from graph import Graph, Node, Queue
from utils import getNode

# directed and weighted digraph
romania = Graph( ['Or', 'Ne', 'Ze', 'Ia', 'Ar', 'Si', 'Fa',
                  'Va', 'Ri', 'Ti', 'Lu', 'Pi', 'Ur', 'Hi',
                  'Me', 'Bu', 'Dr', 'Ef', 'Cr', 'Gi'],
                [
                    ('Or', 'Ze', 71), ('Or', 'Si', 151),
                    ('Ne', 'Ia', 87), ('Ze', 'Ar', 75),
                    ('Ia', 'Va', 92), ('Ar', 'Si', 140),
                    ('Ar', 'Ti', 118), ('Si', 'Fa', 99),
                    ('Si', 'Ri', 80), ('Fa', 'Bu', 211),
                    ('Va', 'Ur', 142), ('Ri', 'Pi', 97),
                    ('Ri', 'Cr', 146), ('Ti', 'Lu', 111),
                    ('Lu', 'Me', 70), ('Me', 'Dr', 75),
                    ('Dr', 'Cr', 120), ('Cr', 'Pi', 138),
                    ('Pi', 'Bu', 101), ('Bu', 'Gi', 90),
                    ('Bu', 'Ur', 85), ('Ur', 'Hi', 98),
                    ('Hi', 'Ef', 86)
                ] )

def search(graph, queue, start_node_name, target_node_name):
    cost = 0
    visited_nodes = []   # Nodes which have been visited
    path = []

    start_node = getNode(start_node_name, graph.nodes)
    target_node = getNode(target_node_name, graph.nodes)

    queue.push(start_node)

    while not queue.empty():
        current_node = queue.pop()
        visited_nodes.append(current_node.name)

        if current_node == target_node:
            path.append(current_node.name)
            tmp = current_node
            while not tmp == start_node:
                for edge in tmp.parent.edges:
                    if edge.end.name == tmp.name:
                        cost += edge.value
                tmp = tmp.parent
                path.insert(0, tmp.name)    # reversed insertion
        else:
            for edge in current_node.edges:
                neighbor = edge.end

                # works with digraph, because current_node is marked at this point, a cycle is not possible
                if not visited_nodes.__contains__(neighbor.name):
                    queue.push(neighbor)
                    neighbor.parent = current_node

    if path.__len__() == 0:
        print('zwischen ' + start_node_name + ' und ' + target_node_name + ' konnte kein Pfad gefunden werden')
    else:
        print('From ' + start_node_name + ' to ' + target_node_name + ': ')
        print('Path: ' + path.__str__().format())
        print('Cost: ' + cost.__str__())

def bfs(graph, start_node_name, target_node_name):
    search(graph,Queue('FIFO'),start_node_name, target_node_name)

def dfs(graph, start_node_name, target_node_name):
    search(graph,Queue('LIFO'),start_node_name, target_node_name)

def main():
    bfs(romania, 'Ti', 'Bu')
    dfs(romania, 'Ti', 'Bu')

if __name__ == "__main__":
    main()