Esempio n. 1
0
void CGaussianNoiseProxy::OnBind( void *pC_BaseEntity )
{
	float flMean = m_Mean.GetFloat();
	float flStdDev = m_StdDev.GetFloat();
	float flVal = randomgaussian->RandomFloat( flMean, flStdDev );
	float flMaxVal = m_flMaxVal.GetFloat();
	float flMinVal = m_flMinVal.GetFloat();

	if (flMinVal > flMaxVal)
	{
		float flTemp = flMinVal;
		flMinVal = flMaxVal;
		flMaxVal = flTemp;
	}

	// clamp
	if (flVal < flMinVal)
		flVal = flMinVal;
	else if ( flVal > flMaxVal )
		flVal = flMaxVal;

	SetFloatResult( flVal );

	if ( ToolsEnabled() )
	{
		ToolFramework_RecordMaterialParams( GetMaterial() );
	}
}
Esempio n. 2
0
void CWrapMinMaxProxy::OnBind( void *pC_BaseEntity )
{
	Assert( m_pSrc1 && m_pResult );

	if ( m_flMaxVal.GetFloat() <= m_flMinVal.GetFloat() ) // Bad input, just return the min
	{
		SetFloatResult( m_flMinVal.GetFloat() );
	}
	else
	{
		float flResult = ( m_pSrc1->GetFloatValue() - m_flMinVal.GetFloat() ) / ( m_flMaxVal.GetFloat() - m_flMinVal.GetFloat() );

		if ( flResult >= 0.0f )
		{
			flResult -= ( float )( int )flResult;
		}
		else // Negative
		{
			flResult -= ( float )( ( ( int )flResult ) - 1 );
		}

		flResult *= ( m_flMaxVal.GetFloat() - m_flMinVal.GetFloat() );
		flResult += m_flMinVal.GetFloat();

		SetFloatResult( flResult );
	}

	if ( ToolsEnabled() )
	{
		ToolFramework_RecordMaterialParams( GetMaterial() );
	}
}
Esempio n. 3
0
void CSubtractProxy::OnBind( void *pC_BaseEntity )
{
	Assert( m_pSrc1 && m_pSrc2 && m_pResult );

	MaterialVarType_t resultType;
	int vecSize;
	ComputeResultType( resultType, vecSize );

	switch( resultType )
	{
	case MATERIAL_VAR_TYPE_VECTOR:
		{
			Vector a, b, c;
			m_pSrc1->GetVecValue( a.Base(), vecSize ); 
			m_pSrc2->GetVecValue( b.Base(), vecSize ); 
			VectorSubtract( a, b, c );
			m_pResult->SetVecValue( c.Base(), vecSize );
		}
		break;

	case MATERIAL_VAR_TYPE_FLOAT:
		SetFloatResult( m_pSrc1->GetFloatValue() - m_pSrc2->GetFloatValue() );
		break;

	case MATERIAL_VAR_TYPE_INT:
		m_pResult->SetFloatValue( m_pSrc1->GetIntValue() - m_pSrc2->GetIntValue() );
		break;
	}

	if ( ToolsEnabled() )
	{
		ToolFramework_RecordMaterialParams( GetMaterial() );
	}
}
void CPlayerViewProxy::OnBind( void *pC_BaseEntity )
{
	if (!pC_BaseEntity)
		return;

	// Find the view angle between the player and this entity....
	C_BaseEntity *pEntity = BindArgToEntity( pC_BaseEntity );
	C_BaseEntity* pPlayer = C_BasePlayer::GetLocalPlayer();
	if (!pPlayer)
		return;

	Vector delta;
	VectorSubtract( pEntity->WorldSpaceCenter(), pPlayer->WorldSpaceCenter(), delta );
	VectorNormalize( delta );

	Vector forward;
	AngleVectors( pPlayer->GetAbsAngles(), &forward );

