Team Fortress 2 Source Code as on 22/4/2020
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//========= Copyright Valve Corporation, All rights reserved. ============//
//
// The channel class - connects elements together, and allows for logging of data
//
//=============================================================================
#ifndef DMECHANNEL_H
#define DMECHANNEL_H
#ifdef _WIN32
#pragma once
#endif
#include "movieobjects/dmeoperator.h"
#include "movieobjects/dmelog.h"
#include "movieobjects/dmeclip.h"
#include "movieobjects/proceduralpresets.h"
#include "datamodel/idatamodel.h"
#include "datamodel/dmehandle.h"
//-----------------------------------------------------------------------------
// Forward declarations
//-----------------------------------------------------------------------------
class CDmeClip;
class CDmeChannel;
//-----------------------------------------------------------------------------
// different channel modes of operation
//-----------------------------------------------------------------------------
enum ChannelMode_t
{
CM_OFF,
CM_PASS,
CM_RECORD,
CM_PLAY,
};
enum PlayMode_t
{
PM_HOLD,
PM_LOOP,
};
//-----------------------------------------------------------------------------
// A class managing channel recording
//-----------------------------------------------------------------------------
class CDmeChannelRecordingMgr
{
public:
// constructor
CDmeChannelRecordingMgr();
// Activates, deactivates layer recording.
void StartLayerRecording( const char *pUndoRedoDesc, const DmeLog_TimeSelection_t *pTimeSelection = NULL );
void FinishLayerRecording( float flThreshold, bool bFlattenLayers = true );
// Adds a channel to the recording layer
void AddChannelToRecordingLayer( CDmeChannel *pChannel, CDmeClip *pRoot = NULL, CDmeClip *pShot = NULL );
// Used to iterate over all channels currently being recorded
// NOTE: Use CDmeChannel::AddToRecordingLayer to add a channel to the recording layer
int GetLayerRecordingChannelCount();
CDmeChannel* GetLayerRecordingChannel( int nIndex );
// Computes time selection info in log time for a particular recorded channel
// NOTE: Only valid if IsUsingTimeSelection() returns true
void GetLocalTimeSelection( DmeLog_TimeSelection_t& selection, int nIndex );
// Methods which control various aspects of recording
void UpdateTimeAdvancing( bool bPaused, DmeTime_t tCurTime );
void UpdateRecordingTimeSelectionTimes( const DmeLog_TimeSelection_t& timeSelection );
void SetIntensityOnAllLayers( float flIntensity );
void SetRecordingMode( RecordingMode_t mode );
void SetPresetValue( CDmeChannel* pChannel, CDmAttribute *pPresetValue );
void SetProceduralTarget( int nProceduralMode, const CDmAttribute *pTarget );
void SetProceduralTarget( int nProceduralMode, const CUtlVector< KeyValues * >& list );
int GetProceduralType() const;
const CDmAttribute *GetProceduralTarget() const;
const CUtlVector< KeyValues * > &GetPasteTarget() const;
// Methods to query aspects of recording
bool IsTimeAdvancing() const;
bool IsUsingDetachedTimeSelection() const;
bool IsUsingTimeSelection() const;
private:
struct LayerChannelInfo_t
{
LayerChannelInfo_t() : m_pPresetValue( 0 ) {}
CDmeHandle< CDmeChannel > m_Channel;
DmeClipStack_t m_ClipStack;
CDmAttribute* m_pPresetValue;
};
// Methods available for CDmeChannel
bool ShouldRecordUsingTimeSelection() const;
// Internal methods
void FlattenLayers( float flThreshhold );
void RemoveAllChannelsFromRecordingLayer( );
bool m_bActive : 1;
bool m_bSavedUndoState : 1;
bool m_bUseTimeSelection : 1;
CUtlVector< LayerChannelInfo_t > m_LayerChannels;
DmeLog_TimeSelection_t m_TimeSelection;
int m_nRevealType;
const CDmAttribute *m_pRevealTarget;
CUtlVector< KeyValues * > m_PasteTarget;
friend CDmeChannel;
};
// Singleton
extern CDmeChannelRecordingMgr *g_pChannelRecordingMgr;
//-----------------------------------------------------------------------------
// A class representing a channel
//-----------------------------------------------------------------------------
