//===== Copyright © 1996-2005, Valve Corporation, All rights reserved. ======// // // Purpose: Controls the pose parameters of a model // //===========================================================================// #include "cbase.h" #include "point_posecontroller.h" #ifndef CLIENT_DLL #include "baseanimating.h" #include "props.h" #endif // NOTE: This has to be the last file included! #include "tier0/memdbgon.h" #ifndef CLIENT_DLL //----------------------------------------------------------------------------- // SERVER CLASS //----------------------------------------------------------------------------- #define MAX_POSE_INTERPOLATION_TIME 10.0f #define MAX_POSE_CYCLE_FREQUENCY 10.0f #define MAX_POSE_FMOD_RATE 10.0f #define MAX_POSE_FMOD_AMPLITUDE 10.0f LINK_ENTITY_TO_CLASS( point_posecontroller, CPoseController ); BEGIN_DATADESC( CPoseController ) DEFINE_AUTO_ARRAY( m_hProps, FIELD_EHANDLE ), DEFINE_AUTO_ARRAY( m_chPoseIndex, FIELD_CHARACTER ), DEFINE_FIELD( m_bDisablePropLookup, FIELD_BOOLEAN ), DEFINE_FIELD( m_bPoseValueParity, FIELD_BOOLEAN ), // Keys DEFINE_KEYFIELD( m_iszPropName, FIELD_STRING, "PropName" ), DEFINE_KEYFIELD( m_iszPoseParameterName, FIELD_STRING, "PoseParameterName" ), DEFINE_KEYFIELD( m_fPoseValue, FIELD_FLOAT, "PoseValue" ), DEFINE_KEYFIELD( m_fInterpolationTime, FIELD_FLOAT, "InterpolationTime" ), DEFINE_KEYFIELD( m_bInterpolationWrap, FIELD_BOOLEAN, "InterpolationWrap" ), DEFINE_KEYFIELD( m_fCycleFrequency, FIELD_FLOAT, "CycleFrequency" ), DEFINE_KEYFIELD( m_nFModType, FIELD_INTEGER, "FModType" ), DEFINE_KEYFIELD( m_fFModTimeOffset, FIELD_FLOAT, "FModTimeOffset" ), DEFINE_KEYFIELD( m_fFModRate, FIELD_FLOAT, "FModRate" ), DEFINE_KEYFIELD( m_fFModAmplitude, FIELD_FLOAT, "FModAmplitude" ), // Functions DEFINE_FUNCTION( Think ), // Inputs DEFINE_INPUTFUNC( FIELD_STRING, "SetPoseParameterName", InputSetPoseParameterName ), DEFINE_INPUTFUNC( FIELD_FLOAT, "SetPoseValue", InputSetPoseValue ), DEFINE_INPUTFUNC( FIELD_FLOAT, "SetInterpolationTime", InputSetInterpolationTime ), DEFINE_INPUTFUNC( FIELD_FLOAT, "SetCycleFrequency", InputSetCycleFrequency ), DEFINE_INPUTFUNC( FIELD_INTEGER, "SetFModType", InputSetFModType ), DEFINE_INPUTFUNC( FIELD_FLOAT, "SetFModTimeOffset", InputSetFModTimeOffset ), DEFINE_INPUTFUNC( FIELD_FLOAT, "SetFModRate", InputSetFModRate ), DEFINE_INPUTFUNC( FIELD_FLOAT, "SetFModAmplitude", InputSetFModAmplitude ), DEFINE_INPUTFUNC( FIELD_FLOAT, "RandomizeFMod", InputRandomizeFMod ), DEFINE_INPUTFUNC( FIELD_VOID, "GetFMod", InputGetFMod ), END_DATADESC() IMPLEMENT_SERVERCLASS_ST(CPoseController, DT_PoseController) SendPropArray3( SENDINFO_ARRAY3(m_hProps), SendPropEHandle( SENDINFO_ARRAY(m_hProps) ) ), SendPropArray3( SENDINFO_ARRAY3(m_chPoseIndex), SendPropInt( SENDINFO_ARRAY(m_chPoseIndex), 5, SPROP_UNSIGNED ) ), // bits sent must be enough to represent MAXSTUDIOPOSEPARAM SendPropBool( SENDINFO(m_bPoseValueParity) ), SendPropFloat( SENDINFO(m_fPoseValue), 11, 0, 0.0f, 1.0f ), SendPropFloat( SENDINFO(m_fInterpolationTime), 