexControllerName(), controllername ) ) { return t; } } return NULL; } //----------------------------------------------------------------------------- // Purpose: // Output : Returns true on success, false on failure. //----------------------------------------------------------------------------- bool CChoreoEvent::GetTrackLookupSet( void ) { return m_bTrackLookupSet; } //----------------------------------------------------------------------------- // Purpose: // Input : set - //----------------------------------------------------------------------------- void CChoreoEvent::SetTrackLookupSet( bool set ) { m_bTrackLookupSet = set; } //----------------------------------------------------------------------------- // Purpose: // Output : Returns true on success, false on failure. //----------------------------------------------------------------------------- bool CChoreoEvent::IsProcessing( void ) const { return m_bProcessing; } //----------------------------------------------------------------------------- // Purpose: Indicates it the even has already stopped (in that case it should not be restarted). // Output : Returns true if the even has stopped, false otherwise. //----------------------------------------------------------------------------- bool CChoreoEvent::HasStopped() const { return m_bHasStopped; } //----------------------------------------------------------------------------- // Purpose: // Input : *cb - // t - //----------------------------------------------------------------------------- void CChoreoEvent::StartProcessing( IChoreoEventCallback *cb, CChoreoScene *scene, float t ) { Assert( !m_bProcessing ); m_bProcessing = true; if ( cb ) { cb->StartEvent( t, scene, this ); } } //----------------------------------------------------------------------------- // Purpose: // Input : *cb - // t - //----------------------------------------------------------------------------- void CChoreoEvent::ContinueProcessing( IChoreoEventCallback *cb, CChoreoScene *scene, float t ) { Assert( m_bProcessing ); if ( cb ) { cb->ProcessEvent( t, scene, this ); } } //----------------------------------------------------------------------------- // Purpose: // Input : *cb - // t - //----------------------------------------------------------------------------- void CChoreoEvent::StopProcessing( IChoreoEventCallback *cb, CChoreoScene *scene, float t ) { Assert( m_bProcessing ); if ( cb ) { cb->EndEvent( t, scene, this ); } m_bProcessing = false; m_bHasStopped = true; } //----------------------------------------------------------------------------- // Purpose: // Input : *cb - // t - //----------------------------------------------------------------------------- bool CChoreoEvent::CheckProcessing( IChoreoEventCallback *cb, CChoreoScene *scene, float t ) { //Assert( !m_bProcessing ); if ( cb ) { return cb->CheckEvent( t, scene, this ); } return true; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void CChoreoEvent::ResetProcessing( void ) { if ( GetType() == LOOP ) { m_nLoopsRemaining = m_nNumLoops; } m_bProcessing = false; m_bHasStopped = false; } //----------------------------------------------------------------------------- // Purpose: // Input : *mixer - //----------------------------------------------------------------------------- void CChoreoEvent::SetMixer( CAudioMixer *mixer ) { m_pMixer = mixer; } //----------------------------------------------------------------------------- // Purpose: // Output : CAudioMixer //----------------------------------------------------------------------------- CAudioMixer *CChoreoEvent::GetMixer( void ) const { return m_pMixer; } // Snap to scene framerate //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void CChoreoEvent::SnapTimes() { if ( HasEndTime() && !IsFixedLength() ) { m_flEndTime = SnapTime( m_flEndTime ); } float oldstart = m_flStartTime; m_flStartTime = SnapTime( m_flStartTime ); // Don't snap end time for fixed length events, just set based on new start time if ( IsFixedLength() ) { float dt = m_flStartTime - oldstart; m_flEndTime += dt; } } //----------------------------------------------------------------------------- // Purpose: // Input : t - // Output : float //----------------------------------------------------------------------------- float CChoreoEvent::SnapTime( float t ) { CChoreoScene *scene = GetScene(); if ( !scene) { Assert( 0 ); return t; } return scene->SnapTime( t ); } //----------------------------------------------------------------------------- // Purpose: // Output : CChoreoScene //----------------------------------------------------------------------------- CChoreoScene *CChoreoEvent::GetScene( void ) { return m_pScene; } //----------------------------------------------------------------------------- // Purpose: // Input : *scene - //----------------------------------------------------------------------------- void CChoreoEvent::SetScene( CChoreoScene *scene ) { m_pScene = scene; } //----------------------------------------------------------------------------- // Purpose: // Input : t - // Output : char const //----------------------------------------------------------------------------- const char *CChoreoEvent::NameForAbsoluteTagType( AbsTagType t ) { switch ( t ) { case