"""pseudo-code""" """ DIJKSTRA(graph G, start vertex s, destination vertex d): //all nodes initially unexplored 1 - let H = min heap data structure, initialized with 0 and s [here 0 indicates the distance from start vertex s] 2 - while H is non-empty: 3 - remove the first node and cost of H, call it U and cost 4 - if U has been previously explored: 5 - go to the while loop, line 2 //Once a node is explored there is no need to make it again 6 - mark U as explored 7 - if U is d: 8 - return cost // total cost from start to destination vertex 9 - for each edge(U, V): c=cost of edge(U,V) // for V in graph[U] 10 - if V explored: 11 - go to next V in line 9 12 - total_cost = cost + c 13 - add (total_cost,V) to H You can think at cost as a distance where Dijkstra finds the shortest distance between vertexes s and v in a graph G. The use of a min heap as H guarantees that if a vertex has already been explored there will be no other path with shortest distance, that happens because heapq.heappop will always return the next vertex with the shortest distance, considering that the heap stores not only the distance between previous vertex and current vertex but the entire distance between each vertex that makes up the path from start vertex to target vertex. """ import heapq def dijkstra(graph, start, end): """Return the cost of the shortest path between vertexes start and end. >>> dijkstra(G, "E", "C") 6 >>> dijkstra(G2, "E", "F") 3 >>> dijkstra(G3, "E", "F") 3 """ heap = [(0, start)] # cost from start node,end node visited = set() while heap: (cost, u) = heapq.heappop(heap) if u in visited: continue visited.add(u) if u == end: return cost for v, c in graph[u]: if v in visited: continue next = cost + c heapq.heappush(heap, (next, v)) return -1 G = { "A": [["B", 2], ["C", 5]], "B": [["A", 2], ["D", 3], ["E", 1], ["F", 1]], "C": [["A", 5], ["F", 3]], "D": [["B", 3]], "E": [["B", 4], ["F", 3]], "F": [["C", 3], ["E", 3]], } r""" Layout of G2: E -- 1 --> B -- 1 --> C -- 1 --> D -- 1 --> F \ /\ \ || ----------------- 3 -------------------- """ G2 = { "B": [["C", 1]], "C": [["D", 1]], "D": [["F", 1]], "E": [["B", 1], ["F", 3]], "F": [], } r""" Layout of G3: E -- 1 --> B -- 1 --> C -- 1 --> D -- 1 --> F \ /\ \ || -------- 2 ---------> G ------- 1 ------ """ G3 = { "B": [["C", 1]], "C": [["D", 1]], "D": [["F", 1]], "E": [["B", 1], ["G", 2]], "F": [], "G": [["F", 1]], } shortDistance = dijkstra(G, "E", "C") print(shortDistance) # E -- 3 --> F -- 3 --> C == 6 shortDistance = dijkstra(G2, "E", "F") print(shortDistance) # E -- 3 --> F == 3 shortDistance = dijkstra(G3, "E", "F") print(shortDistance) # E -- 2 --> G -- 1 --> F == 3 if __name__ == "__main__": import doctest doctest.testmod()