#include <SketchSolver_Error.h>
#include <SketchSolver_Manager.h>
-////#include <SketchPlugin_Arc.h>
#include <SketchPlugin_MultiRotation.h>
-////#include <ModelAPI_AttributeDouble.h>
-////#include <ModelAPI_AttributeInteger.h>
-////#include <ModelAPI_AttributeRefAttr.h>
-////#include <ModelAPI_AttributeRefList.h>
-////#include <ModelAPI_ResultConstruction.h>
-////
-////#include <GeomAPI_Dir2d.h>
-////#include <GeomAPI_XY.h>
-////
-////#include <math.h>
+#include <ModelAPI_AttributeString.h>
+
+#include <math.h>
void SketchSolver_ConstraintMultiRotation::getAttributes(
EntityWrapperPtr& theCenter, double& theAngle,
- std::list< std::list<EntityWrapperPtr> >& theEntities)
+ bool& theFullValue, std::list<EntityWrapperPtr>& theEntities)
{
DataPtr aData = myBaseConstraint->data();
theAngle = std::dynamic_pointer_cast<ModelAPI_AttributeDouble>(
myType = CONSTRAINT_MULTI_ROTATION;
- myStorage->update(aCenterAttr, GID_OUTOFGROUP);
+ myStorage->update(aCenterAttr);
theCenter = myStorage->entity(aCenterAttr);
- getEntitiesAndCopies(theEntities);
-
-//// // Lists of objects and number of copies
-//// AttributeRefListPtr anInitialRefList = std::dynamic_pointer_cast<ModelAPI_AttributeRefList>(
-//// aData->attribute(SketchPlugin_Constraint::ENTITY_A()));
-//// myNumberOfObjects = anInitialRefList->size();
-//// myNumberOfCopies = (size_t) aData->integer(SketchPlugin_MultiRotation::NUMBER_OF_OBJECTS_ID())->value() - 1;
-//// if (myNumberOfCopies <= 0)
-//// return;
-//// AttributeRefListPtr aRefList = std::dynamic_pointer_cast<ModelAPI_AttributeRefList>(
-//// myBaseConstraint->attribute(SketchPlugin_Constraint::ENTITY_B()));
-//// if (!aRefList) {
-//// myErrorMsg = SketchSolver_Error::INCORRECT_ATTRIBUTE();
-//// return;
-//// }
-////
-//// // Obtain all points of initial features and store them into separate lists
-//// // containing their translated copies.
-//// // Also all circles and arc collected too, because they will be constrained by equal radii.
-//// FeaturePtr aFeature;
-//// ResultConstructionPtr aRC;
-//// static const size_t MAX_POINTS = 3;
-//// std::vector<Slvs_hEntity> aPoints[MAX_POINTS]; // lists of points of features
-//// std::vector<Slvs_hEntity> anEntities;
-//// std::list<ObjectPtr> anObjectList = aRefList->list();
-//// std::list<ObjectPtr>::iterator anObjectIter = anObjectList.begin();
-//// while (anObjectIter != anObjectList.end()) {
-//// for (size_t i = 0; i < MAX_POINTS; ++i)
-//// aPoints[i].clear();
-//// anEntities.clear();
-////
-//// for (size_t i = 0; i <= myNumberOfCopies && anObjectIter != anObjectList.end(); i++, anObjectIter++) {
-//// aFeature = ModelAPI_Feature::feature(*anObjectIter);
-//// if (!aFeature)
-//// continue;
-//// anEntityID = changeEntity(aFeature, aType);
-//// anEntities.push_back(anEntityID);
-//// Slvs_Entity anEntity = myStorage->getEntity(anEntityID);
-//// switch (aType) {
-//// case SLVS_E_POINT_IN_2D:
-//// case SLVS_E_POINT_IN_3D:
-//// aPoints[0].push_back(anEntityID);
-//// break;
-//// case SLVS_E_LINE_SEGMENT:
-//// aPoints[0].push_back(anEntity.point[0]); // start point of line
-//// aPoints[1].push_back(anEntity.point[1]); // end point of line
-//// break;
-//// case SLVS_E_CIRCLE:
-//// aPoints[0].push_back(anEntity.point[0]); // center of circle
-//// break;
-//// case SLVS_E_ARC_OF_CIRCLE:
-//// aPoints[0].push_back(anEntity.point[0]); // center of arc
-//// aPoints[1].push_back(anEntity.point[1]); // start point of arc
-//// aPoints[2].push_back(anEntity.point[2]); // end point of arc
-//// break;
-//// default:
-//// myErrorMsg = SketchSolver_Error::INCORRECT_ATTRIBUTE();
-//// return;
-//// }
-//// }
-////
-//// for (size_t i = 0; i < MAX_POINTS; ++i)
-//// if (!aPoints[i].empty())
-//// thePoints.push_back(aPoints[i]);
-//// if (!anEntities.empty())
-//// theEntities.push_back(anEntities);
-//// }
+ AttributeStringPtr aMethodTypeAttr = aData->string(SketchPlugin_MultiRotation::ANGLE_TYPE());
+ theFullValue = aMethodTypeAttr->value() != "SingleAngle";
+
+ getEntities(theEntities);
}
void SketchSolver_ConstraintMultiRotation::process()
/// TODO: Put error message here
return;
}
-//// if (!mySlvsConstraints.empty()) // some data is changed, update constraint
-//// update(myBaseConstraint);
EntityWrapperPtr aRotationCenter;
- std::list<std::list<EntityWrapperPtr> > anEntitiesAndCopies;
- getAttributes(aRotationCenter, myAngle, anEntitiesAndCopies);
+ bool isFullValue;
+ std::list<EntityWrapperPtr> aBaseEntities;
+ getAttributes(aRotationCenter, myAngle, isFullValue, aBaseEntities);
if (!myErrorMsg.empty())
return;
-//// // Set the rotation center unchanged during constraint recalculation
-//// Slvs_Constraint aConstraint;
-//// if (!myStorage->isPointFixed(myRotationCenter, aConstraint.h, true)) {
-//// aConstraint = Slvs_MakeConstraint(
-//// SLVS_E_UNKNOWN, myGroup->getId(), SLVS_C_WHERE_DRAGGED, myGroup->getWorkplaneId(), 0.0,
-//// myRotationCenter, SLVS_E_UNKNOWN, SLVS_E_UNKNOWN, SLVS_E_UNKNOWN);
-//// aConstraint.h = myStorage->addConstraint(aConstraint);
-//// mySlvsConstraints.push_back(aConstraint.h);
-//// }
-
BuilderPtr aBuilder = SketchSolver_Manager::instance()->builder();
std::list<ConstraintWrapperPtr> aRotConstraints;
- std::list< std::list<EntityWrapperPtr> >::iterator anEntIt = anEntitiesAndCopies.begin();
- for (; anEntIt != anEntitiesAndCopies.end(); ++anEntIt) {
+ std::list<EntityWrapperPtr>::iterator anEntIt = aBaseEntities.begin();
+ for (; anEntIt != aBaseEntities.end(); ++anEntIt) {
std::list<ConstraintWrapperPtr> aNewConstraints =
aBuilder->createConstraint(myBaseConstraint, myGroupID, mySketchID, myType,
- myAngle, aRotationCenter, EntityWrapperPtr(), *anEntIt);
+ myAngle, isFullValue, aRotationCenter, EntityWrapperPtr(), std::list<EntityWrapperPtr>(1, *anEntIt));
aRotConstraints.insert(aRotConstraints.end(), aNewConstraints.begin(), aNewConstraints.end());
}
myStorage->addConstraint(myBaseConstraint, aRotConstraints);
myAdjusted = false;
-//// processEntities(anEntitiesAndCopies);
adjustConstraint();
}
myAngle = aValue;