PLAYBACK: return "playback_time"; case ORIGINAL: return "shifted_time"; default: break; } return "AbsTagType(unknown)"; } //----------------------------------------------------------------------------- // Purpose: // Input : *name - // Output : AbsTagType //----------------------------------------------------------------------------- CChoreoEvent::AbsTagType CChoreoEvent::TypeForAbsoluteTagName( const char *name ) { if ( !Q_strcasecmp( name, "playback_time" ) ) { return PLAYBACK; } else if ( !Q_strcasecmp( name, "shifted_time" ) ) { return ORIGINAL; } return INVALID; } //----------------------------------------------------------------------------- // Purpose: // Input : type - //----------------------------------------------------------------------------- void CChoreoEvent::ClearAllAbsoluteTags( AbsTagType type ) { m_AbsoluteTags[ type ].Purge(); } //----------------------------------------------------------------------------- // Purpose: // Input : type - // Output : int //----------------------------------------------------------------------------- int CChoreoEvent::GetNumAbsoluteTags( AbsTagType type ) { return m_AbsoluteTags[ type ].Count(); } //----------------------------------------------------------------------------- // Purpose: // Input : type - // tagnum - // Output : CEventAbsoluteTag //----------------------------------------------------------------------------- CEventAbsoluteTag *CChoreoEvent::GetAbsoluteTag( AbsTagType type, int tagnum ) { Assert( tagnum >= 0 && tagnum < m_AbsoluteTags[ type ].Count() ); return &m_AbsoluteTags[ type ][ tagnum ]; } //----------------------------------------------------------------------------- // Purpose: // Input : type - // *tagname - // Output : CEventAbsoluteTag //----------------------------------------------------------------------------- CEventAbsoluteTag *CChoreoEvent::FindAbsoluteTag( AbsTagType type, const char *tagname ) { for ( int i = 0; i < m_AbsoluteTags[ type ].Count(); i++ ) { CEventAbsoluteTag *ptag = &m_AbsoluteTags[ type ][ i ]; if ( !ptag ) continue; if ( !stricmp( ptag->GetName(), tagname ) ) { return ptag; } } return NULL; } //----------------------------------------------------------------------------- // Purpose: // Input : type - // *tagname - // t - //----------------------------------------------------------------------------- void CChoreoEvent::AddAbsoluteTag( AbsTagType type, const char *tagname, float t ) { CEventAbsoluteTag at( this, tagname, t ); m_AbsoluteTags[ type ].AddToTail( at ); // Sort tags CEventAbsoluteTag temp( (CChoreoEvent *)0x1, "", 0.0f ); // ugly bubble sort for ( int i = 0; i < m_AbsoluteTags[ type ].Count(); i++ ) { for ( int j = i + 1; j < m_AbsoluteTags[ type ].Count(); j++ ) { CEventAbsoluteTag *t1 = &m_AbsoluteTags[ type ][ i ]; CEventAbsoluteTag *t2 = &m_AbsoluteTags[ type ][ j ]; if ( t1->GetPercentage() > t2->GetPercentage() ) { temp = *t1; *t1 = *t2; *t2 = temp; } } } } //----------------------------------------------------------------------------- // Purpose: // Input : type - // *tagname - //----------------------------------------------------------------------------- void CChoreoEvent::RemoveAbsoluteTag( AbsTagType type, const char *tagname ) { for ( int i = 0; i < m_AbsoluteTags[ type ].Count(); i++ ) { CEventAbsoluteTag *ptag = &m_AbsoluteTags[ type ][ i ]; if ( !ptag ) continue; if ( !stricmp( ptag->GetName(), tagname ) ) { m_AbsoluteTags[ type ].Remove( i ); return; } } } //----------------------------------------------------------------------------- // Purpose: makes sure tags in PLAYBACK are in the same order as ORIGINAL // Input : // Output : true if they were in order, false if it has to reorder them //----------------------------------------------------------------------------- bool CChoreoEvent::VerifyTagOrder( ) { bool bInOrder = true; // Sort tags CEventAbsoluteTag temp( (CChoreoEvent *)0x1, "", 0.0f ); for ( int i = 0; i < m_AbsoluteTags[ CChoreoEvent::ORIGINAL ].Count(); i++ ) { CEventAbsoluteTag *ptag = &m_AbsoluteTags[ CChoreoEvent::ORIGINAL ][ i ]; if ( !ptag ) continue; CEventAbsoluteTag *t1 = &m_AbsoluteTags[ CChoreoEvent::PLAYBACK ][ i ]; if ( stricmp( ptag->GetName(), t1->GetName() ) == 0) continue; bInOrder = false; for ( int j = i + 1; j < m_AbsoluteTags[ CChoreoEvent::PLAYBACK ].Count(); j++ ) { CEventAbsoluteTag *t2 = &m_AbsoluteTags[ CChoreoEvent::PLAYBACK ][ j ]; if ( stricmp( ptag->GetName(), t2->GetName() ) == 0 ) { temp = *t1; *t1 = *t2; *t2 = temp; break; } } } return bInOrder; } //----------------------------------------------------------------------------- // Purpose: // Input : type - // *tagname - //----------------------------------------------------------------------------- float CChoreoEvent::GetBoundedAbsoluteTagPercentage( AbsTagType type, int tagnum ) { if ( tagnum <= -2 ) { /* if (GetNumAbsoluteTags( type ) >= 1) { CEventAbsoluteTag *tag = GetAbsoluteTag( type, 0 ); Assert( tag ); return -tag->GetTime(); } */ return 0.0f; // -0.5f; } else if ( tagnum == -1 ) { return 0.0f; } else if ( tagnum == GetNumAbsoluteTags( type ) ) { return 1.0; } else if ( tagnum > GetNumAbsoluteTags( type ) ) { /* if (GetNumAbsoluteTags( type ) >= 1) { CEventAbsoluteTag *tag = GetAbsoluteTag( type, tagnum - 2 ); Assert( tag ); return 2.0 - tag->GetTime(); } */ return 1.0; // 1.5; } /* { float duration = GetDuration(); if ( type == SHIFTED ) { float seqduration; GetGestureSequenceDuration( seqduration ); return seqduration; } return duration; } */ CEventAbsoluteTag *tag = GetAbsoluteTag( type, tagnum ); Assert( tag ); return tag->GetPercentage(); } //----------------------------------------------------------------------------- // Purpose: // Input : t - // Output : float //----------------------------------------------------------------------------- float CChoreoEvent::GetOriginalPercentageFromPlaybackPercentage( float t ) { Assert( GetType() == GESTURE ); if ( GetType() != GESTURE ) return t; int count = GetNumAbsoluteTags( PLAYBACK ); if ( count != GetNumAbsoluteTags( ORIGINAL ) ) { return t; } if ( count <= 0 ) { return t; } if ( t <= 0.0f ) return 0.0f; float s = 0.0f, n = 0.0f; // find what tags this is between int i; for ( i = -1 ; i < count; i++ ) { s = GetBoundedAbsoluteTagPercentage( PLAYBACK, i ); n = GetBoundedAbsoluteTagPercentage( PLAYBACK, i + 1 ); if ( t >= s && t <= n ) { break; } } int prev = i - 1; int start = i; int end = i + 1; int next = i + 2; prev = MAX( -2, prev ); start = MAX( -1, start ); end = MIN( end, count ); next = MIN( next, count + 1 ); CEventAbsoluteTag *pStartTag = NULL; CEventAbsoluteTag *pEndTag = NULL; // check for linear portion of lookup if (start >= 0 && start < count) { pStartTag = GetAbsoluteTag( PLAYBACK, start ); } if (end >= 0 && end < count) { pEndTag = GetAbsoluteTag( PLAYBACK, end ); } if (pStartTag && pEndTag) { if (pStartTag->GetLinear() && pEndTag->GetLinear()) { CEventAbsoluteTag *pOrigStartTag = GetAbsoluteTag( ORIGINAL, start ); CEventAbsoluteTag *pOrigEndTag = GetAbsoluteTag( ORIGINAL, end ); if (pOrigStartTag && pOrigEndTag) { s = ( t - pStartTag->GetPercentage() ) / (pEndTag->GetPercentage() - pStartTag->GetPercentage()); return (1 - s) * pOrigStartTag->GetPercentage() + s * pOrigEndTag->GetPercentage(); } } } float dt = n - s; Vector vPre( GetBoundedAbsoluteTagPercentage( PLAYBACK, prev ), GetBoundedAbsoluteTagPercentage( ORIGINAL, prev ), 0 ); Vector vStart( GetBoundedAbsoluteTagPercentage( PLAYBACK, start ), GetBoundedAbsoluteTagPercentage( ORIGINAL, start ), 0 ); Vector vEnd( GetBoundedAbsoluteTagPercentage( PLAYBACK, end ), GetBoundedAbsoluteTagPercentage( ORIGINAL, end ), 0 ); Vector vNext( GetBoundedAbsoluteTagPercentage( PLAYBACK, next ), GetBoundedAbsoluteTagPercentage( ORIGINAL, next ), 0 ); // simulate sections of either side of "linear" portion of ramp as linear slope if (pStartTag && pStartTag->GetLinear()) { vPre.Init( vStart.x - (vEnd.x - vStart.x), vStart.y - (vEnd.y - vStart.y), 0 ); } if (pEndTag && pEndTag->GetLinear()) { vNext.Init( vEnd.x + (vEnd.x - vStart.x), vEnd.y + (vEnd.y - vStart.y), 0 ); } float f2 = 0.0f; if ( dt > 0.0f ) { f2 = ( t - s ) / ( dt ); } f2 = clamp( f2, 0.0f, 1.0f ); Vector vOut; Catmull_Rom_Spline_NormalizeX( vPre, vStart, vEnd, vNext, f2, vOut ); return vOut.y; /* float duration; GetGestureSequenceDuration( duration ); float retval = clamp( vOut.y, 0.0f, duration ); return retval; */ } //----------------------------------------------------------------------------- // Purpose: // Input : t - // Output : float //----------------------------------------------------------------------------- float CChoreoEvent::GetPlaybackPercentageFromOriginalPercentage( float t ) { Assert( GetType() == GESTURE ); if ( GetType() != GESTURE ) return t; int count = GetNumAbsoluteTags( PLAYBACK ); if ( count != GetNumAbsoluteTags( ORIGINAL ) ) { return t; } if ( count <= 0 ) { return t; } if ( t <= 0.0f ) return 0.0f; float s = 0.0f, n = 0.0f; // find what tags this is between int i; for ( i = -1 ; i < count; i++ ) { s = GetBoundedAbsoluteTagPercentage( PLAYBACK, i ); n = GetBoundedAbsoluteTagPercentage( PLAYBACK, i + 1 ); if ( t >= s && t <= n ) { break; } } int prev = i - 1; int start = i; int end = i + 1; int next = i + 2; prev = MAX( -2, prev ); start = MAX( -1, start ); end = MIN( end, count ); next = MIN( next, count + 1 ); CEventAbsoluteTag *pStartTag = NULL; CEventAbsoluteTag *pEndTag = NULL; // check for linear portion of lookup if (start >= 0 && start < count) { pStartTag = GetAbsoluteTag( ORIGINAL, start ); } if (end >= 0 && end < count) { pEndTag = GetAbsoluteTag( ORIGINAL, end ); } // check for linear portion of lookup if (pStartTag && pEndTag) { if (pStartTag->GetLinear() && pEndTag->GetLinear()) { CEventAbsoluteTag *pPlaybackStartTag = GetAbsoluteTag( PLAYBACK, start ); CEventAbsoluteTag *pPlaybackEndTag = GetAbsoluteTag( PLAYBACK, end ); if (pPlaybackStartTag && pPlaybackEndTag) { s = ( t - pStartTag->GetPercentage() ) / (pEndTag->GetPercentage() - pStartTag->GetPercentage()); return (1 - s) * pPlaybackStartTag->GetPercentage() + s * pPlaybackEndTag->GetPercentage(); } } } float dt = n - s; Vector vPre( GetBoundedAbsoluteTagPercentage( ORIGINAL, prev ), GetBoundedAbsoluteTagPercentage( PLAYBACK, prev ), 0 ); Vector vStart( GetBoundedAbsoluteTagPercentage( ORIGINAL, start ), GetBoundedAbsoluteTagPercentage( PLAYBACK, start ), 0 ); Vector vEnd( GetBoundedAbsoluteTagPercentage( ORIGINAL, end ), GetBoundedAbsoluteTagPercentage( PLAYBACK, end ), 