import heapq

def prim(graph):
    min_span_tree = []
    visited = set()
    start_node = list(graph.keys())[0]  # 選擇任意一個節點作為起始節點
    visited.add(start_node)
    candidate_edges = [(cost, start_node, to) for to, cost in graph[start_node]]
    heapq.heapify(candidate_edges)

    while candidate_edges:
        cost, frm, to = heapq.heappop(candidate_edges)
        if to not in visited:
            visited.add(to)
            min_span_tree.append((frm, to, cost))
            for next_to, c in graph[to]:
                if next_to not in visited:
                    heapq.heappush(candidate_edges, (c, to, next_to))

    return min_span_tree

# 示例圖的鄰接表表示
graph = {
    'A': [('B', 3), ('C', 1)],
    'B': [('A', 3), ('C', 3), ('D', 6)],
    'C': [('A', 1), ('B', 3), ('D', 4)],
    'D': [('B', 6), ('C', 4)]
}

result_prim = prim(graph)
print("Prim算法得到的最小生成樹邊集合：", result_prim)

class DisjointSet:
    def __init__(self, vertices):
        self.parent = {v: v for v in vertices}

    def find(self, vertex):
        if self.parent[vertex] != vertex:
            self.parent[vertex] = self.find(self.parent[vertex])
        return self.parent[vertex]

    def union(self, u, v):
        self.parent[self.find(u)] = self.find(v)

def kruskal(graph):
    edges = []
    for frm in graph:
        for to, cost in graph[frm]:
            edges.append((cost, frm, to))
    edges.sort()

    vertices = set()
    for frm, to, _ in edges:
        vertices.add(frm)
        vertices.add(to)

    min_span_tree = []
    disjoint_set = DisjointSet(vertices)

    for cost, frm, to in edges:
        if disjoint_set.find(frm) != disjoint_set.find(to):
            min_span_tree.append((frm, to, cost))
            disjoint_set.union(frm, to)

    return min_span_tree

# 使用與Prim算法相同的示例圖的鄰接表表示
graph = {
    'A': [('B', 3), ('C', 1)],
    'B': [('A', 3), ('C', 3), ('D', 6)],
    'C': [('A', 1), ('B', 3), ('D', 4)],
    'D': [('B', 6), ('C', 4)]
}

result_kruskal = kruskal(graph)
print("Kruskal算法得到的最小生成樹邊集合：", result_kruskal)