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either.rs
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either.rs
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//! This file is a copy of the Either crate's type, with adding minicbor::Encode and
//! minicbor::Decode to the type. As we cannot do that for a foreign type and trait,
//! and this type being very simple, copying the code here is the simplest solution.
//!
//! See https://github.com/bluss/either/blob/master/src/lib.rs for the original.
//!
//! Some lines were removed where they made sense.
//!
//! # Original Documentation
//!
//! The enum [`Either`] with variants `Left` and `Right` is a general purpose
//! sum type with two cases.
use std::convert::{AsMut, AsRef};
use std::fmt;
use std::iter;
use std::ops::Deref;
use std::ops::DerefMut;
use std::error::Error;
use std::io::{self, BufRead, Read, Write};
pub use Either::{Left, Right};
/// The enum `Either` with variants `Left` and `Right` is a general purpose
/// sum type with two cases.
///
/// The `Either` type is symmetric and treats its variants the same way, without
/// preference.
/// (For representing success or error, use the regular `Result` enum instead.)
#[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash, Debug)]
pub enum Either<L, R> {
/// A value of type `L`.
Left(L),
/// A value of type `R`.
Right(R),
}
macro_rules! either {
($value:expr, $pattern:pat => $result:expr) => {
match $value {
Either::Left($pattern) => $result,
Either::Right($pattern) => $result,
}
};
}
impl<L, R> Either<L, R> {
/// Return true if the value is the `Left` variant.
///
/// ```
/// use many::types::either::*;
///
/// let values = [Left(1), Right("the right value")];
/// assert_eq!(values[0].is_left(), true);
/// assert_eq!(values[1].is_left(), false);
/// ```
pub fn is_left(&self) -> bool {
match *self {
Left(_) => true,
Right(_) => false,
}
}
/// Return true if the value is the `Right` variant.
///
/// ```
/// use many::types::either::*;
///
/// let values = [Left(1), Right("the right value")];
/// assert_eq!(values[0].is_right(), false);
/// assert_eq!(values[1].is_right(), true);
/// ```
pub fn is_right(&self) -> bool {
!self.is_left()
}
/// Convert the left side of `Either<L, R>` to an `Option<L>`.
///
/// ```
/// use many::types::either::*;
///
/// let left: Either<_, ()> = Left("some value");
/// assert_eq!(left.left(), Some("some value"));
///
/// let right: Either<(), _> = Right(321);
/// assert_eq!(right.left(), None);
/// ```
pub fn left(self) -> Option<L> {
match self {
Left(l) => Some(l),
Right(_) => None,
}
}
/// Convert the right side of `Either<L, R>` to an `Option<R>`.
///
/// ```
/// use many::types::either::*;
///
/// let left: Either<_, ()> = Left("some value");
/// assert_eq!(left.right(), None);
///
/// let right: Either<(), _> = Right(321);
/// assert_eq!(right.right(), Some(321));
/// ```
pub fn right(self) -> Option<R> {
match self {
Left(_) => None,
Right(r) => Some(r),
}
}
/// Convert `&Either<L, R>` to `Either<&L, &R>`.
///
/// ```
/// use many::types::either::*;
///
/// let left: Either<_, ()> = Left("some value");
/// assert_eq!(left.as_ref(), Left(&"some value"));
///
/// let right: Either<(), _> = Right("some value");
/// assert_eq!(right.as_ref(), Right(&"some value"));
/// ```
pub fn as_ref(&self) -> Either<&L, &R> {
match *self {
Left(ref inner) => Left(inner),
Right(ref inner) => Right(inner),
}
}
/// Convert `&mut Either<L, R>` to `Either<&mut L, &mut R>`.
///
/// ```
/// use many::types::either::*;
///
/// fn mutate_left(value: &mut Either<u32, u32>) {
/// if let Some(l) = value.as_mut().left() {
/// *l = 999;
/// }
/// }
///
/// let mut left = Left(123);
/// let mut right = Right(123);
/// mutate_left(&mut left);
/// mutate_left(&mut right);
/// assert_eq!(left, Left(999));
/// assert_eq!(right, Right(123));
/// ```
pub fn as_mut(&mut self) -> Either<&mut L, &mut R> {
match *self {
Left(ref mut inner) => Left(inner),
Right(ref mut inner) => Right(inner),
}
}
/// Convert `Either<L, R>` to `Either<R, L>`.
