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mark 2020-08-27 22:58:48 -05:00 committed by Vadim Petrochenkov
parent db534b3ac2
commit 9e5f7d5631
1686 changed files with 941 additions and 1051 deletions
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compiler/rustc_data_structures/src/owning_ref/LICENSE Normal file
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The MIT License (MIT)
Copyright (c) 2015 Marvin Löbel
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.

1233
compiler/rustc_data_structures/src/owning_ref/mod.rs Normal file
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compiler/rustc_data_structures/src/owning_ref/tests.rs Normal file
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mod owning_ref {
use super::super::OwningRef;
use super::super::{BoxRef, Erased, ErasedBoxRef, RcRef};
use std::cmp::{Ord, Ordering, PartialEq, PartialOrd};
use std::collections::hash_map::DefaultHasher;
use std::collections::HashMap;
use std::hash::{Hash, Hasher};
use std::rc::Rc;
#[derive(Debug, PartialEq)]
struct Example(u32, String, [u8; 3]);
fn example() -> Example {
Example(42, "hello world".to_string(), [1, 2, 3])
}
#[test]
fn new_deref() {
let or: OwningRef<Box<()>, ()> = OwningRef::new(Box::new(()));
assert_eq!(&*or, &());
}
#[test]
fn into() {
let or: OwningRef<Box<()>, ()> = Box::new(()).into();
assert_eq!(&*or, &());
}
#[test]
fn map_offset_ref() {
let or: BoxRef<Example> = Box::new(example()).into();
let or: BoxRef<_, u32> = or.map(|x| &x.0);
assert_eq!(&*or, &42);
let or: BoxRef<Example> = Box::new(example()).into();
let or: BoxRef<_, u8> = or.map(|x| &x.2[1]);
assert_eq!(&*or, &2);
}
#[test]
fn map_heap_ref() {
let or: BoxRef<Example> = Box::new(example()).into();
let or: BoxRef<_, str> = or.map(|x| &x.1[..5]);
assert_eq!(&*or, "hello");
}
#[test]
fn map_static_ref() {
let or: BoxRef<()> = Box::new(()).into();
let or: BoxRef<_, str> = or.map(|_| "hello");
assert_eq!(&*or, "hello");
}
#[test]
fn map_chained() {
let or: BoxRef<String> = Box::new(example().1).into();
let or: BoxRef<_, str> = or.map(|x| &x[1..5]);
let or: BoxRef<_, str> = or.map(|x| &x[..2]);
assert_eq!(&*or, "el");
}
#[test]
fn map_chained_inference() {
let or = BoxRef::new(Box::new(example().1)).map(|x| &x[..5]).map(|x| &x[1..3]);
assert_eq!(&*or, "el");
}
#[test]
fn owner() {
let or: BoxRef<String> = Box::new(example().1).into();
let or = or.map(|x| &x[..5]);
assert_eq!(&*or, "hello");
assert_eq!(&**or.owner(), "hello world");
}
#[test]
fn into_inner() {
let or: BoxRef<String> = Box::new(example().1).into();
let or = or.map(|x| &x[..5]);
assert_eq!(&*or, "hello");
let s = *or.into_inner();
assert_eq!(&s, "hello world");
}
#[test]
fn fmt_debug() {
let or: BoxRef<String> = Box::new(example().1).into();
let or = or.map(|x| &x[..5]);
let s = format!("{:?}", or);
assert_eq!(&s, "OwningRef { owner: \"hello world\", reference: \"hello\" }");
}
#[test]
fn erased_owner() {
