mirror of
https://github.com/nillerusr/source-engine.git
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919 lines
36 KiB
C++
919 lines
36 KiB
C++
//========= Copyright Valve Corporation, All rights reserved. ============//
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//
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// Purpose:
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//
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//=============================================================================
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#ifndef DMELOG_H
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#define DMELOG_H
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#ifdef _WIN32
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#pragma once
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#endif
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#include "datamodel/dmelement.h"
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#include "datamodel/dmattribute.h"
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#include "datamodel/dmattributevar.h"
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#include "datamodel/dmehandle.h"
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#include "interpolatortypes.h"
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#include "movieobjects/timeutils.h"
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#include "movieobjects/dmetimeselectiontimes.h"
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class IUniformRandomStream;
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template < class T > class CDmeTypedLog;
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enum
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{
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FILTER_SMOOTH = 0,
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FILTER_JITTER,
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FILTER_SHARPEN,
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FILTER_SOFTEN,
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NUM_FILTERS
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};
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enum RecordingMode_t
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{
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RECORD_PRESET = 0, // Preset/fader slider being dragged
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RECORD_ATTRIBUTESLIDER, // Single attribute slider being dragged
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};
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#define DMELOG_DEFAULT_THRESHHOLD 0.0001f
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class DmeLog_TimeSelection_t
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{
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public:
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DmeLog_TimeSelection_t() :
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m_flIntensity( 1.0f ),
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m_bAttachedMode( true ),
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m_bTimeAdvancing( false ),
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m_bResampleMode( true ),
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m_nResampleInterval( DmeTime_t( .05f ) ),// 50 msec sampling interval by default
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m_flThreshold( DMELOG_DEFAULT_THRESHHOLD ),
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m_pPresetValue( 0 ),
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m_RecordingMode( RECORD_PRESET )
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{
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m_nTimes[ TS_LEFT_FALLOFF ] = m_nTimes[ TS_LEFT_HOLD ] =
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m_nTimes[ TS_RIGHT_HOLD ] = m_nTimes[ TS_RIGHT_FALLOFF ] = DmeTime_t( 0 );
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m_nFalloffInterpolatorTypes[ 0 ] = m_nFalloffInterpolatorTypes[ 1 ] = INTERPOLATE_LINEAR_INTERP;
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}
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inline void ResetTimeAdvancing()
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{
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// Reset the time advancing flag
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m_bTimeAdvancing = false;
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}
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inline void StartTimeAdvancing()
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{
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m_bTimeAdvancing = true;
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}
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inline bool IsTimeAdvancing() const
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{
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return m_bTimeAdvancing;
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}
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inline RecordingMode_t GetRecordingMode() const
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{
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return m_RecordingMode;
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}
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void SetRecordingMode( RecordingMode_t mode )
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{
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m_RecordingMode = mode;
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}
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float GetAmountForTime( DmeTime_t curtime ) const;
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float AdjustFactorForInterpolatorType( float factor, int side ) const;
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// NOTE: See DmeTimeSelectionTimes_t for return values, 0 means before, 1= left fallof, 2=hold, 3=right falloff, 4=after
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int ComputeRegionForTime( DmeTime_t curtime ) const;
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DmeTime_t m_nTimes[ TS_TIME_COUNT ];
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int m_nFalloffInterpolatorTypes[ 2 ];
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DmeTime_t m_nResampleInterval; // Only used if m_bResampleMode is true
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float m_flIntensity; // How much to drive values toward m_HeadValue (generally 1.0f)
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float m_flThreshold;
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CDmAttribute* m_pPresetValue;
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bool m_bAttachedMode : 1; // Is the current time "attached" to the head position
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// Adds new, evenly spaced samples based on m_nResampleInterval
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// Also adds zero intensity samples at the falloff edges
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bool m_bResampleMode : 1;
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private:
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bool m_bTimeAdvancing : 1; // Has time ever been advancing
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RecordingMode_t m_RecordingMode;
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};
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class CDmeChannel;
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class CDmeChannelsClip;
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class CDmeFilmClip;
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class CDmeLog;
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class CDmeLogLayer;
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struct LayerSelectionData_t
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{
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LayerSelectionData_t();
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void Release();
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CDmeHandle< CDmeChannel > m_hChannel;
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CDmeHandle< CDmeChannelsClip > m_hOwner;
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CDmeHandle< CDmeFilmClip > m_hShot;
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CDmeHandle< CDmeLog > m_hLog;
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DmAttributeType_t m_DataType;
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int m_nDuration;
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int m_nHoldTimes[ 2 ];
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DmeTime_t m_tStartOffset;
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// This is dynamic and needs to be released
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struct DataLayer_t
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{
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DataLayer_t( float frac, CDmeLogLayer *layer );
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float m_flStartFraction;
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CDmeHandle< CDmeLogLayer, true > m_hData;
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};
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CUtlVector< DataLayer_t > m_vecData;
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};
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//-----------------------------------------------------------------------------
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// CDmeLogLayer - abstract base class
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//-----------------------------------------------------------------------------
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abstract_class CDmeLogLayer : public CDmElement
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{
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friend class CDmeLog;
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DEFINE_ELEMENT( CDmeLogLayer, CDmElement );
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public:
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virtual void CopyLayer( const CDmeLogLayer *src ) = 0;
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virtual void CopyPartialLayer( const CDmeLogLayer *src, DmeTime_t startTime, DmeTime_t endTime, bool bRebaseTimestamps ) = 0;
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virtual void ExplodeLayer( const CDmeLogLayer *src, DmeTime_t startTime, DmeTime_t endTime, bool bRebaseTimestamps, DmeTime_t tResampleInterval ) = 0;
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virtual void InsertKeyFromLayer( DmeTime_t keyTime, const CDmeLogLayer *src, DmeTime_t srcKeyTime ) = 0;
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DmeTime_t GetBeginTime() const;
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DmeTime_t GetEndTime() const;
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int GetKeyCount() const;
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// Returns the index of a key closest to this time, within tolerance
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// NOTE: Insertion or removal may change this index!
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// Returns -1 if the time isn't within tolerance.
