Esempio n. 1
0
void	UnwrapMod::fnCopy()
{
	int ct = 0;
	int currentLDID = -1;
	for (int ldID = 0; ldID < mMeshTopoData.Count(); ldID++)
	{
		BitArray fsel = mMeshTopoData[ldID]->GetFaceSelection();
		if (fsel.NumberSet())
		{
			currentLDID = ldID;
			ct++;
		}
	}
	

	if (ct > 1)
	{
//pop warnign message
		TSTR error,msg;
		error.printf(_T("%s"),GetString(IDS_PW_ERROR));
		msg.printf(_T("%s"),GetString(IDS_PW_COPYERROR));
		MessageBox(	NULL,msg,error,MB_OK);
		return;
	}
	//check for type


	if ((ct == 0) || (currentLDID==-1))
		return;

	copyPasteBuffer.iRotate = 0;

	
	copyPasteBuffer.copyType = 2;


	//make sure we only have one faces off of one local data selected

	MeshTopoData *ld = mMeshTopoData[currentLDID];

	copyPasteBuffer.mod = this;
	//copy the vertex list over
	copyPasteBuffer.tVertData.SetCount(ld->GetNumberTVVerts());//TVMaps.v.Count());
	for (int i =0; i < ld->GetNumberTVVerts(); i++)//TVMaps.v.Count(); i++)
	{
		copyPasteBuffer.tVertData[i] = ld->GetTVVert(i);//TVMaps.v[i].p;
	}	


//	MeshTopoData *md = (MeshTopoData*)mcList[0]->localData;//copy the face data over that is selected
	copyPasteBuffer.lmd = ld;


	for (int i = 0; i < copyPasteBuffer.faceData.Count(); i++)
	{
		delete copyPasteBuffer.faceData[i];
	}

	BitArray faceSel = ld->GetFaceSelection();
	ct = faceSel.NumberSet();
	if (faceSel.NumberSet() == ld->GetNumberFaces())//TVMaps.f.Count())
		copyPasteBuffer.copyType = 1;
	if (faceSel.NumberSet() == 1)
		copyPasteBuffer.copyType = 0;

	copyPasteBuffer.faceData.SetCount(ct);


	int faceIndex = 0;
	for (int i = 0; i < ld->GetNumberFaces(); i++)//TVMaps.f.Count(); i++)
	{
		if (faceSel[i])
		{
			UVW_TVFaceClass *f = ld->CloneFace(i);//TVMaps.f[i]->Clone();
			copyPasteBuffer.faceData[faceIndex] = f;
			faceIndex++;
		}
	}

}
Esempio n. 2
0
void  UnwrapMod::fnFlattenMapByMatID(float angleThreshold, float spacing, BOOL normalize, int layoutType, BOOL rotateClusters, BOOL fillHoles)
{

	int holdSubMode = fnGetTVSubMode();
	fnSetTVSubMode(TVVERTMODE);

//	vsel.SetAll();

	Tab<Point3*> normList;
	normList.SetCount(6);

	normList[0] = new Point3(1.0f,0.0f,0.0f);
	normList[1] = new Point3(-1.0f,0.0f,0.0f);
	normList[2] = new Point3(0.0f,1.0f,0.0f);
	normList[3] = new Point3(0.0f,-1.0f,0.0f);
	normList[4] = new Point3(0.0f,0.0f,1.0f);
	normList[5] = new Point3(0.0f,0.0f,-1.0f);



	int largestID = -1;
	for (int ldID = 0; ldID < mMeshTopoData.Count(); ldID++)
	{
		MeshTopoData *ld = mMeshTopoData[ldID];

		for (int i = 0; i < ld->GetNumberFaces(); i++)//TVMaps.f.Count(); i++)
		{
			int matID = ld->GetFaceMatID(i);
			if (matID > largestID)
				largestID = matID;
		}
	}
	BitArray usedMats;
	usedMats.SetSize(largestID+1);
	usedMats.ClearAll();
	for (int ldID = 0; ldID < mMeshTopoData.Count(); ldID++)
	{
		MeshTopoData *ld = mMeshTopoData[ldID];
		for (int i = 0; i < ld->GetNumberFaces(); i++)//TVMaps.f.Count(); i++)
		{
			int matID = ld->GetFaceMatID(i);
			usedMats.Set(matID,TRUE);
		}
	}


