Example #1
0
CEntity_StaticMesh::CEntity_StaticMesh(
	const std::vector< CRenderable_AbstractMaterial > in_Materials
	,const std::vector< CRenderable_BoneRemap >& in_RemappedGeometries
	,CBone* in_pRootBone
) :
	m_Skeleton(in_pRootBone)
	,m_RemappedGeometries(in_RemappedGeometries)
	,m_Materials(in_Materials)
{
	//CLog::Print("CEntity_StaticMesh(%p)::CEntity_StaticMesh(), pOrigin=%p\n",this,(CLinkOrigin*)this);
	CalcBox();
}
Example #2
0
void TextGraphic::getExtent (
    float& x0, float& y0, float& cx, float& cy, float& tol, Graphic* gs
) {
    PSFont* f = gs->GetFont();
    Coord l, b, r, t;

    CalcBox(l, b, r, t, f);
    if (gs->GetTransformer() == nil) {
	x0 = l;
	y0 = b;
	cx = float(l + r) / 2;
	cy = float(b + t) / 2;
    } else {
        transformRect(l, b, r, t, x0, y0, cx, cy, gs);
	cx = (cx + x0)/2;
	cy = (cy + y0)/2;
    }
    tol = 0;
}
Example #3
0
Tetra *FastMakeTetra(Face *f, Point3 *v, int n, UG *G)
{
 Plane p;
 Tetra *t;
 float CellBoxRadius= 0.0,	/* Radius of Cell Box to scan for dd-nearest */
	BoxRadius,
	FaceRadius,
	MinRadius=BIGNUMBER;

 struct argGroup args;
 Line Lc;
 IntPoint3 vn,vp, start, end, inc;
 int Index=-1;
 boolean Found=FALSE;

 SI.MakeTetra++;

 UGResetMark(G);

 if(!CalcPlane(&(v[f->v[0]]),&(v[f->v[1]]),&(v[f->v[2]]),&p))
		Error("Faccia composta da tre punti allineati!!\n",EXIT);

 CalcLineofCenter(&(v[f->v[0]]),&(v[f->v[1]]),&(v[f->v[2]]),&Lc);

 FaceRadius=V3DistanceBetween2Points(&(Lc.Lu), &(v[f->v[0]]));

  args.f = f;
  args.Lc = &Lc;
  args.p = &p; 
  args.G = G;
 // printf("checkpoint 0\n");
 do
 {
  CellBoxRadius++;
  BoxRadius=CalcBox(f,v,&Lc,G,&vn,&vp, CellBoxRadius*FaceRadius);

  Found=ScanCellBox(&vn, &vp, v,&args,&Index, &MinRadius);
 }
 while(!Found && CellBoxRadius <= 1);
 //printf("checkpoint 1\n");
// printf("MinRadius = %f BoxRadius = %f\n",MinRadius, BoxRadius);
 if(Found && MinRadius>BoxRadius)
 {float oldMinRadius=MinRadius;

  SI.SecondBox++;
//  printf("f->v[0] = %d, f->v[1] = %d, f->v[2] = %d, sqrt(MinRadius) = %f\n",f->v[0],f->v[1],f->v[2], sqrt(MinRadius));
  BoxRadius=CalcBox(f,v,&Lc,G,&vn,&vp, sqrt(MinRadius));
 // printf("checkpoint 2\n");
//printf("vn->x = %d ,vn->y = %d, vn->z = %d, vp->x = %d, vp->y = %d, vp->z = %d, radius = %f\n",vn.x, vn.y, vn.z, vp.x, vp.y,vp.z,MinRadius);


  ScanCellBox(&vn, &vp, v, &args, &Index, &MinRadius);
   //printf("checkpoint 2.1\n");
  if(oldMinRadius>MinRadius) SI.UsefulSecondBox++;
 }
 
 if(!Found)
 {
  //printf("checkpoint 3\n");
  SI.EmptyBox++;
  CalcLastScan(G, &start, &end, &inc, &p);
  //printf("checkpoint 4\n"); 
  Found=MakeLastScan(&start, &end, &inc, v, &args, &Index,&MinRadius);
 }
 //printf("chekpoint 5\n");
 if(!Found) return NULL;
 if(MinRadius>0)
 {
  SI.MinRadius+=sqrt(MinRadius);
  SI.MinRadiusNum++;
 }


 t=BuildTetra(f,Index);
 if(StatFlag)
 {Point3 C;
  CalcSphereCenter(&(v[f->v[0]]),&(v[f->v[1]]),&(v[f->v[2]]),&(v[Index]),&C);
  SI.Radius+=V3DistanceBetween2Points(&C, &(v[Index]));
 }
 if(CheckFlag)  CheckTetra(t,v,n);

 return t;
}