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int FindKeyWithinTolerance( DmeTime_t time, DmeTime_t nTolerance );
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// Returns the type of attribute being logged
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virtual DmAttributeType_t GetDataType() const = 0;
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// Sets a key, removes all keys after this time
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virtual void SetKey( DmeTime_t time, const CDmAttribute *pAttr, uint index = 0, int curveType = CURVE_DEFAULT ) = 0;
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virtual bool SetDuplicateKeyAtTime( DmeTime_t time ) = 0;
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// This inserts a key using the current values to construct the proper value for the time
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virtual int InsertKeyAtTime( DmeTime_t nTime, int curveType = CURVE_DEFAULT ) = 0;
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// Sets the interpolated value of the log at the specified time into the attribute
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virtual void GetValue( DmeTime_t time, CDmAttribute *pAttr, uint index = 0 ) const = 0;
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virtual float GetComponent( DmeTime_t time, int componentIndex ) const = 0;
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// Returns the time at which a particular key occurs
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DmeTime_t GetKeyTime( int nKeyIndex ) const;
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void SetKeyTime( int nKeyIndex, DmeTime_t keyTime );
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// Scale + bias key times
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void ScaleBiasKeyTimes( double flScale, DmeTime_t nBias );
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// Removes a single key by index
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virtual void RemoveKey( int nKeyIndex, int nNumKeysToRemove = 1 ) = 0;
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// Removes all keys
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virtual void ClearKeys() = 0;
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virtual bool IsConstantValued() const = 0;
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virtual void RemoveRedundantKeys() = 0;
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virtual void RemoveRedundantKeys( float threshold ) = 0;
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// resampling and filtering
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virtual void Resample( DmeFramerate_t samplerate ) = 0;
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virtual void Filter( int nSampleRadius ) = 0;
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virtual void Filter2( DmeTime_t sampleRadius ) = 0;
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virtual void SetOwnerLog( CDmeLog *owner ) = 0;
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CDmeLog *GetOwnerLog();
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const CDmeLog *GetOwnerLog() const;
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bool IsUsingCurveTypes() const;
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int GetDefaultCurveType() const;
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// Override curvetype for specific key
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void SetKeyCurveType( int nKeyIndex, int curveType );
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int GetKeyCurveType( int nKeyIndex ) const;
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// Validates that all keys are correctly sorted in time
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bool ValidateKeys() const;
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// Removes all keys outside the specified time range
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void RemoveKeysOutsideRange( DmeTime_t tStart, DmeTime_t tEnd );
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protected:
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int FindKey( DmeTime_t time ) const;
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void OnUsingCurveTypesChanged();
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CDmeLog *m_pOwnerLog;
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mutable int m_lastKey;
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CDmaArray< int > m_times;
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CDmaArray< int > m_CurveTypes;
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};
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template< class T >
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CDmeLogLayer *CreateLayer( CDmeTypedLog< T > *ownerLog );
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//-----------------------------------------------------------------------------
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// CDmeLogLayer - abstract base class
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//-----------------------------------------------------------------------------
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abstract_class CDmeCurveInfo : public CDmElement
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{
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DEFINE_ELEMENT( CDmeCurveInfo, CDmElement );
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public:
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// Global override for all keys unless overriden by specific key
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void SetDefaultCurveType( int curveType );
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int GetDefaultCurveType() const;
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void SetMinValue( float val );
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float GetMinValue() const;
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void SetMaxValue( float val );
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float GetMaxValue() const;
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protected:
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CDmaVar< int > m_DefaultCurveType;
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CDmaVar< float > m_MinValue;
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CDmaVar< float > m_MaxValue;
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};
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template <class T > class CDmeTypedLogLayer;
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//-----------------------------------------------------------------------------
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// CDmeLog - abstract base class
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//-----------------------------------------------------------------------------
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abstract_class CDmeLog : public CDmElement
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{
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DEFINE_ELEMENT( CDmeLog, CDmElement );
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public:
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int FindLayerForTime( DmeTime_t time ) const;
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int FindLayerForTimeSkippingTopmost( DmeTime_t time ) const;
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void FindLayersForTime( DmeTime_t time, CUtlVector< int >& list ) const;
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virtual void FinishTimeSelection( DmeTime_t tHeadPosition, DmeLog_TimeSelection_t& params ) = 0; // in attached, timeadvancing mode, we need to blend out of the final sample over the fadeout interval
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virtual void StampKeyAtHead( DmeTime_t tHeadPosition, DmeTime_t tPreviousHeadPosition, const DmeLog_TimeSelection_t& params, const CDmAttribute *pAttr, uint index = 0 ) = 0;
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virtual void FilterUsingTimeSelection( IUniformRandomStream *random, float flScale, const DmeLog_TimeSelection_t& params, int filterType, bool bResample, bool bApplyFalloff, const CDmeLogLayer *baseLayer, CDmeLogLayer *writeLayer ) = 0;
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virtual void FilterUsingTimeSelection( IUniformRandomStream *random, const DmeLog_TimeSelection_t& params, int filterType, bool bResample, bool bApplyFalloff ) = 0;
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virtual void StaggerUsingTimeSelection( const DmeLog_TimeSelection_t& params, DmeTime_t tStaggerAmount, const CDmeLogLayer *baseLayer, CDmeLogLayer *writeLayer ) = 0;
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virtual void RevealUsingTimeSelection( const DmeLog_TimeSelection_t ¶ms, CDmeLogLayer *savedLayer ) = 0;
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virtual void BlendLayersUsingTimeSelection( const DmeLog_TimeSelection_t ¶ms ) = 0;
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virtual void BlendLayersUsingTimeSelection( const CDmeLogLayer *firstLayer, const CDmeLogLayer *secondLayer, CDmeLogLayer *outputLayer, const DmeLog_TimeSelection_t ¶ms, bool bUseBaseLayerSamples, DmeTime_t tStartOffset ) = 0;
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virtual void BlendTimesUsingTimeSelection( const CDmeLogLayer *firstLayer, const CDmeLogLayer *secondLayer, CDmeLogLayer *outputLayer, const DmeLog_TimeSelection_t ¶ms, DmeTime_t tStartOffset ) = 0;
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virtual void PasteAndRescaleSamples( const CDmeLogLayer *src, const DmeLog_TimeSelection_t& srcParams, const DmeLog_TimeSelection_t& destParams, bool bBlendAreaInFalloffRegion ) = 0;
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virtual void PasteAndRescaleSamples( const CDmeLogLayer *pBaseLayer, const CDmeLogLayer *pDataLayer, CDmeLogLayer *pOutputLayer, const DmeLog_TimeSelection_t& srcParams, const DmeLog_TimeSelection_t& destParams, bool bBlendAreaInFalloffRegion ) = 0;
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virtual void BuildNormalizedLayer( CDmeTypedLogLayer< float > *target ) = 0;
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virtual void BuildCorrespondingLayer( const CDmeLogLayer *pReferenceLayer, const CDmeLogLayer *pDataLayer, CDmeLogLayer *pOutputLayer ) = 0;
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int GetTopmostLayer() const;
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int GetNumLayers() const;
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CDmeLogLayer *GetLayer( int index );
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const CDmeLogLayer *GetLayer( int index ) const;
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DmeTime_t GetBeginTime() const;
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DmeTime_t GetEndTime() const;
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int GetKeyCount() const;
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bool IsEmpty() const;
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// Returns the index of a key closest to this time, within tolerance
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// NOTE: Insertion or removal may change this index!