	Assert( m_pResult );
	SetFloatResult( DotProduct( forward, delta ) * m_Factor );

	if ( ToolsEnabled() )
	{
		ToolFramework_RecordMaterialParams( GetMaterial() );
	}
}
Esempio n. 5
0
void CExponentialProxy::OnBind( void *pC_BaseEntity )
{	
	float flVal = m_Scale.GetFloat() * exp(m_pSrc1->GetFloatValue( ) + m_Offset.GetFloat());

	float flMaxVal = m_flMaxVal.GetFloat();
	float flMinVal = m_flMinVal.GetFloat();

	if (flMinVal > flMaxVal)
	{
		float flTemp = flMinVal;
		flMinVal = flMaxVal;
		flMaxVal = flTemp;
	}

	// clamp
	if (flVal < flMinVal)
		flVal = flMinVal;
	else if ( flVal > flMaxVal )
		flVal = flMaxVal;

	SetFloatResult( flVal );

	if ( ToolsEnabled() )
	{
		ToolFramework_RecordMaterialParams( GetMaterial() );
	}
}
void CMaterialModifyProxy::OnBind( void *pEntity )
{
	// Get the modified material vars from the entity input
	IClientRenderable *pRend = (IClientRenderable *)pEntity;
	if ( pRend )
	{
		C_BaseEntity *pBaseEntity = pRend->GetIClientUnknown()->GetBaseEntity();
		
		if ( pBaseEntity )
		{
			if( debug_materialmodifycontrol_client.GetBool() )
			{
//				DevMsg( 1, "%s\n", pBaseEntity->GetDebugName() );
			}
			int numChildren = 0;
			bool gotOne = false;
			for ( C_BaseEntity *pChild = pBaseEntity->FirstMoveChild(); pChild; pChild = pChild->NextMovePeer() )
			{
				numChildren++;
				C_MaterialModifyControl *pControl = dynamic_cast<C_MaterialModifyControl*>( pChild );
				if ( !pControl )
					continue;

				if( debug_materialmodifycontrol_client.GetBool() )
				{
//					DevMsg( 1, "pControl: 0x%p\n", pControl );
				}
				
				switch( pControl->GetModifyMode() )
				{
				case MATERIAL_MODIFY_MODE_NONE:
					break;
				case MATERIAL_MODIFY_MODE_SETVAR:
					gotOne = true;
					OnBindSetVar( pControl );
					break;
				case MATERIAL_MODIFY_MODE_ANIM_SEQUENCE:
					OnBindAnimatedTexture( pControl );
					break;
				case MATERIAL_MODIFY_MODE_FLOAT_LERP:
					OnBindFloatLerp( pControl );
					break;
				default:
					Assert( 0 );
					break;
				}
			}
			if( gotOne )
			{
//				DevMsg( 1, "numChildren: %d\n", numChildren );
			}
		}
	}

	if ( ToolsEnabled() )
	{
		ToolFramework_RecordMaterialParams( GetMaterial() );
	}
}
Esempio n. 7
0
void CAbsProxy::OnBind( void *pC_BaseEntity )
{	
	SetFloatResult( fabs(m_pSrc1->GetFloatValue( )) );

	if ( ToolsEnabled() )
	{
		ToolFramework_RecordMaterialParams( GetMaterial() );
	}
}
Esempio n. 8
0
void CUniformNoiseProxy::OnBind( void *pC_BaseEntity )
{
	SetFloatResult( random->RandomFloat( m_flMinVal.GetFloat(), m_flMaxVal.GetFloat() ) );

	if ( ToolsEnabled() )
	{
		ToolFramework_RecordMaterialParams( GetMaterial() );
	}
}
Esempio n. 9
0
void CSelectFirstIfNonZeroProxy::OnBind( void *pC_BaseEntity )
{
	Assert( m_pSrc1 && m_pSrc2 && m_pResult );