let o1: BoxRef<Example, str> = BoxRef::new(Box::new(example())).map(|x| &x.1[..]);
let o2: BoxRef<String, str> = BoxRef::new(Box::new(example().1)).map(|x| &x[..]);
let os: Vec<ErasedBoxRef<str>> = vec![o1.erase_owner(), o2.erase_owner()];
assert!(os.iter().all(|e| &e[..] == "hello world"));
}
#[test]
fn raii_locks() {
use super::super::{MutexGuardRef, RwLockReadGuardRef, RwLockWriteGuardRef};
use super::super::{RefMutRef, RefRef};
use std::cell::RefCell;
use std::sync::{Mutex, RwLock};
{
let a = RefCell::new(1);
let a = {
let a = RefRef::new(a.borrow());
assert_eq!(*a, 1);
a
};
assert_eq!(*a, 1);
drop(a);
}
{
let a = RefCell::new(1);
let a = {
let a = RefMutRef::new(a.borrow_mut());
assert_eq!(*a, 1);
a
};
assert_eq!(*a, 1);
drop(a);
}
{
let a = Mutex::new(1);
let a = {
let a = MutexGuardRef::new(a.lock().unwrap());
assert_eq!(*a, 1);
a
};
assert_eq!(*a, 1);
drop(a);
}
{
let a = RwLock::new(1);
let a = {
let a = RwLockReadGuardRef::new(a.read().unwrap());
assert_eq!(*a, 1);
a
};
assert_eq!(*a, 1);
drop(a);
}
{
let a = RwLock::new(1);
let a = {
let a = RwLockWriteGuardRef::new(a.write().unwrap());
assert_eq!(*a, 1);
a
};
assert_eq!(*a, 1);
drop(a);
}
}
#[test]
fn eq() {
let or1: BoxRef<[u8]> = BoxRef::new(vec![1, 2, 3].into_boxed_slice());
let or2: BoxRef<[u8]> = BoxRef::new(vec![1, 2, 3].into_boxed_slice());
assert_eq!(or1.eq(&or2), true);
}
#[test]
fn cmp() {
let or1: BoxRef<[u8]> = BoxRef::new(vec![1, 2, 3].into_boxed_slice());
let or2: BoxRef<[u8]> = BoxRef::new(vec![4, 5, 6].into_boxed_slice());
assert_eq!(or1.cmp(&or2), Ordering::Less);
}
#[test]
fn partial_cmp() {
let or1: BoxRef<[u8]> = BoxRef::new(vec![4, 5, 6].into_boxed_slice());
let or2: BoxRef<[u8]> = BoxRef::new(vec![1, 2, 3].into_boxed_slice());
assert_eq!(or1.partial_cmp(&or2), Some(Ordering::Greater));
}
#[test]
fn hash() {
let mut h1 = DefaultHasher::new();
let mut h2 = DefaultHasher::new();
let or1: BoxRef<[u8]> = BoxRef::new(vec![1, 2, 3].into_boxed_slice());
let or2: BoxRef<[u8]> = BoxRef::new(vec![1, 2, 3].into_boxed_slice());
or1.hash(&mut h1);
or2.hash(&mut h2);
assert_eq!(h1.finish(), h2.finish());
}
#[test]
fn borrow() {
let mut hash = HashMap::new();
let key = RcRef::<String>::new(Rc::new("foo-bar".to_string())).map(|s| &s[..]);
hash.insert(key.clone().map(|s| &s[..3]), 42);
hash.insert(key.clone().map(|s| &s[4..]), 23);
assert_eq!(hash.get("foo"), Some(&42));
assert_eq!(hash.get("bar"), Some(&23));
}
#[test]
fn total_erase() {
let a: OwningRef<Vec<u8>, [u8]> = OwningRef::new(vec![]).map(|x| &x[..]);
let b: OwningRef<Box<[u8]>, [u8]> =
OwningRef::new(vec![].into_boxed_slice()).map(|x| &x[..]);
let c: OwningRef<Rc<Vec<u8>>, [u8]> = unsafe { a.map_owner(Rc::new) };
let d: OwningRef<Rc<Box<[u8]>>, [u8]> = unsafe { b.map_owner(Rc::new) };
let e: OwningRef<Rc<dyn Erased>, [u8]> = c.erase_owner();
let f: OwningRef<Rc<dyn Erased>, [u8]> = d.erase_owner();
let _g = e.clone();
let _h = f.clone();
}
#[test]
fn total_erase_box() {