///
/// ```
/// use many::types::either::*;
///
/// let left: Either<_, ()> = Left(123);
/// assert_eq!(left.flip(), Right(123));
///
/// let right: Either<(), _> = Right("some value");
/// assert_eq!(right.flip(), Left("some value"));
/// ```
pub fn flip(self) -> Either<R, L> {
match self {
Left(l) => Right(l),
Right(r) => Left(r),
}
}
/// Apply the function `f` on the value in the `Left` variant if it is present rewrapping the
/// result in `Left`.
///
/// ```
/// use many::types::either::*;
///
/// let left: Either<_, u32> = Left(123);
/// assert_eq!(left.map_left(|x| x * 2), Left(246));
///
/// let right: Either<u32, _> = Right(123);
/// assert_eq!(right.map_left(|x| x * 2), Right(123));
/// ```
pub fn map_left<F, M>(self, f: F) -> Either<M, R>
where
F: FnOnce(L) -> M,
{
match self {
Left(l) => Left(f(l)),
Right(r) => Right(r),
}
}
/// Apply the function `f` on the value in the `Right` variant if it is present rewrapping the
/// result in `Right`.
///
/// ```
/// use many::types::either::*;
///
/// let left: Either<_, u32> = Left(123);
/// assert_eq!(left.map_right(|x| x * 2), Left(123));
///
/// let right: Either<u32, _> = Right(123);
/// assert_eq!(right.map_right(|x| x * 2), Right(246));
/// ```
pub fn map_right<F, S>(self, f: F) -> Either<L, S>
where
F: FnOnce(R) -> S,
{
match self {
Left(l) => Left(l),
Right(r) => Right(f(r)),
}
}
/// Apply one of two functions depending on contents, unifying their result. If the value is
/// `Left(L)` then the first function `f` is applied; if it is `Right(R)` then the second
/// function `g` is applied.
///
/// ```
/// use many::types::either::*;
///
/// fn square(n: u32) -> i32 { (n * n) as i32 }
/// fn negate(n: i32) -> i32 { -n }
///
/// let left: Either<u32, i32> = Left(4);
/// assert_eq!(left.either(square, negate), 16);
///
/// let right: Either<u32, i32> = Right(-4);
/// assert_eq!(right.either(square, negate), 4);
/// ```
pub fn either<F, G, T>(self, f: F, g: G) -> T
where
F: FnOnce(L) -> T,
G: FnOnce(R) -> T,
{
match self {
Left(l) => f(l),
Right(r) => g(r),
}
}
/// Like `either`, but provide some context to whichever of the
/// functions ends up being called.
///
/// ```
/// // In this example, the context is a mutable reference
/// use many::types::either::*;
///
/// let mut result = Vec::new();
///
/// let values = vec![Left(2), Right(2.7)];
///
/// for value in values {
/// value.either_with(&mut result,
/// |ctx, integer| ctx.push(integer),
/// |ctx, real| ctx.push(f64::round(real) as i32));
/// }
///
/// assert_eq!(result, vec![2, 3]);
/// ```
pub fn either_with<Ctx, F, G, T>(self, ctx: Ctx, f: F, g: G) -> T
where
F: FnOnce(Ctx, L) -> T,
G: FnOnce(Ctx, R) -> T,
{
match self {
Left(l) => f(ctx, l),
Right(r) => g(ctx, r),
}
}
/// Apply the function `f` on the value in the `Left` variant if it is present.
///
/// ```
/// use many::types::either::*;
///
/// let left: Either<_, u32> = Left(123);
/// assert_eq!(left.left_and_then::<_,()>(|x| Right(x * 2)), Right(246));
///
/// let right: Either<u32, _> = Right(123);
/// assert_eq!(right.left_and_then(|x| Right::<(), _>(x * 2)), Right(123));
/// ```
pub fn left_and_then<F, S>(self, f: F) -> Either<S, R>
where
F: FnOnce(L) -> Either<S, R>,
{
match self {
Left(l) => f(l),
Right(r) => Right(r),
}
}
/// Apply the function `f` on the value in the `Right` variant if it is present.
///
/// ```
/// use many::types::either::*;
///
/// let left: Either<_, u32> = Left(123);
/// assert_eq!(left.right_and_then(|x| Right(x * 2)), Left(123));
///
/// let right: Either<u32, _> = Right(123);
/// assert_eq!(right.right_and_then(|x| Right(x * 2)), Right(246));
/// ```
pub fn right_and_then<F, S>(self, f: F) -> Either<L, S>
where
F: FnOnce(R) -> Either<L, S>,
{
match self {
Left(l) => Left(l),
Right(r) => f(r),
}
}
/// Return left value or given value
///
/// Arguments passed to `left_or` are eagerly evaluated; if you are passing
/// the result of a function call, it is recommended to use [`left_or_else`],
/// which is lazily evaluated.
