diff --git a/src/pathfinder/npf/aystar.cpp b/src/pathfinder/npf/aystar.cpp index 1a651a7401..4b0485bc00 100644 --- a/src/pathfinder/npf/aystar.cpp +++ b/src/pathfinder/npf/aystar.cpp @@ -127,7 +127,7 @@ static int AyStarMain_CheckTile(AyStar *aystar, AyStarNode *current, OpenListNod uint i; /* Yes, check if this g value is lower.. */ if (new_g > check->g) return AYSTAR_DONE; - aystar->OpenListQueue.del(&aystar->OpenListQueue, check, 0); + aystar->OpenListQueue.Delete(check, 0); /* It is lower, so change it to this item */ check->g = new_g; check->path.parent = closedlist_parent; diff --git a/src/pathfinder/npf/queue.cpp b/src/pathfinder/npf/queue.cpp index 09885411b1..a9fdadcb66 100644 --- a/src/pathfinder/npf/queue.cpp +++ b/src/pathfinder/npf/queue.cpp @@ -129,25 +129,30 @@ bool Queue::Push(void *item, int priority) return true; } -static bool BinaryHeap_Delete(Queue *q, void *item, int priority) +/** + * Deletes the item from the queue. priority should be specified if + * known, which speeds up the deleting for some queue's. Should be -1 + * if not known. + */ +bool Queue::Delete(void *item, int priority) { uint i = 0; #ifdef QUEUE_DEBUG - printf("[BinaryHeap] Deleting an element. There are %d elements left\n", q->size); + printf("[BinaryHeap] Deleting an element. There are %d elements left\n", this->size); #endif /* First, we try to find the item.. */ do { - if (BIN_HEAP_ARR(i + 1).item == item) break; + if (THISBIN_HEAP_ARR(i + 1).item == item) break; i++; - } while (i < q->size); + } while (i < this->size); /* We did not find the item, so we return false */ - if (i == q->size) return false; + if (i == this->size) return false; /* Now we put the last item over the current item while decreasing the size of the elements */ - q->size--; - BIN_HEAP_ARR(i + 1) = BIN_HEAP_ARR(q->size + 1); + this->size--; + THISBIN_HEAP_ARR(i + 1) = THISBIN_HEAP_ARR(this->size + 1); /* Now the only thing we have to do, is resort it.. * On place i there is the item to be sorted.. let's start there */ @@ -162,22 +167,22 @@ static bool BinaryHeap_Delete(Queue *q, void *item, int priority) for (;;) { j = i; /* Check if we have 2 childs */ - if (2 * j + 1 <= q->size) { + if (2 * j + 1 <= this->size) { /* Is this child smaller than the parent? */ - if (BIN_HEAP_ARR(j).priority >= BIN_HEAP_ARR(2 * j).priority) i = 2 * j; + if (THISBIN_HEAP_ARR(j).priority >= THISBIN_HEAP_ARR(2 * j).priority) i = 2 * j; /* Yes, we _need_ to use i here, not j, because we want to have the smallest child * This way we get that straight away! */ - if (BIN_HEAP_ARR(i).priority >= BIN_HEAP_ARR(2 * j + 1).priority) i = 2 * j + 1; + if (THISBIN_HEAP_ARR(i).priority >= THISBIN_HEAP_ARR(2 * j + 1).priority) i = 2 * j + 1; /* Do we have one child? */ - } else if (2 * j <= q->size) { - if (BIN_HEAP_ARR(j).priority >= BIN_HEAP_ARR(2 * j).priority) i = 2 * j; + } else if (2 * j <= this->size) { + if (THISBIN_HEAP_ARR(j).priority >= THISBIN_HEAP_ARR(2 * j).priority) i = 2 * j; } /* One of our childs is smaller than we are, switch */ if (i != j) { - temp = BIN_HEAP_ARR(j); - BIN_HEAP_ARR(j) = BIN_HEAP_ARR(i); - BIN_HEAP_ARR(i) = temp; + temp = THISBIN_HEAP_ARR(j); + THISBIN_HEAP_ARR(j) = THISBIN_HEAP_ARR(i); + THISBIN_HEAP_ARR(i) = temp; } else { /* None of our childs is smaller, so we stay here.. stop :) */ break; @@ -205,7 +210,7 @@ void *Queue::Pop() /* The best item is always on top, so give that as result */ result = THISBIN_HEAP_ARR(1).item; /* And now we should get rid of this item... */ - BinaryHeap_Delete(this, THISBIN_HEAP_ARR(1).item, THISBIN_HEAP_ARR(1).priority); + this->Delete(THISBIN_HEAP_ARR(1).item, THISBIN_HEAP_ARR(1).priority); return result; } @@ -213,7 +218,6 @@ void *Queue::Pop() void init_BinaryHeap(Queue *q, uint max_size) { assert(q != NULL); - q->del = BinaryHeap_Delete; q->clear = BinaryHeap_Clear; q->free = BinaryHeap_Free; q->max_size = max_size; diff --git a/src/pathfinder/npf/queue.h b/src/pathfinder/npf/queue.h index c65897dcfe..766ecbf38e 100644 --- a/src/pathfinder/npf/queue.h +++ b/src/pathfinder/npf/queue.h @@ -19,7 +19,6 @@ struct Queue; -typedef bool Queue_DeleteProc(Queue *q, void *item, int priority); typedef void Queue_ClearProc(Queue *q, bool free_values); typedef void Queue_FreeProc(Queue *q, bool free_values); @@ -32,12 +31,7 @@ struct BinaryHeapNode { struct Queue { bool Push(void *item, int priority); void *Pop(); - /* - * Deletes the item from the queue. priority should be specified if - * known, which speeds up the deleting for some queue's. Should be -1 - * if not known. - */ - Queue_DeleteProc *del; + bool Delete(void *item, int priority); /* Clears the queue, by removing all values from it. Its state is * effectively reset. If free_items is true, each of the items cleared