void	SMDImporter::CreateChainFromThisNode( SMDNode* in_pNode, XSI::X3DObject in_Parent, int from)
{
	
	XSI::ChainRoot myChainRoot;
	SMDKey *l_pKey = in_pNode->GetKey (0);

	for (int c=from;c<in_pNode->m_pChildren.GetUsed();c++)
	{

		XSI::MATH::CVector3 position;
		XSI::MATH::CVector3 positioneff;
		if ( l_pKey )
		{
			position = GetGlobalPosition ( in_pNode );
			positioneff = position;
			positioneff.PutX ( positioneff.GetX() + 1.0f );
		}

		if (!myChainRoot.IsValid() )
		{
			LPWSTR l_wszModelName;
			DSA2W(&l_wszModelName,in_pNode->m_szName);
			
			in_Parent.Add3DChain(	position,
				positioneff,
				XSI::MATH::CVector3(0,0,1),
				l_wszModelName,
				myChainRoot);
		}

		SMDNode* bone = in_pNode->m_pChildren[c];

		while ( bone != NULL )
		{
			LPWSTR l_wszBoneName;
			DSA2W(&l_wszBoneName,bone->m_szName);

			SMDKey *l_pBKey = bone->GetKey (0);
			XSI::ChainBone myChainBone1;
			myChainRoot.AddBone(GetGlobalPosition(bone),XSI::siChainBonePin,l_wszBoneName,myChainBone1);

			if ( !bone->m_pChildren.GetUsed() )
			{
				bone = NULL;
			} else {

				if ( bone->m_pChildren.GetUsed() > 1 )
				{
					for (int s=1;s<bone->m_pChildren.GetUsed();s++)
					{
						CreateChainFromThisNode( bone, myChainBone1, s);
					}
				}

				bone = bone->GetChild(0);
			}
		}
	}

}
//****************************************************************************************
// function			: ComputeBaseOffset
// description		: compute the position based on the percentage along the bone
// with an added offset. 
//
// vOffeset			: vector3, offset to add to final position
// dtBone2LPose			: double, percentage along bone length where 0 <= v <= 100
// dtBone2LPose			: double, bone length
//
// return value	:	SIVector3 
//****************************************************************************************
void CAxisInterpOp::ComputeBaseOffset( XSI::MATH::CVector3& rvBaseOffset, double dBonePerc, double dBoneLen )
{	
	double delta = 0;

	if ( dBonePerc != 0 ) {
		delta = dBonePerc / 100.0;
	}

	// move the position a percentage along the bone length	
	rvBaseOffset.PutX( rvBaseOffset.GetX() + ( dBoneLen * delta ) );

}
void	SMDImporter::CreateGeometry()
{

	if ( !m_pTriangles.GetUsed() )
		return;

	long t;

	XSI::MATH::CTransformation xfo;
	xfo.SetRotationFromXYZAnglesValues ( -1.570796, 0.0, 0.0 );

	for (t=0;t<m_pTriangles.GetUsed();t++)
	{
		for (int v=0;v<3;v++)
		{
			XSI::MATH::CVector3 vec = XSI::MATH::MapObjectPositionToWorldSpace ( xfo, m_pTriangles[t]->m_pVertex[v].m_vPosition );
			
			long outindex;
			compress.AddVertex ( vec.GetX(), 
									vec.GetY(), 
									vec.GetZ(), 
									m_pTriangles[t]->m_pVertex[v].m_vUV.GetX(), 
									m_pTriangles[t]->m_pVertex[v].m_vUV.GetY(),
									&m_pTriangles[t]->m_pVertex[v],
									&outindex);

			m_lVertexMap.Extend(1);
			m_lVertexMap[m_lVertexMap.GetUsed()-1] = outindex;
		}
	}

	XSI::MATH::CVector3Array verts(compress.GetCount());
	long vindex = 0;
	long cnt  = compress.GetCount ();
	for (t=0;t<compress.GetCount ();t++)
	{
		uvvec vec;
		compress.GetVertex (t, &vec);
		verts[t] = XSI::MATH::CVector3 ( vec.x, vec.y, vec.z );
	}
	
	
	XSI::CLongArray indices((m_pTriangles.GetUsed() * 3) + m_pTriangles.GetUsed());

	long iindex = 0;
	

	char *l_szGlobalTexture = m_pTriangles[0]->m_szTexture;
	CSIBCArray<TriCluster>	ClusterList;
	
	for (t=0;t<m_pTriangles.GetUsed();t++)
	{
		
		XSI::MATH::CVector3 vec1 = XSI::MATH::MapObjectPositionToWorldSpace ( xfo, m_pTriangles[t]->m_pVertex[0].m_vPosition );
		XSI::MATH::CVector3 vec2 = XSI::MATH::MapObjectPositionToWorldSpace ( xfo, m_pTriangles[t]->m_pVertex[1].m_vPosition );
		XSI::MATH::CVector3 vec3 = XSI::MATH::MapObjectPositionToWorldSpace ( xfo, m_pTriangles[t]->m_pVertex[2].m_vPosition );

