Example #1
0
BOOST_AUTO_TEST_CASE_TEMPLATE
( test_mapping_range, Tp, every_quad )
{
  Tp fix(20, randomize(-100, 100));
  { // non-const
    mapping_iterator_pair<typename Tp::container_type>
      pair(mapping_range(fix.container, 2u));
    BOOST_CHECK(pair.first ==  mapping_begin(fix.container, 2u));
    BOOST_CHECK(pair.second == mapping_end(fix.container, 2u));
    mapping_iterator_pair<typename Tp::container_type> pair2;
    pair2 = mapping_range(fix.container, 3u);
    BOOST_CHECK(pair2.first ==  mapping_begin(fix.container, 3u));
    BOOST_CHECK(pair2.second == mapping_end(fix.container, 3u));
  }
  { // const
    mapping_iterator_pair<const typename Tp::container_type>
      pair0(mapping_range(fix.container, 1u)); // cast constructor
    BOOST_CHECK(pair0.first ==  mapping_begin(fix.container, 1u));
    BOOST_CHECK(pair0.second == mapping_end(fix.container, 1u));
    mapping_iterator_pair<const typename Tp::container_type>
      pair1(mapping_crange(fix.container, 2u)); // copy constructor
    BOOST_CHECK(pair1.first ==  mapping_begin(fix.container, 2u));
    BOOST_CHECK(pair1.second == mapping_end(fix.container, 2u));
    mapping_iterator_pair<const typename Tp::container_type> pair2;
    pair2 = mapping_crange(fix.container, 3u); // assignment operator
    BOOST_CHECK(pair2.first ==  mapping_cbegin(fix.container, 3u));
    BOOST_CHECK(pair2.second == mapping_cend(fix.container, 3u));
  }
}
Example #2
0
int main() {
	upperPair pair1(123, namePair("aaaaa", "xxxxxxx"));
	upperPair pair2(345, namePair("bbb", "yyy"));
	cout << "no\tfirst name\tlast name\n";
	printUpperPair(pair1);
	printUpperPair(pair2);
}
Example #3
0
Table* read_from_chefmozhours4() {

	ifstream myfile ("chefmozhours4.csv");

  if (myfile.is_open())
  {

	Table::ColumnList columns;

	String placeID;
	getline( myfile, placeID, ',' );
    columns.push_back(make_pair(placeID, Table::varchar));

	String hours;
	getline( myfile, hours, ',' );
	columns.push_back(make_pair(hours, Table::varchar));

	String days;
	getline( myfile, days, '\n' );
	columns.push_back(make_pair(days, Table::varchar));


	Table* geo = new Table(columns); // Create geo using the defined columns
	


    while ( myfile.good() )
    {
	  vector<pair<string, string> > entries; // Entries for the record to be placed in the table
	  
	  string placeID;
	  getline( myfile, placeID, ',' );
	  pair <string,string> pair0  ("placeID",placeID);   // value init
	  entries.push_back(pair0);

	  string hours;
	  getline( myfile, hours, ',' );
	  pair <string,string> pair1  ("hours",hours);   // value init
	  entries.push_back(pair1);

	  string days;
	  getline( myfile, days, '\n' );
	  pair <string,string> pair2  ("days",days);   // value init
	  entries.push_back(pair2);


	  Record add(entries); // Create record to add to table

	  geo->insert(add); // Insert add record into geo
	  
	}
    myfile.close();
	return geo;
  }
}
Example #4
0
 void Id2DataPairTest::testSet ( void )
 {
     Id2DataPair pair0(0);
     CPPUNIT_ASSERT_THROW(pair0.set(*m_map), WrongState);
     
     Id2DataPair pair1(0, m_dataContainer);
     CPPUNIT_ASSERT_NO_THROW(pair1.set(*m_map));
     CPPUNIT_ASSERT_EQUAL(m_dataContainer, m_map->get(0));
     CPPUNIT_ASSERT(pair1.data().empty());
     CPPUNIT_ASSERT_THROW(pair1.set(*m_map), WrongState);
     
     Id2DataPair pair3(10, m_dataContainer);
     CPPUNIT_ASSERT_THROW(pair3.set(*m_map), WrongId);
 }
Example #5
0
Table* read_from_usercuisine() {
	
	ifstream myfile ("usercuisine.csv");

  if (myfile.is_open())
  {

	Table::ColumnList columns;

	String userID;
	getline( myfile, userID, ',' );
    columns.push_back(make_pair(userID, Table::varchar));

	String Rcuisine;
	getline( myfile, Rcuisine, '\n' );
	columns.push_back(make_pair(Rcuisine, Table::varchar));


	Table* geo = new Table(columns); // Create geo using the defined columns
	


    while ( myfile.good() )
    {
	  vector<pair<string, string> > entries; // Entries for the record to be placed in the table
	  
	  string userID;
	  getline( myfile, userID, ',' );
	  pair <string,string> pair0  ("userID",userID);   // value init
	  entries.push_back(pair0);

	  string Rcuisine;
	  getline( myfile, Rcuisine, '\n' );
	  pair <string,string> pair1  ("Rcuisine",Rcuisine);   // value init
	  entries.push_back(pair1);


	  Record add(entries); // Create record to add to table

	  geo->insert(add); // Insert add record into geo
	  
	}
    myfile.close();
	return geo;
  }
}
Example #6
0
void TestCube::setPairs(vector<shared_ptr<ImagePair>> &pairs) {
  shared_ptr<Image> image1(new Image());
  shared_ptr<Image> image2(new Image());
  shared_ptr<Image> image3(new Image());
  shared_ptr<ImagePair> pair1(new ImagePair());
  shared_ptr<ImagePair> pair2(new ImagePair());

  pair1->image1 = image1;
  pair1->image2 = image2;
  pair2->image1 = image2;
  pair2->image2 = image3;

