//-----------------------------------------------------------------------------
// Purpose: 
//-----------------------------------------------------------------------------
void C_SceneEntity::ResetActorFlexesForScene()
{
	int nActorCount = m_pScene->GetNumActors();
	for( int iActor = 0; iActor < nActorCount; ++iActor )
	{
		CChoreoActor *pChoreoActor = m_pScene->GetActor( iActor );
		if ( !pChoreoActor )
			continue;

		C_BaseFlex *pFlexActor = FindNamedActor( pChoreoActor );
		if ( !pFlexActor )
			continue;

		CStudioHdr *pStudioHdr = pFlexActor->GetModelPtr();
		if ( !pStudioHdr )
			continue;

		if ( pStudioHdr->numflexdesc() == 0 )
			continue;

		// Reset the flex weights to their starting position.
		LocalFlexController_t iController;
		for ( iController = LocalFlexController_t(0); iController < pStudioHdr->numflexcontrollers(); ++iController )
		{
			pFlexActor->SetFlexWeight( iController, 0.0f );
		}

		// Reset the prediction interpolation values.
		pFlexActor->m_iv_flexWeight.Reset();
	}
}
void IFaceposerModels::CheckResetFlexes( void )
{
	int current_render_frame = g_MDLViewer->GetCurrentFrame();
	if ( current_render_frame == m_nLastRenderFrame )
		return;

	m_nLastRenderFrame = current_render_frame;

	// the phoneme editor just adds to the face, so reset the controllers 
	int c = Count();
	for ( int i = 0; i < c; i++ )
	{
		CFacePoserModel *m = GetEntry( i );
		if ( !m )
			continue;

		StudioModel *model = m->GetModel();
		if ( !model )
			continue;

		CStudioHdr *hdr = model->GetStudioHdr();
		if ( !hdr )
			continue;

		for ( LocalFlexController_t i = LocalFlexController_t(0); i < hdr->numflexcontrollers(); i++ )
		{
			model->SetFlexController( i, 0.0f );
		}
	}
}
LocalFlexController_t CAnimating::GetNumFlexControllers( void )
{
	CStudioHdr *pstudiohdr = GetModelPtr( );
	if (! pstudiohdr)
		return LocalFlexController_t(0);

	return pstudiohdr->numflexcontrollers();
}
Beispiel #4
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void StudioModel::SetFlexControllerRaw( LocalFlexController_t iFlex, float flValue )
{
	CStudioHdr *pStudioHdr = GetStudioHdr();
	if ( !pStudioHdr )
		return;

	if (iFlex >= 0 && iFlex < pStudioHdr->numflexcontrollers())
	{
//		mstudioflexcontroller_t *pflex = pStudioHdr->pFlexcontroller(iFlex);
		m_flexweight[iFlex] = clamp( flValue, 0.0f, 1.0f );
	}
}
Beispiel #5
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float StudioModel::GetFlexControllerRaw( LocalFlexController_t iFlex )
{
	CStudioHdr *pStudioHdr = GetStudioHdr();
	if ( !pStudioHdr )
		return 0.0f;

	if (iFlex >= 0 && iFlex < pStudioHdr->numflexcontrollers())
	{
//		mstudioflexcontroller_t *pflex = pStudioHdr->pFlexcontroller(iFlex);
		return m_flexweight[iFlex];
	}
	return 0.0;
}
Beispiel #6
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LocalFlexController_t StudioModel::LookupFlexController( char *szName )
{
	CStudioHdr *pStudioHdr = GetStudioHdr();
	if (!pStudioHdr)
		return LocalFlexController_t(0);

	for (LocalFlexController_t iFlex = LocalFlexController_t(0); iFlex < pStudioHdr->numflexcontrollers(); iFlex++)
	{
		if (stricmp( szName, pStudioHdr->pFlexcontroller( iFlex )->pszName() ) == 0)
		{
			return iFlex;
		}
	}
	return LocalFlexController_t(-1);
}
Beispiel #7
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int StudioModel::LookupFlexController( char *szName )
{
	CStudioHdr *pStudioHdr = GetStudioHdr();
	if (!pStudioHdr)
		return false;

	for (int iFlex = 0; iFlex < pStudioHdr->numflexcontrollers(); iFlex++)
	{
		if (stricmp( szName, pStudioHdr->pFlexcontroller( iFlex )->pszName() ) == 0)
		{
			return iFlex;
		}
	}
	return -1;
}
Beispiel #8
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void StudioModel::SetFlexController( LocalFlexController_t iFlex, float flValue )
{
	CStudioHdr *pStudioHdr = GetStudioHdr();
	if ( !pStudioHdr )
		return;

