def raise_node_potentials(s, n, Edge, Cost, node_potential, Gr_Edge): color =[-1 for x in range(n)] parent =[-1 for x in range(n)] distance =[0 for x in range(n)] std_bfs (Gr_Edge,s,color,parent,distance) #Need to get visited nodes. Color changed to gray or black visited=[] unvisited=[] for i in range(n): if color[i] == -1: unvisited.append(i) else: visited.append(i) min= 1000 print color print node_potential '''for a in range(len(visited)): for b in range(len(unvisited)): delta = Cost[a][b] - (node_potential[a]-node_potential[b]) #This qty is always >=0 if delta < min : min = delta to_be_raised = a node_potential[a] += 1''' for a in visited: for b in unvisited: if Edge[a][b] == 1: delta = Cost[a][b] - (node_potential[a]-node_potential[b]) print delta #print "Are we coming here? Yes, we are raising node potentials here" if delta< min: min = delta to_be_raised =a # print "here" print "visited: ", visited print "unvisited: ", unvisited if min == 1000: print "NOT POSSIBLE TO SATURATE ALL SOURCES " #return -1 for a in visited: node_potential[a] += min #node_potential[to_be_raised] += min print to_be_raised ," node's potential to be increased"
def raise_node_potentials(s, n, Edge, Cost, node_potential, Gr_Edge): color =[-1 for x in range(n)] parent =[-1 for x in range(n)] distance =[0 for x in range(n)] std_bfs (Gr_Edge,s,color,parent,distance) #Need to get visited nodes. Color changed to gray or black visited=[] unvisited=[] for i in range(n): if color[i] == -1: unvisited.append(i) else: visited.append(i) min= 1000 print color print node_potential print "visited: ", visited print "unvisited: ", unvisited for a in visited: for b in unvisited: if Edge[a][b] == 1: delta = Cost[a][b] - (node_potential[a]-node_potential[b]) print "delta: ", delta #print "Are we coming here? Yes, we are raising node potentials here" if delta< min: min = delta to_be_raised =a # print "here" print "min of diff. of node pot. thing: ", min for a in visited: node_potential[a] += min #node_potential[to_be_raised] += min print to_be_raised ," node's potential to be increased"
def raise_node_potentials(s, n, Edge, Cost, node_potential, Gr_Edge): color =[-1 for x in range(n)] parent =[-1 for x in range(n)] distance =[0 for x in range(n)] std_bfs (Gr_Edge,s,color,parent,distance) #Need to get visited nodes. Color changed to gray or black visited=[] unvisited=[] for i in range(n): if color[i] == -1: unvisited.append(i) else: visited.append(i) min= 1000 print color print node_potential print "visited: ", visited print "unvisited: ", unvisited for a in visited: for b in unvisited: if Edge[a][b] == 1: delta = Cost[a][b] - (node_potential[a]-node_potential[b]) print "delta: ", delta #print "Are we coming here? Yes, we are raising node potentials here" if delta< min: min = delta to_be_raised =a # print "here" print "min of diff. of node pot. thing: ", min for a in visited: node_potential[a] += min #node_potential[to_be_raised] += min print to_be_raised ," node's potential to be increased"
