Revision 39b13612ebd645a65eda854771b517371f2f858a authored by ennetws on 13 March 2015, 18:17:18 UTC, committed by ennetws on 13 March 2015, 18:17:18 UTC
1 parent c702819
GroupRelationDetector.cpp
#include "GroupRelationDetector.h"
void GroupRelationDetector::detect(QVector<PairRelation>& prRelations)
{
detectSymmGroupByRefPair( prRelations);
detectRefSymmGroupByTransPair( prRelations);
//detectCoplanarGroup( prRelations);
//mergeCoplanarGroup();
removeRedundantGroup();
}
void GroupRelationDetector::detectSymmGroupByRefPair(QVector<PairRelation>& prRelations)
{
int nPrs = prRelations.size();
for (int i=0; i<nPrs; ++i)
prRelations[i].tag = false;
double dotVal1(0.0);
///////////
// build group from REF pair with assumption that no TRANS pair is detected as REF pair
for (int i=0; i<nPrs; ++i)
{
//////////////////// detect group
PairRelation& pr1 = prRelations[i];
if ( pr1.tag || REF.compare(pr1.type)) continue;
QSet<QString> ids;
ids.insert( pr1.n1->id); ids.insert(pr1.n2->id);
pr1.tag = true;
for (int j=i+1; j<nPrs; ++j)
{
PairRelation& pr2 = prRelations[j];
if ( pr2.tag || REF.compare(pr2.type)) continue;
if ( isIntersected(ids, pr2) )
{
ids.insert(pr2.n1->id); ids.insert(pr2.n2->id);
pr2.tag = true;
}
}
//////////////////// sort
GroupRelation gr;
gr.ids.push_back( *ids.begin() );
ids.erase(ids.begin());
Structure::Node *n1, *n2;
while(!ids.isEmpty())
{
n1 = graph_->getNode(gr.ids.last());
Vector_3 v1, v2;
node2direction(n1,v1);
double angle = -2;
QSet<QString>::iterator itor;
for ( QSet<QString>::iterator it = ids.begin(); it != ids.end(); ++it)
{
n2 = graph_->getNode(*it);
node2direction(n2,v2);
dotVal1 = v1.dot(v2);
if ( angle < dotVal1)
{
angle = dotVal1;
itor = it;
}
}
gr.ids.push_back( *itor);
ids.erase(itor);
}
//////////////////// detect axis
int n = gr.ids.size();
gr.direction = Eigen::Vector3d(0.0,0.0,0.0);
for (int j=0; j<n; ++j)
{
n1 = graph_->getNode(gr.ids[j]);
n2 = graph_->getNode(gr.ids[(j+1)%n]);
Vector_3 v1, v2;
node2direction(n1,v1); node2direction(n2,v2);
Vector_3 dir = cross_product(v1, v2);
dir.normalize();
if ( dir.dot(gr.direction) < 0)
gr.direction = gr.direction - dir;
else
gr.direction = gr.direction + dir;
}
gr.direction.normalize();
////////////////////
gr.diameter = computeGroupDiameter(gr);
computeGroupCenter(gr);
////////////////
gr.note = REF;
gr.deviation = computeAxisSymmetryGroupDeviationSortParts(gr, pointLevel_);
gr.type = AXIS_SYMMETRY;
if ( this->logLevel_ > 0)
{
logStream_ << gr;
logStream_ << "Normalized axis gourp deviation: " << gr.deviation / this->normalizeCoef_ << "\n";
}
if ( gr.deviation / this->normalizeCoef_ < thAxisGroup_)
{
groupRelations_.push_back(gr);
}
else
{
gr.deviation = computeRefSymmetryGroupDeviation(gr,pointLevel_);
gr.type = REF_SYMMETRY;
if ( this->logLevel_ > 0)
{
logStream_ << gr;
logStream_ << "Normalized ref gourp deviation: " << gr.deviation / this->normalizeCoef_ << "\n";
}
if ( gr.deviation / this->normalizeCoef_ < thRefGroup_)
{
groupRelations_.push_back(gr);
}
}
}
////////////// remove pairs have been put into groups
prRelations.erase( std::remove_if(prRelations.begin(), prRelations.end(), isTaged), prRelations.end() );
}
void GroupRelationDetector::detectRefSymmGroupByTransPair(QVector<PairRelation>& prRelations)
