#NEXUS

BEGIN NETWORKS;

Network net = ((A:2,((B:1,C:1):1)X#H1:0::0.3):1,(D:2,X#H1:0::0.7):1);

END;

BEGIN TREES;

Tree g1 = (C,((B,D),A));
Tree g2 = (B,(D,(C,A)));
Tree g3 = (D,(B,(C,A)));
Tree g4 = ((B,D),(C,A));
Tree g5 = (A,(C,(B,D)));
Tree g6 = (B,((C,D),A));
Tree g7 = (C,(D,(B,A)));
Tree g8 = (D,(C,(B,A)));
Tree g9 = ((C,D),(B,A));
Tree g10 = (A,(B,(C,D)));
Tree g11 = (B,(C,(A,D)));
Tree g12 = (C,(B,(A,D)));
Tree g13 = (A,(D,(B,C)));
Tree g14 = (D,(A,(B,C)));
Tree g15 = ((B,C),(A,D));

END;

BEGIN PHYLONET;

calgtprob net (g1, g2, g3, g4, g5, g6, g7, g8, g9, g10, g11, g12, g13, g14, g15) -m ac;

END;
===

calgtprob net (g1, g2, g3, g4, g5, g6, g7, g8, g9, g10, g11, g12, g13, g14, g15) -m ac
Species Network:
((((C:1.0,B:1.0):1.0)#H1:0.0::0.7,D:2.0):1.0,(#H1:0.0::0.3,A:2.0):1.0);
Total log probability: -55.272600510310674
===