	MaterialVarType_t resultType;
	int vecSize;
	ComputeResultType( resultType, vecSize );

	switch( resultType )
	{
	case MATERIAL_VAR_TYPE_VECTOR:
		{
			Vector a, b;
			m_pSrc1->GetVecValue( a.Base(), vecSize ); 
			m_pSrc2->GetVecValue( b.Base(), vecSize ); 

			if ( !a.IsZero() )
			{
				m_pResult->SetVecValue( a.Base(), vecSize );
			}
			else
			{
				m_pResult->SetVecValue( b.Base(), vecSize );
			}
		}
		break;

	case MATERIAL_VAR_TYPE_FLOAT:
		if ( m_pSrc1->GetFloatValue() )
		{
			SetFloatResult( m_pSrc1->GetFloatValue() );
		}
		else
		{
			SetFloatResult( m_pSrc2->GetFloatValue() );
		}
		break;

	case MATERIAL_VAR_TYPE_INT:
		if ( m_pSrc1->GetIntValue() )
		{
			m_pResult->SetFloatValue( m_pSrc1->GetIntValue() );
		}
		else
		{
			m_pResult->SetFloatValue( m_pSrc2->GetIntValue() );
		}
		break;
	}

	if ( ToolsEnabled() )
	{
		ToolFramework_RecordMaterialParams( GetMaterial() );
	}
}
Esempio n. 10
0
void CLessOrEqualProxy::OnBind( void *pC_BaseEntity )
{
	Assert( m_pSrc1 && m_pSrc2 && m_pLessVar && m_pGreaterVar && m_pResult );

	IMaterialVar *pSourceVar;
	if (m_pSrc1->GetFloatValue() <= m_pSrc2->GetFloatValue())
	{
		pSourceVar = m_pLessVar;
	}
	else
	{
		pSourceVar = m_pGreaterVar;
	}

	int vecSize = 0;
	MaterialVarType_t resultType = m_pResult->GetType();
	if (resultType == MATERIAL_VAR_TYPE_VECTOR)
	{
		if (m_ResultVecComp >= 0)
			resultType = MATERIAL_VAR_TYPE_FLOAT;
		vecSize = m_pResult->VectorSize();
	}
	else if (resultType == MATERIAL_VAR_TYPE_UNDEFINED)
	{
		resultType = pSourceVar->GetType();
		if (resultType == MATERIAL_VAR_TYPE_VECTOR)
		{
			vecSize = pSourceVar->VectorSize();
		}
	}

	switch( resultType )
	{
	case MATERIAL_VAR_TYPE_VECTOR:
		{
			Vector src;
			pSourceVar->GetVecValue( src.Base(), vecSize ); 
			m_pResult->SetVecValue( src.Base(), vecSize );
		}
		break;

	case MATERIAL_VAR_TYPE_FLOAT:
		SetFloatResult( pSourceVar->GetFloatValue() );
		break;

	case MATERIAL_VAR_TYPE_INT:
		m_pResult->SetFloatValue( pSourceVar->GetIntValue() );
		break;
	}

	if ( ToolsEnabled() )
	{
		ToolFramework_RecordMaterialParams( GetMaterial() );
	}
}
void CTextureScrollMaterialProxy::OnBind( void *pC_BaseEntity )
{
	if( !m_pTextureScrollVar )
	{
		return;
	}

	float rate, angle, scale;

	// set default values if these variables don't exist.
	rate		= m_TextureScrollRate.GetFloat();
	angle		= m_TextureScrollAngle.GetFloat();
	scale		= m_TextureScale.GetFloat();

	float sOffset, tOffset;
	
	sOffset = gpGlobals->curtime * cos( angle * ( M_PI / 180.0f ) ) * rate;
	tOffset = gpGlobals->curtime * sin( angle * ( M_PI / 180.0f ) ) * rate;

	// make sure that we are positive
	if( sOffset < 0.0f )
	{
		sOffset += 1.0f + -( int )sOffset;
	}
	if( tOffset < 0.0f )
	{
		tOffset += 1.0f + -( int )tOffset;
	}
			    