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// Returns -1 if the time isn't within tolerance.
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virtual int FindKeyWithinTolerance( DmeTime_t time, DmeTime_t nTolerance ) = 0;
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// Returns the type of attribute being logged
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virtual DmAttributeType_t GetDataType() const = 0;
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// Sets a key, removes all keys after this time
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virtual void SetKey( DmeTime_t time, const CDmAttribute *pAttr, uint index = 0, int curveType = CURVE_DEFAULT ) = 0;
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virtual bool SetDuplicateKeyAtTime( DmeTime_t time ) = 0;
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virtual int InsertKeyAtTime( DmeTime_t nTime, int curveType = CURVE_DEFAULT ) = 0;
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// Sets the interpolated value of the log at the specified time into the attribute
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virtual void GetValue( DmeTime_t time, CDmAttribute *pAttr, uint index = 0 ) const = 0;
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virtual void GetValueSkippingTopmostLayer( DmeTime_t time, CDmAttribute *pAttr, uint index = 0 ) const = 0;
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virtual float GetComponent( DmeTime_t time, int componentIndex ) const = 0;
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// Returns the time at which a particular key occurs
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virtual DmeTime_t GetKeyTime( int nKeyIndex ) const = 0;
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virtual void SetKeyTime( int nKeyIndex, DmeTime_t keyTime ) = 0;
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// Override curvetype for specific key
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void SetKeyCurveType( int nKeyIndex, int curveType );
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int GetKeyCurveType( int nKeyIndex ) const;
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// Removes a single key by index
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virtual void RemoveKey( int nKeyIndex, int nNumKeysToRemove = 1 ) = 0;
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// Removes all keys within the time range, returns true if keys were removed
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bool RemoveKeys( DmeTime_t tStartTime, DmeTime_t tEndTime );
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// Removes all keys
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virtual void ClearKeys() = 0;
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// Scale + bias key times
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void ScaleBiasKeyTimes( double flScale, DmeTime_t nBias );
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virtual float GetValueThreshold() const = 0;
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virtual void SetValueThreshold( float thresh ) = 0;
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virtual bool IsConstantValued() const = 0;
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virtual void RemoveRedundantKeys() = 0;
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virtual void RemoveRedundantKeys( float threshold ) = 0;
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// resampling and filtering
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virtual void Resample( DmeFramerate_t samplerate ) = 0;
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virtual void Filter( int nSampleRadius ) = 0;
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virtual void Filter2( DmeTime_t sampleRadius ) = 0;
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// Creates a log of a requested type
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static CDmeLog *CreateLog( DmAttributeType_t type, DmFileId_t fileid );
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virtual CDmeLogLayer *AddNewLayer() = 0;
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enum
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{
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FLATTEN_NODISCONTINUITY_FIXUP = (1<<0), // Don't add "helper" samples to preserve discontinuities. This occurs when the time selection is "detached" from the head position
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FLATTEN_SPEW = (1<<1),
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};
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virtual void FlattenLayers( float threshold, int flags ) = 0;
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// Only used by undo system!!!
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virtual void AddLayerToTail( CDmeLogLayer *layer ) = 0;
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virtual CDmeLogLayer *RemoveLayerFromTail() = 0;
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virtual CDmeLogLayer *RemoveLayer( int iLayer ) = 0;
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// Resolve
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virtual void Resolve();
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// curve info helpers
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bool IsUsingCurveTypes() const;
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const CDmeCurveInfo *GetCurveInfo() const;
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CDmeCurveInfo *GetCurveInfo();
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virtual CDmeCurveInfo *GetOrCreateCurveInfo() = 0;
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virtual void SetCurveInfo( CDmeCurveInfo *pCurveInfo ) = 0;
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// accessors for CurveInfo data
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int GetDefaultCurveType() const;
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// FIXME - this should really be in the CurveInfo
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// but the animset editor currently asks for these, without having set a curveinfo...
