Python/graphs/johnson_graph.py

import heapq
import sys


# First implementation of johnson algorithm
# Steps followed to implement this algorithm is given in the below link:
# https://brilliant.org/wiki/johnsons-algorithm/
class JohnsonGraph:
    def __init__(self) -> None:
        """
        Initializes an empty graph with no edges.
        """
        self.edges: list[tuple[str, str, int]] = []
        self.graph: dict[str, list[tuple[str, int]]] = {}

    # add vertices for a graph
    def add_vertices(self, vertex: str) -> None:
        """
        Adds a vertex `u` to the graph with an empty adjacency list.
        """
        self.graph[vertex] = []

    # assign weights for each edges formed of the directed graph
    def add_edge(self, vertex_a: str, vertex_b: str, weight: int) -> None:
        """
        Adds a directed edge from vertex `u` to vertex `v` with weight `w`.
        """
        self.edges.append((vertex_a, vertex_b, weight))
        self.graph[vertex_a].append((vertex_b, weight))

    # perform a dijkstra algorithm on a directed graph
    def dijkstra(self, start: str) -> dict:
        """
        Computes the shortest path from vertex `s`
        to all other vertices using Dijkstra's algorithm.
        """
        distances = {vertex: sys.maxsize - 1 for vertex in self.graph}
        pq = [(0, start)]
        distances[start] = 0
        while pq:
            weight, vertex = heapq.heappop(pq)

            if weight > distances[vertex]:
                continue

            for node, node_weight in self.graph[vertex]:
                if distances[vertex] + node_weight < distances[node]:
                    distances[node] = distances[vertex] + node_weight
                    heapq.heappush(pq, (distances[node], node))
        return distances

    # carry out the bellman ford algorithm for a node and estimate its distance vector
    def bellman_ford(self, start: str) -> dict:
        """
        Computes the shortest path from vertex `s`
        to all other vertices using the Bellman-Ford algorithm.
        """
        distances = {vertex: sys.maxsize - 1 for vertex in self.graph}
        distances[start] = 0

        for vertex_a in self.graph:
            for vertex_a, vertex_b, weight in self.edges:
                if distances[vertex_a] != sys.maxsize - 1 and distances[vertex_a] + weight < distances[vertex_b]:
                    distances[vertex_b] = distances[vertex_a] + weight

        return distances

    # perform the johnson algorithm to handle the negative weights that
    # could not be handled by either the dijkstra
    # or the bellman ford algorithm efficiently
    def johnson_algo(self) -> list[dict]:
        """
        Computes the shortest paths between
        all pairs of vertices using Johnson's algorithm.
        """
        self.add_vertices("#")
        for vertex in self.graph:
            if vertex != "#":
                self.add_edge("#", vertex, 0)

        hash_path = self.bellman_ford("#")

        for i in range(len(self.edges)):
            vertex_a, vertex_b, weight = self.edges[i]
            self.edges[i] = (vertex_a, vertex_b, weight + hash_path[vertex_a] - hash_path[vertex_b])

        self.graph.pop("#")
        self.edges = [(vertex1, vertex2, node_weight) for vertex1, vertex2, node_weight in self.edges if vertex1 != "#"]

        for vertex in self.graph:
            self.graph[vertex] = [(vertex2, node_weight) for vertex1, vertex2, node_weight in self.edges if vertex1 == vertex]

        distances = []
        for vertex1 in self.graph:
            new_dist = self.dijkstra(vertex1)
            for vertex2 in self.graph:
                if new_dist[vertex2] < sys.maxsize - 1:
                    new_dist[vertex2] += hash_path[vertex1] - hash_path[vertex2]
            distances.append(new_dist)
        return distances


g = JohnsonGraph()
# this a complete connected graph
g.add_vertices("A")
g.add_vertices("B")
g.add_vertices("C")
g.add_vertices("D")
g.add_vertices("E")

g.add_edge("A", "B", 1)
g.add_edge("A", "C", 3)
g.add_edge("B", "D", 4)
g.add_edge("D", "E", 2)
g.add_edge("E", "C", -2)


optimal_paths = g.johnson_algo()
print("Print all optimal paths of a graph using Johnson Algorithm")
for i, row in enumerate(optimal_paths):
    print(f"{i}: {row}")
Implementation of Johnson Graph Algorithm 2024-10-25 16:00:10 +00:00			`import heapq`
			`import sys`