		long i1 = compress.GetIndex ( vec1.GetX(), vec1.GetY(), vec1.GetZ(), m_pTriangles[t]->m_pVertex[0].m_vUV.GetX(), m_pTriangles[t]->m_pVertex[0].m_vUV.GetY());
		long i2 = compress.GetIndex ( vec2.GetX(), vec2.GetY(), vec2.GetZ(), m_pTriangles[t]->m_pVertex[1].m_vUV.GetX(), m_pTriangles[t]->m_pVertex[1].m_vUV.GetY());
		long i3 = compress.GetIndex ( vec3.GetX(), vec3.GetY(), vec3.GetZ(), m_pTriangles[t]->m_pVertex[2].m_vUV.GetX(), m_pTriangles[t]->m_pVertex[2].m_vUV.GetY());

		indices[iindex] = 3;
		indices[iindex+1] = i1;
		indices[iindex+2] = i2;
		indices[iindex+3] = i3;
		iindex += 4;

		if ( strcmp ( l_szGlobalTexture, m_pTriangles[t]->m_szTexture ))
		{
			//
			// found a local material
			//

			TriCluster* cls = NULL;

			for (int c=0;c<ClusterList.GetUsed();c++)
			{
				if ( !strcmp ( ClusterList[c].m_szName, m_pTriangles[t]->m_szTexture))
				{
					cls = &ClusterList[c];
					break;
				}

			}

			if ( cls == NULL )
			{
				ClusterList.Extend(1);
				strcpy ( ClusterList[ClusterList.GetUsed()-1].m_szName, m_pTriangles[t]->m_szTexture );
				cls = &ClusterList[ClusterList.GetUsed()-1];
			}

			cls->m_indices.Add ( t );

		}

	}

	char mname[1024];
	sprintf (mname, "mesh" );
	if ( m_pMeshNode )
	{
		sprintf (mname, FixName(m_pMeshNode->m_szName));
	}

	LPWSTR l_wszModelName;
	DSA2W(&l_wszModelName,mname);

	m_pModel.AddPolygonMesh ( verts, indices, l_wszModelName, m_pMesh );


	XSI::Application	app;
	XSI::CValueArray	args(4);
	XSI::CValue			outArg;
	XSI::CStatus		st;

	args[0] = XSI::CValue( XSI::CString(L"") );
	args[1] = XSI::CValue(false);
	args[0] = XSI::CValue(m_pMesh.GetRef());
	args[1] = XSI::CValue((long)XSI::siTxtUV);
	args[2] = XSI::CValue((long)XSI::siTxtDefaultSpherical);
	args[3] = XSI::CValue(XSI::CString(L"Texture_Support"));

	app.ExecuteCommand( L"CreateTextureSupport", args, outArg );

	XSI::CValueArray	moreargs(1);
	XSI::CValueArray	moreoutargs(3);
	moreargs[0] = m_pMesh.GetRef();
	app.ExecuteCommand(L"FreezeObj",moreargs, outArg);

	XSI::Material		l_matMaterial;
	st = m_pMesh.AddMaterial(L"Phong", true, L"CubeMat", l_matMaterial);
		
	XSI::OGLTexture		l_oglTexture(l_matMaterial.GetOGLTexture());

	XSI::CString		l_szFullNameDefaultOut	= l_oglTexture.GetFullName();
	int			l_nHeightDefaultOut		= l_oglTexture.GetHeight();
	int			l_nWidthDefaultOut		= l_oglTexture.GetWidth();

	

	// Now actually add a texture, so we can test it.
	args[0] = XSI::CValue( XSI::CString(L"Image") );
	args[1] = XSI::CValue(m_pMesh.GetRef());
	args[2] = XSI::CValue((short)1);
	args[3] = XSI::CValue(false);
	st = app.ExecuteCommand( L"BlendInPresets", args, outArg );

	
	//
	// create the texture and connect
	//
	
	XSI::CValueArray	clipargs(3);
	XSI::ImageClip2 l_pClip;
	
	char l_szTextureFullname[1024];
	sprintf ( l_szTextureFullname, "%s%s", m_szDirectory, m_pTriangles[0]->m_szTexture);
	char clipname[1024];
	_splitpath ( m_pTriangles[0]->m_szTexture, NULL, NULL, clipname, NULL );

	LPWSTR l_wszClipName;
	DSA2W(&l_wszClipName,l_szTextureFullname);

	LPWSTR l_wszClipName2;
	DSA2W(&l_wszClipName2,clipname);

	
	
	clipargs[0] = XSI::CValue( XSI::CString(l_wszClipName) );
	clipargs[1] = XSI::CValue( XSI::CString(l_wszClipName2) );
	clipargs[2] = XSI::CValue(l_pClip.GetRef());
	app.ExecuteCommand( L"SICreateImageClip", clipargs, outArg );
	