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void SetMinValue( float val );
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void SetMaxValue( float val );
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float GetMinValue() const;
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float GetMaxValue() const;
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virtual bool HasDefaultValue() const = 0;
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protected:
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// int FindKey( DmeTime_t time ) const;
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void OnUsingCurveTypesChanged();
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virtual void OnAttributeChanged( CDmAttribute *pAttribute );
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CDmaElementArray< CDmeLogLayer > m_Layers;
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CDmaElement< CDmeCurveInfo > m_CurveInfo;
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};
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//-----------------------------------------------------------------------------
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// CDmeTypedCurveInfo - implementation class for all logs
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//-----------------------------------------------------------------------------
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template< class T >
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class CDmeTypedCurveInfo : public CDmeCurveInfo
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{
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DEFINE_ELEMENT( CDmeTypedCurveInfo, CDmeCurveInfo );
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public:
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// For "faceposer" style left/right edges, this controls whether interpolators try to mimic faceposer left/right edge behavior
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void SetUseEdgeInfo( bool state );
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bool IsUsingEdgeInfo() const;
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void SetEdgeInfo( int edge, bool active, const T& val, int curveType );
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void GetEdgeInfo( int edge, bool& active, T& val, int& curveType ) const;
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void SetDefaultEdgeZeroValue( const T& val );
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const T& GetDefaultEdgeZeroValue() const;
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void SetRightEdgeTime( DmeTime_t time );
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DmeTime_t GetRightEdgeTime() const;
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bool IsEdgeActive( int edge ) const;
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void GetEdgeValue( int edge, T& value ) const;
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int GetEdgeCurveType( int edge ) const;
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void GetZeroValue( int side, T& val ) const;
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protected:
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CDmaVar< bool > m_bUseEdgeInfo;
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// Array of 2 for left/right edges...
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CDmaVar< bool > m_bEdgeActive[ 2 ];
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CDmaVar< T > m_EdgeValue[ 2 ];
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CDmaVar< int > m_EdgeCurveType[ 2 ];
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CDmaVar< int > m_RightEdgeTime;
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CDmaVar< T > m_DefaultEdgeValue;
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};
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// forward declaration
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template< class T > class CDmeTypedLog;
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//-----------------------------------------------------------------------------
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// CDmeTypedLogLayer - implementation class for all logs
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//-----------------------------------------------------------------------------
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template< class T >
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class CDmeTypedLogLayer : public CDmeLogLayer
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{
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DEFINE_ELEMENT( CDmeTypedLogLayer, CDmeLogLayer );
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public:
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virtual void CopyLayer( const CDmeLogLayer *src );
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virtual void CopyPartialLayer( const CDmeLogLayer *src, DmeTime_t startTime, DmeTime_t endTime, bool bRebaseTimestamps );
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virtual void ExplodeLayer( const CDmeLogLayer *src, DmeTime_t startTime, DmeTime_t endTime, bool bRebaseTimestamps, DmeTime_t tResampleInterval );
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virtual void InsertKeyFromLayer( DmeTime_t keyTime, const CDmeLogLayer *src, DmeTime_t srcKeyTime );
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// Finds a key within tolerance, or adds one. Unlike SetKey, this will *not* delete keys after the specified time
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int FindOrAddKey( DmeTime_t nTime, DmeTime_t nTolerance, const T& value, int curveType = CURVE_DEFAULT );
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// Sets a key, removes all keys after this time
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void SetKey( DmeTime_t time, const T& value, int curveType = CURVE_DEFAULT );
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// This inserts a key using the current values to construct the proper value for the time
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virtual int InsertKeyAtTime( DmeTime_t nTime, int curveType = CURVE_DEFAULT );
|
|
|
|
void SetKeyValue( int nKey, const T& value );
|
|
|
|
const T& GetValue( DmeTime_t time ) const;
|
|
|
|
const T& GetKeyValue( int nKeyIndex ) const;
|
|
const T& GetValueSkippingKey( int nKeyToSkip ) const;
|
|
|
|
// This inserts a key. Unlike SetKey, this will *not* delete keys after the specified time
|
|
int InsertKey( DmeTime_t nTime, const T& value, int curveType = CURVE_DEFAULT );
|
|
|
|
// inherited from CDmeLog
|
|
virtual void ClearKeys();
|
|
virtual void SetKey( DmeTime_t time, const CDmAttribute *pAttr, uint index = 0, int curveType = CURVE_DEFAULT );
