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ad-hoc-iter
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Avril 4 years ago
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.gitignore vendored
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/target
Cargo.lock
*~

9
Cargo.toml
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[package]
name = "ad-hoc-iter"
version = "0.1.0"
authors = ["Avril <flanchan@cumallover.me>"]
edition = "2018"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies]

147
src/either.rs
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//! Iterator types that can be 0, 1, or more.
//!
//! This exists to prevent needless heap allocations.
#![allow(dead_code)]
/// An iterator that can yield `0,1,2+` items
#[derive(Debug, Clone)]
pub enum MaybeMany<T,U>
{
None,
One(T),
Many(U),
}
impl<T,U> MaybeMany<T,U>
{
/// Try to guess the size.
///
/// * `None` => `Some(0)`
/// * `One(_)` => `Some(1)`
/// * `Many(_) => `None`
#[inline] pub const fn size_hint(&self) -> Option<usize>
{
match self {
Self::None => Some(0),
Self::One(_) => Some(1),
Self::Many(_) => None
}
}
/// Is this an empty instance
#[inline] pub const fn is_none(&self) -> bool
{
if let Self::None = self {
true
} else {
false
}
}
/// Is this a single value instance?
#[inline] pub const fn is_single(&self) -> bool
{
if let Self::One(_) = self {
true
} else {
false
}
}
/// Is this a 2+ value instance?
#[inline] pub const fn is_many(&self) -> bool
{
if let Self::Many(_) = self {
true
} else {
false
}
}
/// Map the single value with this function
#[inline] pub fn map_many<F, A>(self, fun: F) -> MaybeMany<T, A>
where F: FnOnce(U) -> A,
A: IntoIterator<Item=T>
{
match self {
Self::One(t) => MaybeMany::One(t),
Self::Many(m) => MaybeMany::Many(fun(m)),
Self::None => MaybeMany::None,
}
}
/// Map the single value with this function
#[inline] fn map_one<F>(self, fun: F) -> MaybeMany<T,U>
where F: FnOnce(T) -> T
{
match self {
Self::One(t) => MaybeMany::One(fun(t)),
Self::Many(m) => MaybeMany::Many(m),
Self::None => MaybeMany::None,
}
}
/// Map both the single and many results
fn map<Fo, Fm, A,B>(self, one: Fo, many: Fm) -> MaybeMany<A,B>
where Fo: FnOnce(T) -> A,
Fm: FnOnce(U) -> B,
B: IntoIterator<Item=A>
{
match self {
Self::One(o) => MaybeMany::One(one(o)),
Self::Many(m) => MaybeMany::Many(many(m)),
Self::None => MaybeMany::None,
}
}
/// Take the value from this instance and replace it with nothing.
#[inline] pub fn take(&mut self) -> Self
{
std::mem::replace(self, Self::None)
}
}
/// An iterator for `MaybeMany` instances.
#[non_exhaustive] #[derive(Debug, Clone)]
pub enum MaybeManyIter<T,U>
{
None,
One(std::iter::Once<T>),
Many(std::iter::Fuse<U>),
}
impl<T,U> Iterator for MaybeManyIter<T,U>
where U: Iterator<Item=T>
{
type Item = T;
fn next(&mut self) -> Option<Self::Item>
{
match self {
Self::None => None,
Self::One(one) => one.next(),
Self::Many(many) => many.next(),
}
}
fn size_hint(&self) -> (usize, Option<usize>) {
match self {
Self::None => (0, Some(0)),
Self::One(_) => (1, Some(1)),
Self::Many(many) => many.size_hint(),
}
}
}
impl<T,U: Iterator<Item=T>> std::iter::FusedIterator for MaybeManyIter<T,U>{}
impl<T,U: Iterator<Item=T>> std::iter::ExactSizeIterator for MaybeManyIter<T,U>
where U: ExactSizeIterator{}
impl<T, U: IntoIterator<Item=T>> IntoIterator for MaybeMany<T, U>
{
type Item= T;
type IntoIter = MaybeManyIter<T, <U as IntoIterator>::IntoIter>;
fn into_iter(self) -> Self::IntoIter
{
match self {
Self::None => MaybeManyIter::None,
Self::One(one) => MaybeManyIter::One(std::iter::once(one)),
Self::Many(many) => MaybeManyIter::Many(many.into_iter().fuse())
}
}
}

98
src/lib.rs
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//! Iterator types
pub mod either;
/// A bespoke iterator type with an exact size over elements.
///
/// This has an advantage over using simple inline slices (e.g `[1,2,3]`) as they currently cannot implement `IntoIterator` properly, and will always yield references.
/// This can be a hinderance when you want an ad-hoc iterator of non-`Copy` items.
/// The iterator types created from this macro consume the values.
///
/// # Example
/// ```
/// # use ad_hoc_iter::iter;
/// let sum: i32 = iter![1, 2].chain(3..=4).chain(iter![5, 6]).sum();
/// assert_eq!(sum, 21);
/// ```
#[macro_export] macro_rules! iter {
(@) => (0usize);
(@ $x:tt $($xs:tt)* ) => (1usize + $crate::iter!(@ $($xs)*));
($($value:expr),*) => {
{
use ::std::mem::MaybeUninit;
use ::std::ops::Drop;
struct Arr<T>([MaybeUninit<T>; $crate::iter!(@ $($value)*)], usize);
impl<T> Arr<T>
{
const LEN: usize = $crate::iter!(@ $($value)*);
}
impl<T> Iterator for Arr<T>
{
type Item = T;
fn next(&mut self) -> Option<Self::Item>
{
if self.1 >= self.0.len() {
None
} else {
//take one
let one = unsafe {
::std::mem::replace(&mut self.0[self.1], MaybeUninit::uninit()).assume_init()
};
self.1+=1;
Some(one)
}
}
#[inline] fn size_hint(&self) -> (usize, Option<usize>)
{
(Self::LEN, Some(Self::LEN))
}
}
impl<T> ::std::iter::FusedIterator for Arr<T>{}
impl<T> ::std::iter::ExactSizeIterator for Arr<T>{}
impl<T> Drop for Arr<T>
{
fn drop(&mut self) {
if ::std::mem::needs_drop::<T>() {
for idx in self.1..self.0.len() {
unsafe {
::std::mem::replace(&mut self.0[idx], MaybeUninit::uninit()).assume_init();
}
}
}
}
}
Arr([$(MaybeUninit::new($value)),*], 0)
}
}
}
#[cfg(test)]
mod tests
{
#[test]
fn iter_over()
{
const EXPECT: usize = 10 + 9 + 8 + 7 + 6 + 5 + 4 + 3 + 2 + 1;
let iter = iter![10,9,8,7,6,5,4,3,2,1];
assert_eq!(iter.len(), 10);
assert_eq!(iter.sum::<usize>(), EXPECT);
}
#[test]
fn non_copy()
{
macro_rules! string {
($val:literal) => (String::from($val));
}
const EXPECT: &str = "Hello world!";
let whole: String = iter![string!("Hell"), string!("o "), string!("world"), string!("!")].collect();
assert_eq!(EXPECT, &whole[..]);
}
}
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