let a: OwningRef<Vec<u8>, [u8]> = OwningRef::new(vec![]).map(|x| &x[..]);
let b: OwningRef<Box<[u8]>, [u8]> =
OwningRef::new(vec![].into_boxed_slice()).map(|x| &x[..]);
let c: OwningRef<Box<Vec<u8>>, [u8]> = a.map_owner_box();
let d: OwningRef<Box<Box<[u8]>>, [u8]> = b.map_owner_box();
let _e: OwningRef<Box<dyn Erased>, [u8]> = c.erase_owner();
let _f: OwningRef<Box<dyn Erased>, [u8]> = d.erase_owner();
}
#[test]
fn try_map1() {
use std::any::Any;
let x = Box::new(123_i32);
let y: Box<dyn Any> = x;
assert!(OwningRef::new(y).try_map(|x| x.downcast_ref::<i32>().ok_or(())).is_ok());
}
#[test]
fn try_map2() {
use std::any::Any;
let x = Box::new(123_i32);
let y: Box<dyn Any> = x;
assert!(!OwningRef::new(y).try_map(|x| x.downcast_ref::<i32>().ok_or(())).is_err());
}
}
mod owning_handle {
use super::super::OwningHandle;
use super::super::RcRef;
use std::cell::RefCell;
use std::rc::Rc;
use std::sync::Arc;
use std::sync::RwLock;
#[test]
fn owning_handle() {
use std::cell::RefCell;
let cell = Rc::new(RefCell::new(2));
let cell_ref = RcRef::new(cell);
let mut handle =
OwningHandle::new_with_fn(cell_ref, |x| unsafe { x.as_ref() }.unwrap().borrow_mut());
assert_eq!(*handle, 2);
*handle = 3;
assert_eq!(*handle, 3);
}
#[test]
fn try_owning_handle_ok() {
use std::cell::RefCell;
let cell = Rc::new(RefCell::new(2));
let cell_ref = RcRef::new(cell);
let mut handle = OwningHandle::try_new::<_, ()>(cell_ref, |x| {
Ok(unsafe { x.as_ref() }.unwrap().borrow_mut())
})
.unwrap();
assert_eq!(*handle, 2);
*handle = 3;
assert_eq!(*handle, 3);
}
#[test]
fn try_owning_handle_err() {
use std::cell::RefCell;
let cell = Rc::new(RefCell::new(2));
let cell_ref = RcRef::new(cell);
let handle = OwningHandle::try_new::<_, ()>(cell_ref, |x| {
if false {
return Ok(unsafe { x.as_ref() }.unwrap().borrow_mut());
}
Err(())
});
assert!(handle.is_err());
}
#[test]
fn nested() {
use std::cell::RefCell;
use std::sync::{Arc, RwLock};
let result = {
let complex = Rc::new(RefCell::new(Arc::new(RwLock::new("someString"))));
let curr = RcRef::new(complex);
let curr =
OwningHandle::new_with_fn(curr, |x| unsafe { x.as_ref() }.unwrap().borrow_mut());
let mut curr = OwningHandle::new_with_fn(curr, |x| {
unsafe { x.as_ref() }.unwrap().try_write().unwrap()
});
assert_eq!(*curr, "someString");
*curr = "someOtherString";
curr
};
assert_eq!(*result, "someOtherString");
}
#[test]
fn owning_handle_safe() {
use std::cell::RefCell;
let cell = Rc::new(RefCell::new(2));
let cell_ref = RcRef::new(cell);
let handle = OwningHandle::new(cell_ref);
assert_eq!(*handle, 2);
}
#[test]
fn owning_handle_mut_safe() {
use std::cell::RefCell;
let cell = Rc::new(RefCell::new(2));
let cell_ref = RcRef::new(cell);
let mut handle = OwningHandle::new_mut(cell_ref);
assert_eq!(*handle, 2);
*handle = 3;
assert_eq!(*handle, 3);
}
#[test]
fn owning_handle_safe_2() {
let result = {
let complex = Rc::new(RefCell::new(Arc::new(RwLock::new("someString"))));