|
|
virtual bool SetDuplicateKeyAtTime( DmeTime_t time );
|
|
virtual void GetValue( DmeTime_t time, CDmAttribute *pAttr, uint index = 0 ) const;
|
|
virtual float GetComponent( DmeTime_t time, int componentIndex ) const;
|
|
virtual DmAttributeType_t GetDataType() const;
|
|
virtual bool IsConstantValued() const;
|
|
virtual void RemoveRedundantKeys();
|
|
virtual void RemoveRedundantKeys( float threshold );
|
|
|
|
virtual void RemoveKey( int nKeyIndex, int nNumKeysToRemove = 1 );
|
|
virtual void Resample( DmeFramerate_t samplerate );
|
|
virtual void Filter( int nSampleRadius );
|
|
virtual void Filter2( DmeTime_t sampleRadius );
|
|
|
|
void RemoveKeys( DmeTime_t starttime );
|
|
|
|
// curve info helpers
|
|
const CDmeTypedCurveInfo< T > *GetTypedCurveInfo() const;
|
|
CDmeTypedCurveInfo< T > *GetTypedCurveInfo();
|
|
|
|
bool IsUsingEdgeInfo() const;
|
|
void GetEdgeInfo( int edge, bool& active, T& val, int& curveType ) const;
|
|
const T& GetDefaultEdgeZeroValue() const;
|
|
DmeTime_t GetRightEdgeTime() const;
|
|
|
|
void SetOwnerLog( CDmeLog *owner );
|
|
|
|
CDmeTypedLog< T > *GetTypedOwnerLog();
|
|
const CDmeTypedLog< T > *GetTypedOwnerLog() const;
|
|
|
|
protected:
|
|
|
|
int GetEdgeCurveType( int edge ) const;
|
|
void GetZeroValue( int side, T& val ) const;
|
|
|
|
void GetValueUsingCurveInfo( DmeTime_t time, T& out ) const;
|
|
void GetValueUsingCurveInfoSkippingKey( int nKeyToSkip, T& out ) const;
|
|
void GetBoundedSample( int keyindex, DmeTime_t& time, T& val, int& curveType ) const;
|
|
|
|
void CurveSimplify_R( float thresholdSqr, int startPoint, int endPoint, CDmeTypedLogLayer< T > *output );
|
|
|
|
friend CDmeTypedLog< T >;
|
|
|
|
protected:
|
|
CDmaArray< T > m_values;
|
|
};
|
|
|
|
|
|
//-----------------------------------------------------------------------------
|
|
// CDmeTypedLog - implementation class for all logs
|
|
//-----------------------------------------------------------------------------
|
|
template< class T >
|
|
class CDmeTypedLog : public CDmeLog
|
|
{
|
|
DEFINE_ELEMENT( CDmeTypedLog, CDmeLog );
|
|
|
|
public:
|
|
|
|
virtual void OnAttributeArrayElementAdded( CDmAttribute *pAttribute, int nFirstElem, int nLastElem );
|
|
|
|
CDmeTypedLogLayer< T > *GetLayer( int index );
|
|
const CDmeTypedLogLayer< T > *GetLayer( int index ) const;
|
|
|
|
void StampKeyAtHead( DmeTime_t tHeadPosition, DmeTime_t tPreviousHeadPosition, const DmeLog_TimeSelection_t& params, const T& value );
|
|
void StampKeyAtHead( DmeTime_t tHeadPosition, DmeTime_t tPreviousHeadPosition, const DmeLog_TimeSelection_t& params, const CDmAttribute *pAttr, uint index = 0 );
|
|
void FinishTimeSelection( DmeTime_t tHeadPosition, DmeLog_TimeSelection_t& params ); // in attached, timeadvancing mode, we need to blend out of the final sample over the fadeout interval
|
|
void FilterUsingTimeSelection( IUniformRandomStream *random, float flScale, const DmeLog_TimeSelection_t& params, int filterType, bool bResample, bool bApplyFalloff, const CDmeLogLayer *baseLayer, CDmeLogLayer *writeLayer );
|
|
void FilterUsingTimeSelection( IUniformRandomStream *random, const DmeLog_TimeSelection_t& params, int filterType, bool bResample, bool bApplyFalloff );
|
|
void StaggerUsingTimeSelection( const DmeLog_TimeSelection_t& params, DmeTime_t tStaggerAmount, const CDmeLogLayer *baseLayer, CDmeLogLayer *writeLayer );
|
|
void RevealUsingTimeSelection( const DmeLog_TimeSelection_t ¶ms, CDmeLogLayer *savedLayer );
|
|
void BlendLayersUsingTimeSelection( const DmeLog_TimeSelection_t ¶ms );
|
|
void BlendLayersUsingTimeSelection( const CDmeLogLayer *firstLayer, const CDmeLogLayer *secondLayer, CDmeLogLayer *outputLayer, const DmeLog_TimeSelection_t ¶ms, bool bUseBaseLayerSamples, DmeTime_t tStartOffset );
|
|
void BlendTimesUsingTimeSelection( const CDmeLogLayer *firstLayer, const CDmeLogLayer *secondLayer, CDmeLogLayer *outputLayer, const DmeLog_TimeSelection_t ¶ms, DmeTime_t tStartOffset );
|
|
|
|
virtual void PasteAndRescaleSamples( const CDmeLogLayer *src, const DmeLog_TimeSelection_t& srcParams, const DmeLog_TimeSelection_t& destParams, bool bBlendAreaInFalloffRegion );
|
|
virtual void PasteAndRescaleSamples( const CDmeLogLayer *pBaseLayer, const CDmeLogLayer *pDataLayer, CDmeLogLayer *pOutputLayer, const DmeLog_TimeSelection_t& srcParams, const DmeLog_TimeSelection_t& destParams, bool bBlendAreaInFalloffRegion );
|
|
virtual void BuildCorrespondingLayer( const CDmeLogLayer *pReferenceLayer, const CDmeLogLayer *pDataLayer, CDmeLogLayer *pOutputLayer );
|
|
|
|
virtual void BuildNormalizedLayer( CDmeTypedLogLayer< float > *target );
|
|
|
|
// Finds a key within tolerance, or adds one. Unlike SetKey, this will *not* delete keys after the specified time
|
|
int FindOrAddKey( DmeTime_t nTime, DmeTime_t nTolerance, const T& value, int curveType = CURVE_DEFAULT );
|
|
|
|
// Sets a key, removes all keys after this time
|
|
void SetKey( DmeTime_t time, const T& value, int curveType = CURVE_DEFAULT );
|
|
int InsertKeyAtTime( DmeTime_t nTime, int curveType = CURVE_DEFAULT );
|
|
bool ValuesDiffer( const T& a, const T& b ) const;
|
|
const T& GetValue( DmeTime_t time ) const;
|
|
const T& GetValueSkippingTopmostLayer( DmeTime_t time ) const;
|
|
|
|
const T& GetKeyValue( int nKeyIndex ) const;
|
|
|
|
// This inserts a key. Unlike SetKey, this will *not* delete keys after the specified time
|
|
int InsertKey( DmeTime_t nTime, const T& value, int curveType = CURVE_DEFAULT );
|
|
|
|
// inherited from CDmeLog
|
|
virtual void ClearKeys();
|
|
virtual void SetKey( DmeTime_t time, const CDmAttribute *pAttr, uint index = 0, int curveType = CURVE_DEFAULT );
|
|
virtual bool SetDuplicateKeyAtTime( DmeTime_t time );
|
|
virtual void GetValue( DmeTime_t time, CDmAttribute *pAttr, uint index = 0 ) const;
|
|
virtual void GetValueSkippingTopmostLayer( DmeTime_t time, CDmAttribute *pAttr, uint index = 0 ) const;
|
|
virtual float GetComponent( DmeTime_t time, int componentIndex ) const;
|
|
virtual DmAttributeType_t GetDataType() const;
|
|
virtual float GetValueThreshold() const { return m_threshold; }
|
|
virtual void SetValueThreshold( float thresh );
|
|
virtual bool IsConstantValued() const;
|
|
virtual void RemoveRedundantKeys();
|
|
virtual void RemoveRedundantKeys( float threshold );
|
|
virtual void RemoveKey( int nKeyIndex, int nNumKeysToRemove = 1 );
|
|
virtual void Resample( DmeFramerate_t samplerate );
|
|
virtual void Filter( int nSampleRadius );
|
|
virtual void Filter2( DmeTime_t sampleRadius );
|
|
|
|
virtual int FindKeyWithinTolerance( DmeTime_t time, DmeTime_t nTolerance );
|
|
virtual DmeTime_t GetKeyTime( int nKeyIndex ) const;
|
|
virtual void SetKeyTime( int nKeyIndex, DmeTime_t keyTime );
|
|
|
|
virtual CDmeLogLayer *AddNewLayer();
|
|
virtual void FlattenLayers( float threshhold, int flags );
|
|
|
|
// Only used by undo system!!!