class CDmeChannel : public CDmeOperator
{
DEFINE_ELEMENT( CDmeChannel, CDmeOperator );
public:
virtual bool IsDirty(); // ie needs to operate
virtual void Operate();
virtual void GetInputAttributes ( CUtlVector< CDmAttribute * > &attrs );
virtual void GetOutputAttributes( CUtlVector< CDmAttribute * > &attrs );
void SetInput ( CDmElement* pElement, const char* pAttribute, int index = 0 );
void SetOutput( CDmElement* pElement, const char* pAttribute, int index = 0 );
void SetInput( CDmAttribute *pAttribute, int index = 0 );
void SetOutput( CDmAttribute *pAttribute, int index = 0 );
CDmElement *GetFromElement() const;
CDmElement *GetToElement() const;
CDmAttribute *GetFromAttribute();
CDmAttribute *GetToAttribute();
int GetFromArrayIndex() const;
int GetToArrayIndex() const;
ChannelMode_t GetMode();
void SetMode( ChannelMode_t mode );
void ClearLog();
CDmeLog *GetLog();
void SetLog( CDmeLog *pLog );
CDmeLog *CreateLog( DmAttributeType_t type );
template < class T > CDmeTypedLog<T> *CreateLog();
void ClearTimeMetric();
void SetCurrentTime( DmeTime_t time, DmeTime_t start, DmeTime_t end );
void SetCurrentTime( DmeTime_t time ); // Simple version. Only works if multiple active channels clips do not reference the same channels
DmeTime_t GetCurrentTime() const;
void SetChannelToPlayToSelf( const char *outputAttributeName, float defaultValue, bool force = false );
// need this until we have the EditApply message queue
void OnAttributeChanged( CDmAttribute *pAttribute );
template< class T >
bool GetCurrentPlaybackValue( T& value );
template< class T >
bool GetPlaybackValueAtTime( DmeTime_t time, T& value );
void Play();
void SetNextKeyCurveType( int nCurveType );
// Builds a clip stack for the channel
CDmeClip* FindOwnerClipForChannel( CDmeClip *pRoot );
bool BuildClipStack( DmeClipStack_t *pClipStack, CDmeClip *pRoot, CDmeClip *pShot );
protected:
// Used to cache off handles to attributes
CDmAttribute* SetupFromAttribute();
CDmAttribute* SetupToAttribute();
void Record();
void Pass();
CDmaElement< CDmElement > m_fromElement;
CDmaString m_fromAttribute;
CDmaVar< int > m_fromIndex;
CDmaElement< CDmElement > m_toElement;
CDmaString m_toAttribute;
CDmaVar< int > m_toIndex;
CDmaVar< int > m_mode;
CDmaElement< CDmeLog > m_log;
DmAttributeHandle_t m_FromAttributeHandle;
DmAttributeHandle_t m_ToAttributeHandle;
DmeTime_t m_timeOutsideTimeframe;
DmeTime_t m_tCurrentTime;
DmeTime_t m_tPreviousTime;
int m_nRecordLayerIndex;
int m_nNextCurveType;
friend class CDmeChannelRecordingMgr;
};
//-----------------------------------------------------------------------------
// Inline methods
//-----------------------------------------------------------------------------
template < class T >
inline CDmeTypedLog<T> *CDmeChannel::CreateLog()
{
return CastElement< CDmeTypedLog<T> >( CreateLog( CDmAttributeInfo<T>::AttributeType() ) );
}
inline CDmAttribute *CDmeChannel::GetFromAttribute()
{
CDmAttribute *pAttribute = g_pDataModel->GetAttribute( m_FromAttributeHandle );
if ( !pAttribute )
{
pAttribute = SetupFromAttribute();
}
return pAttribute;
}
inline CDmAttribute *CDmeChannel::GetToAttribute()
{
CDmAttribute *pAttribute = g_pDataModel->GetAttribute( m_ToAttributeHandle );
if ( !pAttribute )
{
pAttribute = SetupToAttribute();
}
return pAttribute;
}
template< class T >
inline bool CDmeChannel::GetPlaybackValueAtTime( DmeTime_t time, T& value )
{
CDmeTypedLog< T > *pLog = CastElement< CDmeTypedLog< T > >( GetLog() );
if ( !pLog || pLog->IsEmpty() )
return false;
DmeTime_t t0 = pLog->GetBeginTime();
DmeTime_t tn = pLog->GetEndTime();
PlayMode_t pmode = PM_HOLD;
switch ( pmode )
{
case PM_HOLD:
time = clamp( time, t0, tn );
break;
case PM_LOOP:
if ( tn == t0 )
{
time = t0;
}
else
{
time -= t0;
time = time % ( tn - t0 );
time += t0;
}
break;
}
value = pLog->GetValue( time );
return true;
}
template< class T >
inline bool CDmeChannel::GetCurrentPlaybackValue( T& value )
{
return GetPlaybackValueAtTime( GetCurrentTime(), value );
}
#endif // DMECHANNEL_H