{
if ( this->logLevel_ > 0)
{
logStream_ << "GroupRelationDetector::detectSymmGroupByTransPair called! \n";
}
int nPrs = prRelations.size();
for (int i=0; i<nPrs; ++i)
prRelations[i].tag = false;
///////////
// build group from pair
for (int i=0; i<nPrs; ++i)
{
PairRelation& pr1 = prRelations[i];
if ( pr1.tag || TRANS.compare(pr1.type)) continue;
QSet<QString> ids;
GroupRelation gr;
gr.type = symmTypeOfTansPair(pr1);
if ( NONE != gr.type)
{
ids.insert( pr1.n1->id);
ids.insert( pr1.n2->id);
pr1.tag = true;
}
else
continue;
///////////////
for (int j=i+1; j<nPrs; ++j)
{
PairRelation& pr2 = prRelations[j];
if ( pr2.tag || TRANS.compare(pr2.type)) continue;
if ( isIntersected(ids, pr2) )
{
QString type2 = symmTypeOfTansPair(pr2);
if ( NONE != type2)
{
if ( REF_SYMMETRY == gr.type)
{
if ( std::abs( pr1.trans_vec.norm()-pr2.trans_vec.norm() ) >
pr1.n1->bbox().diagonal().norm()*thRefGroup_*2 )
{
continue;
}
}
ids.insert(pr2.n1->id);
ids.insert(pr2.n2->id);
pr2.tag = true;
}
}
}
///////////////
computeTransGroupInfo(gr, ids);
gr.note = TRANS;
gr.type = REF_SYMMETRY;
gr.deviation = computeRefSymmetryGroupDeviation(gr, pointLevel_);
if ( this->logLevel_ > 0)
{
logStream_ << gr;
logStream_ << "Normalized ref gourp deviation: " << gr.deviation / this->normalizeCoef_ << "\n";
}
if ( gr.deviation / this->normalizeCoef_ < thRefGroup_)
{
groupRelations_.push_back(gr);
}
}
////////////// remove pairs have been put into groups
prRelations.erase( std::remove_if(prRelations.begin(), prRelations.end(), isTaged), prRelations.end() );
}
void GroupRelationDetector::removeRedundantGroup()
{
for ( int i = 0; i < (int) groupRelations_.size(); ++i)
{
groupRelations_[i].tag = false;
}
for ( int i = 0; i < (int) groupRelations_.size(); ++i)
{
if ( groupRelations_[i].tag )
continue;
for ( int j = i+1; j < (int) groupRelations_.size(); ++j)
{
if ( isSubgroup(groupRelations_[i].ids, groupRelations_[j].ids) )
groupRelations_[j].tag = true;
}
}
groupRelations_.erase( std::remove_if(groupRelations_.begin(), groupRelations_.end(), isTagedGr), groupRelations_.end() );
}
bool GroupRelationDetector::isIntersected(QSet<QString>& ids, PairRelation& pr2)
{
for ( QSet<QString>::iterator it = ids.begin(); it != ids.end(); ++it)
{
if ( *it == pr2.n1->id || *it == pr2.n2->id)
return true;
}
return false;
}
bool GroupRelationDetector::isSubgroup(QVector<QString>& ids1, QVector<QString>& ids2)
{
int count(0);
for ( int i = 0; i < (int) ids2.size(); ++i)
{
for ( int j = 0; j < (int) ids1.size(); ++j)
{
if ( ids2[i] == ids1[j] )
{
++count;
break;
}
}
}
if ( ids2.size() == count)
return true;
else
return false;
}
QString GroupRelationDetector::symmTypeOfTansPair(PairRelation& pr1)
{
QString result(NONE);
Vector_3 d1;
bool iscurve1 = node2direction(pr1.n1, d1);
if ( iscurve1 )
{
result = AXIS_SYMMETRY;
}
else
{
result = REF_SYMMETRY;
}
return result;
}
void vectorId2SetId(QVector<QString>& vec, QSet<QString>& set)
{
for ( QVector<QString>::iterator it = vec.begin(); it!=vec.end(); ++it)
{
set.insert(*it);
}
}
void setId2VectorId(QSet<QString>& set, QVector<QString>& vec)
{
for ( QSet<QString>::iterator it = set.begin(); it!=set.end(); ++it)
{
vec.push_back(*it);
}
}
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