	if (iFlex >= 0 && iFlex < pStudioHdr->numflexcontrollers())
	{
		mstudioflexcontroller_t *pflex = pStudioHdr->pFlexcontroller(iFlex);

		if (pflex->min != pflex->max)
		{
			flValue = (flValue - pflex->min) / (pflex->max - pflex->min);
		}
		m_flexweight[iFlex] = clamp( flValue, 0.0f, 1.0f );
	}
}
void StudioModel::RunFlexRules( )
{
	CStudioHdr *pStudioHdr = GetStudioHdr();

	float src[MAXSTUDIOFLEXCTRL*4];

	for (LocalFlexController_t i = LocalFlexController_t(0); i < pStudioHdr->numflexcontrollers(); i++)
	{
		mstudioflexcontroller_t *pflex = pStudioHdr->pFlexcontroller( i );
		int j = pStudioHdr->pFlexcontroller( i )->localToGlobal;
		// remap m_flexweights to full dynamic range, global flexcontroller indexes
		if (j >= 0 && j < MAXSTUDIOFLEXCTRL*4)
		{
			src[j] = m_flexweight[i] * (pflex->max - pflex->min) + pflex->min; 
		}
	}
	
	pStudioHdr->RunFlexRules( src, g_flexdescweight );
}
Beispiel #10
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float StudioModel::GetFlexController( LocalFlexController_t iFlex )
{
	CStudioHdr *pStudioHdr = GetStudioHdr();
	if ( !pStudioHdr )
		return 0.0f;

	if (iFlex >= 0 && iFlex < pStudioHdr->numflexcontrollers())
	{
		mstudioflexcontroller_t *pflex = pStudioHdr->pFlexcontroller(iFlex);

		float flValue = m_flexweight[iFlex];

		if (pflex->min != pflex->max)
		{
			flValue = flValue * (pflex->max - pflex->min) + pflex->min;
		}
		return flValue;
	}
	return 0.0;
}
Beispiel #11
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void StudioModel::RunFlexRules(  )
{
	int i;

	CStudioHdr *pStudioHdr = GetStudioHdr();

	float src[MAXSTUDIOFLEXCTRL*4];

	for (i = 0; i < pStudioHdr->numflexcontrollers(); i++)
	{
		mstudioflexcontroller_t *pflex = pStudioHdr->pFlexcontroller( i );
		int j = pStudioHdr->pFlexcontroller( i )->link;
		// remap m_flexweights to full dynamic range, global flexcontroller indexes
		src[j] = m_flexweight[i] * (pflex->max - pflex->min) + pflex->min; 
	}
	
	pStudioHdr->RunFlexRules( src, g_flexdescweight );

	return;
}
void IFaceposerModels::CFacePoserModel::CreateNewBitmap( char const *pchBitmapFilename, int sequence, int nSnapShotSize, bool bZoomInOnFace, CExpression *pExpression, mxbitmapdata_t *bitmap )
{
	MatSysWindow *pWnd = g_pMatSysWindow;
	if ( !pWnd ) 
		return;

	StudioModel *model = m_pModel;
	if ( !model )
		return;

	CStudioHdr *hdr = model->GetStudioHdr();
	if ( !hdr )
		return;
	if ( sequence < 0 || sequence >= hdr->GetNumSeq() )
		return;

	mstudioseqdesc_t &seqdesc = hdr->pSeqdesc( sequence );

	Con_ColorPrintf( FILE_COLOR, "Creating bitmap %s for sequence '%s'\n", pchBitmapFilename, seqdesc.pszLabel() );

	model->ClearOverlaysSequences();
	int iLayer = model->GetNewAnimationLayer();
	model->SetOverlaySequence( iLayer, sequence, 1.0 );
	model->SetOverlayRate( iLayer, FindPoseCycle( model, sequence ), 0.0 );

	for (int i = 0; i < hdr->GetNumPoseParameters(); i++)
	{
		model->SetPoseParameter( i, 0.0 );
	}

	float flexValues[ GLOBAL_STUDIO_FLEX_CONTROL_COUNT ] = { 0 };

	if ( pExpression )
	{
		float *settings = pExpression->GetSettings();
		float *weights = pExpression->GetWeights();

		// Save existing settings from model
		for ( LocalFlexController_t i = LocalFlexController_t(0); i < hdr->numflexcontrollers(); ++i )
		{
			int j = hdr->pFlexcontroller( i )->localToGlobal;
			if ( j == -1 )
				continue;
			flexValues[ i ] = model->GetFlexController( i );
			// Set Value from passed in settings
			model->SetFlexController( i, settings[ j ] * weights[ j ] );
		}
	}

	model->ClearLookTargets( );

	QAngle oldrot, oldLight;
	Vector oldtrans;
	
