Esempio n. 1
0
property_matrix<ActorSharedPtr,LayerSharedPtr,bool> actor_existence_property_matrix(const MLNetworkSharedPtr& mnet) {
	property_matrix<ActorSharedPtr,LayerSharedPtr,bool> P(mnet->get_actors()->size(),mnet->get_layers()->size(),false);
	for (LayerSharedPtr layer: *mnet->get_layers())
		for (NodeSharedPtr node: *mnet->get_nodes(layer)) {
			P.set(node->actor,layer,true);
		}
	return P;
}
Esempio n. 2
0
property_matrix<ActorSharedPtr,LayerSharedPtr,double> actor_degree_property_matrix(const MLNetworkSharedPtr& mnet, edge_mode mode) {
	property_matrix<ActorSharedPtr,LayerSharedPtr,double> P(mnet->get_actors()->size(),mnet->get_layers()->size(),0);
	for (ActorSharedPtr actor: *mnet->get_actors()) {
		for (LayerSharedPtr layer: *mnet->get_layers()) {
			NodeSharedPtr node = mnet->get_node(actor,layer);
			if (!node) P.set_na(actor,layer);
			else P.set(actor,layer,mnet->neighbors(node,mode)->size());
		}
	}
	return P;
}
Esempio n. 3
0
// TODO document: does not consider self edges
property_matrix<dyad,LayerSharedPtr,bool> edge_existence_property_matrix(const MLNetworkSharedPtr& mnet) {
	long n = mnet->get_actors()->size();
	property_matrix<dyad,LayerSharedPtr,bool> P(n*(n-1)/2,mnet->get_layers()->size(),false);
	for (LayerSharedPtr layer: *mnet->get_layers()) {
		for (EdgeSharedPtr e: *mnet->get_edges(layer,layer)) {
			dyad d(e->v1->actor,e->v2->actor);
			P.set(d,layer,true);
		}
	}
	return P;
}
Esempio n. 4
0
 property_matrix<ActorSharedPtr,LayerSharedPtr,double> actor_cc_property_matrix(const MLNetworkSharedPtr& mnet) {
     property_matrix<ActorSharedPtr,LayerSharedPtr,double> P(mnet->get_actors()->size(),mnet->get_layers()->size(),0);
     for (ActorSharedPtr actor: *mnet->get_actors()) {
         for (LayerSharedPtr layer: *mnet->get_layers()) {
             NodeSharedPtr node = mnet->get_node(actor,layer);
             if (!node) P.set_na(actor,layer);
             else P.set(actor,layer,cc(mnet,node));
         }
     }
     return P;
 }
Esempio n. 5
0
// only works for multiplex networks (no inter-layer edges)
property_matrix<triad,LayerSharedPtr,bool> triangle_existence_property_matrix(const MLNetworkSharedPtr& mnet) {
	long n = mnet->get_actors()->size();
	property_matrix<triad,LayerSharedPtr,bool> P(n*(n-1)*(n-2)/6,mnet->get_layers()->size(),false);
	for (LayerSharedPtr layer: *mnet->get_layers()) {
		hash_set<NodeSharedPtr> processed1;
		for (NodeSharedPtr n1: *mnet->get_nodes(layer)) {
			processed1.insert(n1);
			hash_set<NodeSharedPtr> processed2;
			for (NodeSharedPtr n2: *mnet->neighbors(n1,INOUT)) {
				if (processed1.count(n2)>0) continue;
				processed2.insert(n2);
				for (NodeSharedPtr n3: *mnet->neighbors(n2,INOUT)) {
					if (processed1.count(n3)>0) continue;
					if (processed2.count(n3)>0) continue;
					if (mnet->get_edge(n3,n1)) {
						triad t(n1->actor,n2->actor,n3->actor);
						P.set(t,layer,true);
					}
				}
			}
		}
	}
	return P;
}
Esempio n. 6
0
void test_double_layer() {
	{
	log(1);
	// create multiplex network
	MLNetworkSharedPtr mnet = read_multilayer("test/data/ACModel_BA_copy.csv","mlnet 2",',');

