# Prim's Algorithm with Priority Queues implementation

``````void PrimMST(float A[GsizeSqr][GsizeSqr])
{
int i, j, pCount, gs, row, ind, findN;
gs = sqrt(GsizeSqr);
pCount = 0;

D_array MST; //MST contains the nodes of the MST and is initialized with the starting node
initArr(&MST, 1);
int p[GsizeSqr];
float priority[GsizeSqr]; //priority contains weight(u, p[u])

//Initialize p and priority with infinity and NULL values (note: -1 means null and 1000000 means inf)
for(i=0; i < GsizeSqr; i++){
p[i] = -1;
priority[i] = 1000000;
}

PriorityQueue Q; //Initialize priority queue that stores (priority, key) values
Q = init_heap(GsizeSqr);
for(i=0; i < gs; i++){ //Insert input adjacency matrix into priority queue
for(j=0; j < gs; j++){
node n;
n = create_node(A[i][j], pCount++);
enqueue(Q, n);
}
}

node start; //Select starting node and insert to MST
start = create_node(0, 0);
insArr(&MST, start);

priority[0] = 0;

while(Q->heap_size != 1){ //while Q not empty
node u;
u = dequeue(Q);
if(p[u.key] != -1)
insArr(&MST, u);

row = ceil(u.key/gs);
for(i=0; i < gs; i++){
if(A[row][i] != 0.0){
ind = i*gs + row; //Calculate index of adjacent node
findN = find_node(Q, ind); //find and return index of adjacent node in queue

if(findN != 0 && u.priority < Q->elements[findN].priority){
set_priority(Q, findN, u.priority);
p[findN] = u.key;
}
}
}
}
}
``````

I am trying to create a C implementation of Prim's Algorithm using priority queues using the pseudocode which is similar to many sources online. The end goal is (hopefully) some nifty maze generation. I'm just having confusion with the details of the implementation.

input: An adjacency matrix with random weights

desired output: The adjacency matrix for a minimal spanning tree

*EDIT: Added my (not working) attempt. I'm still getting an incorrect tree, I'm not sure where I'm going wrong. I think I would benefit from another set of eyes over this code.

-
Slightly offtopic: if you just want a nifty maze, why not try the classical DFS generator? It's dead simple, pretty efficient, and produces a completely random maze, which tends to be hard to solve. –  Vilx- Jul 18 '12 at 8:03
I'll definitely look into other methods of maze generation if I ever figure this out, but at this point with this problem - its personal. –  spacker_lechuck Jul 18 '12 at 8:26
OK, good luck! :) –  Vilx- Jul 18 '12 at 9:44
second one: nope, the node is pop after `u := EXTRACT-MIN(Q);`,