0 ); Vector vNext( GetBoundedAbsoluteTagPercentage( ORIGINAL, next ), GetBoundedAbsoluteTagPercentage( PLAYBACK, next ), 0 ); // simulate sections of either side of "linear" portion of ramp as linear slope if (pStartTag && pStartTag->GetLinear()) { vPre.Init( vStart.x - (vEnd.x - vStart.x), vStart.y - (vEnd.y - vStart.y), 0 ); } if (pEndTag && pEndTag->GetLinear()) { vNext.Init( vEnd.x + (vEnd.x - vStart.x), vEnd.y + (vEnd.y - vStart.y), 0 ); } float f2 = 0.0f; if ( dt > 0.0f ) { f2 = ( t - s ) / ( dt ); } f2 = clamp( f2, 0.0f, 1.0f ); Vector vOut; Catmull_Rom_Spline_NormalizeX( vPre, vStart, vEnd, vNext, f2, vOut ); return vOut.y; /* float duration; GetGestureSequenceDuration( duration ); float retval = clamp( vOut.y, 0.0f, duration ); return retval; */ } //----------------------------------------------------------------------------- // Purpose: // Input : duration - //----------------------------------------------------------------------------- void CChoreoEvent::SetGestureSequenceDuration( float duration ) { m_flGestureSequenceDuration = duration; } //----------------------------------------------------------------------------- // Purpose: // Input : duration - // Output : Returns true on success, false on failure. //----------------------------------------------------------------------------- bool CChoreoEvent::GetGestureSequenceDuration( float& duration ) { bool valid = m_flGestureSequenceDuration != 0.0f; if ( !valid ) { duration = GetDuration(); } else { duration = m_flGestureSequenceDuration; } return valid; } //----------------------------------------------------------------------------- // Purpose: // Input : pitch - //----------------------------------------------------------------------------- int CChoreoEvent::GetPitch( void ) const { return m_nPitch; } //----------------------------------------------------------------------------- // Purpose: // Input : pitch - //----------------------------------------------------------------------------- void CChoreoEvent::SetPitch( int pitch ) { m_nPitch = pitch; } //----------------------------------------------------------------------------- // Purpose: // Input : yaw - //----------------------------------------------------------------------------- int CChoreoEvent::GetYaw( void ) const { return m_nYaw; } //----------------------------------------------------------------------------- // Purpose: // Input : yaw - //----------------------------------------------------------------------------- void CChoreoEvent::SetYaw( int yaw ) { m_nYaw = yaw; } //----------------------------------------------------------------------------- // Purpose: // Input : t - // -1 - //----------------------------------------------------------------------------- void CChoreoEvent::SetLoopCount( int numloops ) { Assert( GetType() == LOOP ); // Never below -1 m_nNumLoops = MAX( numloops, -1 ); } //----------------------------------------------------------------------------- // Purpose: // Output : int //----------------------------------------------------------------------------- int CChoreoEvent::GetNumLoopsRemaining( void ) { Assert( GetType() == LOOP ); return m_nLoopsRemaining; } //----------------------------------------------------------------------------- // Purpose: // Input : loops - //----------------------------------------------------------------------------- void CChoreoEvent::SetNumLoopsRemaining( int loops ) { Assert( GetType() == LOOP ); m_nLoopsRemaining = loops; } //----------------------------------------------------------------------------- // Purpose: // Output : int //----------------------------------------------------------------------------- int CChoreoEvent::GetLoopCount( void ) { Assert( GetType() == LOOP ); return m_nNumLoops; } EdgeInfo_t *CCurveData::GetEdgeInfo( int idx ) { return &m_RampEdgeInfo[ idx ]; } int CCurveData::GetCount( void ) { return m_Ramp.Count(); } CExpressionSample *CCurveData::Get( int index ) { if ( index < 0 || index >= GetCount() ) return NULL; return &m_Ramp[ index ]; } CExpressionSample *CCurveData::Add( float time, float value, bool selected ) { CExpressionSample sample; sample.time = time; sample.value = value; sample.selected = selected; int idx = m_Ramp.AddToTail( sample ); return &m_Ramp[ idx ]; } void CCurveData::Delete( int index ) { if ( index < 0 || index >= GetCount() ) return; m_Ramp.Remove( index ); } void CCurveData::Clear( void ) { m_Ramp.RemoveAll(); } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void CCurveData::Resort( ICurveDataAccessor *data ) { for ( int i = 0; i < m_Ramp.Count(); i++ ) { for ( int j = i + 1; j < m_Ramp.Count(); j++ ) { CExpressionSample src = m_Ramp[ i ]; CExpressionSample dest = m_Ramp[ j ]; if ( src.time > dest.time ) { m_Ramp[ i ] = dest; m_Ramp[ j ] = src; } } } RemoveOutOfRangeSamples( data ); // m_RampAccumulator.RemoveAll(); } //----------------------------------------------------------------------------- // Purpose: // Input : number - // Output : CExpressionSample //----------------------------------------------------------------------------- CExpressionSample *CCurveData::GetBoundedSample( ICurveDataAccessor *data, int number, bool& bClamped ) { // Search for two samples which span time f if ( number < 0 ) { static CExpressionSample nullstart; nullstart.time = 0.0f; nullstart.value = GetEdgeZeroValue( true ); nullstart.SetCurveType( GetEdgeCurveType( true ) ); bClamped = true; return &nullstart; } else if ( number >= GetCount() ) { static CExpressionSample nullend; nullend.time = data->GetDuration(); nullend.value = GetEdgeZeroValue( false ); nullend.SetCurveType( GetEdgeCurveType( false ) ); bClamped = true; return &nullend; } bClamped = false; return Get( number ); } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void CCurveData::RemoveOutOfRangeSamples( ICurveDataAccessor *data ) { float duration = data->GetDuration(); int c = GetCount(); for ( int i = c-1; i >= 0; i-- ) { CExpressionSample src = m_Ramp[ i ]; if ( src.time < 0 || src.time > duration + 0.01 ) { m_Ramp.Remove( i ); } } } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void CChoreoEvent::RescaleGestureTimes( float newstart, float newend, bool bMaintainAbsoluteTagPositions ) { if ( GetType() != CChoreoEvent::GESTURE ) return; // Did it actually change if ( newstart == GetStartTime() && newend == GetEndTime() ) { return; } float newduration = newend - newstart; float dt = 0.0f; //If the end is moving, leave tags stay where they are (dt == 0.0f) if ( newstart != GetStartTime() ) { // Otherwise, if the new start is later, then tags need to be shifted backwards dt -= ( newstart - GetStartTime() ); } if ( bMaintainAbsoluteTagPositions ) { int i; int count = GetNumAbsoluteTags( CChoreoEvent::PLAYBACK ); for ( i = 0; i < count; i++ ) { CEventAbsoluteTag *tag = GetAbsoluteTag( CChoreoEvent::PLAYBACK, i ); float tagtime = tag->GetPercentage() * GetDuration(); tagtime += dt; tagtime = clamp( tagtime / newduration, 0.0f, 1.0f ); tag->SetPercentage( tagtime ); } } } //----------------------------------------------------------------------------- // Purpose: Make sure tags aren't co-located or out of order //----------------------------------------------------------------------------- bool CChoreoEvent::PreventTagOverlap( void ) { bool bHadOverlap = false; // FIXME: limit to single frame? float minDp = 0.01; float minP = 1.00; int count = GetNumAbsoluteTags( CChoreoEvent::PLAYBACK ); for ( int i = count - 1; i >= 0; i-- ) { CEventAbsoluteTag *tag = GetAbsoluteTag( CChoreoEvent::PLAYBACK, i ); if (tag->GetPercentage() > minP) { tag->SetPercentage( minP ); minDp = MIN( 0.01, minP / (i + 1) ); bHadOverlap = true; } else { minP = tag->GetPercentage(); } minP = MAX( minP - minDp, 0 ); } return bHadOverlap; } //----------------------------------------------------------------------------- // Purpose: // Input : type - // Output : CEventAbsoluteTag //----------------------------------------------------------------------------- CEventAbsoluteTag *CChoreoEvent::FindEntryTag( AbsTagType type ) { for ( int i = 0; i < m_AbsoluteTags[ type ].Count(); i++ ) { CEventAbsoluteTag *ptag = &m_AbsoluteTags[ type ][ i ]; if ( !ptag ) continue; if ( ptag->GetEntry() ) { return ptag; } } return NULL; } //----------------------------------------------------------------------------- // Purpose: // Input : type - // Output : CEventAbsoluteTag //----------------------------------------------------------------------------- CEventAbsoluteTag *CChoreoEvent::FindExitTag( AbsTagType type ) { for ( int i = 0; i < m_AbsoluteTags[ type ].Count(); i++ ) { CEventAbsoluteTag *ptag = &m_AbsoluteTags[ type ][ i ]; if ( !ptag ) continue; if ( ptag->GetExit() ) { return ptag; } } return NULL; } //----------------------------------------------------------------------------- // Purpose: // Input : *style - // maxlen - //----------------------------------------------------------------------------- void CChoreoEvent::GetMovementStyle( char *style, int maxlen ) { Assert( GetType() == MOVETO ); style[0] = 0; const char *in = m_Parameters2.Get(); char *out = style; while ( *in && *in != '\0' && *in != ' ' ) { if ( out - style >= maxlen - 1 ) break; *out++ = *in++; } *out = 0; } //----------------------------------------------------------------------------- // Purpose: // Input : *style - // maxlen - //----------------------------------------------------------------------------- void CChoreoEvent::GetDistanceStyle( char *style, int maxlen ) { Assert( GetType() == MOVETO ); style[0]= 0; const char *in = Q_strstr( m_Parameters2.Get(), " " ); if ( !in ) return; in++; char *out = style; while ( *in && *in != '\0' ) { if ( out - style >= maxlen - 1 ) break; *out++ = *in++; } *out = 0; } void CChoreoEvent::SetCloseCaptionType( CLOSECAPTION type ) { Assert( m_fType == SPEAK ); m_ccType = type; } CChoreoEvent::CLOSECAPTION CChoreoEvent::GetCloseCaptionType() const { Assert( m_fType == SPEAK ); return (CLOSECAPTION)m_ccType; } void CChoreoEvent::SetCloseCaptionToken( char const *token ) { Assert( m_fType == SPEAK ); Assert( token ); m_CCToken = token; } char const *CChoreoEvent::GetCloseCaptionToken() const { Assert( m_fType == SPEAK ); return m_CCToken.Get(); } bool CChoreoEvent::GetPlaybackCloseCaptionToken( char *dest, int destlen ) { dest[0] = 0; Assert( m_fType == SPEAK ); switch ( m_ccType ) { default: case CC_DISABLED: { return false; } case CC_SLAVE: { // If it's a slave, then only disable if we're not using the combined