https://github.com/ialhashim/topo-blend
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
Tip revision: 39b13612ebd645a65eda854771b517371f2f858a authored by ennetws on 13 March 2015, 18:17:18 UTC
Create README.md
Create README.md
Tip revision: 39b1361
correspondence-manager.cpp
#include "correspondence-manager.h"
#include "StructureGraph.h"
#include "GraphCorresponder.h"
using namespace Structure;
GraphCorresponder* CorrespondenceManager::makeCorresponder()
{
if (tb->graphs.size() < 2)
{
qDebug() << "Please load at least two graphs.";
return NULL;
}
Structure::Graph *sg = tb->graphs[0];
Structure::Graph *tg = tb->graphs[1];
tb->gcoor = new GraphCorresponder(sg, tg);
return tb->gcoor;
}
void CorrespondenceManager::assignCorrespondence()
{
Graph * sourceGraph = tb->graphs.front();
Graph * targetGraph = tb->graphs.back();
QVector<QString> sParts, tParts;
// Source
foreach(Node * n, sourceGraph->nodes){
if( n->property["nodeSelected"].toBool() ){
sParts << n->id;
n->property["nodeSelected"] = false;
n->vis_property["meshColor"].setValue( QColor(180,180,180) );
}
}
// Target
foreach(Node * n, targetGraph->nodes){
if( n->property["nodeSelected"].toBool() ){
tParts << n->id;
n->property["nodeSelected"] = false;
n->vis_property["meshColor"].setValue( QColor(180,180,180) );
}
}
QColor curColor = qRandomColor3(0, 0.25);
if(!tb->gcoor) tb->gcoor = makeCorresponder();
// Correspondence specified
if(sParts.size() > 0 && tParts.size() > 0)
{
tb->gcoor->addLandmarks(sParts, tParts);
// Assign colors
foreach(QString nodeID, sParts)
sourceGraph->getNode( nodeID )->vis_property["meshColor"].setValue( curColor );
foreach(QString nodeID, tParts)
targetGraph->getNode( nodeID )->vis_property["meshColor"].setValue( curColor );
}
else
{
if(tParts.size() == 0)
{
foreach(QString nodeID, sParts){
tb->gcoor->setNonCorresSource( nodeID );
sourceGraph->getNode( nodeID )->vis_property["meshColor"].setValue( curColor );
}
}
else
{
foreach(QString nodeID, tParts){
tb->gcoor->setNonCorresTarget( nodeID );
targetGraph->getNode( nodeID )->vis_property["meshColor"].setValue( curColor );
}
}
}
tb->gcoor->isReady = false;
}
void CorrespondenceManager::exitCorrespondenceMode(bool isChangeVisualization)
{
tb->drawArea()->setMouseBinding(Qt::LeftButton, QGLViewer::CAMERA, QGLViewer::ROTATE);
tb->drawArea()->setMouseBinding(Qt::SHIFT | Qt::LeftButton, QGLViewer::SELECT);
// Reset mesh visualization
if( isChangeVisualization )
{
foreach(Graph * g, tb->graphs){
foreach(Node * n, g->nodes){
n->vis_property["meshSolid"] = false;
n->vis_property["meshColor"].setValue( QColor(200,200,200,8) );
}
}
}
tb->property["correspondenceMode"] = false;
tb->drawArea()->updateGL();
}
void CorrespondenceManager::visualizeAsSolids()
{
// mesh visualization - set to solid gray
foreach(Graph * g, tb->graphs){
foreach(Node * n, g->nodes){
n->vis_property["meshSolid"] = true;
n->vis_property["meshColor"].setValue( QColor(180,180,180) );
}
}
}
void CorrespondenceManager::correspondenceMode()
{
// Enter / exit correspondence mode
tb->property["correspondenceMode"] = !tb->property["correspondenceMode"].toBool();
if(!tb->property["correspondenceMode"].toBool())
{
exitCorrespondenceMode(true);
return;
}
tb->drawArea()->setMouseBinding(Qt::LeftButton, QGLViewer::SELECT);
tb->drawArea()->setMouseBinding(Qt::SHIFT | Qt::LeftButton, QGLViewer::CAMERA, QGLViewer::ROTATE);
this->visualizeAsSolids();
// Color previously assigned correspondences
if( tb->gcoor ) {
Graph * sourceGraph = tb->graphs.front();
Graph * targetGraph = tb->graphs.back();
foreach (PART_LANDMARK vector2vector, tb->gcoor->correspondences){
QColor curColor = qRandomColor3(0, 0.25);
foreach (QString strID, vector2vector.first){
sourceGraph->getNode( strID )->vis_property["meshColor"].setValue( curColor );
sourceGraph->getNode( strID )->property["is_corresponded"] = true;
}
foreach (QString strID, vector2vector.second){
targetGraph->getNode( strID )->vis_property["meshColor"].setValue( curColor );
targetGraph->getNode( strID )->property["is_corresponded"] = true;
}
}
foreach (PART_LANDMARK vector2vector, tb->gcoor->landmarks){
QColor curColor = qRandomColor3(0, 0.25);
foreach (QString strID, vector2vector.first){
sourceGraph->getNode( strID )->vis_property["meshColor"].setValue( curColor );
sourceGraph->getNode( strID )->property["is_corresponded"] = true;
}
foreach (QString strID, vector2vector.second){
targetGraph->getNode( strID )->vis_property["meshColor"].setValue( curColor );
targetGraph->getNode( strID )->property["is_corresponded"] = true;
}
}
}
}
void CorrespondenceManager::clearCorrespondence()
{
foreach(Graph * g, tb->graphs){
foreach(Node * n, g->nodes){
n->vis_property["meshColor"].setValue( QColor(180,180,180) );
n->property["is_corresponded"] = false;
}
}
if(tb->gcoor) tb->gcoor->clear();
}
void CorrespondenceManager::drawWithNames()
{
int offset = 0;
for(int gID = 0; gID < (int) tb->graphs.size(); gID++)
{
Structure::Graph *g = tb->graphs[gID];
glPushMatrix();
glTranslated(g->property["posX"].toDouble(), 0, 0);
g->drawNodeMeshNames( offset );
glPopMatrix();
}
}
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