[pre-commit.ci] auto fixes from pre-commit.com hooks for more information, see https://pre-commit.ci 2024-10-25 16:12:54 +00:00
			`# First implementation of johnson algorithm`
			`# Steps followed to implement this algorithm is given in the below link:`
			`# https://brilliant.org/wiki/johnsons-algorithm/`
Implementation of Johnson Graph Algorithm 2024-10-25 16:00:10 +00:00			`class JohnsonGraph:`
Added return types to the functions 2024-10-25 16:17:05 +00:00			`def __init__(self) -> None:`
Handled type annotations and added doctests 2024-10-28 02:28:21 +00:00			`"""`
			`Initializes an empty graph with no edges.`
			`"""`
			`self.edges: list[tuple[str, str, int]] = []`
			`self.graph: dict[str, list[tuple[str, int]]] = {}`
[pre-commit.ci] auto fixes from pre-commit.com hooks for more information, see https://pre-commit.ci 2024-10-25 16:01:29 +00:00
			`# add vertices for a graph`
Handled names 2024-10-28 02:56:35 +00:00			`def add_vertices(self, vertex: str) -> None:`
Handled type annotations and added doctests 2024-10-28 02:28:21 +00:00			`"""`
			Adds a vertex `u` to the graph with an empty adjacency list.
			`"""`
Handled names 2024-10-28 02:56:35 +00:00			`self.graph[vertex] = []`
[pre-commit.ci] auto fixes from pre-commit.com hooks for more information, see https://pre-commit.ci 2024-10-25 16:01:29 +00:00
			`# assign weights for each edges formed of the directed graph`
Handled names 2024-10-28 02:56:35 +00:00			`def add_edge(self, vertex_a: str, vertex_b: str, weight: int) -> None:`
Handled type annotations and added doctests 2024-10-28 02:28:21 +00:00			`"""`
			Adds a directed edge from vertex `u` to vertex `v` with weight `w`.
			`"""`
Handled names 2024-10-28 02:56:35 +00:00			`self.edges.append((vertex_a, vertex_b, weight))`
			`self.graph[vertex_a].append((vertex_b, weight))`
Implementation of Johnson Graph Algorithm 2024-10-25 16:00:10 +00:00
[pre-commit.ci] auto fixes from pre-commit.com hooks for more information, see https://pre-commit.ci 2024-10-25 16:01:29 +00:00			`# perform a dijkstra algorithm on a directed graph`
Handled names 2024-10-28 02:56:35 +00:00			`def dijkstra(self, start: str) -> dict:`
Handled type annotations and added doctests 2024-10-28 02:28:21 +00:00			`"""`
[pre-commit.ci] auto fixes from pre-commit.com hooks for more information, see https://pre-commit.ci 2024-10-28 02:43:44 +00:00			Computes the shortest path from vertex `s`
Handled doctests 2024-10-28 02:43:18 +00:00			`to all other vertices using Dijkstra's algorithm.`
Handled type annotations and added doctests 2024-10-28 02:28:21 +00:00			`"""`
[pre-commit.ci] auto fixes from pre-commit.com hooks for more information, see https://pre-commit.ci 2024-10-25 16:19:06 +00:00			`distances = {vertex: sys.maxsize - 1 for vertex in self.graph}`
Handled names 2024-10-28 02:56:35 +00:00			`pq = [(0, start)]`
			`distances[start] = 0`
Implementation of Johnson Graph Algorithm 2024-10-25 16:00:10 +00:00			`while pq:`
Handled names 2024-10-28 02:56:35 +00:00			`weight, vertex = heapq.heappop(pq)`
[pre-commit.ci] auto fixes from pre-commit.com hooks for more information, see https://pre-commit.ci 2024-10-25 16:01:29 +00:00
Handled names 2024-10-28 02:56:35 +00:00			`if weight > distances[vertex]:`
Implementation of Johnson Graph Algorithm 2024-10-25 16:00:10 +00:00			`continue`
[pre-commit.ci] auto fixes from pre-commit.com hooks for more information, see https://pre-commit.ci 2024-10-25 16:01:29 +00:00
Handled names 2024-10-28 02:56:35 +00:00			`for node, node_weight in self.graph[vertex]:`
			`if distances[vertex] + node_weight < distances[node]:`
			`distances[node] = distances[vertex] + node_weight`
[pre-commit.ci] auto fixes from pre-commit.com hooks for more information, see https://pre-commit.ci 2024-10-25 16:01:29 +00:00			`heapq.heappush(pq, (distances[node], node))`
Implementation of Johnson Graph Algorithm 2024-10-25 16:00:10 +00:00			`return distances`

