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I am trying to construct Kruskal's algorithm in C++ and have written part of it, here is the code:

#include <iostream>
#include <fstream>
#include <cstdio>
#include <cstdlib>
using namespace std;

class Edge {
    public:
        int to;
        int from;
        int weight;
        Edge();
        void print_edge();
};

Edge::Edge(void) {
}

void Edge::print_edge() {
    cout << "Edge to " << to << " from " << from << " of weight " << weight << endl;
}

int main() {
    int *vertex_sets;
    int vertex_size;
    int edge_size = 0;

    Edge* edges = new Edge[vertex_size * (vertex_size - 1) / 2];
    Edge* mst_edges = new Edge[vertex_size];

    cin >> vertex_size;
    vertex_sets = new int[vertex_size];

    for (int i = 0; i < vertex_size; i++) {
        int vertex_num;
        cin >> vertex_num;
        cout << "Assigning vertex set " << i << endl;
        vertex_sets[i] = i;
        int num_adjacent;
        cin >> num_adjacent;

        for (int j = 0; j < num_adjacent; j++) {
            edges[edge_size] = Edge();
            edges[edge_size].from = i;

            cin >> edges[edge_size].to >> edges[edge_size].weight;
            edge_size++;
        }
        cout << "Vertex " << i << " is in set " << vertex_sets[i] << endl;
        cout << "Vertex " << 0 << " is in set " << vertex_sets[0] << endl;
    }

    cout << endl;

    for (int i = 0; i < vertex_size; i++) {
        cout << "Vertex " << i << " is in set " << vertex_sets[i] << endl;
    }
}

But for some reason, the vertex_sets array changes during the (int j = 0... loop, and I am not sure why this happens, hence the print statements. With the input

8
0
2
4 2
5 6
1
1
6 1
2
2
3 2
4 2
3
4
2 2
4 3
6 5
7 4
4
3
0 2
2 2
3 3
5
2
0 6
6 2
6
3
1 1
3 5
5 2
7
1
3 4

I get an output of

Assigning vertex set 0
Vertex 0 is in set 0
Vertex 0 is in set 0
Assigning vertex set 1
Vertex 1 is in set 1
Vertex 0 is in set 0
Assigning vertex set 2
Vertex 2 is in set 2
Vertex 0 is in set 0
Assigning vertex set 3
Vertex 3 is in set 3
Vertex 0 is in set 3
Assigning vertex set 4
Vertex 4 is in set 4
Vertex 0 is in set 3
Assigning vertex set 5
Vertex 5 is in set 5
Vertex 0 is in set 3
Assigning vertex set 6
Vertex 6 is in set 6
Vertex 0 is in set 3
Assigning vertex set 7
Vertex 7 is in set 7
Vertex 0 is in set 3

Vertex 0 is in set 3
Vertex 1 is in set 2
Vertex 2 is in set 4
Vertex 3 is in set 3
Vertex 4 is in set 4
Vertex 5 is in set 5
Vertex 6 is in set 6
Vertex 7 is in set 7

This means that for some reason during the fourth iteration of the loop, the value of the vertex_sets at index 0 is changing from 0 to 3 and I have no idea why. Can anybody see why this is happening?

6
  • 2
    Using vertex_size as an allocation size 3 lines before you initialize it is probably not a good idea.
    – Aesthete
    Nov 18, 2014 at 23:02
  • Good catch. That could be part of the problem.
    – aftrumpet
    Nov 18, 2014 at 23:04
  • This code doesn't run under g++ as is. I'm getting terminate called after throwing an instance of 'std::bad_alloc' what(): std::bad_alloc Aborted
    – Gillespie
    Nov 18, 2014 at 23:04
  • Hmm, for some reason it let me compile it. Ah well, that was the reason. Can't believe I spent so long on that, was focusing on the latter part...
    – aftrumpet
    Nov 18, 2014 at 23:05
  • It compiled under g++, it just didn't run.
    – Gillespie
    Nov 18, 2014 at 23:05

1 Answer 1

1

If you allocate a new array with a variable that isn't initialized you're gonna have a bad time.

Edge* edges = new Edge[vertex_size * (vertex_size - 1) / 2];
Edge* mst_edges = new Edge[vertex_size];

cin >> vertex_size;

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