  TestCube::setKeypointsImg1(image1->keypoints_);
  TestCube::setKeypointsImg2(image2->keypoints_);
  TestCube::setKeypointsImg3(image3->keypoints_);

  TestCube::setMatches(8, pair1->matches);
  TestCube::setMatches(9, pair2->matches);

  pairs.push_back(pair1);
  pairs.push_back(pair2);
}
Example #7
0
// This method sends the error report over the Internet
BOOL CErrorReportSender::SendReport()
{
  int status = 1;

  if(!g_CrashInfo.m_bSendErrorReport)
  {
    m_Assync.SetProgress(_T("Error report sending disabled."), 0);

    // Move report files to Recycle Bin      
    Utility::RecycleFile(g_CrashInfo.m_sErrorReportDirName, true);

    m_Assync.SetProgress(_T("[exit_silently]"), 0, false);
    return FALSE;
  }

  m_Assync.SetProgress(_T("[sending_report]"), 0);

  std::multimap<int, int> order;
 
  std::pair<int, int> pair3(g_CrashInfo.m_uPriorities[CR_SMAPI], CR_SMAPI);
  order.insert(pair3);

  std::pair<int, int> pair2(g_CrashInfo.m_uPriorities[CR_SMTP], CR_SMTP);
  order.insert(pair2);

  std::pair<int, int> pair1(g_CrashInfo.m_uPriorities[CR_HTTP], CR_HTTP);
  order.insert(pair1);

  std::multimap<int, int>::reverse_iterator rit;
  
  for(rit=order.rbegin(); rit!=order.rend(); rit++)
  {
    m_Assync.SetProgress(_T("[sending_attempt]"), 0);
    m_SendAttempt++;    

    if(m_Assync.IsCancelled()){ break; }

    int id = rit->second;

    BOOL bResult = FALSE;

    if(id==CR_HTTP)
      bResult = SendOverHTTP();    
    else if(id==CR_SMTP)
      bResult = SendOverSMTP();  
    else if(id==CR_SMAPI)
      bResult = SendOverSMAPI();

    if(bResult==FALSE)
      continue;

    if(id==CR_SMAPI && bResult==TRUE)
    {
      status = 0;
      break;
    }

    if(0==m_Assync.WaitForCompletion())
    {
      status = 0;
      break;
    }
  }

  if(status==0)
  {
    m_Assync.SetProgress(_T("[status_success]"), 0);
    if(g_CrashInfo.m_bSendErrorReport)
    {
      // Move report files to Recycle Bin      
      Utility::RecycleFile(g_CrashInfo.m_sErrorReportDirName, false);
    }
  }
  else
  {
    CString str;
    str.Format(_T("The error report is saved to '%s'"), m_sZipName);
    m_Assync.SetProgress(str, 0);    
    m_Assync.SetProgress(_T("[status_failed]"), 0);    
  }

  m_Assync.SetCompleted(status);
  
  return 0;
}
Example #8
0
void ofApp::update(){
	
    float frame = ofGetFrameNum();
    
    ofVec3f attractor( 10, 10, 50 );
    attractor.rotate( ofGetFrameNum()/4, ofVec3f(0.5, 0.3, 0.1) );
    ofVec3f diff;
    for( int i=0; i<shapes.size(); i++ ){
        ofVec3f pos = shapes[i]->getPosition();
        diff = attractor - pos;
        float dist2 = diff.lengthSquared();
        float power = (1.0/dist2) * 50000.0;

        ofVec3f force( 0,0,0 );
        
        if( 1 ){
            float noise = 0;
            float amp = 0.5;
            for( int j=0; j<4; j++ ){
                noise += ofNoise( pos.x, pos.y, pos.z, frame*0.001) * amp;
                amp *= 0.5;
            }
            force += diff.normalized() * power;
        }
       
#pragma mark ADD_PERLIN_NOISE
        if( 0 ){
            ofVec3f noise; noise.zero();
            float amp = 0.5;
            for( int j=0; j<4; j++ ){
                noise.x += ofSignedNoise( pos.x, frame*0.001 ) * amp;
                noise.y += ofSignedNoise( pos.y, frame*0.001 ) * amp;
                noise.z += ofSignedNoise( pos.z, frame*0.001 ) * amp;
                amp *= 0.5;
            }
            
            force += noise*5.0;
        }

        shapes[i]->applyCentralForce( force );
        points.setVertex( i, pos );

    }
    
    lines.clear();
    int num_line = 3;   // per point
    for( int i=0; i<shapes.size(); i++ ){
//        if(ofRandom(1.0)>0.1)
//            continue;
        ofVec3f pos1 = shapes[i]->getPosition();
        multimap<float, ofVec3f> near_p;
        pair<float, ofVec3f> pair1( 999999999999, ofVec3f(0,0,0) );
        for( int line=0; line<num_line; line++ ){
            near_p.insert( pair1 );
        }
        
        for( int j=i+1; j<shapes.size(); j++ ){

            ofVec3f pos2 = shapes[j]->getPosition();
            float dist = pos1.distance( pos2 );

            multimap<float, ofVec3f>::iterator itr = near_p.end();
            
            itr--;
            if( dist < itr->first ){
                std::pair<float, ofVec3f> pair2( dist, pos2 );
                near_p.insert( pair2 );
                
                multimap<float, ofVec3f>::iterator end = near_p.end();
                near_p.erase( --end );
            }
        }
        multimap<float, ofVec3f>::iterator itr = near_p.begin();
        
        for(; itr!=near_p.end(); itr++ ){
            ofVec3f &pos2 = itr->second;
            lines.addVertex( pos1 );
            lines.addVertex( pos2 );
            lines.addColor( ofFloatColor( ofRandom(0.2,0.4), ofRandom(0.2, 0.4)) );
            lines.addColor( ofFloatColor( ofRandom(0.2,0.4), ofRandom(0.2, 0.4)) );
        }
    }
	world.update();
}
Example #9
0
void ad_grav_wall::update_lines(){

    lines.clear();
    prep_lines.clear();
    polys.clear();
    
    const vector<ofFloatColor> & pcol = points.getColors();
    
	btCollisionObjectArray& objs = world.world->getCollisionObjectArray();
	
