void TrPlaneStress2dXFEM :: drawScalar(oofegGraphicContext &context)
{
if ( !context.testElementGraphicActivity(this) ) {
return;
}
XfemManager *xf = this->giveDomain()->giveXfemManager();
if ( !xf->isElementEnriched(this) ) {
TrPlaneStress2d :: drawScalar(context);
} else {
if ( context.giveIntVarMode() == ISM_local ) {
int indx;
double val;
FloatArray s(3), v;
indx = context.giveIntVarIndx();
TimeStep *tStep = this->giveDomain()->giveEngngModel()->giveCurrentStep();
PatchIntegrationRule *iRule;
for ( int i = 0; i < numberOfIntegrationRules; i++ ) {
iRule = dynamic_cast< PatchIntegrationRule * >( integrationRulesArray [ i ] );
#if 0
val = iRule->giveMaterial();
#else
val = 0.0;
for ( int j = 0; j < iRule->giveNumberOfIntegrationPoints(); j++ ) {
GaussPoint *gp = iRule->getIntegrationPoint(0);
giveIPValue(v, gp, context.giveIntVarType(), tStep);
val += v.at(indx);
}
val /= iRule->giveNumberOfIntegrationPoints();
#endif
s.at(1) = s.at(2) = s.at(3) = val;
// TODO: Implement visualization.
// iRule->givePatch()->drawWD(context, s);
}
} else {
TrPlaneStress2d :: drawScalar(context);
}
}
}
