rust实现消息队列(堆-通过泛型和闭包实现)
基本操作
pub struct Heap<T>
where
T: Default,
{
count: usize,
items: Vec<T>,
comparator: fn(&T, &T) -> bool,
}
impl<T> Heap<T>
where
T: Default,
{
pub fn new(comparator: fn(&T, &T) -> bool) -> Self {
Self {
count: 0,
items: vec![T::default()],
comparator,
}
}
pub fn len(&self) -> usize {
self.count
}
pub fn is_empty(&self) -> bool {
self.len() == 0
}
pub fn add(&mut self, value: T) {
self.count = 1;
self.items.push(value);
// Heapify up
let mut idx = self.count;
while self.parent_idx(idx) > 0 {
let pdx = self.parent_idx(idx);
if (self.comparator)(&self.items[idx], &self.items[pdx]) {
self.items.swap(idx, pdx);
}
idx = pdx;
}
}
fn parent_idx(&self, idx: usize) -> usize {
idx / 2
}
fn children_present(&self, idx: usize) -> bool {
self.left_child_idx(idx) <= self.count
}
fn left_child_idx(&self, idx: usize) -> usize {
idx * 2
}
fn right_child_idx(&self, idx: usize) -> usize {
self.left_child_idx(idx) 1
}
fn smallest_child_idx(&self, idx: usize) -> usize {
if self.right_child_idx(idx) > self.count {
self.left_child_idx(idx)
} else {
let ldx = self.left_child_idx(idx);
let rdx = self.right_child_idx(idx);
if (self.comparator)(&self.items[ldx], &self.items[rdx]) {
ldx
} else {
rdx
}
}
}
}
impl<T> Heap<T>
where
T: Default Ord,
{
/// Create a new MinHeap
pub fn new_min() -> Heap<T> {
Self::new(|a, b| a < b)
}
/// Create a new MaxHeap
pub fn new_max() -> Heap<T> {
Self::new(|a, b| a > b)
}
}
impl<T> Iterator for Heap<T>
where
T: Default,
{
type Item = T;
fn next(&mut self) -> Option<T> {
if self.count == 0 {
return None;
}
// Removes an item at an index and fills in with the last item of the Vec.
let next = Some(self.items.swap_remove(1));
self.count -= 1;
if self.count > 0 {
// Heapify Down
let mut idx = 1;
while self.children_present(idx) {
let cdx = self.smallest_child_idx(idx);
if !(self.comparator)(&self.items[idx], &self.items[cdx]) {
self.items.swap(idx, cdx);
}
idx = cdx;
}
}
next
}
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_empty_heap() {
let mut heap: Heap<i32> = Heap::new_max();
assert_eq!(heap.next(), None,)
}
#[test]
fn test_min_heap() {
let mut heap: Heap<i32> = Heap::new_min();
heap.add(4);
heap.add(2);
heap.add(9);
heap.add(11);
assert_eq!(heap.len(), 4);
assert_eq!(heap.next(), Some(2));
assert_eq!(heap.next(), Some(4));
assert_eq!(heap.next(), Some(9));
heap.add(1);
assert_eq!(heap.next(), Some(1));
}
#[test]
fn test_max_heap() {
let mut heap = Heap::new_max();
heap.add(4);
heap.add(2);
heap.add(9);
heap.add(11);
assert_eq!(heap.len(), 4);
assert_eq!(heap.next(), Some(11));
assert_eq!(heap.next(), Some(9));
assert_eq!(heap.next(), Some(4));
heap.add(1);
assert_eq!(heap.next(), Some(2));
}
struct Point(i32, i32);
impl Default for Point {
fn default() -> Point {
Self(0, 0)
}
}
#[test]
fn test_key_heap() {
let mut heap: Heap<Point> = Heap::new(|a, b| a.0 < b.0);
heap.add(Point(1, 5));
heap.add(Point(3, 10));
heap.add(Point(-2, 4));
assert_eq!(heap.len(), 3);
assert_eq!(heap.next().unwrap().0, -2);
assert_eq!(heap.next().unwrap().0, 1);
heap.add(Point(50, 34));
assert_eq!(heap.next().unwrap().0, 3);
}
}
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