|
|
virtual void AddLayerToTail( CDmeLogLayer *layer );
|
|
virtual CDmeLogLayer *RemoveLayerFromTail();
|
|
virtual CDmeLogLayer *RemoveLayer( int iLayer );
|
|
|
|
// curve info helpers
|
|
const CDmeTypedCurveInfo< T > *GetTypedCurveInfo() const;
|
|
CDmeTypedCurveInfo< T > *GetTypedCurveInfo();
|
|
virtual CDmeCurveInfo *GetOrCreateCurveInfo();
|
|
virtual void SetCurveInfo( CDmeCurveInfo *pCurveInfo );
|
|
|
|
// For "faceposer" style left/right edges, this controls whether interpolators try to mimic faceposer left/right edge behavior
|
|
void SetUseEdgeInfo( bool state );
|
|
bool IsUsingEdgeInfo() const;
|
|
|
|
void SetEdgeInfo( int edge, bool active, const T& val, int curveType );
|
|
void GetEdgeInfo( int edge, bool& active, T& val, int& curveType ) const;
|
|
|
|
void SetDefaultEdgeZeroValue( const T& val );
|
|
const T& GetDefaultEdgeZeroValue() const;
|
|
|
|
void SetRightEdgeTime( DmeTime_t time );
|
|
DmeTime_t GetRightEdgeTime() const;
|
|
|
|
bool IsEdgeActive( int edge ) const;
|
|
void GetEdgeValue( int edge, T& value ) const;
|
|
|
|
int GetEdgeCurveType( int edge ) const;
|
|
void GetZeroValue( int side, T& val ) const;
|
|
|
|
T ClampValue( const T& value );
|
|
|
|
void SetDefaultValue( const T& value );
|
|
const T& GetDefaultValue() const;
|
|
bool HasDefaultValue() const;
|
|
void ClearDefaultValue();
|
|
|
|
static void SetDefaultValueThreshold( float thresh );
|
|
static float GetDefaultValueThreshold();
|
|
|
|
static float s_defaultThreshold;
|
|
|
|
protected:
|
|
void RemoveKeys( DmeTime_t starttime );
|
|
|
|
void _StampKeyAtHeadResample( DmeTime_t tHeadPosition, const DmeLog_TimeSelection_t & params, const T& value, bool bSkipToHead, bool bClearPreviousKeys );
|
|
void _StampKeyAtHeadFilteredByTimeSelection( DmeTime_t tHeadPosition, DmeTime_t tPreviousHeadPosition, const DmeLog_TimeSelection_t & params, const T& value );
|
|
void _StampKeyFilteredByTimeSelection( CDmeTypedLogLayer< T > *pWriteLayer, DmeTime_t t, const DmeLog_TimeSelection_t ¶ms, const T& value, bool bForce = false );
|
|
|
|
protected:
|
|
// this really only makes sense for some of our subclasses, basically those which have float data
|
|
// anything else's threshhold is almost certainly 0, and that class just ignores m_threshold
|
|
float m_threshold;
|
|
|
|
CDmaVar< bool > m_UseDefaultValue;
|
|
CDmaVar< T > m_DefaultValue;
|
|
};
|
|
|
|
|
|
//-----------------------------------------------------------------------------
|
|
// Template methods
|
|
//-----------------------------------------------------------------------------
|
|
template< class T >
|
|
DmAttributeType_t CDmeTypedLogLayer<T>::GetDataType() const
|
|
{
|
|
return CDmAttributeInfo< T >::AttributeType();
|
|
}
|
|
|
|
template< class T >
|
|
bool CDmeTypedLogLayer<T>::IsConstantValued() const
|
|
{
|
|
if ( m_values.Count() < 2 )
|
|
return true;
|
|
|
|
if ( m_values.Count() == 2 && !GetTypedOwnerLog()->ValuesDiffer( m_values[ 0 ], m_values[ 1 ] ) )
|
|
return true;
|
|
|
|
// we're throwing away duplicate values during recording, so this is generally correct
|
|
// although there are paths to set keys that don't use the duplicate test, so it's not 100%
|
|
return false;
|
|
}
|
|
|
|
//-----------------------------------------------------------------------------
|
|
// Template methods
|
|
//-----------------------------------------------------------------------------
|
|
template< class T >
|
|
DmAttributeType_t CDmeTypedLog<T>::GetDataType() const
|
|
{
|
|
return CDmAttributeInfo< T >::AttributeType();
|
|
}
|
|
|
|
template< class T >
|
|
void CDmeTypedLog<T>::SetDefaultValueThreshold( float thresh )
|
|
{
|
|
s_defaultThreshold = thresh;
|
|
}
|
|
|
|
template< class T >
|
|
float CDmeTypedLog<T>::GetDefaultValueThreshold()
|
|
{
|
|
return s_defaultThreshold;
|
|
}
|
|
|
|
template< class T >
|
|
void CDmeTypedLog<T>::SetValueThreshold( float thresh )
|
|
{
|
|
m_threshold = thresh;
|
|
}
|
|
|
|
template< class T >
|
|
bool CDmeTypedLog<T>::IsConstantValued() const
|
|
{
|
|
int c = m_Layers.Count();
|
|
for ( int i = 0; i < c; ++i )
|
|
{
|
|
if ( !GetLayer( i )->IsConstantValued() )
|
|
return false;
|
|
}
|
|
|
|
return true;
|
|
}
|
|
|
|
template< class T >
|
|
void CDmeTypedLog<T>::RemoveRedundantKeys()
|
|
{
|
|
int bestLayer = GetTopmostLayer();
|
|
if ( bestLayer < 0 )
|
|
return;
|
|
|
|
GetLayer( bestLayer )->RemoveRedundantKeys();
|
|
}
|
|
|
|
template< class T >
|
|
inline float Normalize( const T& val )
|
|
{
|
|
Assert( 0 );
|
|
return 0.5f;
|
|
}
|
|
|
|
// AT_INT
|
|
// AT_FLOAT
|
|
// AT_VECTOR*
|
|
|
|
template<>
|
|
inline float Normalize( const bool& val )
|
|
{
|
|
return val ? 1.0f : 0.0f;
|
|
}
|
|
|
|
template<>
|
|
inline float Normalize( const Color& val )
|
|
{
|
|
float sum = 0.0f;
|
|
for ( int i = 0 ; i < 4; ++i )
|
|
{
|
|
sum += val[ i ];
|
|
}
|
|
sum /= 4.0f;
|
|
return clamp( sum / 255.0f, 0.0f, 1.0f );