///
/// [`left_or_else`]: #method.left_or_else
///
/// # Examples
///
/// ```
/// # use many::types::either::*;
/// let left: Either<&str, &str> = Left("left");
/// assert_eq!(left.left_or("foo"), "left");
///
/// let right: Either<&str, &str> = Right("right");
/// assert_eq!(right.left_or("left"), "left");
/// ```
pub fn left_or(self, other: L) -> L {
match self {
Either::Left(l) => l,
Either::Right(_) => other,
}
}
/// Return left or a default
///
/// # Examples
///
/// ```
/// # use many::types::either::*;
/// let left: Either<String, u32> = Left("left".to_string());
/// assert_eq!(left.left_or_default(), "left");
///
/// let right: Either<String, u32> = Right(42);
/// assert_eq!(right.left_or_default(), String::default());
/// ```
pub fn left_or_default(self) -> L
where
L: Default,
{
match self {
Either::Left(l) => l,
Either::Right(_) => L::default(),
}
}
/// Returns left value or computes it from a closure
///
/// # Examples
///
/// ```
/// # use many::types::either::*;
/// let left: Either<String, u32> = Left("3".to_string());
/// assert_eq!(left.left_or_else(|_| unreachable!()), "3");
///
/// let right: Either<String, u32> = Right(3);
/// assert_eq!(right.left_or_else(|x| x.to_string()), "3");
/// ```
pub fn left_or_else<F>(self, f: F) -> L
where
F: FnOnce(R) -> L,
{
match self {
Either::Left(l) => l,
Either::Right(r) => f(r),
}
}
/// Return right value or given value
///
/// Arguments passed to `right_or` are eagerly evaluated; if you are passing
/// the result of a function call, it is recommended to use [`right_or_else`],
/// which is lazily evaluated.
///
/// [`right_or_else`]: #method.right_or_else
///
/// # Examples
///
/// ```
/// # use many::types::either::*;
/// let right: Either<&str, &str> = Right("right");
/// assert_eq!(right.right_or("foo"), "right");
///
/// let left: Either<&str, &str> = Left("left");
/// assert_eq!(left.right_or("right"), "right");
/// ```
pub fn right_or(self, other: R) -> R {
match self {
Either::Left(_) => other,
Either::Right(r) => r,
}
}
/// Return right or a default
///
/// # Examples
///
/// ```
/// # use many::types::either::*;
/// let left: Either<String, u32> = Left("left".to_string());
/// assert_eq!(left.right_or_default(), u32::default());
///
/// let right: Either<String, u32> = Right(42);
/// assert_eq!(right.right_or_default(), 42);
/// ```
pub fn right_or_default(self) -> R
where
R: Default,
{
match self {
Either::Left(_) => R::default(),
Either::Right(r) => r,
}
}
/// Returns right value or computes it from a closure
///
/// # Examples
///
/// ```
/// # use many::types::either::*;
/// let left: Either<String, u32> = Left("3".to_string());
/// assert_eq!(left.right_or_else(|x| x.parse().unwrap()), 3);
///
/// let right: Either<String, u32> = Right(3);
/// assert_eq!(right.right_or_else(|_| unreachable!()), 3);
/// ```
pub fn right_or_else<F>(self, f: F) -> R
where
F: FnOnce(L) -> R,
{
match self {
Either::Left(l) => f(l),
Either::Right(r) => r,
}
}
/// Returns the left value
///
/// # Examples
///
/// ```
/// # use many::types::either::*;
/// let left: Either<_, ()> = Left(3);
/// assert_eq!(left.unwrap_left(), 3);
/// ```
///
/// # Panics
///
/// When `Either` is a `Right` value
///
/// ```should_panic
/// # use many::types::either::*;
/// let right: Either<(), _> = Right(3);
/// right.unwrap_left();
/// ```
pub fn unwrap_left(self) -> L
where
R: std::fmt::Debug,
{
match self {
Either::Left(l) => l,
Either::Right(r) => {
panic!("called `Either::unwrap_left()` on a `Right` value: {:?}", r)
}
}
}
/// Returns the right value
///
/// # Examples
///
/// ```
/// # use many::types::either::*;
/// let right: Either<(), _> = Right(3);
/// assert_eq!(right.unwrap_right(), 3);
/// ```
///
/// # Panics
