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deque.rs
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deque.rs
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use std::{any::type_name, convert::TryInto, marker::PhantomData};
use cosmwasm_std::{
from_json, storage_keys::namespace_with_key, to_json_vec, StdError, StdResult, Storage,
};
use serde::{de::DeserializeOwned, Serialize};
use crate::namespace::Namespace;
// metadata keys need to have different length than the position type (4 bytes) to prevent collisions
const TAIL_KEY: &[u8] = b"t";
const HEAD_KEY: &[u8] = b"h";
/// A deque stores multiple items at the given key. It provides efficient FIFO and LIFO access,
/// as well as direct index access.
///
/// It has a maximum capacity of `u32::MAX - 1`. Make sure to never exceed that number when using this type.
/// If you do, the methods won't work as intended anymore.
pub struct Deque<T> {
// prefix of the deque items
namespace: Namespace,
// see https://doc.rust-lang.org/std/marker/struct.PhantomData.html#unused-type-parameters for why this is needed
item_type: PhantomData<T>,
}
impl<T> Deque<T> {
/// Creates a new [`Deque`] with the given storage key. This is a constant function only suitable
/// when you have a prefix in the form of a static string slice.
pub const fn new(prefix: &'static str) -> Self {
Self {
namespace: Namespace::from_static_str(prefix),
item_type: PhantomData,
}
}
/// Creates a new [`Deque`] with the given storage key. Use this if you might need to handle
/// a dynamic string. Otherwise, you should probably prefer [`Deque::new`].
pub fn new_dyn(prefix: impl Into<Namespace>) -> Self {
Self {
namespace: prefix.into(),
item_type: PhantomData,
}
}
}
impl<T: Serialize + DeserializeOwned> Deque<T> {
/// Adds the given value to the end of the deque
pub fn push_back(&self, storage: &mut dyn Storage, value: &T) -> StdResult<()> {
// save value
let pos = self.tail(storage)?;
self.set_unchecked(storage, pos, value)?;
// update tail
self.set_tail(storage, pos.wrapping_add(1));
Ok(())
}
/// Adds the given value to the front of the deque
pub fn push_front(&self, storage: &mut dyn Storage, value: &T) -> StdResult<()> {
// need to subtract first, because head potentially points to existing element
let pos = self.head(storage)?.wrapping_sub(1);
self.set_unchecked(storage, pos, value)?;
// update head
self.set_head(storage, pos);
Ok(())
}
/// Removes the last element of the deque and returns it
pub fn pop_back(&self, storage: &mut dyn Storage) -> StdResult<Option<T>> {
// get position
let pos = self.tail(storage)?.wrapping_sub(1);
let value = self.get_unchecked(storage, pos)?;
if value.is_some() {
self.remove_unchecked(storage, pos);
// only update tail if a value was popped
self.set_tail(storage, pos);
}
Ok(value)
}
/// Removes the first element of the deque and returns it
pub fn pop_front(&self, storage: &mut dyn Storage) -> StdResult<Option<T>> {
// get position
let pos = self.head(storage)?;
let value = self.get_unchecked(storage, pos)?;
if value.is_some() {
self.remove_unchecked(storage, pos);
// only update head if a value was popped
self.set_head(storage, pos.wrapping_add(1));
}
Ok(value)
}
/// Returns the first element of the deque without removing it
pub fn front(&self, storage: &dyn Storage) -> StdResult<Option<T>> {
let pos = self.head(storage)?;
self.get_unchecked(storage, pos)
}
/// Returns the last element of the deque without removing it
pub fn back(&self, storage: &dyn Storage) -> StdResult<Option<T>> {
let pos = self.tail(storage)?.wrapping_sub(1);
self.get_unchecked(storage, pos)
}
/// Gets the length of the deque.
#[allow(clippy::len_without_is_empty)]
pub fn len(&self, storage: &dyn Storage) -> StdResult<u32> {
Ok(calc_len(self.head(storage)?, self.tail(storage)?))