|
|
}
|
|
|
|
template<>
|
|
inline float Normalize( const QAngle& val )
|
|
{
|
|
float sum = 0.0f;
|
|
for ( int i = 0 ; i < 3; ++i )
|
|
{
|
|
float ang = val[ i ];
|
|
if ( ang < 0.0f )
|
|
{
|
|
ang += 360.0f;
|
|
}
|
|
|
|
sum += ang;
|
|
}
|
|
return clamp( ( sum / 3.0f ) / 360.0f, 0.0f, 1.0f );
|
|
}
|
|
|
|
template<>
|
|
inline float Normalize( const Quaternion& val )
|
|
{
|
|
QAngle angle;
|
|
QuaternionAngles( val, angle );
|
|
return Normalize( angle );
|
|
}
|
|
|
|
template< class T >
|
|
inline void CDmeTypedLog< T >::BuildNormalizedLayer( CDmeTypedLogLayer< float > *pTarget )
|
|
{
|
|
Assert( pTarget );
|
|
Assert( GetDataType() != AT_FLOAT );
|
|
|
|
CDmeTypedLogLayer< T > *pBaseLayer = static_cast< CDmeTypedLogLayer< T > * >( GetLayer( 0 ) );
|
|
if ( !pBaseLayer )
|
|
return;
|
|
|
|
int kc = pBaseLayer->GetKeyCount();
|
|
for ( int i = 0; i < kc; ++i )
|
|
{
|
|
DmeTime_t tKeyTime = pBaseLayer->GetKeyTime( i );
|
|
T keyValue = pBaseLayer->GetKeyValue( i );
|
|
float flNormalized = Normalize( keyValue );
|
|
|
|
pTarget->InsertKey( tKeyTime, flNormalized );
|
|
}
|
|
|
|
if ( HasDefaultValue() )
|
|
{
|
|
pTarget->GetTypedOwnerLog()->SetDefaultValue( Normalize( GetDefaultValue() ) );
|
|
}
|
|
}
|
|
|
|
// Generic implementations all stubbed
|
|
// Forward declare specific typed instantiations for float types
|
|
|
|
template< class T > T CDmeTypedLog< T >::ClampValue( const T& value ) { return value; }
|
|
template<> float CDmeTypedLog< float >::ClampValue( const float& value );
|
|
|
|
|
|
template< class T > void CDmeTypedCurveInfo< T >::GetZeroValue( int side, T& val ) const{ Assert( 0 ); }
|
|
template< class T > bool CDmeTypedCurveInfo< T >::IsEdgeActive( int edge ) const{ Assert( 0 ); return false; }
|
|
template< class T > void CDmeTypedCurveInfo< T >::GetEdgeValue( int edge, T &value ) const{ Assert( 0 ); }
|
|
|
|
template<> void CDmeTypedCurveInfo< float >::GetZeroValue( int side, float& val ) const;
|
|
template<> bool CDmeTypedCurveInfo< float >::IsEdgeActive( int edge ) const;
|
|
template<> void CDmeTypedCurveInfo< float >::GetEdgeValue( int edge, float &value ) const;
|
|
|
|
template<> void CDmeTypedCurveInfo< Vector >::GetZeroValue( int side, Vector& val ) const;
|
|
template<> void CDmeTypedCurveInfo< Quaternion >::GetZeroValue( int side, Quaternion& val ) const;
|
|
|
|
template< class T > void CDmeTypedLogLayer< T >::GetValueUsingCurveInfo( DmeTime_t time, T& out ) const { Assert( 0 ); }
|
|
template< class T > void CDmeTypedLogLayer< T >::GetValueUsingCurveInfoSkippingKey( int nKeyToSkip, T& out ) const { Assert( 0 ); }
|
|
template<> void CDmeTypedLogLayer< float >::GetValueUsingCurveInfo( DmeTime_t time, float& out ) const;
|
|
template<> void CDmeTypedLogLayer< float >::GetValueUsingCurveInfoSkippingKey( int nKeyToSkip, float& out ) const;
|
|
|
|
template<> void CDmeTypedLogLayer< Vector >::GetValueUsingCurveInfo( DmeTime_t time, Vector& out ) const;
|
|
template<> void CDmeTypedLogLayer< Vector >::GetValueUsingCurveInfoSkippingKey( int nKeyToSkip, Vector& out ) const;
|
|
|
|
template<> void CDmeTypedLogLayer< Quaternion >::GetValueUsingCurveInfo( DmeTime_t time, Quaternion& out ) const;
|
|
template<> void CDmeTypedLogLayer< Quaternion >::GetValueUsingCurveInfoSkippingKey( int nKeyToSkip, Quaternion& out ) const;
|
|
|
|
template<class T> void CDmeTypedLogLayer< T >::CurveSimplify_R( float thresholdSqr, int startPoint, int endPoint, CDmeTypedLogLayer< T > *output );
|
|
template<> void CDmeTypedLogLayer< bool >::CurveSimplify_R( float thresholdSqr, int startPoint, int endPoint, CDmeTypedLogLayer< bool > *output );
|
|
template<> void CDmeTypedLogLayer< int >::CurveSimplify_R( float thresholdSqr, int startPoint, int endPoint, CDmeTypedLogLayer< int > *output );
|
|
template<> void CDmeTypedLogLayer< Color >::CurveSimplify_R( float thresholdSqr, int startPoint, int endPoint, CDmeTypedLogLayer< Color > *output );
|
|
template<> void CDmeTypedLogLayer< Quaternion >::CurveSimplify_R( float thresholdSqr, int startPoint, int endPoint, CDmeTypedLogLayer< Quaternion > *output );
|
|
template<> void CDmeTypedLogLayer< VMatrix >::CurveSimplify_R( float thresholdSqr, int startPoint, int endPoint, CDmeTypedLogLayer< VMatrix > *output );
|
|
|
|
template<> void CDmeTypedLog< Vector >::BuildNormalizedLayer( CDmeTypedLogLayer< float > *target );
|
|
template<> void CDmeTypedLog< Vector2D >::BuildNormalizedLayer( CDmeTypedLogLayer< float > *target );
|
|
template<> void CDmeTypedLog< Vector4D >::BuildNormalizedLayer( CDmeTypedLogLayer< float > *target );
|
|
template<> void CDmeTypedLog< float >::BuildNormalizedLayer( CDmeTypedLogLayer< float > *target );
|
|
template<> void CDmeTypedLog< int >::BuildNormalizedLayer( CDmeTypedLogLayer< float > *target );
|
|
|
|
//template<> void CDmeTypedLog< float >::FinishTimeSelection( DmeTime_t tHeadPosition, DmeLog_TimeSelection_t& params );
