Esempio n. 1
0
BBox SpherePrimitive::wsBounds(Geo::Geometry::CPtr geometry) const
{
  assert(geometry != NULL);
  assert(geometry->particles() != NULL);

  if (!geometry->particles()) {
    Log::warning("SpherePrimitive has no particles. "
                 "Skipping bounds generation.");
    return BBox();
  }

  BBox wsBBox;

  AttrVisitor visitor(geometry->particles()->pointAttrs(), m_params);
  Attr<V3f>   wsCenter("P");
  Attr<float> radius("radius");

  for (AttrVisitor::const_iterator i = visitor.begin(), end = visitor.end(); 
       i != end; ++i) {
    i.update(wsCenter);
    i.update(radius);
    wsBBox.extendBy(wsCenter.as<Vector>() + radius.as<Vector>());
    wsBBox.extendBy(wsCenter.as<Vector>() - radius.as<Vector>());
  }

  return wsBBox;
}
Esempio n. 2
0
void SpherePrimitive::execute(Geo::Geometry::CPtr geometry,
                              ScalarBuffer::Ptr buffer) const
{
  Log::print("Rasterizing SpherePrimitive instances");

  SamplingDerivatives wsDerivs;
  getDerivatives(buffer->mapping(), 0, 0, 0, wsDerivs);

  FieldMapping::Ptr mapping = buffer->mapping();
    
  AttrVisitor visitor(geometry->particles()->pointAttrs(), m_params);
  Attr<V3f>   wsCenter("P");
  Attr<float> radius  ("radius");
  Attr<float> density ("density");

  Timer timer;

  for (AttrVisitor::const_iterator i = visitor.begin(), end = visitor.end(); 
       i != end; ++i) {

    // Check if user terminated
    Sys::Interrupt::throwOnAbort();

    // Update per-point attributes
    i.update(wsCenter);
    i.update(radius);
    i.update(density);

    // Calculate rasterization bounds
    BBox vsBounds = calculateVsBounds(mapping, wsCenter.as<Vector>(), radius);
    DiscreteBBox dvsBounds = Math::discreteBounds(vsBounds);

    // Iterate over voxels
    for (ScalarBuffer::iterator i = buffer->begin(dvsBounds), 
           end = buffer->end(dvsBounds); i != end; ++i) {
      Vector vsP = discToCont(V3i(i.x, i.y, i.z)), wsP;
      mapping->voxelToWorld(vsP, wsP);
      float value = evaluateSphere(wsP, wsCenter.as<Vector>(), 
                                   radius, density, 0.9f);
      if (value > 0.0f) {
        *i += value;
      }
    }
  }

  Log::print("Sphere primitive processed " + str(points.size()) + 
             " input points");
  Log::print("  Time elapsed: " + str(timer.elapsed()));
}
Esempio n. 3
0
int main()
{
  size_t numItems = 10000000;

  AttrTable at;
  at.addVectorAttr("P", V3f(0.0));
  at.addFloatAttr("float_attr", 1, std::vector<float>(1, 0.0));
  at.addIntAttr("int_attr", 1, std::vector<int>(1, 0));
  at.resize(numItems);
  
  // First we iterate explicitly over all points
  
  {
    boost::timer::auto_cpu_timer timer;
    
    AttrRef pRef = at.vectorAttrRef("P");
    AttrRef floatRef = at.floatAttrRef("float_attr");
    AttrRef intRef = at.intAttrRef("int_attr");

    V3f pVal(0.0);
    float floatVal(0.0);
    int intVal(0);

    for (size_t i = 0, end = at.size(); i != end; ++i) {
      pVal += at.vectorAttr(pRef, i);
      floatVal += at.floatAttr(floatRef, i, 0);
      intVal += at.intAttr(intRef, i, 0);
    }

	timer.stop();
    cout << "Time to iterate explicitly: ";
	timer.report();

  }

  // Then, we introduce a global attribute map
  
  ParamMap params;
  params.intMap["int_attr"] = 1;
  params.floatMap["float_attr"] = 1.0;
  params.intMap["int_attr_2"] = 1;
  params.floatMap["float_attr_2"] = 1.0;

  {
	  boost::timer::auto_cpu_timer timer;

    AttrRef pRef = at.vectorAttrRef("P");
    AttrRef floatRef = at.floatAttrRef("float_attr");
    AttrRef intRef = at.intAttrRef("int_attr");
    AttrRef floatRef2 = at.floatAttrRef("float_attr_2");
    AttrRef intRef2 = at.intAttrRef("int_attr_2");

    V3f pVal(0.0);
    float floatVal(0.0), floatVal2(0.0);
    int intVal(0), intVal2(0);

    if (pRef.isValid()) {
        for (size_t i = 0, end = at.size(); i != end; ++i) {
          pVal += at.vectorAttr(pRef, i);
        }
    } else {
      pVal += params.vectorMap["P"] * at.size();
    }
    if (floatRef.isValid()) {
      for (size_t i = 0, end = at.size(); i != end; ++i) {
        floatVal += at.floatAttr(floatRef, i, 0);
      } 
    } else {
      floatVal += params.floatMap["float_attr"] * at.size();
    }
    if (intRef.isValid()) {
      for (size_t i = 0, end = at.size(); i != end; ++i) {
        intVal += at.intAttr(intRef, i, 0);
      }
    } else {
      intVal += params.intMap["int_attr"] * at.size();
    }
    if (floatRef2.isValid()) {
      for (size_t i = 0, end = at.size(); i != end; ++i) {
        floatVal2 += at.floatAttr(floatRef2, i, 0);
      }
    } else {
      floatVal2 += params.floatMap["float_attr_2"] * at.size();
    }
    if (intRef2.isValid()) {
      for (size_t i = 0, end = at.size(); i != end; ++i) {
        intVal2 += at.intAttr(intRef2, i, 0);
      }
    } else {
      intVal2 += params.intMap["int_attr_2"] * at.size();
    }
	timer.stop();
    cout << "Time to iterate explicitly with param map: ";
	timer.report();
    cout << pVal << " " << floatVal << " " << floatVal2 << " "
         << intVal << " " << intVal2 << endl;
    
  }

  // Lastly, we iterate using AttrVisitor

  {

	boost::timer::auto_cpu_timer timer;

    AttrVisitor visitor(at, params);
    Attr<V3f> p("P");
    Attr<float> float1("float_attr");
    Attr<float> float2("float_attr_2");
    Attr<int> int1("int_attr");
    Attr<int> int2("int_attr_2");

    V3f pVal(0.0);
    float floatVal(0.0), floatVal2(0.0);
    int intVal(0), intVal2(0);

    for (AttrVisitor::const_iterator i = visitor.begin(), end = visitor.end();
         i != end; ++i) {
      i.update(p);
      i.update(float1);
      i.update(float2);
      i.update(int1);
      i.update(int2);
      pVal += p.value();
      floatVal += float1.value();
      floatVal2 += float2.value();
      intVal += int1.value();
      intVal2 += int2.value();
    }
	timer.stop();
    cout << "Time to iterate using AttrVisitor: ";
	timer.report();
    cout << pVal << " " << floatVal << " " << floatVal2 << " "
         << intVal << " " << intVal2 << endl;
    
  }

}