	// make sure that we are in a [0,1] range
	sOffset = sOffset - ( int )sOffset;
	tOffset = tOffset - ( int )tOffset;
	
	if (m_pTextureScrollVar->GetType() == MATERIAL_VAR_TYPE_MATRIX)
	{
		VMatrix mat( scale, 0.0f, 0.0f, sOffset,
			0.0f, scale, 0.0f, tOffset,
			0.0f, 0.0f, 1.0f, 0.0f,
			0.0f, 0.0f, 0.0f, 1.0f );
		m_pTextureScrollVar->SetMatrixValue( mat );
	}
	else
	{
		m_pTextureScrollVar->SetVecValue( sOffset, tOffset, 0.0f );
	}

	if ( ToolsEnabled() )
	{
		ToolFramework_RecordMaterialParams( GetMaterial() );
	}
}
void CProxySniperRifleCharge::OnBind( void *pC_BaseEntity )
{
	Assert( m_pResult );

	C_TFPlayer *pPlayer = C_TFPlayer::GetLocalTFPlayer();

	if ( GetSpectatorTarget() != 0 && GetSpectatorMode() == OBS_MODE_IN_EYE )
	{
		pPlayer = (C_TFPlayer *)UTIL_PlayerByIndex( GetSpectatorTarget() );
	}

	if ( pPlayer )
	{
		CTFSniperRifle *pWeapon = assert_cast<CTFSniperRifle*>(pPlayer->GetActiveTFWeapon());
		if ( pWeapon )
		{
			float flChargeValue = ( ( 1.0 - pWeapon->GetHUDDamagePerc() ) * 0.8 ) + 0.6;

			VMatrix mat, temp;

			Vector2D center( 0.5, 0.5 );
			MatrixBuildTranslation( mat, -center.x, -center.y, 0.0f );

			// scale
			{
				Vector2D scale( 1.0f, 0.25f );
				MatrixBuildScale( temp, scale.x, scale.y, 1.0f );
				MatrixMultiply( temp, mat, mat );
			}

			MatrixBuildTranslation( temp, center.x, center.y, 0.0f );
			MatrixMultiply( temp, mat, mat );

			// translation
			{
				Vector2D translation( 0.0f, flChargeValue );
				MatrixBuildTranslation( temp, translation.x, translation.y, 0.0f );
				MatrixMultiply( temp, mat, mat );
			}

			m_pResult->SetMatrixValue( mat );
		}
	}

	if ( ToolsEnabled() )
	{
		ToolFramework_RecordMaterialParams( GetMaterial() );
	}
}
Esempio n. 13
0
void CLinearRampProxy::OnBind( void *pC_BaseEntity )
{
	Assert( m_pResult );

	float flValue;
	
	// get a value in [0,1]
	flValue = m_Rate.GetFloat() * gpGlobals->curtime + m_InitialValue.GetFloat();	
	SetFloatResult( flValue );

	if ( ToolsEnabled() )
	{
		ToolFramework_RecordMaterialParams( GetMaterial() );
	}
}
void CPlayerSpeedProxy::OnBind( void *pC_BaseEntity )
{
	// Find the player speed....
	C_BaseEntity* pPlayer = C_BasePlayer::GetLocalPlayer();
	if (!pPlayer)
		return;

	Assert( m_pResult );
	SetFloatResult( pPlayer->GetLocalVelocity().Length() * m_Factor );

	if ( ToolsEnabled() )
	{
		ToolFramework_RecordMaterialParams( GetMaterial() );
	}
}
Esempio n. 15
0
void CObjectPowerProxy::OnBind( void *pRenderable )
{
	// Find the view angle between the player and this entity....
	IClientRenderable *pRend = (IClientRenderable *)pRenderable;
	C_BaseEntity *pEntity = pRend->GetIClientUnknown()->GetBaseEntity();
	C_BaseObject *pObject = dynamic_cast<C_BaseObject*>(pEntity);
	if (!pObject)
		return;

	SetFloatResult(  m_Factor.GetFloat() );

	if ( ToolsEnabled() )
	{
		ToolFramework_RecordMaterialParams( GetMaterial() );
	}
}
Esempio n. 16
0
//-----------------------------------------------------------------------------
// Helper class to deal with floating point inputs
//-----------------------------------------------------------------------------
void CEntityMaterialProxy::OnBind( void *pRenderable )
{
	if( !pRenderable )
		return;