wave if ( IsUsingCombinedFile() ) { return false; } if ( m_CCToken[ 0 ] != 0 ) { Q_strncpy( dest, m_CCToken.Get(), destlen ); } else { Q_strncpy( dest, m_Parameters.Get(), destlen ); } return true; } case CC_MASTER: { // Always use the override if we're the master, otherwise always use the default // parameter if ( m_CCToken[ 0 ] != 0 ) { Q_strncpy( dest, m_CCToken.Get(), destlen ); } else { Q_strncpy( dest, m_Parameters.Get(), destlen ); } return true; } } return false; } void CChoreoEvent::SetUsingCombinedFile( bool isusing ) { Assert( m_fType == SPEAK ); m_bUsingCombinedSoundFile = isusing; } bool CChoreoEvent::IsUsingCombinedFile() const { Assert( m_fType == SPEAK ); return m_bUsingCombinedSoundFile; } void CChoreoEvent::SetRequiredCombinedChecksum( unsigned int checksum ) { Assert( m_fType == SPEAK ); m_uRequiredCombinedChecksum = checksum; } unsigned int CChoreoEvent::GetRequiredCombinedChecksum() { Assert( m_fType == SPEAK ); return m_uRequiredCombinedChecksum; } void CChoreoEvent::SetNumSlaves( int num ) { Assert( m_fType == SPEAK ); Assert( num >= 0 ); m_nNumSlaves = num; } int CChoreoEvent::GetNumSlaves() const { Assert( m_fType == SPEAK ); return m_nNumSlaves; } void CChoreoEvent::SetLastSlaveEndTime( float t ) { Assert( m_fType == SPEAK ); m_flLastSlaveEndTime = t; } float CChoreoEvent::GetLastSlaveEndTime() const { Assert( m_fType == SPEAK ); return m_flLastSlaveEndTime; } void CChoreoEvent::SetCloseCaptionTokenValid( bool valid ) { Assert( m_fType == SPEAK ); m_bCCTokenValid = valid; } bool CChoreoEvent::GetCloseCaptionTokenValid() const { Assert( m_fType == SPEAK ); return m_bCCTokenValid; } //----------------------------------------------------------------------------- // Purpose: Removes characters which can't appear in windows filenames // Input : *in - // *dest - // destlen - // Output : static void //----------------------------------------------------------------------------- static void CleanupTokenName( char const *in, char *dest, int destlen ) { char *out = dest; while ( *in && ( out - dest ) < destlen ) { if ( V_isalnum( *in ) || // lowercase, uppercase, digits and underscore are valid *in == '_' ) { *out++ = *in; } else { *out++ = '_'; // Put underscores in for bogus characters } in++; } *out = 0; } bool CChoreoEvent::ComputeCombinedBaseFileName( char *dest, int destlen, bool creategenderwildcard ) { if ( m_fType != SPEAK ) return false; if ( m_ccType != CC_MASTER ) return false; if ( GetNumSlaves() == 0 ) return false; if ( !m_pScene ) return false; char vcdpath[ 512 ]; char cleanedtoken[ MAX_CCTOKEN_STRING ]; CleanupTokenName( m_CCToken.Get(), cleanedtoken, sizeof( cleanedtoken ) ); if ( Q_strlen( cleanedtoken ) <= 0 ) return false; Q_strncpy( vcdpath, m_pScene->GetFilename(), sizeof( vcdpath ) ); Q_StripFilename( vcdpath ); Q_FixSlashes( vcdpath, '/' ); char *pvcd = vcdpath; char *offset = Q_strstr( vcdpath, "scenes" ); if ( offset ) { pvcd = offset + 6; if ( *pvcd == '/' ) { ++pvcd; } } int len = Q_strlen( pvcd ); if ( len > 0 && ( len + 1 ) < ( sizeof( vcdpath ) - 1 ) ) { pvcd[ len ] = '/'; pvcd[ len + 1 ] = 0; } Assert( !Q_strstr( pvcd, ":" ) ); if ( creategenderwildcard ) { Q_snprintf( dest, destlen, "sound/combined/%s%s_$gender.wav", pvcd, cleanedtoken ); } else { Q_snprintf( dest, destlen, "sound/combined/%s%s.wav", pvcd, cleanedtoken ); } return true; } bool CChoreoEvent::IsCombinedUsingGenderToken() const { return m_bCombinedUsingGenderToken; } void CChoreoEvent::SetCombinedUsingGenderToken( bool using_gender ) { m_bCombinedUsingGenderToken = using_gender; } int CChoreoEvent::ValidateCombinedFile() { return 0; } bool CChoreoEvent::IsSuppressingCaptionAttenuation() const { return m_bSuppressCaptionAttenuation; } void CChoreoEvent::SetSuppressingCaptionAttenuation( bool suppress ) { m_bSuppressCaptionAttenuation = suppress; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void CChoreoEvent::ClearEventDependencies() { m_Dependencies.RemoveAll(); } //----------------------------------------------------------------------------- // Purpose: // Input : *other - //----------------------------------------------------------------------------- void CChoreoEvent::AddEventDependency( CChoreoEvent *other ) { if ( m_Dependencies.Find( other ) == m_Dependencies.InvalidIndex() ) { m_Dependencies.AddToTail( other ); } } //----------------------------------------------------------------------------- // Purpose: // Input : list - //----------------------------------------------------------------------------- void CChoreoEvent::GetEventDependencies( CUtlVector< CChoreoEvent * >& list ) { int c = m_Dependencies.Count(); for ( int i = 0; i < c; ++i ) { list.AddToTail( m_Dependencies[ i ] ); } } void CCurveData::SetEdgeInfo( bool leftEdge, int curveType, float zero ) { int idx = leftEdge ? 0 : 1; m_RampEdgeInfo[ idx ].m_CurveType = curveType; m_RampEdgeInfo[ idx ].m_flZeroPos = zero; } void CCurveData::GetEdgeInfo( bool leftEdge, int& curveType, float& zero ) const { int idx = leftEdge ? 0 : 1; curveType = m_RampEdgeInfo[ idx ].m_CurveType; zero = m_RampEdgeInfo[ idx ].m_flZeroPos; } void CCurveData::SetEdgeActive( bool leftEdge, bool state ) { int idx = leftEdge ? 