	VectorCopy( model->m_angles, oldrot );
	VectorCopy( model->m_origin, oldtrans );
	VectorCopy( g_viewerSettings.lightrot, oldLight );

	model->m_angles.Init();
	model->m_origin.Init();
	g_viewerSettings.lightrot.Init();

	g_viewerSettings.lightrot.y = -180;

	bool bSaveGround = g_viewerSettings.showGround;
	g_viewerSettings.showGround = false;

	if ( bZoomInOnFace )
	{
		Vector size;
		VectorSubtract( hdr->hull_max(), hdr->hull_min(), size );

		float eyeheight = hdr->hull_min().z + 0.9 * size.z;
		//	float width = ( size.x + size.y ) / 2.0f;

		model->m_origin.x = size.z * .6f;

		if ( hdr->GetNumAttachments() > 0 )
		{
			for (int i = 0; i < hdr->GetNumAttachments(); i++)
			{
				const mstudioattachment_t &attachment = hdr->pAttachment( i );
				int iBone = hdr->GetAttachmentBone( i );

				if ( Q_stricmp( attachment.pszName(), "eyes" ) )
					continue;

				mstudiobone_t *bone = hdr->pBone( iBone );
				if ( !bone )
					continue;

				matrix3x4_t boneToPose;
				MatrixInvert( bone->poseToBone, boneToPose );

				matrix3x4_t attachmentPoseToLocal;
				ConcatTransforms( boneToPose, attachment.local, attachmentPoseToLocal );

				Vector localSpaceEyePosition;
				VectorITransform( vec3_origin, attachmentPoseToLocal, localSpaceEyePosition );

				// Not sure why this must be negative?
				eyeheight = -localSpaceEyePosition.z + hdr->hull_min().z;
				break;
			}
		}

		KeyValues *seqKeyValues = new KeyValues("");
		if ( seqKeyValues->LoadFromBuffer( model->GetFileName( ), model->GetKeyValueText( sequence ) ) )
		{
			// Do we have a build point section?
			KeyValues *pkvAllFaceposer = seqKeyValues->FindKey("faceposer");
			if ( pkvAllFaceposer )
			{
				float flEyeheight = pkvAllFaceposer->GetFloat( "eye_height", -9999.0f );
				if ( flEyeheight != -9999.0f )
				{
					eyeheight = flEyeheight;
				}
			}
		}

		model->m_origin.z += eyeheight;
	}
	else
	{
		Vector mins, maxs;
		model->ExtractBbox(mins, maxs);
		Vector size;
		VectorSubtract( maxs, mins, size );

		float maxdim = size.x;
		if ( size.y > maxdim )
			maxdim = size.y;
		if ( size.z > maxdim )
			maxdim = size.z;

		float midpoint = mins.z + 0.5 * size.z;

		model->m_origin.x = 3 * maxdim;
		model->m_origin.z += midpoint;
	}

	pWnd->SuppressResize( true );

	RECT rcClient;
	HWND wnd = (HWND)pWnd->getHandle();

	WINDOWPLACEMENT wp;

	GetWindowPlacement( wnd, &wp );

	GetClientRect( wnd, &rcClient );

	MoveWindow( wnd, 0, 0, nSnapShotSize + 16, nSnapShotSize + 16, TRUE );

	// Snapshots are taken of the back buffer; 
	// we need to render to the back buffer but not move it to the front
	pWnd->SuppressBufferSwap( true );
	pWnd->redraw();
	pWnd->SuppressBufferSwap( false );

	// make it square, assumes w > h
	char fullpath[ 512 ];
	Q_snprintf( fullpath, sizeof( fullpath ), "%s%s", GetGameDirectory(), pchBitmapFilename );
	pWnd->TakeSnapshotRect( fullpath, 0, 0, nSnapShotSize, nSnapShotSize );

	// Move back to original position
	SetWindowPlacement( wnd, &wp );

	pWnd->SuppressResize( false );

	VectorCopy( oldrot, model->m_angles );
	VectorCopy( oldtrans, model->m_origin );
	VectorCopy( oldLight, g_viewerSettings.lightrot );

	g_viewerSettings.showGround = bSaveGround;

	if ( pExpression )
	{
		// Save existing settings from model
		for ( LocalFlexController_t i = LocalFlexController_t(0); i < hdr->numflexcontrollers(); ++i )
		{
			int j = hdr->pFlexcontroller( i )->localToGlobal;
			if ( j == -1 )
				continue;

			model->SetFlexController( i, flexValues[ i ] );
		}
	}

	model->ClearOverlaysSequences();
	
	if ( bitmap->valid )
	{
		DeleteObject( bitmap->image );
		bitmap->image = 0;
		bitmap->valid = false;
	}

	LoadBitmapFromFile( pchBitmapFilename, *bitmap );
}