	IClientRenderable *pRend = ( IClientRenderable* )pRenderable;
	C_BaseEntity *pEnt = pRend->GetIClientUnknown()->GetBaseEntity();
	if ( pEnt )
	{
		OnBind( pEnt );
		if ( ToolsEnabled() )
		{
			ToolFramework_RecordMaterialParams( GetMaterial() );
		}
	}
}
void CEntityRandomProxy::OnBind( void *pC_BaseEntity )
{
	// Find the view angle between the player and this entity....
	if (!pC_BaseEntity)
		return;

	// Find the view angle between the player and this entity....
	C_BaseEntity *pEntity = BindArgToEntity( pC_BaseEntity );

	Assert( m_pResult );
	m_pResult->SetFloatValue( pEntity->ProxyRandomValue() * m_Factor.GetFloat() );

	if ( ToolsEnabled() )
	{
		ToolFramework_RecordMaterialParams( GetMaterial() );
	}
}
Esempio n. 18
0
void CWorldDimsProxy::OnBind( void *pC_BaseEntity )
{
    if ( m_pMinsVar && m_pMaxsVar )
    {
        C_World *pWorld = GetClientWorldEntity();
        if ( pWorld )
        {
            m_pMinsVar->SetVecValue( (const float*)&pWorld->m_WorldMins, 3 );
            m_pMaxsVar->SetVecValue( (const float*)&pWorld->m_WorldMaxs, 3 );
        }
    }

    if ( ToolsEnabled() )
    {
        ToolFramework_RecordMaterialParams( GetMaterial() );
    }
}
Esempio n. 19
0
void C_BloodyTextureProxy::OnBind(void* pC_BaseEntity)
{
    if (!pC_BaseEntity)
        return;

    C_BaseEntity *pEntity = BindArgToEntity(pC_BaseEntity);
    C_BaseViewModel *pViewModel = dynamic_cast<C_BaseViewModel *>(pEntity);
    if (pViewModel)
    {
        C_BasePlayer *pOwner = ToBasePlayer(pViewModel->GetOwner());
        if (pOwner)
            blendFactor->SetFloatValue(pOwner->m_bShouldDrawBloodOverlay ? 1.0f : 0.0f);
    }

    if (ToolsEnabled())
        ToolFramework_RecordMaterialParams(GetMaterial());
}
void CEntitySpeedProxy::OnBind( void *pC_BaseEntity )
{
	// Find the view angle between the player and this entity....
	if (!pC_BaseEntity)
		return;

	// Find the view angle between the player and this entity....
	C_BaseEntity *pEntity = BindArgToEntity( pC_BaseEntity );

	Assert( m_pResult );
	m_pResult->SetFloatValue( pEntity->GetLocalVelocity().Length() );

	if ( ToolsEnabled() )
	{
		ToolFramework_RecordMaterialParams( GetMaterial() );
	}
}
void CPlayerPositionProxy::OnBind( void *pC_BaseEntity )
{
	// Find the player speed....
	C_BaseEntity* pPlayer = C_BasePlayer::GetLocalPlayer();
	if (!pPlayer)
		return;

	// This is actually a vector...
	Assert( m_pResult );
	Vector res;
	VectorMultiply( pPlayer->WorldSpaceCenter(), m_Factor, res ); 
	m_pResult->SetVecValue( res.Base(), 3 );

	if ( ToolsEnabled() )
	{
		ToolFramework_RecordMaterialParams( GetMaterial() );
	}
}
Esempio n. 22
0
void CTextureTransformProxy::OnBind( void *pC_BaseEntity )
{
    Vector2D center( 0.5, 0.5 );
    Vector2D translation( 0, 0 );