}
/// Returns `true` if the deque contains no elements.
pub fn is_empty(&self, storage: &dyn Storage) -> StdResult<bool> {
Ok(self.len(storage)? == 0)
}
/// Gets the head position from storage.
///
/// Unless the deque is empty, this points to the first element.
#[inline]
fn head(&self, storage: &dyn Storage) -> StdResult<u32> {
self.read_meta_key(storage, HEAD_KEY)
}
/// Gets the tail position from storage.
///
/// This points to the first empty position after the last element.
#[inline]
fn tail(&self, storage: &dyn Storage) -> StdResult<u32> {
self.read_meta_key(storage, TAIL_KEY)
}
#[inline]
fn set_head(&self, storage: &mut dyn Storage, value: u32) {
self.set_meta_key(storage, HEAD_KEY, value);
}
#[inline]
fn set_tail(&self, storage: &mut dyn Storage, value: u32) {
self.set_meta_key(storage, TAIL_KEY, value);
}
/// Helper method for `tail` and `head` methods to handle reading the value from storage
fn read_meta_key(&self, storage: &dyn Storage, key: &[u8]) -> StdResult<u32> {
let full_key = namespace_with_key(&[self.namespace.as_slice()], key);
storage
.get(&full_key)
.map(|vec| {
Ok(u32::from_be_bytes(
vec.as_slice()
.try_into()
.map_err(|e| StdError::parse_err("u32", e))?,
))
})
.unwrap_or(Ok(0))
}
/// Helper method for `set_tail` and `set_head` methods to write to storage
#[inline]
fn set_meta_key(&self, storage: &mut dyn Storage, key: &[u8], value: u32) {
let full_key = namespace_with_key(&[self.namespace.as_slice()], key);
storage.set(&full_key, &value.to_be_bytes());
}
/// Returns the value at the given position in the queue or `None` if the index is out of bounds
pub fn get(&self, storage: &dyn Storage, pos: u32) -> StdResult<Option<T>> {
let head = self.head(storage)?;
let tail = self.tail(storage)?;
if pos >= calc_len(head, tail) {
// out of bounds
return Ok(None);
}
let pos = head.wrapping_add(pos);
self.get_unchecked(storage, pos)
.and_then(|v| v.ok_or_else(|| StdError::not_found(format!("deque position {}", pos))))
.map(Some)
}
/// Sets the value at the given position in the queue. Returns [`StdError::NotFound`] if index is out of bounds
pub fn set(&self, storage: &mut dyn Storage, pos: u32, value: &T) -> StdResult<()> {
let head = self.head(storage)?;
let tail = self.tail(storage)?;
if pos >= calc_len(head, tail) {
// out of bounds
return Err(StdError::not_found(format!("deque position {}", pos)));
}
self.set_unchecked(storage, pos, value)
}
/// Tries to get the value at the given position
/// Used internally
fn get_unchecked(&self, storage: &dyn Storage, pos: u32) -> StdResult<Option<T>> {
let prefixed_key = namespace_with_key(&[self.namespace.as_slice()], &pos.to_be_bytes());
let value = storage.get(&prefixed_key);
value.map(|v| from_json(v)).transpose()
}
/// Removes the value at the given position
/// Used internally
fn remove_unchecked(&self, storage: &mut dyn Storage, pos: u32) {
let prefixed_key = namespace_with_key(&[self.namespace.as_slice()], &pos.to_be_bytes());
storage.remove(&prefixed_key);
}
/// Tries to set the value at the given position
/// Used internally when pushing
fn set_unchecked(&self, storage: &mut dyn Storage, pos: u32, value: &T) -> StdResult<()> {
let prefixed_key = namespace_with_key(&[self.namespace.as_slice()], &pos.to_be_bytes());
storage.set(&prefixed_key, &to_json_vec(value)?);
Ok(())
}
}
// used internally to avoid additional storage loads
#[inline]
fn calc_len(head: u32, tail: u32) -> u32 {
tail.wrapping_sub(head)
}
impl<T: Serialize + DeserializeOwned> Deque<T> {
pub fn iter<'a>(&'a self, storage: &'a dyn Storage) -> StdResult<DequeIter<'a, T>> {
Ok(DequeIter {
deque: self,
storage,
start: self.head(storage)?,
end: self.tail(storage)?,
})
}
}
pub struct DequeIter<'a, T>
where
T: Serialize + DeserializeOwned,
{
deque: &'a Deque<T>,
storage: &'a dyn Storage,
start: u32,
end: u32,
}
impl<'a, T> Iterator for DequeIter<'a, T>
where
T: Serialize + DeserializeOwned,
{
type Item = StdResult<T>;
fn next(&mut self) -> Option<Self::Item> {
if self.start == self.end {
return None;
}
let item = self
.deque
.get_unchecked(self.storage, self.start)
.and_then(|item| item.ok_or_else(|| StdError::not_found(type_name::<T>())));
self.start = self.start.wrapping_add(1);
Some(item)
}
fn size_hint(&self) -> (usize, Option<usize>) {
let len = calc_len(self.start, self.end) as usize;
(len, Some(len))
}
// The default implementation calls `next` repeatedly, which is very costly in our case.
