Ejemplo n.º 1
0
LIST_OF_REALS *
STEPWrapper::parseListOfReals(const char *in)
{
    LIST_OF_REALS *l = new LIST_OF_REALS;
    ErrorDescriptor errdesc;
    RealAggregate *ra = new RealAggregate();

    //ra->StrToVal(in, &errdesc, SDAI_Real, instance_list, 0);
    ra->StrToVal(in, &errdesc, SCHEMA_NAMESPACE::t_parameter_value, instance_list, 0);
    RealNode *rn = (RealNode *)ra->GetHead();
    while (rn != NULL) {
	l->push_back(rn->value);
	rn = (RealNode *)rn->NextNode();
    }
    /*
      EntityNode *sn = (EntityNode *)ra->GetHead();

      SDAI_Application_instance *sse;
      while (sn != NULL) {
      sse = (SDAI_Application_instance *)sn->node;
      CartesianPoint *aCP = new CartesianPoint(this, sse->STEPfile_id);
      if (aCP->Load(this, sse)) {
      l->push_back(aCP);
      } else {
      std::cout << "Error loading Real list." << std::endl;
      }
      sn = (EntityNode *)sn->NextNode();
      }*/
    delete ra;

    return l;
}
Ejemplo n.º 2
0
bool
Direction::Load(STEPWrapper *sw,SDAI_Application_instance *sse) {
    step=sw;
    id = sse->STEPfile_id;

    if ( !GeometricRepresentationItem::Load(step,sse) ) {
	std::cout << CLASSNAME << ":Error loading base class ::GeometricRepresentationItem." << std::endl;
	return false;
    }

    // need to do this for local attributes to makes sure we have
    // the actual entity and not a complex/supertype parent
    sse = step->getEntity(sse,ENTITYNAME);

    STEPattribute *attr = step->getAttribute(sse,"direction_ratios");
    if (attr != NULL) {
	STEPaggregate *sa = (STEPaggregate *)(attr->ptr.a);
	RealNode *rn = (RealNode *)sa->GetHead();
	int index = 0;
	while ( rn != NULL) {
	    direction_ratios[index++] = rn->value;
	    rn = (RealNode *)rn->NextNode();
	}
    } else {
	std::cout << CLASSNAME << ": error loading 'coordinate' attribute." << std::endl;
    }

    return true;
}
Ejemplo n.º 3
0
bool
RationalBSplineCurve::Load(STEPWrapper *sw, SDAI_Application_instance *sse)
{
    step = sw;
    id = sse->STEPfile_id;

    // load base class attributes
    if (!BSplineCurve::Load(sw, sse)) {
	std::cout << CLASSNAME << ":Error loading base class ::BSplineCurve." << std::endl;
	return false;
    }

    // need to do this for local attributes to makes sure we have
    // the actual entity and not a complex/supertype parent
    sse = step->getEntity(sse, ENTITYNAME);

    if (weights_data.empty()) {
	STEPattribute *attr = step->getAttribute(sse, "weights_data");

	if (attr) {
	    STEPaggregate *sa = (STEPaggregate *)(attr->ptr.a);
	    RealNode *rn = (RealNode *)sa->GetHead();

	    while (rn != NULL) {
		weights_data.insert(weights_data.end(), rn->value);
		rn = (RealNode *)rn->NextNode();
	    }
	} else {
	    std::cout << CLASSNAME << ": Error loading RationalBSplineCurve(weights_data)." << std::endl;
	    return false;
	}
    }

    return true;
}
Ejemplo n.º 4
0
bool
BSplineSurfaceWithKnots::Load(STEPWrapper *sw,SDAI_Application_instance *sse) {
    step=sw;
    id = sse->STEPfile_id;

    // load base class attributes
    if ( !BSplineSurface::Load(step,sse) ) {
	std::cout << CLASSNAME << ":Error loading base class ::BSplineCurve." << std::endl;
	return false;
    }

    // need to do this for local attributes to makes sure we have
    // the actual entity and not a complex/supertype parent
    sse = step->getEntity(sse,ENTITYNAME);

    if (u_multiplicities.empty()) {
	STEPattribute *attr = step->getAttribute(sse,"u_multiplicities");
	if (attr) {
	    STEPaggregate *sa = (STEPaggregate *)(attr->ptr.a);
	    IntNode *in = (IntNode *)sa->GetHead();

	    while ( in != NULL) {
		u_multiplicities.push_back(in->value);
		in = (IntNode *)in->NextNode();
	    }
	} else {
	    std::cout << CLASSNAME << ": Error loading BSplineSurfaceWithKnots(u_multiplicities)." << std::endl;
	    return false;
	}
    }
    if (v_multiplicities.empty()) {
	STEPattribute *attr = step->getAttribute(sse,"v_multiplicities");
	if (attr) {
	    STEPaggregate *sa = (STEPaggregate *)(attr->ptr.a);
	    IntNode *in = (IntNode *)sa->GetHead();

	    while ( in != NULL) {
		v_multiplicities.push_back(in->value);
		in = (IntNode *)in->NextNode();
	    }
	} else {
	    std::cout << CLASSNAME << ": Error loading BSplineSurfaceWithKnots(v_multiplicities)." << std::endl;
	    return false;
	}
    }
    if (u_knots.empty()) {
	STEPattribute *attr = step->getAttribute(sse,"u_knots");
	if (attr) {
	    STEPaggregate *sa = (STEPaggregate *)(attr->ptr.a);
	    RealNode *rn = (RealNode *)sa->GetHead();

	    while ( rn != NULL) {
		u_knots.push_back(rn->value);
		rn = (RealNode *)rn->NextNode();
	    }
	} else {
	    std::cout << CLASSNAME << ": Error loading BSplineSurfaceWithKnots(knots)." << std::endl;
	    return false;
	}
    }
    if (v_knots.empty()) {
	STEPattribute *attr = step->getAttribute(sse,"v_knots");
	if (attr) {
	    STEPaggregate *sa = (STEPaggregate *)(attr->ptr.a);
	    RealNode *rn = (RealNode *)sa->GetHead();

	    while ( rn != NULL) {
		v_knots.push_back(rn->value);
		rn = (RealNode *)rn->NextNode();
	    }
	} else {
	    std::cout << CLASSNAME << ": Error loading BSplineSurfaceWithKnots(knots)." << std::endl;
	    return false;
	}
    }

    knot_spec = (Knot_type)step->getEnumAttribute(sse,"knot_spec");
    if (knot_spec > Knot_type_unset)
	knot_spec = Knot_type_unset;

    return true;
}