    VMatrix mat, temp;

    if (m_pCenterVar)
    {
        m_pCenterVar->GetVecValue( center.Base(), 2 );
    }
    MatrixBuildTranslation( mat, -center.x, -center.y, 0.0f );

    if (m_pScaleVar)
    {
        Vector2D scale;
        m_pScaleVar->GetVecValue( scale.Base(), 2 );
        MatrixBuildScale( temp, scale.x, scale.y, 1.0f );
        MatrixMultiply( temp, mat, mat );
    }

    if (m_pRotateVar)
    {
        float angle = m_pRotateVar->GetFloatValue( );
        MatrixBuildRotateZ( temp, angle );
        MatrixMultiply( temp, mat, mat );
    }
    MatrixBuildTranslation( temp, center.x, center.y, 0.0f );
    MatrixMultiply( temp, mat, mat );

    if (m_pTranslateVar)
    {
        m_pTranslateVar->GetVecValue( translation.Base(), 2 );
        MatrixBuildTranslation( temp, translation.x, translation.y, 0.0f );
        MatrixMultiply( temp, mat, mat );
    }

    m_pResult->SetMatrixValue( mat );

    if ( ToolsEnabled() )
    {
        ToolFramework_RecordMaterialParams( GetMaterial() );
    }
}
void CPlayerTeamMatchProxy::OnBind( void *pC_BaseEntity )
{
	if (!pC_BaseEntity)
		return;

	// Find the distance between the player and this entity....
	C_BaseEntity *pEntity = BindArgToEntity( pC_BaseEntity );
	C_BaseEntity* pPlayer = C_BasePlayer::GetLocalPlayer();
	if (!pPlayer)
		return;

	Assert( m_pResult );
	SetFloatResult( (pEntity->GetTeamNumber() == pPlayer->GetTeamNumber()) ? 1.0 : 0.0 );

	if ( ToolsEnabled() )
	{
		ToolFramework_RecordMaterialParams( GetMaterial() );
	}
}
//-----------------------------------------------------------------------------
// Does the dirty deed
//-----------------------------------------------------------------------------
void CBaseToggleTextureProxy::OnBind( void *pC_BaseEntity )
{
	assert ( m_TextureVar );

	if (!pC_BaseEntity)
		return;

	if( m_TextureVar->GetType() != MATERIAL_VAR_TYPE_TEXTURE )
	{
		return;
	}

	ITexture *pTexture = NULL;

	pTexture = m_TextureVar->GetTextureValue();

	if ( pTexture == NULL )
		 return;

	C_BaseEntity *pEntity = BindArgToEntity( pC_BaseEntity );

	if ( pEntity == NULL )
		 return;
	
	int numFrames = pTexture->GetNumAnimationFrames();
	int frame = pEntity->GetTextureFrameIndex();

	int intFrame = ((int)frame) % numFrames; 

	if ( m_WrapAnimation == false )
	{
		if ( frame > numFrames )
			 intFrame = numFrames;
	}
		
	m_TextureFrameNumVar->SetIntValue( intFrame );

	if ( ToolsEnabled() )
	{
		ToolFramework_RecordMaterialParams( GetMaterial() );
	}
}
Esempio n. 25
0
void CCrowdTextureProxy::OnBind( void *pEntity )
{
	Assert ( m_AnimatedTextureVar );

	if( m_AnimatedTextureVar->GetType() != MATERIAL_VAR_TYPE_TEXTURE )
	{
		return;
	}

	ITexture *pTexture;
	pTexture = m_AnimatedTextureVar->GetTextureValue();
	int numFrames = pTexture->GetNumAnimationFrames();

	if ( numFrames <= 0 )
	{
		Assert( !"0 frames in material calling animated texture proxy" );
		return;
	}

	// NOTE: Must not use relative time based methods here
	// because the bind proxy can be called many times per frame.
	// Prevent multiple Wrap callbacks to be sent for no wrap mode

	if (SDKGameRules())
		m_FrameRate = max(0, (int)(30 * abs(SDKGameRules()->m_nBallZone) / 100.0f));
	else
		m_FrameRate = 0;

	if (m_nFrameCount != gpGlobals->framecount)
	{
		m_nFrameCount = gpGlobals->framecount;
		m_flFrame = fmod(m_flFrame + m_FrameRate * gpGlobals->frametime, numFrames);
	}

	m_AnimatedTextureFrameNumVar->SetIntValue( (int)m_flFrame );

	if ( ToolsEnabled() )
	{
		ToolFramework_RecordMaterialParams( GetMaterial() );
	}
}
Esempio n. 26
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void CMatrixRotateProxy::OnBind( void *pC_BaseEntity )
{
    VMatrix mat;
    Vector axis( 0, 0, 1 );
    if (m_pAxisVar)
    {
        m_pAxisVar->GetVecValue( axis.Base(), 3 );
        if (VectorNormalize( axis ) < 1e-3)
        {
            axis.Init( 0, 0, 1 );
        }
    }