0 : 1; m_RampEdgeInfo[ idx ].m_bActive = state; } bool CCurveData::IsEdgeActive( bool leftEdge ) const { int idx = leftEdge ? 0 : 1; return m_RampEdgeInfo[ idx ].m_bActive; } int CCurveData::GetEdgeCurveType( bool leftEdge ) const { if ( !IsEdgeActive( leftEdge ) ) { return CURVE_DEFAULT; } int idx = leftEdge ? 0 : 1; return m_RampEdgeInfo[ idx ].m_CurveType; } float CCurveData::GetEdgeZeroValue( bool leftEdge ) const { if ( !IsEdgeActive( leftEdge ) ) { return 0.0f; } int idx = leftEdge ? 0 : 1; return m_RampEdgeInfo[ idx ].m_flZeroPos; } void CChoreoEvent::SaveToBuffer( CUtlBuffer& buf, CChoreoScene *pScene, IChoreoStringPool *pStringPool ) { buf.PutChar( GetType() ); buf.PutShort( pStringPool->FindOrAddString( GetName() ) ); float st = GetStartTime(); buf.PutFloat( st ); float et = GetEndTime(); buf.PutFloat( et ); buf.PutShort( pStringPool->FindOrAddString( GetParameters() ) ); buf.PutShort( pStringPool->FindOrAddString( GetParameters2() ) ); buf.PutShort( pStringPool->FindOrAddString( GetParameters3() ) ); m_Ramp.SaveToBuffer( buf, pStringPool ); int flags = 0; flags |= IsResumeCondition() ? 1<<0 : 0; flags |= IsLockBodyFacing() ? 1<<1 : 0; flags |= IsFixedLength() ? 1<<2 : 0; flags |= GetActive() ? 1<<3 : 0; flags |= GetForceShortMovement() ? 1<<4 : 0; flags |= GetPlayOverScript() ? 1<<5 : 0; buf.PutUnsignedChar( flags ); buf.PutFloat( GetDistanceToTarget() ); int numRelativeTags = GetNumRelativeTags(); Assert( numRelativeTags <= 255 ); buf.PutUnsignedChar( numRelativeTags ); for ( int t = 0; t < numRelativeTags; t++ ) { CEventRelativeTag *rt = GetRelativeTag( t ); Assert( rt ); buf.PutShort( pStringPool->FindOrAddString( rt->GetName() ) ); Assert( rt->GetPercentage() >= 0.0f && rt->GetPercentage() <= 1.0f ); unsigned char p = rt->GetPercentage() * 255.0f; buf.PutUnsignedChar( p ); } int numTimingTags = GetNumTimingTags(); Assert( numTimingTags <= 255 ); buf.PutUnsignedChar( numTimingTags ); for ( int t = 0; t < numTimingTags; t++ ) { CFlexTimingTag *tt = GetTimingTag( t ); Assert( tt ); buf.PutShort( pStringPool->FindOrAddString( tt->GetName() ) ); // save as u0.8 Assert( tt->GetPercentage() >= 0.0f && tt->GetPercentage() <= 1.0f ); unsigned char p = tt->GetPercentage() * 255.0f; buf.PutUnsignedChar( p ); // Don't save locked state, it's only used by the editor tt->GetLocked() } int tagtype; for ( tagtype = 0; tagtype < CChoreoEvent::NUM_ABS_TAG_TYPES; tagtype++ ) { int num = GetNumAbsoluteTags( (CChoreoEvent::AbsTagType)tagtype ); Assert( num <= 255 ); buf.PutUnsignedChar( num ); for ( int i = 0; i < num ; ++i ) { CEventAbsoluteTag *abstag = GetAbsoluteTag( (CChoreoEvent::AbsTagType)tagtype, i ); Assert( abstag ); buf.PutShort( pStringPool->FindOrAddString( abstag->GetName() ) ); // save as u4.12 Assert( abstag->GetPercentage() >= 0.0f && abstag->GetPercentage() <= 15.0f ); unsigned short p = abstag->GetPercentage() * 4096.0f; buf.PutUnsignedShort( p ); } } if ( GetType() == CChoreoEvent::GESTURE ) { float duration; if ( GetGestureSequenceDuration( duration ) ) { buf.PutFloat( duration ); } else { buf.PutFloat( -1.0f ); } } buf.PutChar( IsUsingRelativeTag() ? 1 : 0 ); if ( IsUsingRelativeTag() ) { buf.PutShort( pStringPool->FindOrAddString( GetRelativeTagName() ) ); buf.PutShort( pStringPool->FindOrAddString( GetRelativeWavName() ) ); } SaveFlexAnimationsToBuffer( buf, pStringPool ); if ( GetType() == LOOP ) { buf.PutChar( GetLoopCount() ); } if ( GetType() == CChoreoEvent::SPEAK ) { buf.PutChar( GetCloseCaptionType() ); buf.PutShort( pStringPool->FindOrAddString( GetCloseCaptionToken() ) ); flags = 0; if ( GetCloseCaptionType() != CChoreoEvent::CC_DISABLED && IsUsingCombinedFile() ) { flags |= ( 1<<0 ); } if ( IsCombinedUsingGenderToken() ) { flags |= ( 1<<1 ); } if ( IsSuppressingCaptionAttenuation() ) { flags |= ( 1<<2 ); } buf.PutChar( flags ); } } bool CChoreoEvent::RestoreFromBuffer( CUtlBuffer& buf, CChoreoScene *pScene, IChoreoStringPool *pStringPool ) { MEM_ALLOC_CREDIT(); SetType( (EVENTTYPE)buf.GetChar() ); char sz[ 256 ]; pStringPool->GetString( buf.GetShort(), sz, sizeof( sz ) ); SetName( sz ); SetStartTime( buf.GetFloat() ); SetEndTime( buf.GetFloat() ); char params[ 2048 ]; pStringPool->GetString( buf.GetShort(), params, sizeof( params ) ); SetParameters( params ); pStringPool->GetString( buf.GetShort(), params, sizeof( params ) ); SetParameters2( params ); pStringPool->GetString( buf.GetShort(), params, sizeof( params ) ); SetParameters3( params ); if ( !m_Ramp.RestoreFromBuffer( buf, pStringPool ) ) return false; int flags = buf.GetUnsignedChar(); SetResumeCondition( ( flags & ( 1<<0 ) ) ? true : false ); SetLockBodyFacing( ( flags & ( 1<<1 ) ) ? true : false ); SetFixedLength( ( flags & ( 1<<2 ) ) ? true : false ); SetActive( ( flags & ( 1<<3 ) ) ? true : false ); SetForceShortMovement( ( flags & ( 1<<4 ) ) ? true : false ); SetPlayOverScript( ( flags & ( 1<<5 ) ) ? true : false ); SetDistanceToTarget( buf.GetFloat() ); int numRelTags = buf.GetUnsignedChar(); for ( int i = 0; i < numRelTags; ++i ) { char tagName[ 256 ]; pStringPool->GetString( buf.GetShort(), tagName, sizeof( tagName ) ); float percentage = (float)buf.GetUnsignedChar() * 1.0f/255.0f; AddRelativeTag( tagName, percentage ); } int numTimingTags = buf.GetUnsignedChar(); for ( int i = 0; i < numTimingTags; ++i ) { char tagName[ 256 ]; pStringPool->GetString( buf.GetShort(), tagName, sizeof( tagName ) ); float percentage = (float)buf.GetUnsignedChar() * 1.0f/255.0f; // Don't parse locked state, only used by editors AddTimingTag( tagName, percentage, false ); } int tagtype; for ( tagtype = 0; tagtype < CChoreoEvent::NUM_ABS_TAG_TYPES; tagtype++ ) { int num = buf.GetUnsignedChar(); for ( int i = 0; i < num; ++i ) { char tagName[ 256 ]; pStringPool->GetString( buf.GetShort(), tagName, sizeof( tagName ) ); float percentage = (float)buf.GetUnsignedShort() * 1.0f/4096.0f; // Don't parse locked state, only used by editors AddAbsoluteTag( (CChoreoEvent::AbsTagType)tagtype, tagName, percentage ); } } if ( GetType() == CChoreoEvent::GESTURE ) { float duration = buf.GetFloat(); if ( duration != -1 ) { SetGestureSequenceDuration( duration ); } } if ( buf.GetChar() == 1 ) { char tagname[ 256 ]; char wavname[ 256 ]; pStringPool->GetString( buf.GetShort(), tagname, sizeof( tagname ) ); pStringPool->GetString( buf.GetShort(), wavname, sizeof( wavname ) ); SetUsingRelativeTag( true, tagname, wavname ); } if ( !RestoreFlexAnimationsFromBuffer( buf, pStringPool ) ) return false; if ( GetType() == LOOP ) { SetLoopCount( buf.GetChar() ); } if ( GetType() == CChoreoEvent::SPEAK ) { SetCloseCaptionType( (CLOSECAPTION)buf.GetChar() ); char cctoken[ 256 ]; pStringPool->GetString( buf.GetShort(), cctoken, sizeof( cctoken ) ); SetCloseCaptionToken( cctoken ); int flags = buf.GetChar(); if ( flags & ( 1<<0 ) ) { SetUsingCombinedFile( true ); } if ( flags & ( 1<<1 ) ) { SetCombinedUsingGenderToken( true ); } if ( flags & ( 1<<2 ) ) { SetSuppressingCaptionAttenuation( true ); } } return true; } void CCurveData::SaveToBuffer( CUtlBuffer& buf, IChoreoStringPool *pStringPool ) { int c = GetCount(); Assert( c <= 255 ); buf.PutUnsignedChar( c ); for ( int i = 0; i < c; i++ ) { CExpressionSample *sample = Get( i ); buf.PutFloat( sample->time ); Assert( sample->value >= 0.0f && sample->value <= 1.0f ); unsigned char v = sample->value * 255.0f; buf.PutUnsignedChar( v ); } } bool CCurveData::RestoreFromBuffer( CUtlBuffer& buf, IChoreoStringPool *pStringPool ) { int c = buf.GetUnsignedChar(); for ( int i = 0; i < c; i++ ) { float t, v; t = buf.GetFloat(); v = (float)buf.GetUnsignedChar() * 1.0f/255.0f; Add( t, v, false ); } return true; } void CChoreoEvent::SaveFlexAnimationsToBuffer( CUtlBuffer& buf, IChoreoStringPool *pStringPool ) { int numFlexAnimationTracks = GetNumFlexAnimationTracks(); Assert( numFlexAnimationTracks <= 255 ); buf.PutUnsignedChar( numFlexAnimationTracks ); for ( int i = 0; i < numFlexAnimationTracks; i++ ) { CFlexAnimationTrack *track = GetFlexAnimationTrack( i ); buf.PutShort( pStringPool->FindOrAddString( track->GetFlexControllerName() ) ); int flags = 0; flags |= track->IsTrackActive() ? 1<<0 : 0; flags |= track->IsComboType() ? 1<<1 : 0; buf.PutUnsignedChar( flags ); buf.PutFloat( track->GetMin() ); buf.PutFloat( track->GetMax() ); buf.PutShort( track->GetNumSamples( 0 ) ); for ( int j = 0 ; j < track->GetNumSamples( 0 ) ; j++ ) { CExpressionSample *s = track->GetSample( j, 0 ); if ( !s ) continue; buf.PutFloat( s->time ); Assert( s->value >= 0.0f && s->value <= 1.0f ); unsigned char v = s->value * 255.0f; buf.PutUnsignedChar( v ); buf.PutUnsignedShort( s->GetCurveType() ); } // Write out combo samples if ( track->IsComboType() ) { int numSamples = track->GetNumSamples( 1 ); Assert( numSamples <= 32767 ); buf.PutUnsignedShort( numSamples ); for ( int j = 0; j < numSamples; j++ ) { CExpressionSample *s = track->GetSample( j, 1 ); if ( !s ) continue; buf.PutFloat( s->time ); Assert( s->value >= 0.0f && s->value <= 1.0f ); unsigned char v = s->value * 255.0f; buf.PutUnsignedChar( v ); buf.PutUnsignedShort( s->GetCurveType() ); } } } } bool CChoreoEvent::RestoreFlexAnimationsFromBuffer( CUtlBuffer& buf, IChoreoStringPool *pStringPool ) { int numTracks = buf.GetUnsignedChar(); for ( int i = 0; i < numTracks; i++ ) { char name[ 256 ]; pStringPool->GetString( buf.GetShort(), name, sizeof( name ) ); CFlexAnimationTrack *track = AddTrack( name ); int flags = buf.GetUnsignedChar(); track->SetTrackActive( ( flags & ( 1<<0 ) ) ? true : false ); track->SetComboType( ( flags & ( 1<<1 ) ) ? true : false ); track->SetMin( buf.GetFloat() ); track->SetMax( buf.GetFloat() ); int s = buf.GetShort(); for ( int j = 0; j < s; ++j ) { float t, v; t = buf.GetFloat(); v = (float)buf.GetUnsignedChar() * 1.0f/255.0f; CExpressionSample *pSample = track->AddSample( t, v, 0 ); pSample->SetCurveType( buf.GetUnsignedShort() ); } if ( track->IsComboType() ) { int s = buf.GetUnsignedShort(); for ( int j = 0; j < s; ++j ) { float t, v; t = buf.GetFloat(); v = (float)buf.GetUnsignedChar() * 1.0f/255.0f; CExpressionSample *pSample = track->AddSample( t, v, 1 ); pSample->SetCurveType( buf.GetUnsignedShort() ); } } } return true; } //----------------------------------------------------------------------------- // Purpose: Marks the event as enabled/disabled // Input : state - //----------------------------------------------------------------------------- void CChoreoEvent::SetActive( bool state ) { m_bActive = state; } bool CChoreoEvent::GetActive() const { return m_bActive; }