///
/// When `Either` is a `Left` value
///
/// ```should_panic
/// # use many::types::either::*;
/// let left: Either<_, ()> = Left(3);
/// left.unwrap_right();
/// ```
pub fn unwrap_right(self) -> R
where
L: std::fmt::Debug,
{
match self {
Either::Right(r) => r,
Either::Left(l) => panic!("called `Either::unwrap_right()` on a `Left` value: {:?}", l),
}
}
/// Returns the left value
///
/// # Examples
///
/// ```
/// # use many::types::either::*;
/// let left: Either<_, ()> = Left(3);
/// assert_eq!(left.expect_left("value was Right"), 3);
/// ```
///
/// # Panics
///
/// When `Either` is a `Right` value
///
/// ```should_panic
/// # use many::types::either::*;
/// let right: Either<(), _> = Right(3);
/// right.expect_left("value was Right");
/// ```
pub fn expect_left(self, msg: &str) -> L
where
R: std::fmt::Debug,
{
match self {
Either::Left(l) => l,
Either::Right(r) => panic!("{}: {:?}", msg, r),
}
}
/// Returns the right value
///
/// # Examples
///
/// ```
/// # use many::types::either::*;
/// let right: Either<(), _> = Right(3);
/// assert_eq!(right.expect_right("value was Left"), 3);
/// ```
///
/// # Panics
///
/// When `Either` is a `Left` value
///
/// ```should_panic
/// # use many::types::either::*;
/// let left: Either<_, ()> = Left(3);
/// left.expect_right("value was Right");
/// ```
pub fn expect_right(self, msg: &str) -> R
where
L: std::fmt::Debug,
{
match self {
Either::Right(r) => r,
Either::Left(l) => panic!("{}: {:?}", msg, l),
}
}
}
impl<T, L, R> Either<(T, L), (T, R)> {
/// Factor out a homogeneous type from an either of pairs.
///
/// Here, the homogeneous type is the first element of the pairs.
///
/// ```
/// use many::types::either::*;
/// let left: Either<_, (u32, String)> = Left((123, vec![0]));
/// assert_eq!(left.factor_first().0, 123);
///
/// let right: Either<(u32, Vec<u8>), _> = Right((123, String::new()));
/// assert_eq!(right.factor_first().0, 123);
/// ```
pub fn factor_first(self) -> (T, Either<L, R>) {
match self {
Left((t, l)) => (t, Left(l)),
Right((t, r)) => (t, Right(r)),
}
}
}
impl<T, L, R> Either<(L, T), (R, T)> {
/// Factor out a homogeneous type from an either of pairs.
///
/// Here, the homogeneous type is the second element of the pairs.
///
/// ```
/// use many::types::either::*;
/// let left: Either<_, (String, u32)> = Left((vec![0], 123));
/// assert_eq!(left.factor_second().1, 123);
///
/// let right: Either<(Vec<u8>, u32), _> = Right((String::new(), 123));
/// assert_eq!(right.factor_second().1, 123);
/// ```
pub fn factor_second(self) -> (Either<L, R>, T) {
match self {
Left((l, t)) => (Left(l), t),
Right((r, t)) => (Right(r), t),
}
}
}
impl<T> Either<T, T> {
/// Extract the value of an either over two equivalent types.
///
/// ```
/// use many::types::either::*;
///
/// let left: Either<_, u32> = Left(123);
/// assert_eq!(left.into_inner(), 123);
///
/// let right: Either<u32, _> = Right(123);
/// assert_eq!(right.into_inner(), 123);
/// ```
pub fn into_inner(self) -> T {
either!(self, inner => inner)
}
/// Map `f` over the contained value and return the result in the
/// corresponding variant.
///
/// ```
/// use many::types::either::*;
///
/// let value: Either<_, i32> = Right(42);
///
/// let other = value.map(|x| x * 2);
/// assert_eq!(other, Right(84));
/// ```
pub fn map<F, M>(self, f: F) -> Either<M, M>
where
F: FnOnce(T) -> M,
{
match self {
Left(l) => Left(f(l)),
Right(r) => Right(f(r)),
}
}
}
/// Convert from `Result` to `Either` with `Ok => Right` and `Err => Left`.
impl<L, R> From<Result<R, L>> for Either<L, R> {
fn from(r: Result<R, L>) -> Self {
match r {
Err(e) => Left(e),
Ok(o) => Right(o),
}
}
}
/// Convert from `Either` to `Result` with `Right => Ok` and `Left => Err`.