// It is used when skipping over items, so this allows cheap skipping.
//
// Once `advance_by` is stabilized, we can implement that instead (`nth` calls it internally).
fn nth(&mut self, n: usize) -> Option<Self::Item> {
// make sure that we don't skip past the end
if calc_len(self.start, self.end) < n as u32 {
// mark as empty
self.start = self.end;
} else {
self.start = self.start.wrapping_add(n as u32);
}
self.next()
}
}
impl<'a, T> DoubleEndedIterator for DequeIter<'a, T>
where
T: Serialize + DeserializeOwned,
{
fn next_back(&mut self) -> Option<Self::Item> {
if self.start == self.end {
return None;
}
let item = self
.deque
.get_unchecked(self.storage, self.end.wrapping_sub(1)) // end points to position after last element
.and_then(|item| item.ok_or_else(|| StdError::not_found(type_name::<T>())));
self.end = self.end.wrapping_sub(1);
Some(item)
}
// see [`DequeIter::nth`]
fn nth_back(&mut self, n: usize) -> Option<Self::Item> {
// make sure that we don't skip past the start
if calc_len(self.start, self.end) < n as u32 {
// mark as empty
self.end = self.start;
} else {
self.end = self.end.wrapping_sub(n as u32);
}
self.next_back()
}
}
#[cfg(test)]
mod tests {
use crate::deque::Deque;
use cosmwasm_std::testing::MockStorage;
use cosmwasm_std::{StdError, StdResult};
use serde::{Deserialize, Serialize};
#[test]
fn owned_key() {
let mut store = MockStorage::new();
for i in 1..4 {
let key = format!("key{}", i);
let item = Deque::new_dyn(key);
for i in 0..i {
item.push_back(&mut store, &i).unwrap();
}
}
assert_eq!(
Deque::<u32>::new("key1")
.iter(&store)
.unwrap()
.collect::<Result<Vec<_>, _>>()
.unwrap(),
vec![0]
);
assert_eq!(
Deque::<u32>::new("key2")
.iter(&store)
.unwrap()
.collect::<Result<Vec<_>, _>>()
.unwrap(),
vec![0, 1]
);
assert_eq!(
Deque::<u32>::new("key3")
.iter(&store)
.unwrap()
.collect::<Result<Vec<_>, _>>()
.unwrap(),
vec![0, 1, 2]
);
}
#[test]
fn push_and_pop() {
const PEOPLE: Deque<String> = Deque::new("people");
let mut store = MockStorage::new();
// push some entries
PEOPLE.push_back(&mut store, &"jack".to_owned()).unwrap();
PEOPLE.push_back(&mut store, &"john".to_owned()).unwrap();
PEOPLE.push_back(&mut store, &"joanne".to_owned()).unwrap();
// pop them, should be in correct order
assert_eq!("jack", PEOPLE.pop_front(&mut store).unwrap().unwrap());
assert_eq!("john", PEOPLE.pop_front(&mut store).unwrap().unwrap());
// push again in-between
PEOPLE.push_back(&mut store, &"jason".to_owned()).unwrap();
// pop last person from first batch
assert_eq!("joanne", PEOPLE.pop_front(&mut store).unwrap().unwrap());
// pop the entry pushed in-between
assert_eq!("jason", PEOPLE.pop_front(&mut store).unwrap().unwrap());
// nothing after that
assert_eq!(None, PEOPLE.pop_front(&mut store).unwrap());
// now push to the front
PEOPLE.push_front(&mut store, &"pascal".to_owned()).unwrap();
PEOPLE.push_front(&mut store, &"peter".to_owned()).unwrap();
PEOPLE.push_front(&mut store, &"paul".to_owned()).unwrap();