	// BEGIN Getting Layers
	layer_list layers_l = mnet->get_layers();
	std::unordered_set<LayerSharedPtr> layers;
	for(LayerSharedPtr layer : layers_l){
		layers.insert(layer);
	}
	// END Getting Layers
/*
	std::cout<<"[.] NODE Jaccard :"<<std::endl;
	for(LayerSharedPtr layer1 : layers){

		for(LayerSharedPtr layer2 : layers){
			double jaccard_sim = jaccard_node_similarity(mnet, layer1, layer2);
			std::cout<<jaccard_sim<<" - ";

		}
		std::cout<<std::endl;
	}

	std::cout<<"[.] EDGE Jaccard :"<<std::endl;
	for(LayerSharedPtr layer1 : layers){

		for(LayerSharedPtr layer2 : layers){
			double jaccard_edge_sim = jaccard_similarity(mnet, layer1, layer2);
			std::cout<<jaccard_edge_sim<<" - ";

		}
		std::cout<<std::endl;
	}*/
		benchmark_adjust_error(mnet, "ACModel_BA_copy", "csv");
		//benchmark_dissortative_swap(mnet, "ACModel_BA_copy", "csv");
	}
}
Esempio n. 7
0
hash_map<NodeSharedPtr,xyz_coordinates> circular(MLNetworkSharedPtr& mnet, double radius) {
	hash_map<NodeSharedPtr,xyz_coordinates> pos;
    double pi = 3.14159265358979323846;
	
	if (mnet->get_actors()->size()==0) return pos;

	double angle_offset = 360.0/mnet->get_actors()->size();
    int i=0;
	for (ActorSharedPtr a: *mnet->get_actors()) {
        double degree = i*angle_offset;
        double radians = degree*pi/180;
        double x = std::cos(radians)*radius;
        double y = std::sin(radians)*radius;
        for (NodeSharedPtr n: *mnet->get_nodes(a)) {
			pos[n].x = x;
			pos[n].y = y;
			pos[n].z = mnet->get_layers()->get_index(n->layer);
		}
        i++;
	}
	return pos;
}
Esempio n. 8
0
hashtable<NodeSharedPtr,coordinates> multiforce(MLNetworkSharedPtr mnet, double width, double length, int iterations) {
	hashtable<NodeSharedPtr,coordinates> pos;
	hashtable<NodeSharedPtr,coordinates> disp;

	double t = std::sqrt(width*width+length*length);
	double area = width*length;
	double k = std::sqrt(area/mnet->get_actors().size());
	for (ActorSharedPtr a: mnet->get_actors()) {
		double y = drand()*length-length/2;
		double x = drand()*width-width/2;
		for (NodeSharedPtr n: mnet->get_nodes(a)) {
			pos[n].y = x;
			pos[n].x = y;
			pos[n].z = mnet->get_layers().get_index(n->layer->id);
		}
	}