#pragma mark GLOBAL_PIVOT_LINE
    if(0){
        //float limit = 730;      // ABC
        // float limit = 1050;    // DEF
         float limit = 6050;  //FGH
        
		int n = 1 + ofNoise(ofGetFrameNum()*1.2) * 800;
		for( int i=0; i<n; i++ ){
		
			int id1 = ofNoise(i, ofGetFrameNum()*2.0) * (objs.size()-1);
			if( ofRandomuf()<0.02 ) id1 = ofRandom(0, 20);
			
			ofPoint &gpv = ofApp::app->global_pivot;
			
			btTransform &trans1 = objs[id1]->getWorldTransform();
			btVector3 &bpos1 = trans1.getOrigin();
			ofVec3f pos1( bpos1.x(), bpos1.y(), bpos1.z() );
			
			float d = pos1.distance( gpv );
			if( d<30 || limit<d  ) continue;
			
			ofFloatColor c = ofFloatColor(0.8, 0.8) - pcol[id1];
			c.a = 0.3;
			
			lines.addVertex( pos1 );
			lines.addVertex( gpv );
			lines.addColor( c );
			lines.addColor( c );
			
			for( int k=0; k<3; k++ ){
				float rate = 1+k*0.5;
				
				ofVec3f d1 = pos1;
				ofVec3f d2 = gpv;
				d1.x += ofRandomf() * rate;
				d1.y += ofRandomf() * rate;
				
				lines.addVertex( d1 );
				lines.addVertex( d2 );
				lines.addColor( c );
				lines.addColor( c );
			}
		}
	}
#pragma mark RANDOM_LINE
	for( int i=0; i<1000; i++ ){

		int id1 = ofRandom(0, objs.size()-1);
		int id2 = ofRandom(0, objs.size()-1);
		
        if( objs[id1]->isKinematicObject() || objs[id2]->isKinematicObject() )
            continue;
        
		btTransform &trans1 = objs[id1]->getWorldTransform();
		btVector3 &bpos1 = trans1.getOrigin();
		ofVec3f pos1( bpos1.x(), bpos1.y(), bpos1.z() );
		
		btTransform &trans2 = objs[id2]->getWorldTransform();
		btVector3 &bpos2 = trans2.getOrigin();
		ofVec3f pos2( bpos2.x(), bpos2.y(), bpos2.z() );
		
		float d = pos1.distance(pos2);
		float limit = 200;
		if( d<30 || limit<d  ) continue;
		
		ofFloatColor c = ofFloatColor(0.8, 0.8) - pcol[id1];
		c.b = 0.8;
		c.a = 0.1;
		
		lines.addVertex( pos1 );
		lines.addVertex( pos2 );
		lines.addColor( c );
		lines.addColor( c );
		
		for( int k=0; k<3; k++ ){
			float rate = 1.0 + k;
			
			ofVec3f d1 = pos1;
			ofVec3f d2 = pos2;
			d1.x += ofRandomf() * rate;
			d1.y += ofRandomf() * rate;
			d2.x += ofRandomf() * rate;
			d2.y += ofRandomf() * rate;
			
			lines.addVertex( d1 );
			lines.addVertex( d2 );
			lines.addColor( c );
			lines.addColor( c );
		}
	}

#pragma mark NEAR_LINE
	for( int i=0; i<objs.size(); i++ ){
        
        float nR = ofApp::app->getNoise(i,0);
        float nG = ofApp::app->getNoise(i,1);
        float nB = ofApp::app->getNoise(i,2);
        
		btTransform &trans = objs[i]->getWorldTransform();
		btVector3 &bpos = trans.getOrigin();
        ofVec3f pos1( bpos.x(), bpos.y(), bpos.z() );
        pos1.z = 0;
		
		{
            int num_line = ofNoise(i*0.1, ofGetFrameNum()*0.5)*5 + ofGetFrameNum()*0.003;
            num_line = MIN(num_line, 10);
			bool bStatic1 = objs[i]->isStaticObject();
			if( bStatic1 ) continue;
			
			if( num_line <= 0 ) continue;
			
			multimap<float, ofVec3f> near_p;
			pair<float, ofVec3f> pair1( 999999999999, ofVec3f(-12345,0,0) );
			for( int line=0; line<num_line; line++ ){
				near_p.insert( pair1 );
			}
			
			for( int j=0; j<objs.size(); j++ ){
				if( i==j ) continue;

				bool bStatic2 = objs[j]->isStaticObject();
				if( bStatic2 ) continue;
				
				btTransform &trans = objs[j]->getWorldTransform();
				btVector3 &bpos = trans.getOrigin();
				ofVec3f pos2( bpos.x(), bpos.y(), bpos.z() );
				pos2.z = 0;

				float dist = pos1.distance( pos2 );
				
				multimap<float, ofVec3f>::iterator itr = near_p.end();
				
