public void Enqueue(PriorityQueueItem <T> item) { data.Add(item); int ci = data.Count - 1; // child index; start at end while (ci > 0) { int pi = (ci - 1) / 2; // parent index if (data[ci].Priority - data[pi].Priority >= 0) { break; // child item is larger than (or equal) parent so we're done } PriorityQueueItem <T> tmp = data[ci]; data[ci] = data[pi]; data[pi] = tmp; ci = pi; } }
public PriorityQueueItem <T> Dequeue() { // assumes pq is not empty; up to calling code int li = data.Count - 1; // last index (before removal) PriorityQueueItem <T> frontItem = data[0]; // fetch the front data[0] = data[li]; data.RemoveAt(li); --li; // last index (after removal) int pi = 0; // parent index. start at front of pq while (true) { int ci = pi * 2 + 1; // left child index of parent if (ci > li) { break; // no children so done } int rc = ci + 1; // right child if (rc <= li && data[rc].Priority - data[ci].Priority < 0) { // if there is a rc (ci + 1), and it is smaller than left child, use the rc instead ci = rc; } if (data[pi].Priority - data[ci].Priority <= 0) { break; // parent is smaller than (or equal to) smallest child so done } PriorityQueueItem <T> tmp = data[pi]; // swap parent and child data[pi] = data[ci]; data[ci] = tmp; pi = ci; } return(frontItem); }
public PriorityQueueItem <T> Peek() { PriorityQueueItem <T> frontItem = data[0]; return(frontItem); }