[pre-commit.ci] auto fixes from pre-commit.com hooks for more information, see https://pre-commit.ci 2024-10-25 16:19:06 +00:00			`# carry out the bellman ford algorithm for a node and estimate its distance vector`
Handled names 2024-10-28 02:56:35 +00:00			`def bellman_ford(self, start: str) -> dict:`
Handled type annotations and added doctests 2024-10-28 02:28:21 +00:00			`"""`
[pre-commit.ci] auto fixes from pre-commit.com hooks for more information, see https://pre-commit.ci 2024-10-28 02:43:44 +00:00			Computes the shortest path from vertex `s`
Handled doctests 2024-10-28 02:43:18 +00:00			`to all other vertices using the Bellman-Ford algorithm.`
Handled type annotations and added doctests 2024-10-28 02:28:21 +00:00			`"""`
[pre-commit.ci] auto fixes from pre-commit.com hooks for more information, see https://pre-commit.ci 2024-10-25 16:19:06 +00:00			`distances = {vertex: sys.maxsize - 1 for vertex in self.graph}`
Handled names 2024-10-28 02:56:35 +00:00			`distances[start] = 0`
[pre-commit.ci] auto fixes from pre-commit.com hooks for more information, see https://pre-commit.ci 2024-10-25 16:01:29 +00:00
Handled names 2024-10-28 02:56:35 +00:00			`for vertex_a in self.graph:`
			`for vertex_a, vertex_b, weight in self.edges:`
			`if distances[vertex_a] != sys.maxsize - 1 and distances[vertex_a] + weight < distances[vertex_b]:`
			`distances[vertex_b] = distances[vertex_a] + weight`
Implementation of Johnson Graph Algorithm 2024-10-25 16:00:10 +00:00
			`return distances`
[pre-commit.ci] auto fixes from pre-commit.com hooks for more information, see https://pre-commit.ci 2024-10-25 16:12:54 +00:00
			`# perform the johnson algorithm to handle the negative weights that`
Resolving ruff issues 2024-10-25 16:04:37 +00:00			`# could not be handled by either the dijkstra`
[pre-commit.ci] auto fixes from pre-commit.com hooks for more information, see https://pre-commit.ci 2024-10-25 16:19:06 +00:00			`# or the bellman ford algorithm efficiently`
Handled type annotation 2024-10-28 02:17:56 +00:00			`def johnson_algo(self) -> list[dict]:`
Handled type annotations and added doctests 2024-10-28 02:28:21 +00:00			`"""`
[pre-commit.ci] auto fixes from pre-commit.com hooks for more information, see https://pre-commit.ci 2024-10-28 02:43:44 +00:00			`Computes the shortest paths between`
Handled doctests 2024-10-28 02:43:18 +00:00			`all pairs of vertices using Johnson's algorithm.`
Handled type annotations and added doctests 2024-10-28 02:28:21 +00:00			`"""`
Implementation of Johnson Graph Algorithm 2024-10-25 16:00:10 +00:00			`self.add_vertices("#")`
Handled names 2024-10-28 02:56:35 +00:00			`for vertex in self.graph:`
			`if vertex != "#":`
			`self.add_edge("#", vertex, 0)`