				itr--;
				if( dist < itr->first ){
					std::pair<float, ofVec3f> pair2( dist, pos2 );
					near_p.insert( pair2 );
					
					multimap<float, ofVec3f>::iterator end = near_p.end();
					near_p.erase( --end );
				}
			}
			multimap<float, ofVec3f>::iterator itr = near_p.begin();
			
			for(; itr!=near_p.end(); itr++ ){
				ofVec3f &pos2 = itr->second;
				if(pos2.x == -12345) continue;
				
				float d = pos1.distance(pos2);
				float limit = 600;
				
				if( d<10 || limit<d  ) continue;

				ofFloatColor c = ofFloatColor(0.8, 0.8) - pcol[i];
				c.a = 0.2;

				lines.addVertex( pos1 );
				lines.addVertex( pos2 );
				lines.addColor( c );
				lines.addColor( c );

				c.r += nR*0.1 + ofRandomf()*0.01;
				c.g += nG*0.1 + ofRandomf()*0.01;
				c.b += nB*0.1  + ofRandomf()*0.01;

				c.a = 0.05;

				int n = ofNoise( i, ofGetFrameNum() ) * 10.0;
				for( int k=0; k<n; k++ ){
					float rate = 1.0 + k;

					ofVec3f d1 = pos1;
					ofVec3f d2 = pos2;
					d1.x += ofRandomf() * rate;
					d1.y += ofRandomf() * rate;
					d2.x += ofRandomf() * rate;
					d2.y += ofRandomf() * rate;

					lines.addVertex( d1 );
					lines.addVertex( d2 );
					lines.addColor( c );
					lines.addColor( c );
				}
			}
		}
    }

#pragma mark PREP_LINE
    {
        int limit = 110;
        for( int i=0; i<objs.size(); i++ ){
            btTransform &trans = objs[i]->getWorldTransform();
            btVector3 &bpos = trans.getOrigin();
            ofVec3f pos1( bpos.x(), bpos.y(), bpos.z() );
            pos1.z = 0;
            
            gvWall * gl = static_cast<gvWall*>(objs[i]->getUserPointer());
            if( gl != NULL){
                ofVec3f toline = ad_geom_util::vec_pl(pos1, gl->p1, gl->p2);
                ofVec3f onLine = pos1 + toline;
                float len = toline.length();
                bool isOnline = ad_geom_util::isOnline(onLine, gl->p1, gl->p2);
                
                if( ofApp::app->getNoise(i,2) + ofNoise(i*0.002) > 1.45 ){
                    
                    if( len < limit && isOnline ){
                        
                        prep_lines.addVertex(pos1);
                        prep_lines.addVertex(onLine);
                        
                        ofFloatColor c = pcol[i];
                        c.b *= 1;
                        c.a = 0.1;
                        prep_lines.addColor( c );
                        prep_lines.addColor( c );
                        
                        int n = 1 + ofNoise( i, ofGetFrameNum() ) * 20.0;
                        for( int k=0; k<n; k++ ){
                            float rate = 1.0 + k*0.1;
                            
                            ofVec3f d1 = pos1;
                            ofVec3f d2 = onLine;
                            d1.x += ofRandomf() * rate;
                            d1.y += ofRandomf() * rate;w
                            d2.x += ofRandomf() * rate;
                            d2.y += ofRandomf() * rate;
                            
                            lines.addVertex( d1 );
                            lines.addVertex( d2 );
                            lines.addColor( c );
                            lines.addColor( c );
                        }
                    }
                }
            }
        }
    }

#pragma mark POLY_LINE
    if(0){
    for( int i=0; i<20; i++ ){
        
        for( int j=0; j<3; j++ ){
            
            int id = ofApp::app->getNoise(i + j*511) * (objs.size()-1);
            if(ofRandomuf()>0.65)
                id = ofRandom(0, objs.size()-1);
            
            btTransform &trans = objs[id]->getWorldTransform();
            btVector3 &bpos = trans.getOrigin();
            ofVec3f pos1( bpos.x(), bpos.y(), 0);
            gvWall * gl = static_cast<gvWall*>(objs[id]->getUserPointer());
            if( gl == NULL) continue;
            ofVec3f toline = ad_geom_util::vec_pl(pos1, gl->p1, gl->p2);
            ofVec3f onLine = pos1 + toline;
            float len = toline.length();
            
            int minl = ofNoise(id*0.01, ofGetFrameNum()*0.12) * 200 + 100;
            int maxl = ofNoise(id*0.012, ofGetFrameNum()*0.113)*200 + minl;
            
            if ( minl<len && len<maxl ) {
                ofVec3f dir = gl->p2-gl->p1;
                ofVec3f dirn = dir.getNormalized();
                ofVec3f toLinen = toline.getNormalized();
                
                float lenToEnd = (gl->p2 - onLine).length();
                
                dirn *= ofNoise( i*0.03 )<0.0 ? -1 : 1;
                
                int n = ofNoise( ofGetFrameNum()*0.1 ) *3 +1;
                for (int k=0; k<n; k++) {
                    float width = lenToEnd; //300 + ofRandomf()*10;
                    int step = width/2;
                    
                    ofVec3f current = pos1 + ofVec3f(ofRandomf()*5, 5, 0);
                    ofVec3f toline = ad_geom_util::vec_pl(current, gl->p1, gl->p2);
                    float height = toline.length();
                    
                    ofPolyline poly;
                    poly.addVertex( pos1 );
                    
                    current -= dirn*10;
                    poly.addVertex( current );
                    