impl<L, R> From<Either<L, R>> for Result<R, L> {
fn from(s: Either<L, R>) -> Self {
match s {
Left(l) => Err(l),
Right(r) => Ok(r),
}
}
}
impl<L, R, A> Extend<A> for Either<L, R>
where
L: Extend<A>,
R: Extend<A>,
{
fn extend<T>(&mut self, iter: T)
where
T: IntoIterator<Item = A>,
{
either!(*self, ref mut inner => inner.extend(iter))
}
}
/// `Either<L, R>` is an iterator if both `L` and `R` are iterators.
impl<L, R> Iterator for Either<L, R>
where
L: Iterator,
R: Iterator<Item = L::Item>,
{
type Item = L::Item;
fn next(&mut self) -> Option<Self::Item> {
either!(*self, ref mut inner => inner.next())
}
fn size_hint(&self) -> (usize, Option<usize>) {
either!(*self, ref inner => inner.size_hint())
}
fn fold<Acc, G>(self, init: Acc, f: G) -> Acc
where
G: FnMut(Acc, Self::Item) -> Acc,
{
either!(self, inner => inner.fold(init, f))
}
fn count(self) -> usize {
either!(self, inner => inner.count())
}
fn last(self) -> Option<Self::Item> {
either!(self, inner => inner.last())
}
fn nth(&mut self, n: usize) -> Option<Self::Item> {
either!(*self, ref mut inner => inner.nth(n))
}
fn collect<B>(self) -> B
where
B: iter::FromIterator<Self::Item>,
{
either!(self, inner => inner.collect())
}
fn all<F>(&mut self, f: F) -> bool
where
F: FnMut(Self::Item) -> bool,
{
either!(*self, ref mut inner => inner.all(f))
}
}
impl<L, R> DoubleEndedIterator for Either<L, R>
where
L: DoubleEndedIterator,
R: DoubleEndedIterator<Item = L::Item>,
{
fn next_back(&mut self) -> Option<Self::Item> {
either!(*self, ref mut inner => inner.next_back())
}
}
impl<L, R> ExactSizeIterator for Either<L, R>
where
L: ExactSizeIterator,
R: ExactSizeIterator<Item = L::Item>,
{
}
/// `Either<L, R>` implements `Read` if both `L` and `R` do.
impl<L, R> Read for Either<L, R>
where
L: Read,
R: Read,
{
fn read(&mut self, buf: &mut [u8]) -> io::Result<usize> {
either!(*self, ref mut inner => inner.read(buf))
}
fn read_to_end(&mut self, buf: &mut Vec<u8>) -> io::Result<usize> {
either!(*self, ref mut inner => inner.read_to_end(buf))
}
}
impl<L, R> BufRead for Either<L, R>
where
L: BufRead,
R: BufRead,
{
fn fill_buf(&mut self) -> io::Result<&[u8]> {
either!(*self, ref mut inner => inner.fill_buf())
}
fn consume(&mut self, amt: usize) {
either!(*self, ref mut inner => inner.consume(amt))
}
}
/// `Either<L, R>` implements `Write` if both `L` and `R` do.
impl<L, R> Write for Either<L, R>
where
L: Write,
R: Write,
{
fn write(&mut self, buf: &[u8]) -> io::Result<usize> {
either!(*self, ref mut inner => inner.write(buf))
}
fn flush(&mut self) -> io::Result<()> {
either!(*self, ref mut inner => inner.flush())
}
}
impl<L, R, Target> AsRef<Target> for Either<L, R>
where
L: AsRef<Target>,
R: AsRef<Target>,
{
fn as_ref(&self) -> &Target {
either!(*self, ref inner => inner.as_ref())
}
}
macro_rules! impl_specific_ref_and_mut {
($t:ty, $($attr:meta),* ) => {
$(#[$attr])*
impl<L, R> AsRef<$t> for Either<L, R>
where L: AsRef<$t>, R: AsRef<$t>
{
fn as_ref(&self) -> &$t {
either!(*self, ref inner => inner.as_ref())
}
}
$(#[$attr])*
impl<L, R> AsMut<$t> for Either<L, R>
where L: AsMut<$t>, R: AsMut<$t>
{
fn as_mut(&mut self) -> &mut $t {
either!(*self, ref mut inner => inner.as_mut())
}
}
};
}
impl_specific_ref_and_mut!(str,);
impl_specific_ref_and_mut!(::std::path::Path,);
impl_specific_ref_and_mut!(::std::ffi::OsStr,);