11, 0, 0.0f, MAX_POSE_INTERPOLATION_TIME ), SendPropBool( SENDINFO(m_bInterpolationWrap) ), SendPropFloat( SENDINFO(m_fCycleFrequency), 11, 0, -MAX_POSE_CYCLE_FREQUENCY, MAX_POSE_CYCLE_FREQUENCY ), SendPropInt( SENDINFO(m_nFModType), 3, SPROP_UNSIGNED ), SendPropFloat( SENDINFO(m_fFModTimeOffset), 11, 0, -1.0f, 1.0f ), SendPropFloat( SENDINFO(m_fFModRate), 11, 0, -MAX_POSE_FMOD_RATE, MAX_POSE_FMOD_RATE ), SendPropFloat( SENDINFO(m_fFModAmplitude), 11, 0, 0.0f, MAX_POSE_FMOD_AMPLITUDE ), END_SEND_TABLE() void CPoseController::Spawn( void ) { BaseClass::Spawn(); // Talk to the client class when data changes AddEFlags( EFL_FORCE_CHECK_TRANSMIT ); // Think to refresh the list of models SetThink( &CPoseController::Think ); SetNextThink( gpGlobals->curtime + 1.0 ); } void CPoseController::Think( void ) { if ( !m_bDisablePropLookup ) { // Refresh the list of models BuildPropList(); SetCurrentPose( m_fPoseValue ); m_bDisablePropLookup = true; SetNextThink( gpGlobals->curtime + 1.0 ); } } void CPoseController::BuildPropList( void ) { int iPropNum = 0; CBaseEntity *pEnt = gEntList.FindEntityByName( NULL, m_iszPropName ); while ( pEnt && iPropNum < MAX_POSE_CONTROLLED_PROPS ) { CBaseAnimating *pProp = dynamic_cast( pEnt ); if ( pProp ) { CDynamicProp *pDynamicProp = dynamic_cast( pProp ); if ( pDynamicProp ) pDynamicProp->PropSetSequence( 0 ); if ( m_hProps[ iPropNum ] != pProp ) { // Only set new handles (to avoid network spam) m_hProps.Set( iPropNum, pProp ); } // Update the pose parameter index SetPoseIndex( iPropNum, pProp->LookupPoseParameter( m_iszPoseParameterName.ToCStr() ) ); ++iPropNum; } // Get the next entity with specified targetname pEnt = gEntList.FindEntityByName( pEnt, m_iszPropName ); } // Nullify the remaining handles while ( iPropNum < MAX_POSE_CONTROLLED_PROPS ) { if ( m_hProps[ iPropNum ] != NULL ) m_hProps.Set( iPropNum, NULL ); ++iPropNum; } SetNextThink( gpGlobals->curtime + 1.0 ); } void CPoseController::BuildPoseIndexList( void ) { for ( int iPropNum = 0; iPropNum < MAX_POSE_CONTROLLED_PROPS; ++iPropNum ) { CBaseAnimating *pProp = dynamic_cast( m_hProps[ iPropNum ].Get() ); if ( pProp ) { // Update the pose parameter index SetPoseIndex( iPropNum, pProp->LookupPoseParameter( m_iszPoseParameterName.ToCStr() ) ); } } } void CPoseController::SetPoseIndex( int i, int iValue ) { if ( iValue == -1 ) { // Using this as invalid lets us network less bits iValue = MAXSTUDIOPOSEPARAM; } if ( m_chPoseIndex[ i ] != iValue ) { // Only set a new index (to avoid network spam) m_chPoseIndex.Set( i, iValue ); } } float CPoseController::GetPoseValue( void ) { return m_fPoseValue; } void CPoseController::SetProp( CBaseAnimating *pProp ) { // Control a prop directly by pointer if ( m_hProps[ 0 ] != pProp ) { // Only set new handles (to avoid network spam) m_hProps.Set( 0, pProp ); } // Update the pose parameter index SetPoseIndex( 0, pProp->LookupPoseParameter( m_iszPoseParameterName.ToCStr() ) ); // Nullify the remaining handles for ( int iPropNum = 1; iPropNum < MAX_POSE_CONTROLLED_PROPS; ++iPropNum ) { if ( m_hProps[ iPropNum ] != NULL ) m_hProps.Set( iPropNum, NULL ); } m_bDisablePropLookup = false; } void CPoseController::SetPropName( const char *pName ) { m_iszPropName = MAKE_STRING( pName ); BuildPropList(); } void CPoseController::SetPoseParameterName( const char *pName ) { m_iszPoseParameterName = MAKE_STRING( pName ); BuildPoseIndexList(); } void CPoseController::SetPoseValue( float fValue ) { m_fPoseValue = clamp( fValue, 0.0f, 1.0f ); // Force the client to set the current pose m_bPoseValueParity = !m_bPoseValueParity; SetCurrentPose( m_fPoseValue ); } void CPoseController::SetInterpolationTime( float fValue ) { m_fInterpolationTime = clamp( fValue, 0.0f, MAX_POSE_INTERPOLATION_TIME ); } void CPoseController::SetInterpolationWrap( bool bWrap ) { m_bInterpolationWrap = bWrap; } void CPoseController::SetCycleFrequency( float fValue ) { m_fCycleFrequency = clamp( fValue, -MAX_POSE_CYCLE_FREQUENCY, MAX_POSE_CYCLE_FREQUENCY ); } void CPoseController::SetFModType( int nType ) { if ( nType < 0 || nType >= POSECONTROLLER_FMODTYPE_TOTAL ) return; m_nFModType = static_cast(nType); } void CPoseController::SetFModTimeOffset( float fValue ) { m_fFModTimeOffset = clamp( fValue, -1.0f, 1.0f ); } void CPoseController::SetFModRate( float fValue ) { m_fFModRate = clamp( fValue, -MAX_POSE_FMOD_RATE, MAX_POSE_FMOD_RATE ); } void CPoseController::SetFModAmplitude( float fValue ) { m_fFModAmplitude = clamp( fValue, 0.0f, MAX_POSE_FMOD_AMPLITUDE ); } void CPoseController::RandomizeFMod( float fExtremeness ) { fExtremeness = clamp( fExtremeness, 0.0f, 1.0f ); SetFModType( RandomInt( 1, POSECONTROLLER_FMODTYPE_TOTAL - 1 ) ); SetFModTimeOffset( RandomFloat( -1.0, 1.0f ) ); SetFModRate( RandomFloat( fExtremeness * -MAX_POSE_FMOD_RATE, fExtremeness * MAX_POSE_FMOD_RATE ) ); SetFModAmplitude( RandomFloat( 0.0f, fExtremeness * MAX_POSE_FMOD_AMPLITUDE ) ); } void CPoseController::InputSetPoseParameterName( inputdata_t &inputdata ) { SetPoseParameterName( inputdata.value.String() ); } void CPoseController::InputSetPoseValue( inputdata_t &inputdata ) { SetPoseValue( inputdata.value.Float() ); } void CPoseController::InputSetInterpolationTime( inputdata_t &inputdata ) { SetInterpolationTime( inputdata.value.Float() ); } void CPoseController::InputSetCycleFrequency( inputdata_t &inputdata ) { SetCycleFrequency( inputdata.value.Float() ); } void CPoseController::InputSetFModType( inputdata_t &inputdata ) { SetFModType( inputdata.value.Int() ); } void CPoseController::InputSetFModTimeOffset( inputdata_t &inputdata ) { SetFModTimeOffset( inputdata.value.Float() ); } void CPoseController::InputSetFModRate( inputdata_t &inputdata ) { SetFModRate( inputdata.value.Float() ); } void CPoseController::InputSetFModAmplitude( inputdata_t &inputdata ) { SetFModAmplitude( inputdata.value.Float() ); } void CPoseController::InputRandomizeFMod( inputdata_t &inputdata ) { RandomizeFMod( inputdata.value.Float() ); } void CPoseController::InputGetFMod( inputdata_t &inputdata ) { DevMsg( "FMod values for pose controller %s\nTYPE: %i\nTIME OFFSET: %f\nRATE: %f\nAMPLITUDE: %f\n", STRING(GetEntityName()), m_nFModType.Get(), m_fFModTimeOffset.Get(), m_fFModRate.Get(), m_fFModAmplitude.Get() ); } #else //#ifndef CLIENT_DLL //----------------------------------------------------------------------------- // CLIENT CLASS //----------------------------------------------------------------------------- IMPLEMENT_CLIENTCLASS_DT( C_PoseController, DT_PoseController, CPoseController ) RecvPropArray3( RECVINFO_ARRAY(m_hProps), RecvPropEHandle( RECVINFO(m_hProps[0]) ) ), RecvPropArray3( RECVINFO_ARRAY(m_chPoseIndex), RecvPropInt( RECVINFO(m_chPoseIndex[0]) ) ), RecvPropBool( RECVINFO(m_bPoseValueParity) ), RecvPropFloat( RECVINFO(m_fPoseValue) ), RecvPropFloat( RECVINFO(m_fInterpolationTime) ), RecvPropBool( RECVINFO(m_bInterpolationWrap) ), RecvPropFloat( RECVINFO(m_fCycleFrequency) ), RecvPropInt( RECVINFO(m_nFModType) ), RecvPropFloat( RECVINFO(m_fFModTimeOffset) ), RecvPropFloat( RECVINFO(m_fFModRate) ), RecvPropFloat( RECVINFO(m_fFModAmplitude) ), END_RECV_TABLE() void C_PoseController::Spawn( void ) { SetThink( &C_PoseController::ClientThink ); SetNextClientThink( CLIENT_THINK_ALWAYS ); m_fCurrentFMod = 0.0f; m_PoseTransitionValue.Init( 0.0f, 0.0f, 0.0f ); BaseClass::Spawn(); } void C_PoseController::OnDataChanged( DataUpdateType_t updateType ) { BaseClass::OnDataChanged( updateType ); if ( updateType == DATA_UPDATE_CREATED ) { // Start thinking (Baseclass stops it) SetNextClientThink( CLIENT_THINK_ALWAYS ); m_bOldPoseValueParity = m_bPoseValueParity; m_fCurrentPoseValue = m_fPoseValue; SetCurrentPose( m_fCurrentPoseValue ); } if ( m_bOldPoseValueParity != m_bPoseValueParity ) { // If the pose value was set directly set the actual pose value float fClientPoseValue = m_fCurrentPoseValue + m_PoseTransitionValue.Interp( gpGlobals->curtime ); if ( fClientPoseValue < 0.0f ) fClientPoseValue += 1.0f; else if ( fClientPoseValue > 1.0f ) fClientPoseValue -= 1.0f; float fInterpForward = fClientPoseValue - m_fPoseValue; if ( m_bInterpolationWrap ) { float fInterpBackward = ( fClientPoseValue + ( ( fClientPoseValue < 0.5f ) ? ( 1.0f ) : ( -1.0f ) ) ) - m_fPoseValue; m_PoseTransitionValue.Init( ( ( fabsf( fInterpForward ) < fabsf( fInterpBackward ) ) ? ( fInterpForward ) : ( fInterpBackward ) ), 0.0f, m_fInterpolationTime ); } else { m_PoseTransitionValue.Init( fInterpForward, 0.0f, m_fInterpolationTime ); } m_bOldPoseValueParity = m_bPoseValueParity; m_fCurrentPoseValue = m_fPoseValue; } } void C_PoseController::ClientThink( void ) { UpdateModulation(); UpdatePoseCycle( m_fCycleFrequency + m_fCurrentFMod ); } void C_PoseController::UpdateModulation( void ) { switch ( m_nFModType ) { case POSECONTROLLER_FMODTYPE_NONE: { // No modulation m_fCurrentFMod = 0.0f; break; } case POSECONTROLLER_FMODTYPE_SINE: { float fCycleTime = m_fFModRate * ( gpGlobals->curtime + m_fFModTimeOffset ); m_fCurrentFMod = m_fFModAmplitude * sinf( fCycleTime * ( 2.0f * M_PI ) ); break; } case POSECONTROLLER_FMODTYPE_SQUARE: { float fCycleTime = fabsf( m_fFModRate * 2.0f * ( gpGlobals->curtime + m_fFModTimeOffset ) ); // Separate the current time into integer and decimal int iIntegerPortion = static_cast( fCycleTime ); // Find if it's going up or down if ( ( iIntegerPortion % 2 ) == 0 ) m_fCurrentFMod = m_fFModAmplitude; else m_fCurrentFMod = -m_fFModAmplitude; break; } case POSECONTROLLER_FMODTYPE_TRIANGLE: { float fCycleTime = fabsf( m_fFModRate * 4.0f * ( gpGlobals->curtime + m_fFModTimeOffset ) ); // Separate the current time into integer and decimal int iIntegerPortion = static_cast( fCycleTime ); float fDecimalPortion = fCycleTime - static_cast( iIntegerPortion ); // Find if it's going up from 0, down from 1, down from 0, or up from -1 switch ( iIntegerPortion % 4 ) { case 0: m_fCurrentFMod = fDecimalPortion * m_fFModAmplitude; break; case 1: m_fCurrentFMod = ( 1.0f - fDecimalPortion ) * m_fFModAmplitude; break; case 2: m_fCurrentFMod = -fDecimalPortion * m_fFModAmplitude; break; case 3: m_fCurrentFMod = ( -1.0f + fDecimalPortion ) * m_fFModAmplitude; break; } break; } case POSECONTROLLER_FMODTYPE_SAWTOOTH: { float fCycleTime = fabsf( m_fFModRate * 2.0f * ( gpGlobals->curtime + m_fFModTimeOffset ) ); // Separate the current time into integer and decimal int iIntegerPortion = static_cast( fCycleTime ); float fDecimalPortion = fCycleTime - static_cast( iIntegerPortion ); // Find if it's going up from 0 or up from -1 if ( ( iIntegerPortion % 2 ) == 0 ) m_fCurrentFMod = fDecimalPortion * m_fFModAmplitude; else m_fCurrentFMod = ( -1.0f + fDecimalPortion ) * m_fFModAmplitude; break; } case POSECONTROLLER_FMODTYPE_NOISE: { // Randomly increase or decrease by the rate if ( RandomInt( 0, 1 ) == 0 ) m_fCurrentFMod += m_fFModRate * gpGlobals->frametime; else m_fCurrentFMod -= m_fFModRate * gpGlobals->frametime; m_fCurrentFMod = clamp( m_fCurrentFMod, -m_fFModAmplitude, m_fFModAmplitude ); break; } } } void C_PoseController::UpdatePoseCycle( float fCycleAmount ) { m_fCurrentPoseValue += fCycleAmount * gpGlobals->frametime; float fNewPoseValue = m_fCurrentPoseValue + m_PoseTransitionValue.Interp( gpGlobals->curtime ); if ( fNewPoseValue < 0.0f ) fNewPoseValue += 1.0f; else if ( fNewPoseValue > 1.0f ) fNewPoseValue -= 1.0f; SetCurrentPose( fNewPoseValue ); } #define CPoseController C_PoseController #define CBaseAnimating C_BaseAnimating #endif //#ifndef CLIENT_DLL void CPoseController::SetCurrentPose( float fCurrentPoseValue ) { for ( int iPropNum = 0; iPropNum < MAX_POSE_CONTROLLED_PROPS; ++iPropNum ) { // Control each model's pose parameter CBaseAnimating *pProp = dynamic_cast( m_hProps[ iPropNum ].Get() ); if ( pProp ) { float fPoseValueMin; float fPoseValueMax; // Map to the pose parameter's range pProp->GetPoseParameterRange( m_chPoseIndex[ iPropNum ], fPoseValueMin, fPoseValueMax ); pProp->SetPoseParameter( m_chPoseIndex[ iPropNum ], fPoseValueMin + fCurrentPoseValue * ( fPoseValueMax - fPoseValueMin ) ); } } }