                    ofxTransitions tr;
                    for( int l=0; l<step; l++ ){
                        float plotx = log10(l)/log10(step);
                        float x = width * plotx;
                        float y = tr.easeInOutCubic(l, 0, height, step);
                        ofVec3f v =  dirn*x + toLinen*y;
                        poly.addVertex( current + v);
                    }
                    polys.push_back( poly );
                }
            }
        }
    }
    }
}
Example #10
0
void ofApp::update(){

	float frame = ofGetFrameNum();
	
	for( int i=0; i<attrs.getNumVertices(); i++ ){
		ofVec3f ap = attrs.getVertex(i);
		ofVec3f n;
		n.x = ofSignedNoise(i, ap.x, frame*0.0001)*6.0;
		n.y = ofSignedNoise(i, ap.y, frame*0.0001)*6.0;
		n.z = ofSignedNoise(i, ap.z, frame*0.0001)*6.0;
		float dist = ap.distance(ofVec3f(ap.x, 0,0) );
		ap.rotate( 100.0/dist, ofVec3f(1,0,0) );
		attrs.setVertex(i, ap+n);
	}
	
    for( int i=0; i<shapes.size(); i++ ){
        ofVec3f pos = shapes[i]->getPosition();
		ofVec3f force( 0,0,0 );
		for( int j=0; j<attrs.getNumVertices(); j++ ){
			ofVec3f diff = attrs.getVertex(j) - pos;
			float dist2 = diff.lengthSquared();
			if(dist2>100){
				float power = (1.0/dist2) * 100000.0;
				force += diff.normalized() * power;
			}
		}
		
        shapes[i]->applyCentralForce( force );

		pos.x = ((float)i/shapes.size()-0.5) * ofGetWidth()/2;;
		pos.z *= 0.1;
		points.setVertex( i, pos );
    }
	
	lines.clear();
	for( int i=0; i<shapes.size(); i++ ){
		float noise = ofNoise(i*0.01);
		int num_line =  1 + noise*10.0;   // per point

		//        if(ofRandom(1.0)>0.1)
		//            continue;
		ofVec3f pos1 = shapes[i]->getPosition();
		multimap<float, ofVec3f> near_p;
		pair<float, ofVec3f> pair1( 999999999999, ofVec3f(-12345,0,0) );
		for( int line=0; line<num_line; line++ ){
			near_p.insert( pair1 );
		}
		
		for( int j=i+1; j<shapes.size(); j++ ){
			
			ofVec3f pos2 = shapes[j]->getPosition();
			float dist = pos1.distance( pos2 );
			
			multimap<float, ofVec3f>::iterator itr = near_p.end();
			
			itr--;
			if( dist < itr->first ){
				std::pair<float, ofVec3f> pair2( dist, pos2 );
				near_p.insert( pair2 );
				
				multimap<float, ofVec3f>::iterator end = near_p.end();
				near_p.erase( --end );
			}
		}
		multimap<float, ofVec3f>::iterator itr = near_p.begin();
		
		for(; itr!=near_p.end(); itr++ ){
			ofVec3f &pos2 = itr->second;
			if(pos2.x == -12345) continue;
			
			float d = pos1.distance(pos2);
			if( d<3 || 12+noise*60.0<d  ) continue;
			lines.addVertex( pos1 );
			lines.addVertex( pos2 );
			ofFloatColor c;
			c.setHsb( ofNoise(i*0.01)*0.6+0.7, ofRandom(0.1,0.8), ofNoise(i*0.01)*0.8+0.1);
			c.a = ofNoise(c.r*0.001)*0.7+ 0.1;
			lines.addColor( c );
			lines.addColor( c );
		}
	}
	
	p2p.clear();
	for( int i=0; i<points.getNumVertices(); i++ ){
		
		ofVec3f p1 = points.getVertex(i);
		if( ofRandomf()<0.3) continue;
		p1.z = 0;
		p1.y = 1;
		p2p.addVertex(p1);
		p1.y = 0;
		p2p.addVertex(p1);
		ofFloatColor c( 0.1, 0.2, 1, 0.6);
		p2p.addColor( c );
		p2p.addColor( c );
	}
	
	world.update();
}
Example #11
0
Table* read_from_geoplaces2() {


  
  ifstream myfile ("geoplaces2.csv");
  if (myfile.is_open())
  {

	Table::ColumnList columns;

	String placeID;
	getline( myfile, placeID, ',' );
    columns.push_back(make_pair(placeID, Table::integer));

	String latitude;
	getline( myfile, latitude, ',' );
	columns.push_back(make_pair(latitude, Table::floating));

	String longitude;
	getline( myfile, longitude, ',' );
	columns.push_back(make_pair(longitude, Table::floating));

	String the_geom_meter;
	getline( myfile, the_geom_meter, ',' );
	columns.push_back(make_pair(the_geom_meter, Table::varchar));

	String name;
	getline( myfile, name, ',' );
    columns.push_back(make_pair(name, Table::varchar));

	String address;
	getline( myfile, address, ',' );
    columns.push_back(make_pair(address, Table::varchar));

	String city;
	getline( myfile, city, ',' );
    columns.push_back(make_pair(city, Table::varchar));

	String state;
	getline( myfile, state, ',' );
    columns.push_back(make_pair(state, Table::varchar));

	String country;
	getline( myfile, country, ',' );
    columns.push_back(make_pair(country, Table::varchar));

	String fax;
	getline( myfile, fax, ',' );
    columns.push_back(make_pair(fax, Table::varchar));

	String zip;
	getline( myfile, zip, ',' );
    columns.push_back(make_pair(zip, Table::varchar));

	String alcohol;
	getline( myfile, alcohol, ',' );
    columns.push_back(make_pair(alcohol, Table::varchar));

	String smoking_area;
	getline( myfile, smoking_area, ',' );
    columns.push_back(make_pair(smoking_area, Table::varchar));