assert_eq!("pascal", PEOPLE.pop_back(&mut store).unwrap().unwrap());
assert_eq!("paul", PEOPLE.pop_front(&mut store).unwrap().unwrap());
assert_eq!("peter", PEOPLE.pop_back(&mut store).unwrap().unwrap());
}
#[test]
fn length() {
let deque: Deque<u32> = Deque::new("test");
let mut store = MockStorage::new();
assert_eq!(deque.len(&store).unwrap(), 0);
assert!(deque.is_empty(&store).unwrap());
// push some entries
deque.push_front(&mut store, &1234).unwrap();
deque.push_back(&mut store, &2345).unwrap();
deque.push_front(&mut store, &3456).unwrap();
deque.push_back(&mut store, &4567).unwrap();
assert_eq!(deque.len(&store).unwrap(), 4);
assert!(!deque.is_empty(&store).unwrap());
// pop some
deque.pop_front(&mut store).unwrap();
deque.pop_back(&mut store).unwrap();
deque.pop_front(&mut store).unwrap();
assert_eq!(deque.len(&store).unwrap(), 1);
assert!(!deque.is_empty(&store).unwrap());
// pop the last one
deque.pop_front(&mut store).unwrap();
assert_eq!(deque.len(&store).unwrap(), 0);
assert!(deque.is_empty(&store).unwrap());
// should stay 0 after that
assert_eq!(deque.pop_back(&mut store).unwrap(), None);
assert_eq!(
deque.len(&store).unwrap(),
0,
"popping from empty deque should keep length 0"
);
assert!(deque.is_empty(&store).unwrap());
}
#[test]
fn iterator() {
let deque: Deque<u32> = Deque::new("test");
let mut store = MockStorage::new();
// push some items
deque.push_back(&mut store, &1).unwrap();
deque.push_back(&mut store, &2).unwrap();
deque.push_back(&mut store, &3).unwrap();
deque.push_back(&mut store, &4).unwrap();
let items: StdResult<Vec<_>> = deque.iter(&store).unwrap().collect();
assert_eq!(items.unwrap(), [1, 2, 3, 4]);
// nth should work correctly
let mut iter = deque.iter(&store).unwrap();
assert_eq!(iter.nth(6), None);
assert_eq!(iter.start, iter.end, "iter should detect skipping too far");
assert_eq!(iter.next(), None);
let mut iter = deque.iter(&store).unwrap();
assert_eq!(iter.nth(1).unwrap().unwrap(), 2);
assert_eq!(iter.next().unwrap().unwrap(), 3);
}
#[test]
fn reverse_iterator() {
let deque: Deque<u32> = Deque::new("test");
let mut store = MockStorage::new();
// push some items
deque.push_back(&mut store, &1).unwrap();
deque.push_back(&mut store, &2).unwrap();
deque.push_back(&mut store, &3).unwrap();
deque.push_back(&mut store, &4).unwrap();
let items: StdResult<Vec<_>> = deque.iter(&store).unwrap().rev().collect();
assert_eq!(items.unwrap(), [4, 3, 2, 1]);
// nth should work correctly
let mut iter = deque.iter(&store).unwrap();
assert_eq!(iter.nth_back(6), None);
assert_eq!(iter.start, iter.end, "iter should detect skipping too far");
assert_eq!(iter.next_back(), None);
let mut iter = deque.iter(&store).unwrap().rev();
assert_eq!(iter.nth(1).unwrap().unwrap(), 3);
assert_eq!(iter.next().unwrap().unwrap(), 2);
// mixed
let mut iter = deque.iter(&store).unwrap();
assert_eq!(iter.next().unwrap().unwrap(), 1);
assert_eq!(iter.next_back().unwrap().unwrap(), 4);
assert_eq!(iter.next_back().unwrap().unwrap(), 3);
