//-----------------------------------------------------------------------------
// Purpose:
// Input : pSolid -
// pData -
// Output : Returns TRUE to continue enumerating.
//-----------------------------------------------------------------------------
static BOOL FindDuplicateFaceIDs(CMapSolid *pSolid, FindDuplicateFaceIDs_t *pData)
{
int nFaceCount = pSolid->GetFaceCount();
for (int i = 0; i < nFaceCount; i++)
{
CMapFace *pFace = pSolid->GetFace(i);
if (pData->All.FindFaceID(pFace->GetFaceID()) != -1)
{
if (pData->Duplicates.FindFaceID(pFace->GetFaceID()) != -1)
{
pData->Duplicates.AddToTail(pFace);
}
}
else
{
pData->All.AddToTail(pFace);
}
}
return(TRUE);
}
//-----------------------------------------------------------------------------
// Purpose:
// Input : List -
//-----------------------------------------------------------------------------
void CMapSideList::RemoveFacesNotInList(CMapObjectList &List)
{
if (m_Faces.Count() > 0)
{
for (int i = m_Faces.Count() - 1; i >= 0; i--)
{
CMapFace *pFace = m_Faces.Element(i);
if (FindFaceIDInList(pFace->GetFaceID(), List) == NULL)
{
CMapSolid *pSolid = (CMapSolid *)pFace->GetParent();
UpdateDependency(pSolid, NULL);
m_Faces.FastRemove(i);
}
}
}
}
//-----------------------------------------------------------------------------
// Purpose: Called from OnClone and OnPaste, updates references to face IDs
// in the one solid with references to corresponding face IDs in
// another solid.
// Input : pOrigSolid - Solid with faces to find.
// pNewSolid - Solid with faces to replace with.
// Output : Returns true if it replaced at least one face.
//-----------------------------------------------------------------------------
bool CMapSideList::ReplaceSolidFaces(CMapSolid *pOrigSolid, CMapSolid *pNewSolid)
{
bool bDidSomething = false;
for (int i = 0; i < pOrigSolid->GetFaceCount(); i++)
{
CMapFace *pFace = pOrigSolid->GetFace(i);
int nIndex = m_Faces.FindFaceID(pFace->GetFaceID());
if (nIndex != -1)
{
//
// Replace the element in our face list and unlink
// us from the original solid, relinking us to the new solid.
//
m_Faces.Element(nIndex) = pNewSolid->GetFace(i);
UpdateDependency(pOrigSolid, pNewSolid);
bDidSomething = true;
}
}
return(bDidSomething);
}
//-----------------------------------------------------------------------------
// Purpose:
// Input : pObject -
// eNotifyType -
//-----------------------------------------------------------------------------
void CMapSideList::OnNotifyDependent(CMapClass *pObject, Notify_Dependent_t eNotifyType)
{
if (eNotifyType == Notify_Removed)
{
//
// Check for a solid that we refer to via face ID going away.
//
CMapSolid *pSolid = dynamic_cast<CMapSolid *>(pObject);
if ((pSolid != NULL) && (m_Faces.Count() > 0))
{
//
// Remove faces from our list that are in this solid.
// Do it backwards so we can remove them as we go. Also, add
// the face IDs to our list of lost IDs so that we can reacquire
// the face in our list if the solid comes back later.
//
for (int i = m_Faces.Count() - 1; i >= 0; i--)
{
CMapFace *pFace = m_Faces.Element(i);
if (pFace != NULL)
{
CMapSolid *pParent = (CMapSolid *)pFace->GetParent();
if (pParent == pSolid)
{
m_LostFaceIDs.AddToTail(pFace->GetFaceID());
m_Faces.FastRemove(i);
}
}
}
//
// Submit the updated face list to our parent entity.
//
UpdateParentKey();
}
}
}
void CSSolid::FromMapSolid(CMapSolid *p, bool bSkipDisplacementFaces)
{
// so we can pass NULL (default) or another solid (to copy):
CMapSolid *pSolid;
if(p)
pSolid = p;
else
pSolid = m_pMapSolid;
m_nFaces = 0;
m_nEdges = 0;
m_nVertices = 0;
// Create vertices, edges, faces.
int nSolidFaces = pSolid->GetFaceCount();
for(int i = 0; i < nSolidFaces; i++)
{
CMapFace *pSolidFace = pSolid->GetFace(i);
if (bSkipDisplacementFaces)
{
if (pSolidFace->HasDisp())
continue;
}
// Add a face
CSSFace *pFace = AddFace();
memcpy(pFace->PlanePts, pSolidFace->plane.planepts, sizeof(Vector) * 3);
pFace->texture = pSolidFace->texture;
pFace->normal = pSolidFace->plane.normal;
pFace->m_nFaceID = pSolidFace->GetFaceID();
// Displacement.
if ( pSolidFace->HasDisp() )
{
pFace->m_hDisp = EditDispMgr()->Create();
CMapDisp *pDisp = EditDispMgr()->GetDisp( pFace->m_hDisp );
CMapDisp *pSolidDisp = EditDispMgr()->GetDisp( pSolidFace->GetDisp() );
pDisp->CopyFrom( pSolidDisp, false );
}
// Convert vertices and edges
int nFacePoints = pSolidFace->nPoints;
Vector *pFacePoints = pSolidFace->Points;
SSHANDLE hLastVertex = 0; // valid IDs start at 1
SSHANDLE hThisVertex, hFirstVertex;
for(int pt = 0; pt <= nFacePoints; pt++)
{
int iVertex;
if(pt < nFacePoints)
{
// YWB: Change leniency from 1.0 down to 0.1
iVertex = GetVertexIndex(pFacePoints[pt], 0.1f);
if (iVertex == -1)
{
// not found - add the vertex
CSSVertex *pVertex = AddVertex(&iVertex);
pVertex->pos = pFacePoints[pt];
}
// assign this vertex handle
hThisVertex = m_Vertices[iVertex].id;
if (pt == 0)
hFirstVertex = hThisVertex;
}
else
{
// connect last to first
hThisVertex = hFirstVertex;
}
if (hLastVertex)
{
// create the edge from the last vertex to current vertex.
// first check to see if this edge already exists..
int iEdge = GetEdgeIndex(hLastVertex, hThisVertex);
CSSEdge *pEdge;
if (iEdge == -1)
{
// not found - add new edge
pEdge = AddEdge(&iEdge);
pEdge->hvStart = hLastVertex;
pEdge->hvEnd = hThisVertex;
// make sure edge center is valid:
CalcEdgeCenter(pEdge);
}
else
{
pEdge = &m_Edges[iEdge];
}
// add the edge to the face
pFace->Edges[pFace->nEdges++] = pEdge->id;
// set edge's face array
if(!pEdge->Faces[0])
pEdge->Faces[0] = pFace->id;
else if(!pEdge->Faces[1])
pEdge->Faces[1] = pFace->id;
else
{
// YWB try filling in front side
// rather than ASSERT(0) crash
pEdge->Faces[0] = pFace->id;
AfxMessageBox("Edge with both face id's already filled, skipping...");
}
}
hLastVertex = hThisVertex;
}
}
}