	String dress_code;
	getline( myfile, dress_code, ',' );
    columns.push_back(make_pair(dress_code, Table::varchar));

	String accessibility;
	getline( myfile, accessibility, ',' );
    columns.push_back(make_pair(accessibility, Table::varchar));

	String price;
	getline( myfile, price, ',' );
    columns.push_back(make_pair(price, Table::varchar));

	String url;
	getline( myfile, url, ',' );
    columns.push_back(make_pair(url, Table::varchar));

	String Rambience;
	getline( myfile, Rambience, ',' );
    columns.push_back(make_pair(Rambience, Table::varchar));

	String franchise;
	getline( myfile, franchise, ',' );
    columns.push_back(make_pair(franchise, Table::varchar));

	String area;
	getline( myfile, area, ',' );
    columns.push_back(make_pair(area, Table::varchar));

	String other_services;
	getline( myfile, other_services, '\n' );
    columns.push_back(make_pair(other_services, Table::varchar));

	

	Table* geo = new Table(columns); // Create geo using the defined columns
	


    while ( myfile.good() )
    {
	  vector<pair<string, string> > entries; // Entries for the record to be placed in the table
	  
	  string placeID;
	  getline( myfile, placeID, ',' );
	  pair <string,string> pair0  ("placeID",placeID);   // value init
	  entries.push_back(pair0);

	  string latitude;
	  getline( myfile, latitude, ',' );
	  pair <string,string> pair1  ("latitude",latitude);   // value init
	  entries.push_back(pair1);

	  string longitude;
	  getline( myfile, longitude, ',' );
	  pair <string,string> pair2  ("longitude",longitude);   // value init
	  entries.push_back(pair2);

	  string the_geom_meter;
	  getline( myfile, the_geom_meter, ',' );
	  pair <string,string> pair3  ("the_geom_meter",the_geom_meter);   // value init
	  entries.push_back(pair3);

	  string name;
	  getline( myfile, name, ',' );
	  pair <string,string> pair4  ("name",name);   // value init
	  entries.push_back(pair4);

	  string address;
	  getline( myfile, address, ',' );
	  pair <string,string> pair5  ("address",address);   // value init
	  entries.push_back(pair5);

	  string city;
	  getline( myfile, city, ',' );
	  pair <string,string> pair6  ("city",city);   // value init
	  entries.push_back(pair6);

	  string state;
	  getline( myfile, state, ',' );
	  pair <string,string> pair7  ("state",state);   // value init
	  entries.push_back(pair7);

	  string country;
	  getline( myfile, country, ',' );
	  pair <string,string> pair8  ("country",country);   // value init
	  entries.push_back(pair8);

	  string fax;
	  getline( myfile, fax, ',' );
	  pair <string,string> pair9  ("fax",fax);   // value init
	  entries.push_back(pair9);

	  string zip;
	  getline( myfile, zip, ',' );
	  pair <string,string> pair10  ("zip",zip);   // value init
	  entries.push_back(pair10);

	  string alcohol;
	  getline( myfile, alcohol, ',' );
	  pair <string,string> pair11  ("alcohol",alcohol);   // value init
	  entries.push_back(pair11);

	  string smoking_area;
	  getline( myfile, smoking_area, ',' );
	  pair <string,string> pair12  ("smoking_area",smoking_area);   // value init
	  entries.push_back(pair12);

	  string dress_code;
	  getline( myfile, dress_code, ',' );
	  pair <string,string> pair13  ("dress_code",dress_code);   // value init
	  entries.push_back(pair13);

	  string accessibility;
	  getline( myfile, accessibility, ',' );
	  pair <string,string> pair14  ("accessibility",accessibility);   // value init
	  entries.push_back(pair14);

	  string price;
	  getline( myfile, price, ',' );
	  pair <string,string> pair15 ("price",price);   // value init
	  entries.push_back(pair15);

	  string url;
	  getline( myfile, url, ',' );
	  pair <string,string> pair16  ("url",url);   // value init
	  entries.push_back(pair16);

	  string Rambience;
	  getline( myfile, Rambience, ',' );
	  pair <string,string> pair17  ("Rambience",Rambience);   // value init
	  entries.push_back(pair17);

	  string franchise;
	  getline( myfile, franchise, ',' );
	  pair <string,string> pair18  ("franchise",franchise);   // value init
	  entries.push_back(pair18);

	  string area;
	  getline( myfile, area, ',' );
	  pair <string,string> pair19  ("area",area);   // value init
	  entries.push_back(pair19);

	  string other_services;
	  getline( myfile, other_services, '\n' );
	  pair <string,string> pair20  ("other_services",other_services);   // value init
	  entries.push_back(pair20);

	  Record add(entries); // Create record to add to table

	  geo->insert(add);  // Insert add record into geo
	  
	}
    
	myfile.close();
	return geo;

  }

}
Example #12
0
Table* read_from_userprofile() {
	ifstream myfile ("userprofile.csv");
  if (myfile.is_open())
  {

	Table::ColumnList columns;

	String userID;
	getline( myfile, userID, ',' );
    columns.push_back(make_pair(userID, Table::varchar));

	String latitude;
	getline( myfile, latitude, ',' );
	columns.push_back(make_pair(latitude, Table::floating));

	String longitude;
	getline( myfile, longitude, ',' );
	columns.push_back(make_pair(longitude, Table::integer));

	String smoker;
	getline( myfile, smoker, ',');
    columns.push_back(make_pair(smoker, Table::varchar));

	String drink_level;
	getline( myfile, drink_level, ',');
    columns.push_back(make_pair(drink_level, Table::varchar));