assert_eq!(iter.next().unwrap().unwrap(), 2);
assert_eq!(iter.next(), None);
assert_eq!(iter.next_back(), None);
}
#[test]
fn wrapping() {
let deque: Deque<u32> = Deque::new("test");
let mut store = MockStorage::new();
// simulate deque that was pushed and popped `u32::MAX` times
deque.set_head(&mut store, u32::MAX);
deque.set_tail(&mut store, u32::MAX);
// should be empty
assert_eq!(deque.pop_front(&mut store).unwrap(), None);
assert_eq!(deque.len(&store).unwrap(), 0);
// pushing should still work
deque.push_back(&mut store, &1).unwrap();
assert_eq!(
deque.len(&store).unwrap(),
1,
"length should calculate correctly, even when wrapping"
);
assert_eq!(
deque.pop_front(&mut store).unwrap(),
Some(1),
"popping should work, even when wrapping"
);
}
#[test]
fn wrapping_iterator() {
let deque: Deque<u32> = Deque::new("test");
let mut store = MockStorage::new();
deque.set_head(&mut store, u32::MAX);
deque.set_tail(&mut store, u32::MAX);
deque.push_back(&mut store, &1).unwrap();
deque.push_back(&mut store, &2).unwrap();
deque.push_back(&mut store, &3).unwrap();
deque.push_back(&mut store, &4).unwrap();
deque.push_back(&mut store, &5).unwrap();
let mut iter = deque.iter(&store).unwrap();
assert_eq!(iter.next().unwrap().unwrap(), 1);
assert_eq!(iter.next().unwrap().unwrap(), 2);
assert_eq!(iter.next_back().unwrap().unwrap(), 5);
assert_eq!(iter.nth(1).unwrap().unwrap(), 4);
assert_eq!(iter.nth(1), None);
assert_eq!(iter.start, iter.end);
}
#[test]
fn front_back() {
let deque: Deque<u64> = Deque::new("test");
let mut store = MockStorage::new();
assert_eq!(deque.back(&store).unwrap(), None);
deque.push_back(&mut store, &1).unwrap();
assert_eq!(deque.back(&store).unwrap(), Some(1));
assert_eq!(deque.front(&store).unwrap(), Some(1));
deque.push_back(&mut store, &2).unwrap();
assert_eq!(deque.back(&store).unwrap(), Some(2));
assert_eq!(deque.front(&store).unwrap(), Some(1));
deque.push_front(&mut store, &3).unwrap();
assert_eq!(deque.back(&store).unwrap(), Some(2));
assert_eq!(deque.front(&store).unwrap(), Some(3));
}
#[derive(Serialize, Deserialize, PartialEq, Debug, Clone)]
struct Data {
pub name: String,
pub age: i32,
}
const DATA: Deque<Data> = Deque::new("data");
#[test]
fn readme_works() -> StdResult<()> {
let mut store = MockStorage::new();
// read methods return a wrapped Option<T>, so None if the deque is empty
let empty = DATA.front(&store)?;
assert_eq!(None, empty);
// some example entries
let p1 = Data {
name: "admin".to_string(),
age: 1234,
};
let p2 = Data {
name: "user".to_string(),
age: 123,
};
// use it like a queue by pushing and popping at opposite ends
DATA.push_back(&mut store, &p1)?;
DATA.push_back(&mut store, &p2)?;
let admin = DATA.pop_front(&mut store)?;
assert_eq!(admin.as_ref(), Some(&p1));
let user = DATA.pop_front(&mut store)?;
assert_eq!(user.as_ref(), Some(&p2));
// or push and pop at the same end to use it as a stack
DATA.push_back(&mut store, &p1)?;
DATA.push_back(&mut store, &p2)?;
let user = DATA.pop_back(&mut store)?;