// update center
- AttributePtr aCenterAttr = myBaseConstraint->attribute(SketchPlugin_MultiRotation::CENTER_ID());
- if (myStorage->update(aCenterAttr, myGroupID)) {
- myStorage->update(aCenterAttr, GID_UNKNOWN);
+ DataPtr aData = myBaseConstraint->data();
+ AttributePoint2DPtr aCenterPointAttribute = GeomDataAPI_Point2D::getPoint2D(aData,
+ SketchPlugin_MultiRotation::CENTER_ID());
+ bool aCenterPointChanged = aCenterPointAttribute != myCenterPointAttribute;
+ if (aCenterPointChanged)
+ myCenterPointAttribute = aCenterPointAttribute;
+
+ AttributeStringPtr aMethodTypeAttr = aData->string(SketchPlugin_MultiRotation::ANGLE_TYPE());
+ bool aFullValue = aMethodTypeAttr->value() != "SingleAngle";
+ bool isMethodChanged = aFullValue != myIsFullValue;
+ if (isMethodChanged)
+ myIsFullValue = aFullValue;
+
+ if (aCenterPointChanged || isMethodChanged) {
+ DataPtr aData = myBaseConstraint->data();
+ std::list<ConstraintWrapperPtr> aConstraints = myStorage->constraint(myBaseConstraint);
+ std::list<ConstraintWrapperPtr>::const_iterator anIt = aConstraints.begin(),
+ aLast = aConstraints.end();
+ std::list<EntityWrapperPtr> anEntities;
+ for (; anIt != aLast; anIt++) {
+ ConstraintWrapperPtr aConstraint = *anIt;
+ aConstraint->setIsFullValue(myIsFullValue);
+ if (aCenterPointChanged) {
+ anEntities.clear();
+ const std::list<EntityWrapperPtr>& aConstraintEntities = aConstraint->entities();
+ std::list<EntityWrapperPtr>::const_iterator aSIt = aConstraintEntities.begin(),
+ aSLast = aConstraintEntities.end();
+ EntityWrapperPtr aCenterPointEntity = *aSIt++;
+ if (aCenterPointChanged) {
+ AttributePtr aCenterPointAttr = aData->attribute(SketchPlugin_MultiRotation::CENTER_ID());
+ myStorage->update(aCenterPointAttr);
+ aCenterPointEntity = myStorage->entity(aCenterPointAttr);
+ }
+ anEntities.push_back(aCenterPointEntity);
+
+ for (; aSIt != aSLast; ++aSIt)
+ anEntities.push_back(*aSIt);
+
+ aConstraint->setEntities(anEntities);
+ }
+ }
+ myStorage->addConstraint(myBaseConstraint, aConstraints);
+
myAdjusted = false;
}
}
void SketchSolver_ConstraintMultiRotation::adjustConstraint()
{
+ if (myAdjusted)
+ return;
+
if (fabs(myAngle) < tolerance) {
myStorage->setNeedToResolve(false);
return;
}
-//// if (myAdjusted)
-//// return;
-////
-//// std::list<Slvs_Constraint> aCoincident = myStorage->getConstraintsByType(SLVS_C_POINTS_COINCIDENT);
-//// std::list<Slvs_Constraint>::const_iterator aCoIt;
-////
-//// // Check overconstrained on rotation center (if it is coincident with other fixed point)
-//// Slvs_hConstraint aFixedCenter;
-//// if (myStorage->isPointFixed(myRotationCenter, aFixedCenter, false)) {
-//// Slvs_hConstraint aFixed;
-//// for (aCoIt = aCoincident.begin(); aCoIt != aCoincident.end(); ++aCoIt)
-//// if ((aCoIt->ptA == myRotationCenter && myStorage->isPointFixed(aCoIt->ptB, aFixed, true)) ||
-//// (aCoIt->ptB == myRotationCenter && myStorage->isPointFixed(aCoIt->ptA, aFixed, true))) {
-//// // Un-fix the center
-//// myStorage->removeConstraint(aFixedCenter);