	String dress_preference;
	getline( myfile, dress_preference, ',' );
    columns.push_back(make_pair(dress_preference, Table::varchar));

	String ambience;
	getline( myfile, ambience, ',' );
    columns.push_back(make_pair(ambience, Table::varchar));

	String transport;
	getline( myfile, transport, ',' );
    columns.push_back(make_pair(transport, Table::varchar));

	String marital_status;
	getline( myfile, marital_status, ',' );
    columns.push_back(make_pair(marital_status, Table::varchar));

	String hijos;
	getline( myfile, hijos, ',');
    columns.push_back(make_pair(hijos, Table::varchar));

	String birth_year;
	getline( myfile, birth_year, ',' );
    columns.push_back(make_pair(birth_year, Table::integer));

		String interest;
	getline( myfile, interest, ',' );
    columns.push_back(make_pair(interest, Table::varchar));

		String personality;
	getline( myfile, personality, ',' );
    columns.push_back(make_pair(personality, Table::varchar));

		String religion;
	getline( myfile, religion, ',' );
    columns.push_back(make_pair(religion, Table::varchar));

		String activity;
	getline( myfile, activity, ',' );
    columns.push_back(make_pair(activity, Table::varchar));

		String color;
	getline( myfile, color, ',' );
    columns.push_back(make_pair(color, Table::varchar));

		String weight;
	getline( myfile, weight, ',' );
    columns.push_back(make_pair(weight, Table::integer));

		String budget;
	getline( myfile, budget, ',' );
    columns.push_back(make_pair(budget, Table::varchar));

		String height;
	getline( myfile, height, '\n' );
	columns.push_back(make_pair(height, Table::floating));


	Table* geo = new Table(columns); // Create geo using the defined columns
	


    while ( myfile.good() )
    {

	  vector<pair<string, string> > entries; // Entries for the record to be placed in the table
	  
	  string userID;
	  getline( myfile, userID, ',' );
	  pair <string,string> pair0  ("userID",userID);   // value init
	  entries.push_back(pair0);

	  string latitude;
	  getline( myfile, latitude, ',' );
	  pair <string,string> pair1  ("latitude",latitude);   // value init
	  entries.push_back(pair1);

	  string longitude;
	  getline( myfile, longitude, ',' );
	  pair <string,string> pair2  ("longitude",longitude);   // value init
	  entries.push_back(pair2);

	  string smoker;
	  getline( myfile, smoker, ',' );
	  pair <string,string> pair3  ("smoker",smoker);   // value init
	  entries.push_back(pair3);

	  string drink_level;
	  getline( myfile, drink_level, ',' );
	  pair <string,string> pair4  ("drink_level",drink_level);   // value init
	  entries.push_back(pair4);

	  string dress_preference;
	  getline( myfile, dress_preference, ',' );
	  pair <string,string> pair5  ("dress_preference",dress_preference);   // value init
	  entries.push_back(pair5);

	  string ambience;
	  getline( myfile, ambience, ',' );
	  pair <string,string> pair6  ("ambience",ambience);   // value init
	  entries.push_back(pair6);

	  string transport;
	  getline( myfile, transport, ',' );
	  pair <string,string> pair7  ("transport",transport);   // value init
	  entries.push_back(pair7);

	  string marital_status;
	  getline( myfile, marital_status, ',' );
	  pair <string,string> pair8  ("marital_status",marital_status);   // value init
	  entries.push_back(pair8);

	  string hijos;
	  getline( myfile, hijos, ',' );
	  pair <string,string> pair9  ("hijos",hijos);   // value init
	  entries.push_back(pair9);

	  string birth_year;
	  getline( myfile, birth_year, ',' );
	  pair <string,string> pair10  ("birth_year",birth_year);   // value init
	  entries.push_back(pair10);

	  string interest;
	  getline( myfile, interest, ',' );
	  pair <string,string> pair11  ("interest",interest);   // value init
	  entries.push_back(pair11);

	  string personality;
	  getline( myfile, personality, ',' );
	  pair <string,string> pair12  ("personality",personality);   // value init
	  entries.push_back(pair12);

	  string religion;
	  getline( myfile, religion, ',' );
	  pair <string,string> pair13  ("religion",religion);   // value init
	  entries.push_back(pair13);

	  string activity;
	  getline( myfile, activity, ',' );
	  pair <string,string> pair14  ("activity",activity);   // value init
	  entries.push_back(pair14);

	  string color;
	  getline( myfile, color, ',' );
	  pair <string,string> pair15 ("color",color);   // value init
	  entries.push_back(pair15);

	  string weight;
	  getline( myfile, weight, ',' );
	  pair <string,string> pair16  ("weight",weight);   // value init
	  entries.push_back(pair16);

	  string budget;
	  getline( myfile, budget, ',' );
	  pair <string,string> pair17  ("budget",budget);   // value init
	  entries.push_back(pair17);

	  string height;
	  getline( myfile, height, '\n' );
	  pair <string,string> pair18  ("height",height);   // value init
	  entries.push_back(pair18);



	  Record add(entries); // Create record to add to table

	  geo->insert(add); // Insert add record into geo
	  
	}
    myfile.close();
	return geo;
  }
}
Example #13
0
Table* read_from_rating_final() {

  ifstream myfile ("rating_final.csv");
  if (myfile.is_open())
  {

	Table::ColumnList columns;

	String placeID;
	getline( myfile, placeID, ',' );
    columns.push_back(make_pair(placeID, Table::varchar));

	String latitude;
	getline( myfile, latitude, ',' );
	columns.push_back(make_pair(latitude, Table::integer));