assert_eq!(user.as_ref(), Some(&p2));
let admin = DATA.pop_back(&mut store)?;
assert_eq!(admin.as_ref(), Some(&p1));
// you can also iterate over it
DATA.push_front(&mut store, &p1)?;
DATA.push_front(&mut store, &p2)?;
let all: StdResult<Vec<_>> = DATA.iter(&store)?.collect();
assert_eq!(all?, [p2.clone(), p1.clone()]);
// or access an index directly
assert_eq!(DATA.get(&store, 0)?, Some(p2));
assert_eq!(DATA.get(&store, 1)?, Some(p1));
assert_eq!(DATA.get(&store, 3)?, None);
Ok(())
}
#[test]
fn iterator_errors_when_item_missing() {
let mut store = MockStorage::new();
let deque = Deque::new("error_test");
deque.push_back(&mut store, &1u32).unwrap();
// manually remove it
deque.remove_unchecked(&mut store, 0);
let mut iter = deque.iter(&store).unwrap();
assert!(
matches!(iter.next(), Some(Err(StdError::NotFound { .. }))),
"iterator should error when item is missing"
);
let mut iter = deque.iter(&store).unwrap().rev();
assert!(
matches!(iter.next(), Some(Err(StdError::NotFound { .. }))),
"reverse iterator should error when item is missing"
);
}
#[test]
fn get() {
let mut store = MockStorage::new();
let deque = Deque::new("test");
deque.push_back(&mut store, &1u32).unwrap();
deque.push_back(&mut store, &2).unwrap();
assert_eq!(deque.get(&store, 0).unwrap(), Some(1));
assert_eq!(deque.get(&store, 1).unwrap(), Some(2));
assert_eq!(
deque.get(&store, 2).unwrap(),
None,
"out of bounds access should return None"
);
// manually remove storage item
deque.remove_unchecked(&mut store, 1);
assert!(
matches!(deque.get(&store, 1), Err(StdError::NotFound { .. })),
"missing deque item should error"
);
// start fresh
let deque = Deque::new("test2");
deque.push_back(&mut store, &0u32).unwrap();
deque.push_back(&mut store, &1).unwrap();
// push to front to move the head index
deque.push_front(&mut store, &u32::MAX).unwrap();
deque.push_front(&mut store, &(u32::MAX - 1)).unwrap();
assert_eq!(deque.get(&store, 0).unwrap().unwrap(), u32::MAX - 1);
assert_eq!(deque.get(&store, 1).unwrap().unwrap(), u32::MAX);
assert_eq!(deque.get(&store, 2).unwrap().unwrap(), 0);
assert_eq!(deque.get(&store, 3).unwrap().unwrap(), 1);
assert_eq!(
deque.get(&store, 5).unwrap(),
None,
"out of bounds access should return None"
);
}
#[test]
fn set() {
let mut store = MockStorage::new();
let deque = Deque::new("test");
deque.push_back(&mut store, &1u32).unwrap();
deque.push_back(&mut store, &2).unwrap();
deque.set(&mut store, 1, &3).unwrap();
assert_eq!(deque.get(&store, 1).unwrap(), Some(3));
assert_eq!(deque.back(&store).unwrap(), Some(3));
assert_eq!(
deque.get(&store, 2).unwrap(),
None,
"out of bounds access should return None"
);
assert!(
matches!(deque.set(&mut store, 2, &3), Err(StdError::NotFound { .. })),
"setting value at an out of bounds index should error"
);
assert_eq!(deque.pop_back(&mut store), Ok(Some(3)));
assert!(
matches!(deque.set(&mut store, 1, &3), Err(StdError::NotFound { .. })),
"setting value at an out of bounds index should error"
);
}
}