|
|
//template<> void CDmeTypedLog< bool >::_StampKeyAtHeadResample( const DmeLog_TimeSelection_t& params, const bool& value ) { Assert( 0 ); }
|
|
|
|
//-----------------------------------------------------------------------------
|
|
// typedefs for convenience (and so the user-supplied names match the programmer names)
|
|
//-----------------------------------------------------------------------------
|
|
typedef CDmeTypedLog<int> CDmeIntLog;
|
|
typedef CDmeTypedLog<float> CDmeFloatLog;
|
|
typedef CDmeTypedLog<bool> CDmeBoolLog;
|
|
typedef CDmeTypedLog<Color> CDmeColorLog;
|
|
typedef CDmeTypedLog<Vector2D> CDmeVector2Log;
|
|
typedef CDmeTypedLog<Vector> CDmeVector3Log;
|
|
typedef CDmeTypedLog<Vector4D> CDmeVector4Log;
|
|
typedef CDmeTypedLog<QAngle> CDmeQAngleLog;
|
|
typedef CDmeTypedLog<Quaternion> CDmeQuaternionLog;
|
|
typedef CDmeTypedLog<VMatrix> CDmeVMatrixLog;
|
|
typedef CDmeTypedLog<CUtlString> CDmeStringLog;
|
|
|
|
//-----------------------------------------------------------------------------
|
|
// typedefs for convenience (and so the user-supplied names match the programmer names)
|
|
//-----------------------------------------------------------------------------
|
|
typedef CDmeTypedLogLayer<int> CDmeIntLogLayer;
|
|
typedef CDmeTypedLogLayer<float> CDmeFloatLogLayer;
|
|
typedef CDmeTypedLogLayer<bool> CDmeBoolLogLayer;
|
|
typedef CDmeTypedLogLayer<Color> CDmeColorLogLayer;
|
|
typedef CDmeTypedLogLayer<Vector2D> CDmeVector2LogLayer;
|
|
typedef CDmeTypedLogLayer<Vector> CDmeVector3LogLayer;
|
|
typedef CDmeTypedLogLayer<Vector4D> CDmeVector4LogLayer;
|
|
typedef CDmeTypedLogLayer<QAngle> CDmeQAngleLogLayer;
|
|
typedef CDmeTypedLogLayer<Quaternion> CDmeQuaternionLogLayer;
|
|
typedef CDmeTypedLogLayer<VMatrix> CDmeVMatrixLogLayer;
|
|
typedef CDmeTypedLogLayer<CUtlString> CDmeStringLogLayer;
|
|
|
|
//-----------------------------------------------------------------------------
|
|
// typedefs for convenience (and so the user-supplied names match the programmer names)
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//-----------------------------------------------------------------------------
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typedef CDmeTypedCurveInfo<int> CDmeIntCurveInfo;
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typedef CDmeTypedCurveInfo<float> CDmeFloatCurveInfo;
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typedef CDmeTypedCurveInfo<bool> CDmeBoolCurveInfo;
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typedef CDmeTypedCurveInfo<Color> CDmeColorCurveInfo;
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typedef CDmeTypedCurveInfo<Vector2D> CDmeVector2CurveInfo;
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typedef CDmeTypedCurveInfo<Vector> CDmeVector3CurveInfo;
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typedef CDmeTypedCurveInfo<Vector4D> CDmeVector4CurveInfo;
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typedef CDmeTypedCurveInfo<QAngle> CDmeQAngleCurveInfo;
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typedef CDmeTypedCurveInfo<Quaternion> CDmeQuaternionCurveInfo;
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typedef CDmeTypedCurveInfo<VMatrix> CDmeVMatrixCurveInfo;
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typedef CDmeTypedCurveInfo<CUtlString> CDmeStringCurveInfo;
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// the following types are not supported
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// AT_ELEMENT,
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// AT_VOID,
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// AT_OBJECTID,
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// <all array types>
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//-----------------------------------------------------------------------------
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// Helpers for particular types of log layers
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//-----------------------------------------------------------------------------
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void GenerateRotationLog( CDmeQuaternionLogLayer *pLayer, const Vector &vecAxis, DmeTime_t pTime[4], float pRevolutionsPerSec[4] );
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// rotates a position log
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void RotatePositionLog( CDmeVector3LogLayer *pPositionLog, const matrix3x4_t& matrix );
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// rotates an orientation log
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void RotateOrientationLog( CDmeQuaternionLogLayer *pOrientationLog, const matrix3x4_t& matrix, bool bPreMultiply );
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#endif // DMELOG_H
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