	String longitude;
	getline( myfile, longitude, ',' );
	columns.push_back(make_pair(longitude, Table::integer));

	String the_geom_meter;
	getline( myfile, the_geom_meter, ',' );
	columns.push_back(make_pair(the_geom_meter, Table::integer));

	String name;
	getline( myfile, name, '\n' );
    columns.push_back(make_pair(name, Table::integer));


	Table* geo = new Table(columns); // Create geo using the defined columns
	


    while ( myfile.good() )
    {
	  vector<pair<string, string> > entries; // Entries for the record to be placed in the table
	  
	  string placeID;
	  getline( myfile, placeID, ',' );
	  pair <string,string> pair0  ("userID",placeID);   // value init
	  entries.push_back(pair0);

	  string latitude;
	  getline( myfile, latitude, ',' );
	  pair <string,string> pair1  ("placeID",latitude);   // value init
	  entries.push_back(pair1);

	  string longitude;
	  getline( myfile, longitude, ',' );
	  pair <string,string> pair2  ("rating",longitude);   // value init
	  entries.push_back(pair2);

	  string the_geom_meter;
	  getline( myfile, the_geom_meter, ',' );
	  pair <string,string> pair3  ("food_rating",the_geom_meter);   // value init
	  entries.push_back(pair3);

	  string name;
	  getline( myfile, name, '\n' );
	  pair <string,string> pair4  ("service_rating",name);   // value init
	  entries.push_back(pair4);


	  Record add(entries); // Create record to add to table

	  geo->insert(add); // Insert add record into geo
	  
	}
    myfile.close();
	return geo;
  }
}
Example #14
0
void loop_scheme(){
    int newfacesnum = 4 * numfaces;	//Every face will be split in 4
    vector<Face> newFaces;
    Face newface;
    int index = 0;	// index for new array of faces
    NewVertexMap newvertexmap;
    NewIndexMap newindexmap;
    for(int i = 0; i < newfacesnum; i++)
	newFaces.push_back(newface);

    for(int i = 0; i < numfaces; i++){
    	Vertex *newvertix = new Vertex[3];
	size_t newpositions[3] = {0};
    	for(int j = 0; j < 3; j++){
    	    newvertix[j].coord = (faxes[i].ver[j].coord + faxes[i].ver[(j+1)%3].coord)/2;
    	    Pair pair1(faxes[i].ver[j].id, faxes[i].ver[(j+1)%3].id);	
    	    Pair pair2(faxes[i].ver[(j+1)%3].id, faxes[i].ver[j].id);
    	    if(faxes[i].ver[(j+1)%3].id > faxes[i].ver[j].id){
    		newvertexmap.insert(NewVertexMap::value_type(pair1, newvertix[j].coord));
    	    } else {		
    		newvertexmap.insert(NewVertexMap::value_type(pair2, newvertix[j].coord));
    	    }
	    newpositions[j] = vertixes.size();
	    vertixes.push_back(newvertix[j]);
    	}
	newFaces[4 * i].ver = new Vertex[3]; newFaces[4 * i].numedges = 3;
	newFaces[4 * i + 1].ver = new Vertex[3]; newFaces[4 * i + 1].numedges = 3;
	newFaces[4 * i + 2].ver = new Vertex[3]; newFaces[4 * i + 2].numedges = 3;
	newFaces[4 * i + 3].ver = new Vertex[3]; newFaces[4 * i + 3].numedges = 3;
	// Assign vertices
	newFaces[4 * i].ver[0] = faxes[i].ver[0]; newFaces[4 * i].ver[1] = newvertix[0]; newFaces[4 * i].ver[2] = newvertix[2];
	newFaces[4 * i + 1].ver[0] = newvertix[0]; newFaces[4 * i + 1].ver[1] = faxes[i].ver[1]; newFaces[4 * i + 1].ver[2] = newvertix[1];
	newFaces[4 * i + 2].ver[0] = newvertix[1]; newFaces[4 * i + 2].ver[1] = faxes[i].ver[2]; newFaces[4 * i + 2].ver[2] = newvertix[2];
	newFaces[4 * i + 3].ver[0] = newvertix[0]; newFaces[4 * i + 3].ver[1] = newvertix[1]; newFaces[4 * i + 3].ver[2] = newvertix[2];
	
    }
    // for(int i = 0 ; i< numfaces; i++){
    // 	Vec3f *newvertix = new Vec3f[3];
    // 	for(int j = 0; j < 3; j++){
    // 	    newvertix[j] = (faces[i].ver[j].coord + faces[i].ver[(j+1)%3].coord)/2;
    // 	    Pair pair1(faces[i].ver[j].id, faces[i].ver[(j+1)%3].id);	
    // 	    Pair pair2(faces[i].ver[(j+1)%3].id, faces[i].ver[j].id);
    // 	    if(faces[i].ver[(j+1)%3].id > faces[i].ver[j].id){
    // 		newvertexmap.insert(NewVertexMap::value_type(pair1, newvertix[j]));
    // 	    } else {		
    // 		newvertexmap.insert(NewVertexMap::value_type(pair2, newvertix[j]));
    // 	    }
    // 	} 
    // }

    // // Lets assign the new vertices and values
    // NewVertexMap::const_iterator iter;
    // for(iter = newvertexmap.begin(); iter != newvertexmap.end(); iter++){
    // 	newindexmap.insert(NewIndexMap::value_type(iter->first, (int)vertixes.size())); // contains the position
    // 	vertixes.push_back(newvertexmap.find(iter->first));
    // }

    // for(int i = 0; i < numfaces; i++){
	
    // }

    //Fix at the end
    numfaces = newfacesnum;
    faxes = newFaces;
    selectedFace = -1;
}