	XSI::CString		l_szMaterialName	= l_matMaterial.GetFullName(); 
	XSI::CString		l_szImageNode = l_szMaterialName + L".CubeMat.ambient_blend.Image.tex";
	XSI::CString		l_szFullclipname = L"Clips." +  XSI::CString(l_wszClipName2);
	
	XSI::CValueArray	clipargs2(2);
	clipargs2[0] = XSI::CValue( XSI::CString(l_szFullclipname) );
	clipargs2[1] = XSI::CValue( XSI::CString(l_szImageNode) );
	
	app.ExecuteCommand( L"SIConnectShaderToCnxPoint", clipargs2, outArg );

	//
	// Create all clusters
	//

	XSI::Geometry geom( m_pMesh.GetActivePrimitive().GetGeometry() );
	
	for (int b=0;b<ClusterList.GetUsed();b++)
	{
		TriCluster* cls = &ClusterList[b];
		
		
		sprintf ( l_szTextureFullname, "%s%s", m_szDirectory, cls->m_szName);
		_splitpath ( cls->m_szName, NULL, NULL, clipname, NULL );
		
		DSA2W(&l_wszClipName,l_szTextureFullname);
		DSA2W(&l_wszClipName2,clipname);
		
		XSI::CLongArray array;
		XSI::Cluster polyCluster ;
		geom.AddCluster( XSI::siPolygonCluster, l_wszClipName2, cls->m_indices, polyCluster ) ;
		
		st = polyCluster.AddMaterial(L"Phong", true, L"CubeMat", l_matMaterial);
		
		XSI::OGLTexture		l_oglTexture(l_matMaterial.GetOGLTexture());
	
		// Now actually add a texture, so we can test it.
		args[0] = XSI::CValue( XSI::CString(L"Image") );
		args[1] = XSI::CValue(polyCluster.GetRef());
		args[2] = XSI::CValue((short)1);
		args[3] = XSI::CValue(false);
		st = app.ExecuteCommand( L"BlendInPresets", args, outArg );
			

		
		
		
		clipargs[0] = XSI::CValue( XSI::CString(l_wszClipName) );
		clipargs[1] = XSI::CValue( XSI::CString(l_wszClipName2) );
		clipargs[2] = XSI::CValue(l_pClip.GetRef());
		app.ExecuteCommand( L"SICreateImageClip", clipargs, outArg );
		
		l_szMaterialName	= l_matMaterial.GetFullName(); 
		l_szImageNode = l_szMaterialName + L".CubeMat.ambient_blend.Image.tex";
		l_szFullclipname = L"Clips." +  XSI::CString(l_wszClipName2);
		
		clipargs2[0] = XSI::CValue( XSI::CString(l_szFullclipname) );
		clipargs2[1] = XSI::CValue( XSI::CString(l_szImageNode) );
		
		app.ExecuteCommand( L"SIConnectShaderToCnxPoint", clipargs2, outArg );
		
	}

	
	if ( m_pMesh.IsValid () )
	{
		XSI::Geometry geom( m_pMesh.GetActivePrimitive().GetGeometry() );
		XSI::PolygonMesh mesh(m_pMesh.GetActivePrimitive().GetGeometry());

		XSI::CPointRefArray Geompoints = geom.GetPoints();
		
				
		XSI::CTriangleRefArray triangles(geom.GetTriangles());
		XSI::ClusterProperty UVWProp(m_pMesh.GetMaterial().GetCurrentUV());
		
		if ( UVWProp.IsValid() )
		{

		XSI::CClusterPropertyElementArray clusterPropertyElements = UVWProp.GetElements();
		XSI::CDoubleArray elementArray = clusterPropertyElements.GetArray();
		
		long totalUvCount = elementArray.GetCount ();
		int cc=0;
		int uvc = 0;
		for (int c=0;c<m_pTriangles.GetUsed();c++)
		{
			long l_iNumVertex = indices[cc];
			
			cc++;
			for (int i=0;i<l_iNumVertex;i++)
			{
				long l_iID = indices[cc];
				cc++;
				
				uvvec vec;
				compress.GetVertex (l_iID, &vec);

				elementArray[ uvc * 3 ] = vec.u;
				
				elementArray[ (uvc * 3) + 1] = vec.v;
				elementArray[ (uvc * 3) + 2] = 0.0f;
				
				uvc++;
			}
			
			
			
		}


			clusterPropertyElements.PutArray(elementArray);
		}
	}

}
Exemple #4
0
void TXGLPoint::SetPos(XSI::MATH::CVector3& pos)
{
	m_pos[0] = (GLfloat)pos.GetX();
	m_pos[1] = (GLfloat)pos.GetY();
	m_pos[2] = (GLfloat)pos.GetZ();
}