-//// std::vector<Slvs_hConstraint>::iterator aSCIt = mySlvsConstraints.begin();
-//// for (; aSCIt != mySlvsConstraints.end(); ++aSCIt)
-//// if (*aSCIt == aFixedCenter) {
-//// mySlvsConstraints.erase(aSCIt);
-//// break;
-//// }
-//// }
-//// }
-////
-//// // Obtain coordinates of rotation center
-//// Slvs_Entity aRotCenter = myStorage->getEntity(myRotationCenter);
-//// myCenterCoord[0] = myStorage->getParameter(aRotCenter.param[0]).val;
-//// myCenterCoord[1] = myStorage->getParameter(aRotCenter.param[1]).val;
-////
-//// myRotationVal[0] = sin(myAngle * PI / 180.0);
-//// myRotationVal[1] = cos(myAngle * PI / 180.0);
-////
const std::list<ConstraintWrapperPtr>& aConstraints = myStorage->constraint(myBaseConstraint);
std::list<ConstraintWrapperPtr>::const_iterator aCIt = aConstraints.begin();
for (; aCIt != aConstraints.end(); ++aCIt)
(*aCIt)->setValue(myAngle);
+ // Obtain coordinates of rotation center
+ EntityWrapperPtr aRotCenter = myStorage->entity(
+ myBaseConstraint->attribute(SketchPlugin_MultiRotation::CENTER_ID()));
+ std::list<ParameterWrapperPtr> aParams = aRotCenter->parameters();
+ myCenterCoord[0] = aParams.front()->value();
+ myCenterCoord[1] = aParams.back()->value();
+
+ myRotationVal[0] = sin(myAngle * PI / 180.0);
+ myRotationVal[1] = cos(myAngle * PI / 180.0);
+
SketchSolver_ConstraintMulti::adjustConstraint();
}
-////void SketchSolver_ConstraintMultiRotation::getRelative(
-//// double theAbsX, double theAbsY, double& theRelX, double& theRelY)
-////{
-//// theRelX = theAbsX - myCenterCoord[0];
-//// theRelY = theAbsY - myCenterCoord[1];
-////}
-////
-////void SketchSolver_ConstraintMultiRotation::getAbsolute(
-//// double theRelX, double theRelY, double& theAbsX, double& theAbsY)
-////{
-//// theAbsX = theRelX + myCenterCoord[0];
-//// theAbsY = theRelY + myCenterCoord[1];
-////}
-////
-////void SketchSolver_ConstraintMultiRotation::transformRelative(double& theX, double& theY)
-////{
-//// // rotate direction
-//// // myRotationVal[0] = sinA, myRotationVal[1] = cosA
-//// double aTemp = theX * myRotationVal[1] - theY * myRotationVal[0];
-//// theY = theX * myRotationVal[0] + theY * myRotationVal[1];
-//// theX = aTemp;
-////}
+void SketchSolver_ConstraintMultiRotation::getRelative(
+ double theAbsX, double theAbsY, double& theRelX, double& theRelY)
+{
+ theRelX = theAbsX - myCenterCoord[0];
+ theRelY = theAbsY - myCenterCoord[1];
+}
+
+void SketchSolver_ConstraintMultiRotation::getAbsolute(
+ double theRelX, double theRelY, double& theAbsX, double& theAbsY)
+{
+ theAbsX = theRelX + myCenterCoord[0];
+ theAbsY = theRelY + myCenterCoord[1];
+}
+
+void SketchSolver_ConstraintMultiRotation::transformRelative(double& theX, double& theY)
+{
+ // rotate direction
+ // myRotationVal[0] = sinA, myRotationVal[1] = cosA
+ double aTemp = theX * myRotationVal[1] - theY * myRotationVal[0];
+ theY = theX * myRotationVal[0] + theY * myRotationVal[1];
+ theX = aTemp;
+}
const std::string& SketchSolver_ConstraintMultiRotation::nameNbObjects()
{