    MatrixBuildRotationAboutAxis( mat, axis, m_Angle.GetFloat() );
    m_pResult->SetMatrixValue( mat );

    if ( ToolsEnabled() )
    {
        ToolFramework_RecordMaterialParams( GetMaterial() );
    }
}
Esempio n. 27
0
void CIntProxy::OnBind( void *pC_BaseEntity )
{
	Assert( m_pSrc1 && m_pResult );

	MaterialVarType_t resultType;
	int vecSize;
	ComputeResultType( resultType, vecSize );

	switch( resultType )
	{
	case MATERIAL_VAR_TYPE_VECTOR:
		{
			Vector a;
			m_pSrc1->GetVecValue( a.Base(), vecSize );
			a[0] = ( float )( int )a[0];
			a[1] = ( float )( int )a[1];
			a[2] = ( float )( int )a[2];
			m_pResult->SetVecValue( a.Base(), vecSize );
		}
		break;

	case MATERIAL_VAR_TYPE_FLOAT:
		{
			float a = m_pSrc1->GetFloatValue();
			a = ( float )( int )a;
			SetFloatResult( a );
		}
		break;

	case MATERIAL_VAR_TYPE_INT:
		// don't do anything besides assignment!
		m_pResult->SetIntValue( m_pSrc1->GetIntValue() );
		break;
	}

	if ( ToolsEnabled() )
	{
		ToolFramework_RecordMaterialParams( GetMaterial() );
	}
}
void CPlayerProximityProxy::OnBind( void *pC_BaseEntity )
{
	if (!pC_BaseEntity)
		return;

	// Find the distance between the player and this entity....
	C_BaseEntity *pEntity = BindArgToEntity( pC_BaseEntity );
	C_BaseEntity* pPlayer = C_BasePlayer::GetLocalPlayer();
	if (!pPlayer || !pEntity) //<-- GE_DLL
		return;

	Vector delta;
	VectorSubtract( pEntity->WorldSpaceCenter(), pPlayer->WorldSpaceCenter(), delta );

	Assert( m_pResult );
	SetFloatResult( delta.Length() * m_Factor );

	if ( ToolsEnabled() )
	{
		ToolFramework_RecordMaterialParams( GetMaterial() );
	}
}
Esempio n. 29
0
void CSineProxy::OnBind( void *pC_BaseEntity )
{
	Assert( m_pResult );

	float flValue;
	float flSineTimeOffset = m_SineTimeOffset.GetFloat();
	float flSineMax = m_SineMax.GetFloat();
	float flSineMin = m_SineMin.GetFloat();
	float flSinePeriod = m_SinePeriod.GetFloat();
	if (flSinePeriod == 0)
		flSinePeriod = 1;

	// get a value in [0,1]
	flValue = ( sin( 2.0f * M_PI * (gpGlobals->curtime - flSineTimeOffset) / flSinePeriod ) * 0.5f ) + 0.5f;
	// get a value in [min,max]	
	flValue = ( flSineMax - flSineMin ) * flValue + flSineMin;
	
	SetFloatResult( flValue );

	if ( ToolsEnabled() )
	{
		ToolFramework_RecordMaterialParams( GetMaterial() );
	}
}
//-----------------------------------------------------------------------------
// Does the dirty deed
//-----------------------------------------------------------------------------
void CMaterialModifyAnimatedProxy::OnBind( void *pEntity )
{
	assert ( m_AnimatedTextureVar );
	if( m_AnimatedTextureVar->GetType() != MATERIAL_VAR_TYPE_TEXTURE )
		return;

	ITexture *pTexture;
	pTexture = m_AnimatedTextureVar->GetTextureValue();

