Update queue implementation (#5388)

* Update queue implementation Popping the first element of a list takes O(n) time. Using a cyclic queue takes O(1) time. * Add queue changes from extra files * Update indentation * Add empty line between imports * Fix lines * Apply suggestions from code review Co-authored-by: N John Law <johnlaw.po@gmail.com> Co-authored-by: N John Law <johnlaw.po@gmail.com>

Update queue implementation (#5388)
* Update queue implementation Popping the first element of a list takes O(n) time. Using a cyclic queue takes O(1) time. * Add queue changes from extra files * Update indentation * Add empty line between imports * Fix lines * Apply suggestions from code review Co-authored-by: N John Law <johnlaw.po@gmail.com> Co-authored-by: N John Law <johnlaw.po@gmail.com>
e6cf13cc · Casper Rysgaard · GitHub · 3a4cc7e3 · e6cf13cc · e6cf13cc
3 changed file
--- a/graphs/breadth_first_search.py
+++ b/graphs/breadth_first_search.py
@@ -3,6 +3,8 @@
 """ Author: OMKAR PATHAK """
 from __future__ import annotations

+from queue import Queue
+

 class Graph:
    def __init__(self) -> None:
@@ -51,19 +53,19 @@ class Graph:
        visited = set()

        # create a first in first out queue to store all the vertices for BFS
-        queue = []
+        queue = Queue()

        # mark the source node as visited and enqueue it
        visited.add(start_vertex)
-        queue.append(start_vertex)
+        queue.put(start_vertex)

-        while queue:
-            vertex = queue.pop(0)
+        while not queue.empty():
+            vertex = queue.get()

            # loop through all adjacent vertex and enqueue it if not yet visited
            for adjacent_vertex in self.vertices[vertex]:
                if adjacent_vertex not in visited:
-                    queue.append(adjacent_vertex)
+                    queue.put(adjacent_vertex)
                    visited.add(adjacent_vertex)
        return visited


--- a/graphs/breadth_first_search_2.py
+++ b/graphs/breadth_first_search_2.py
@@ -14,6 +14,8 @@ while Q is non-empty:
 """
 from __future__ import annotations

+from queue import Queue
+
 G = {
    "A": ["B", "C"],
    "B": ["A", "D", "E"],
@@ -30,13 +32,14 @@ def breadth_first_search(graph: dict, start: str) -> set[str]:
    'ABCDEF'
    """
    explored = {start}
-    queue = [start]
-    while queue:
-        v = queue.pop(0)  # queue.popleft()
+    queue = Queue()
+    queue.put(start)
+    while not queue.empty():
+        v = queue.get()
        for w in graph[v]:
            if w not in explored:
                explored.add(w)
-                queue.append(w)
+                queue.put(w)
    return explored



--- a/graphs/check_bipartite_graph_bfs.py
+++ b/graphs/check_bipartite_graph_bfs.py
@@ -6,14 +6,17 @@
 # from V to U. In other words, for every edge (u, v), either u belongs to U and v to V,
 # or u belongs to V and v to U. We can also say that there is no edge that connects
 # vertices of same set.
+from queue import Queue
+
+
 def checkBipartite(graph):
-    queue = []
+    queue = Queue()
    visited = [False] * len(graph)
    color = [-1] * len(graph)

    def bfs():
-        while queue:
-            u = queue.pop(0)
+        while not queue.empty():
+            u = queue.get()
            visited[u] = True

            for neighbour in graph[u]:
@@ -23,7 +26,7 @@ def checkBipartite(graph):

                if color[neighbour] == -1:
                    color[neighbour] = 1 - color[u]
-                    queue.append(neighbour)
+                    queue.put(neighbour)

                elif color[neighbour] == color[u]:
                    return False
@@ -32,7 +35,7 @@ def checkBipartite(graph):

    for i in range(len(graph)):
        if not visited[i]:
-            queue.append(i)
+            queue.put(i)
            color[i] = 0
            if bfs() is False:
                return False