impl_specific_ref_and_mut!(::std::ffi::CStr,);
impl<L, R, Target> AsRef<[Target]> for Either<L, R>
where
L: AsRef<[Target]>,
R: AsRef<[Target]>,
{
fn as_ref(&self) -> &[Target] {
either!(*self, ref inner => inner.as_ref())
}
}
impl<L, R, Target> AsMut<Target> for Either<L, R>
where
L: AsMut<Target>,
R: AsMut<Target>,
{
fn as_mut(&mut self) -> &mut Target {
either!(*self, ref mut inner => inner.as_mut())
}
}
impl<L, R, Target> AsMut<[Target]> for Either<L, R>
where
L: AsMut<[Target]>,
R: AsMut<[Target]>,
{
fn as_mut(&mut self) -> &mut [Target] {
either!(*self, ref mut inner => inner.as_mut())
}
}
impl<L, R> Deref for Either<L, R>
where
L: Deref,
R: Deref<Target = L::Target>,
{
type Target = L::Target;
fn deref(&self) -> &Self::Target {
either!(*self, ref inner => &*inner)
}
}
impl<L, R> DerefMut for Either<L, R>
where
L: DerefMut,
R: DerefMut<Target = L::Target>,
{
fn deref_mut(&mut self) -> &mut Self::Target {
either!(*self, ref mut inner => &mut *inner)
}
}
/// `Either` implements `Error` if *both* `L` and `R` implement it.
impl<L, R> Error for Either<L, R>
where
L: Error,
R: Error,
{
#[allow(deprecated)]
fn description(&self) -> &str {
either!(*self, ref inner => inner.description())
}
#[allow(deprecated)]
#[allow(unknown_lints, bare_trait_objects)]
fn cause(&self) -> Option<&dyn Error> {
either!(*self, ref inner => inner.cause())
}
}
impl<L, R> fmt::Display for Either<L, R>
where
L: fmt::Display,
R: fmt::Display,
{
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
either!(*self, ref inner => inner.fmt(f))
}
}
#[test]
fn basic() {
let mut e = Left(2);
let r = Right(2);
assert_eq!(e, Left(2));
e = r;
assert_eq!(e, Right(2));
assert_eq!(e.left(), None);
assert_eq!(e.right(), Some(2));
assert_eq!(e.as_ref().right(), Some(&2));
assert_eq!(e.as_mut().right(), Some(&mut 2));
}
#[test]
fn deref() {
fn is_str(_: &str) {}
let value: Either<String, &str> = Left(String::from("test"));
is_str(&*value);
}
#[test]
fn iter() {
let x = 3;
let mut iter = match x {
3 => Left(0..10),
_ => Right(17..),
};
assert_eq!(iter.next(), Some(0));
assert_eq!(iter.count(), 9);
}
#[test]
fn read_write() {
use std::io;
let use_stdio = false;
let mockdata = [0xff; 256];
let mut reader = if use_stdio {
Left(io::stdin())
} else {
Right(&mockdata[..])
};
let mut buf = [0u8; 16];
assert_eq!(reader.read(&mut buf).unwrap(), buf.len());
assert_eq!(&buf, &mockdata[..buf.len()]);
let mut mockbuf = [0u8; 256];
let mut writer = if use_stdio {
Left(io::stdout())
} else {
Right(&mut mockbuf[..])
};
let buf = [1u8; 16];
assert_eq!(writer.write(&buf).unwrap(), buf.len());
}
//========== Local Impl ===========
use minicbor::{decode, encode, Decode, Decoder, Encode, Encoder};
impl<L: Encode<C>, R: Encode<C>, C> Encode<C> for Either<L, R> {
fn encode<W: encode::Write>(
&self,
e: &mut Encoder<W>,
ctx: &mut C,
) -> Result<(), encode::Error<W::Error>> {
match self {
Either::Left(l) => e.encode_with(l, ctx)?,
Either::Right(r) => e.encode_with(r, ctx)?,
};
Ok(())
}
}
impl<'b, L: Decode<'b, C>, R: Decode<'b, C>, C> Decode<'b, C> for Either<L, R> {
fn decode(d: &mut Decoder<'b>, ctx: &mut C) -> Result<Self, decode::Error> {
let pos = d.position();
if let Ok(l) = d.decode_with::<C, L>(ctx) {
Ok(Self::Left(l))
} else {
d.set_position(pos);
d.decode_with::<C, R>(ctx).map(|r| Self::Right(r))