	Tab<int> matIDs;
	matIDs.SetCount(usedMats.NumberSet());
	int ct = 0;
	for (int i = 0; i < usedMats.GetSize(); i++)
	{
		if (usedMats[i])
		{
			matIDs[ct] = i;
			ct++;
		}

	}

	//loop through our mat ID
	Tab<ClusterClass*> matIDClusters;


	for (int ldID = 0; ldID < mMeshTopoData.Count(); ldID++)
	{
		MeshTopoData *ld = mMeshTopoData[ldID];
		for (int i = 0; i < matIDs.Count(); i++)
		{

				int matID = matIDs[i];
				FreeClusterList();
				for (int ldIDSel = 0; ldIDSel < mMeshTopoData.Count(); ldIDSel++)
				{
					mMeshTopoData[ldIDSel]->ClearFaceSelection();
				}
				ld->SelectByMatID(matID);
				if (ld->GetFaceSelection().NumberSet())
				{

					ClusterClass *mcluster = new ClusterClass();

					mcluster->ld = ld;
					for (int j = 0; j < ld->GetNumberFaces(); j++)//TVMaps.f.Count(); j++)
					{
						if (ld->GetFaceSelected(j))//(TVMaps.f[j]->MatID == matIDs[i])
						{
							mcluster->faces.Append(1,&j,100);
						}
					}

					matIDClusters.Append(1,&mcluster,5);

					fnFlattenMap(flattenAngleThreshold, &normList, flattenSpacing, FALSE, 2, flattenRotate, flattenCollapse);
				}
			
		}
	}


	FreeClusterList();

	clusterList.SetCount(matIDClusters.Count());
	for (int i = 0; i < matIDClusters.Count(); i++)
	{
		clusterList[i] = new ClusterClass();
		clusterList[i]->ld = matIDClusters[i]->ld;
		clusterList[i]->faces.SetCount(matIDClusters[i]->faces.Count());
		for (int j = 0; j < matIDClusters[i]->faces.Count(); j++)
			clusterList[i]->faces[j] = matIDClusters[i]->faces[j];

	}

	for (int ldID = 0; ldID < mMeshTopoData.Count(); ldID++)
		mMeshTopoData[ldID]->UpdateClusterVertices(clusterList);

	Pack(0, spacing, normalize, rotateClusters, fillHoles,FALSE,FALSE);


	FreeClusterList();

	TimeValue t = GetCOREInterface()->GetTime();
	if (normalize)
	{
		float per = 1.0f-(spacing*2.0f);
		float add = spacing;
		for (int ldID = 0; ldID < mMeshTopoData.Count(); ldID++)
		{
			MeshTopoData *ld = mMeshTopoData[ldID];
			for (int i = 0; i < ld->GetNumberTVVerts(); i++)//TVMaps.v.Count(); i++)
			{
				Point3 p = ld->GetTVVert(i);

				p *= per;
				p.x += add;
				p.y += add;

				ld->SetTVVert(t,i,p,this);

//				if (TVMaps.cont[i]) 
//					TVMaps.cont[i]->SetValue(0,&TVMaps.v[i].p,CTRL_ABSOLUTE);

			}
		}
	}

	for (int i = 0; i < matIDs.Count(); i++)
	{
		if (matIDClusters[i])
			delete matIDClusters[i];
	}
	for (int i = 0; i < 6; i++)
		delete normList[i];

	fnSetTVSubMode(holdSubMode);

}