	for (int i=0; i<iterations; i++) {
		// calculate repulsive forces
		for (LayerSharedPtr l: mnet->get_layers()) {
			for (NodeSharedPtr v: mnet->get_nodes(l)) {
				disp[v].x = 0;
				disp[v].y = 0;
				for (NodeSharedPtr u: mnet->get_nodes(l)) {
					if (u == v) continue;
					coordinates Delta;
					Delta.x = pos[v].x - pos[u].x;
					Delta.y = pos[v].y - pos[u].y;
					double DeltaNorm = std::sqrt(Delta.x*Delta.x+Delta.y*Delta.y);
					disp[v].x = disp[v].x + Delta.x/DeltaNorm*fr(DeltaNorm,k);
					disp[v].y = disp[v].y + Delta.y/DeltaNorm*fr(DeltaNorm,k);
				}
			}
		}
		// calculate attractive forces inside each layer for ((u, v) ∈ E) do
		for (LayerSharedPtr l: mnet->get_layers()) {
			for (EdgeSharedPtr e: mnet->get_edges(l,l)) {
				NodeSharedPtr v = e->v1;
				NodeSharedPtr u = e->v2;
				coordinates Delta;
				Delta.x = pos[v].x - pos[u].x;
				Delta.y = pos[v].y - pos[u].y;
				double DeltaNorm = std::sqrt(Delta.x*Delta.x+Delta.y*Delta.y);
				disp[v].x = disp[v].x - Delta.x/DeltaNorm*fain(DeltaNorm,k);
				disp[v].y = disp[v].y - Delta.y/DeltaNorm*fain(DeltaNorm,k);
				disp[u].x = disp[u].x + Delta.x/DeltaNorm*fain(DeltaNorm,k);
				disp[u].y = disp[u].y + Delta.y/DeltaNorm*fain(DeltaNorm,k);
			}
		}
		// calculate attractive forces across layers
		for (ActorSharedPtr a: mnet->get_actors()) {
			for (NodeSharedPtr v: mnet->get_nodes(a)) {
				for (NodeSharedPtr u: mnet->get_nodes(a)) {
					if (v == u) continue;
					coordinates Delta;
					Delta.x = pos[v].x - pos[u].x;
					Delta.y = pos[v].y - pos[u].y;
					double DeltaNorm = std::sqrt(Delta.x*Delta.x+Delta.y*Delta.y);
					disp[v].x = disp[v].x - Delta.x/DeltaNorm*fainter(DeltaNorm,k);
					disp[v].y = disp[v].y - Delta.y/DeltaNorm*fainter(DeltaNorm,k);
					disp[u].x = disp[u].x + Delta.x/DeltaNorm*fainter(DeltaNorm,k);
					disp[u].y = disp[u].y + Delta.y/DeltaNorm*fainter(DeltaNorm,k);
				}
			}
		}
		// assign new positions
		for (NodeSharedPtr v: mnet->get_nodes()) {
			double dispNorm = std::sqrt(disp[v].x*disp[v].x+disp[v].y*disp[v].y);
			pos[v].x = pos[v].x + (disp[v].x/dispNorm);//*std::min(dispNorm,t);
			pos[v].y = pos[v].y + (disp[v].y/dispNorm);//*std::min(dispNorm,t);
			//pos[v].x = std::min(width/2, std::max(-width/2, pos[v].x));
			//pos[v].y = std::min(length/2, std::max(-length/2, pos[v].y));
		}
		// reduce the temperature
		t -= (t-1)/(iterations+1);
	}

	// DEBUG PRINT
	double min_x = 100000000;
	double min_y = 100000000;
	double max_x = -100000000;
	double max_y = -100000000;
	for (NodeSharedPtr v: mnet->get_nodes()) {
		if (pos[v].x < min_x) min_x = pos[v].x;
		if (pos[v].y < min_y) min_y = pos[v].y;
		if (pos[v].x > max_x) max_x = pos[v].x;
		if (pos[v].y > max_y) max_y = pos[v].y;
	}
	std::cout << "plot(c(),xlim=c(" << min_x << "," << max_x << "),ylim=c(" << min_y << "," << max_y << "))" << std::endl;
	//std::cout << "legend(4,4,0:" << (iterations-1) << ",fill=1:" << (iterations) << ")" << std::endl;
	for (NodeSharedPtr n: mnet->get_nodes()) {
		std::cout << "points(" << pos[n].x << "," << pos[n].y << ")" << std::endl;
	}
	for (EdgeSharedPtr e: mnet->get_edges()) {
		std::cout << "lines(c(" << pos[e->v1].x << "," << pos[e->v2].x << "),c(" << pos[e->v1].y << "," << pos[e->v2].y << "))" << std::endl;
	}
	//
	return pos;
}