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#include <TPrsStd_ConstraintDriver.ixx>
#include <TDF_Label.hxx>
#include <TDataXtd_Constraint.hxx>
#include <TPrsStd_ConstraintTools.hxx>
#include <Standard_ProgramError.hxx>
#include <Standard_GUID.hxx>
#include <TDataStd_Real.hxx>
#include <TDataXtd_Position.hxx>
#include <AIS_Drawer.hxx>
#include <AIS_InteractiveContext.hxx>
#include <AIS_Relation.hxx>
//=======================================================================
//function :
//purpose :
//=======================================================================
TPrsStd_ConstraintDriver::TPrsStd_ConstraintDriver()
{
}
//=======================================================================
//function :
//purpose :
//=======================================================================
Standard_Boolean TPrsStd_ConstraintDriver::Update (const TDF_Label& aLabel,
Handle(AIS_InteractiveObject)& anAISObject)
{
Handle(TDataXtd_Constraint) apConstraint;
if( !aLabel.FindAttribute(TDataXtd_Constraint::GetID(), apConstraint) ) {
return Standard_False;
}
if (!anAISObject.IsNull() && anAISObject->HasInteractiveContext()) {
if (!apConstraint->Verified()) {
TPrsStd_ConstraintTools::UpdateOnlyValue(apConstraint,anAISObject);
if (anAISObject->Color() != Quantity_NOC_RED) anAISObject->SetColor(Quantity_NOC_RED);
return Standard_True;
}
}
Handle(AIS_InteractiveObject) anAIS = anAISObject;
// recuperation
TDataXtd_ConstraintEnum thetype = apConstraint->GetType();
switch (thetype) {
case TDataXtd_DISTANCE:
{
TPrsStd_ConstraintTools::ComputeDistance(apConstraint,anAIS);
break;
}
case TDataXtd_PARALLEL:
{
TPrsStd_ConstraintTools::ComputeParallel(apConstraint,anAIS);
break;
}
case TDataXtd_PERPENDICULAR:
{
TPrsStd_ConstraintTools::ComputePerpendicular(apConstraint,anAIS);
break;
}
case TDataXtd_CONCENTRIC:
{
TPrsStd_ConstraintTools::ComputeConcentric(apConstraint,anAIS);
break;
}
case TDataXtd_SYMMETRY:
{
TPrsStd_ConstraintTools::ComputeSymmetry(apConstraint,anAIS);
break;
}
case TDataXtd_MIDPOINT:
{
TPrsStd_ConstraintTools::ComputeMidPoint(apConstraint,anAIS);
break;
}
case TDataXtd_TANGENT:
{
TPrsStd_ConstraintTools::ComputeTangent(apConstraint,anAIS);
break;
}
case TDataXtd_ANGLE:
{
TPrsStd_ConstraintTools::ComputeAngle(apConstraint,anAIS);
break;
}
case TDataXtd_RADIUS:
{
TPrsStd_ConstraintTools::ComputeRadius(apConstraint,anAIS);
break;
}
case TDataXtd_MINOR_RADIUS:
{
TPrsStd_ConstraintTools::ComputeMinRadius(apConstraint,anAIS);
break;
}
case TDataXtd_MAJOR_RADIUS:
{
TPrsStd_ConstraintTools::ComputeMaxRadius(apConstraint,anAIS);
break;
}
case TDataXtd_DIAMETER:
{
TPrsStd_ConstraintTools::ComputeDiameter(apConstraint,anAIS);
break;
}
case TDataXtd_FIX:
{
TPrsStd_ConstraintTools::ComputeFix(apConstraint,anAIS);
break;
}
case TDataXtd_OFFSET:
{
TPrsStd_ConstraintTools::ComputeOffset(apConstraint,anAIS);
break;
}
case TDataXtd_COINCIDENT:
{
TPrsStd_ConstraintTools::ComputeCoincident(apConstraint,anAIS);
break;
}
case TDataXtd_ROUND:
{
TPrsStd_ConstraintTools::ComputeRound(apConstraint,anAIS);
break;
}
case TDataXtd_MATE:
case TDataXtd_ALIGN_FACES:
case TDataXtd_ALIGN_AXES:
case TDataXtd_AXES_ANGLE:
{
TPrsStd_ConstraintTools::ComputePlacement(apConstraint,anAIS);
break;
}
case TDataXtd_EQUAL_DISTANCE :
{
TPrsStd_ConstraintTools::ComputeEqualDistance(apConstraint,anAIS);
break;
}
case TDataXtd_EQUAL_RADIUS:
{
TPrsStd_ConstraintTools::ComputeEqualRadius(apConstraint,anAIS);
break;
}
default:
{
TPrsStd_ConstraintTools::ComputeOthers(apConstraint,anAIS);
break;
}
}
if (anAIS.IsNull()) return Standard_False;
anAIS->ResetLocation();
anAIS->SetToUpdate();
anAIS->UpdateSelection();
anAISObject = anAIS;
Handle(TDataXtd_Position) Position;
if (aLabel.FindAttribute(TDataXtd_Position::GetID(),Position)) {
Handle(AIS_Relation)::DownCast(anAISObject)->SetPosition(Position->GetPosition());
}
if (anAISObject->HasInteractiveContext()) {
Quantity_NameOfColor originColor = anAISObject->Color();
if (!apConstraint->Verified()) {
if (originColor != Quantity_NOC_RED)
anAISObject->SetColor(Quantity_NOC_RED);
}
else if (apConstraint->IsDimension() && apConstraint->GetValue()->IsCaptured()) {
if (originColor != Quantity_NOC_PURPLE)
anAISObject->SetColor(Quantity_NOC_PURPLE);
}
else if (!apConstraint->IsPlanar() && (originColor != Quantity_NOC_YELLOW))
anAISObject->SetColor(Quantity_NOC_YELLOW);
}
else {
if (!apConstraint->Verified()) {
anAISObject->SetColor(Quantity_NOC_RED);
}
else if (apConstraint->IsDimension() && apConstraint->GetValue()->IsCaptured()) {
anAISObject->SetColor(Quantity_NOC_PURPLE);
}
else if (!apConstraint->IsPlanar()) anAISObject->SetColor(Quantity_NOC_YELLOW);
}
return Standard_True;
}
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