	// Get the modified material vars from the entity input
	IClientRenderable *pRend = (IClientRenderable *)pEntity;
	if ( pRend )
	{
		C_BaseEntity *pBaseEntity = pRend->GetIClientUnknown()->GetBaseEntity();
		if ( pBaseEntity )
		{
			for ( C_BaseEntity *pChild = pBaseEntity->FirstMoveChild(); pChild; pChild = pChild->NextMovePeer() )
			{
				C_MaterialModifyControl *pControl = dynamic_cast<C_MaterialModifyControl*>( pChild );
				if ( !pControl )
					continue;

				if ( !pControl->HasNewAnimationCommands() )
					continue;

				// Read the data from the modify entity
				materialanimcommands_t sCommands;
				pControl->GetAnimationCommands( &sCommands );

				m_iFrameStart = sCommands.iFrameStart;
				m_iFrameEnd = sCommands.iFrameEnd;
				m_bCustomWrap = sCommands.bWrap;
				m_flCustomFramerate = sCommands.flFrameRate;
				m_bReachedEnd = false;

				m_flStartTime = gpGlobals->curtime;

				pControl->ClearAnimationCommands();
			}
		}
	}

	// Init all the vars based on whether we're using the base material settings, 
	// or the custom ones from the entity input.
	int numFrames;
	bool bWrapAnimation;
	float flFrameRate;
	int iLastFrame;

	// Do we have a custom frame section from the server?
	if ( m_iFrameStart != MATERIAL_MODIFY_ANIMATION_UNSET )
	{
		if ( m_iFrameEnd == MATERIAL_MODIFY_ANIMATION_UNSET )
		{
			m_iFrameEnd = pTexture->GetNumAnimationFrames();
		}

		numFrames = (m_iFrameEnd - m_iFrameStart) + 1;
		bWrapAnimation = m_bCustomWrap;
		flFrameRate = m_flCustomFramerate;
		iLastFrame = (m_iFrameEnd - 1);
	}
	else
	{
		numFrames = pTexture->GetNumAnimationFrames();
		bWrapAnimation = m_WrapAnimation;
		flFrameRate = m_FrameRate;
		iLastFrame = (numFrames - 1);
	}

	// Have we already reached the end? If so, stay there.
	if ( m_bReachedEnd && !bWrapAnimation )
	{
		m_AnimatedTextureFrameNumVar->SetIntValue( iLastFrame );
		return;
	}

	// NOTE: Must not use relative time based methods here
	// because the bind proxy can be called many times per frame.
	// Prevent multiple Wrap callbacks to be sent for no wrap mode
	float startTime;
	if ( m_iFrameStart != MATERIAL_MODIFY_ANIMATION_UNSET )
	{
		startTime = m_flStartTime;
	}
	else
	{
		startTime = GetAnimationStartTime(pEntity);
	}
	float deltaTime = gpGlobals->curtime - startTime;
	float prevTime = deltaTime - gpGlobals->frametime;

	// Clamp..
	if (deltaTime < 0.0f)
		deltaTime = 0.0f;
	if (prevTime < 0.0f)
		prevTime = 0.0f;

	float frame = flFrameRate * deltaTime;	
	float prevFrame = flFrameRate * prevTime;

	int intFrame = ((int)frame) % numFrames; 
	int intPrevFrame = ((int)prevFrame) % numFrames;

	if ( m_iFrameStart != MATERIAL_MODIFY_ANIMATION_UNSET )
	{
		intFrame += m_iFrameStart;
		intPrevFrame += m_iFrameStart;
	}

	// Report wrap situation...
	if (intPrevFrame > intFrame)
	{
		m_bReachedEnd = true;

		if (bWrapAnimation)
		{
			AnimationWrapped( pEntity );
		}
		else
		{
			// Only sent the wrapped message once.
			// when we're in non-wrapping mode
			if (prevFrame < numFrames)
				AnimationWrapped( pEntity );
			intFrame = numFrames - 1;
		}
	}

	m_AnimatedTextureFrameNumVar->SetIntValue( intFrame );

	if ( ToolsEnabled() )
	{
		ToolFramework_RecordMaterialParams( GetMaterial() );
	}
}