[pre-commit.ci] auto fixes from pre-commit.com hooks for more information, see https://pre-commit.ci 2024-10-25 16:01:29 +00:00
Handled names 2024-10-28 02:56:35 +00:00			`hash_path = self.bellman_ford("#")`
[pre-commit.ci] auto fixes from pre-commit.com hooks for more information, see https://pre-commit.ci 2024-10-25 16:01:29 +00:00
Implementation of Johnson Graph Algorithm 2024-10-25 16:00:10 +00:00			`for i in range(len(self.edges)):`
Handled names 2024-10-28 02:56:35 +00:00			`vertex_a, vertex_b, weight = self.edges[i]`
			`self.edges[i] = (vertex_a, vertex_b, weight + hash_path[vertex_a] - hash_path[vertex_b])`
Implementation of Johnson Graph Algorithm 2024-10-25 16:00:10 +00:00
			`self.graph.pop("#")`
Handled names 2024-10-28 02:56:35 +00:00			`self.edges = [(vertex1, vertex2, node_weight) for vertex1, vertex2, node_weight in self.edges if vertex1 != "#"]`
[pre-commit.ci] auto fixes from pre-commit.com hooks for more information, see https://pre-commit.ci 2024-10-25 16:01:29 +00:00
Handled names 2024-10-28 02:56:35 +00:00			`for vertex in self.graph:`
			`self.graph[vertex] = [(vertex2, node_weight) for vertex1, vertex2, node_weight in self.edges if vertex1 == vertex]`
[pre-commit.ci] auto fixes from pre-commit.com hooks for more information, see https://pre-commit.ci 2024-10-25 16:01:29 +00:00
Implementation of Johnson Graph Algorithm 2024-10-25 16:00:10 +00:00			`distances = []`
Handled names 2024-10-28 02:56:35 +00:00			`for vertex1 in self.graph:`
			`new_dist = self.dijkstra(vertex1)`
			`for vertex2 in self.graph:`
			`if new_dist[vertex2] < sys.maxsize - 1:`
			`new_dist[vertex2] += hash_path[vertex1] - hash_path[vertex2]`
Implementation of Johnson Graph Algorithm 2024-10-25 16:00:10 +00:00			`distances.append(new_dist)`
			`return distances`
[pre-commit.ci] auto fixes from pre-commit.com hooks for more information, see https://pre-commit.ci 2024-10-25 16:01:29 +00:00

Implementation of Johnson Graph Algorithm 2024-10-25 16:00:10 +00:00			`g = JohnsonGraph()`
[pre-commit.ci] auto fixes from pre-commit.com hooks for more information, see https://pre-commit.ci 2024-10-25 16:01:29 +00:00			`# this a complete connected graph`
Implementation of Johnson Graph Algorithm 2024-10-25 16:00:10 +00:00			`g.add_vertices("A")`
			`g.add_vertices("B")`
			`g.add_vertices("C")`
			`g.add_vertices("D")`
			`g.add_vertices("E")`

			`g.add_edge("A", "B", 1)`
			`g.add_edge("A", "C", 3)`
			`g.add_edge("B", "D", 4)`
			`g.add_edge("D", "E", 2)`
			`g.add_edge("E", "C", -2)`


			`optimal_paths = g.johnson_algo()`
			`print("Print all optimal paths of a graph using Johnson Algorithm")`
			`for i, row in enumerate(optimal_paths):`
[pre-commit.ci] auto fixes from pre-commit.com hooks for more information, see https://pre-commit.ci 2024-10-25 16:01:29 +00:00			`print(f"{i}: {row}")`