let curr = RcRef::new(complex);
let curr =
OwningHandle::new_with_fn(curr, |x| unsafe { x.as_ref() }.unwrap().borrow_mut());
let mut curr = OwningHandle::new_with_fn(curr, |x| {
unsafe { x.as_ref() }.unwrap().try_write().unwrap()
});
assert_eq!(*curr, "someString");
*curr = "someOtherString";
curr
};
assert_eq!(*result, "someOtherString");
}
}
mod owning_ref_mut {
use super::super::BoxRef;
use super::super::{BoxRefMut, Erased, ErasedBoxRefMut, OwningRefMut};
use std::cmp::{Ord, Ordering, PartialEq, PartialOrd};
use std::collections::hash_map::DefaultHasher;
use std::collections::HashMap;
use std::hash::{Hash, Hasher};
#[derive(Debug, PartialEq)]
struct Example(u32, String, [u8; 3]);
fn example() -> Example {
Example(42, "hello world".to_string(), [1, 2, 3])
}
#[test]
fn new_deref() {
let or: OwningRefMut<Box<()>, ()> = OwningRefMut::new(Box::new(()));
assert_eq!(&*or, &());
}
#[test]
fn new_deref_mut() {
let mut or: OwningRefMut<Box<()>, ()> = OwningRefMut::new(Box::new(()));
assert_eq!(&mut *or, &mut ());
}
#[test]
fn mutate() {
let mut or: OwningRefMut<Box<usize>, usize> = OwningRefMut::new(Box::new(0));
assert_eq!(&*or, &0);
*or = 1;
assert_eq!(&*or, &1);
}
#[test]
fn into() {
let or: OwningRefMut<Box<()>, ()> = Box::new(()).into();
assert_eq!(&*or, &());
}
#[test]
fn map_offset_ref() {
let or: BoxRefMut<Example> = Box::new(example()).into();
let or: BoxRef<_, u32> = or.map(|x| &mut x.0);
assert_eq!(&*or, &42);
let or: BoxRefMut<Example> = Box::new(example()).into();
let or: BoxRef<_, u8> = or.map(|x| &mut x.2[1]);
assert_eq!(&*or, &2);
}
#[test]
fn map_heap_ref() {
let or: BoxRefMut<Example> = Box::new(example()).into();
let or: BoxRef<_, str> = or.map(|x| &mut x.1[..5]);
assert_eq!(&*or, "hello");
}
#[test]
fn map_static_ref() {
let or: BoxRefMut<()> = Box::new(()).into();
let or: BoxRef<_, str> = or.map(|_| "hello");
assert_eq!(&*or, "hello");
}
#[test]
fn map_mut_offset_ref() {
let or: BoxRefMut<Example> = Box::new(example()).into();
let or: BoxRefMut<_, u32> = or.map_mut(|x| &mut x.0);
assert_eq!(&*or, &42);
let or: BoxRefMut<Example> = Box::new(example()).into();
let or: BoxRefMut<_, u8> = or.map_mut(|x| &mut x.2[1]);
assert_eq!(&*or, &2);
}
#[test]
fn map_mut_heap_ref() {
let or: BoxRefMut<Example> = Box::new(example()).into();
let or: BoxRefMut<_, str> = or.map_mut(|x| &mut x.1[..5]);
assert_eq!(&*or, "hello");
}
#[test]
fn map_mut_static_ref() {
static mut MUT_S: [u8; 5] = *b"hello";
let mut_s: &'static mut [u8] = unsafe { &mut MUT_S };
let or: BoxRefMut<()> = Box::new(()).into();
let or: BoxRefMut<_, [u8]> = or.map_mut(move |_| mut_s);
assert_eq!(&*or, b"hello");
}
#[test]
fn map_mut_chained() {
let or: BoxRefMut<String> = Box::new(example().1).into();
let or: BoxRefMut<_, str> = or.map_mut(|x| &mut x[1..5]);
let or: BoxRefMut<_, str> = or.map_mut(|x| &mut x[..2]);
assert_eq!(&*or, "el");
}
#[test]
fn map_chained_inference() {
let or = BoxRefMut::new(Box::new(example().1))
.map_mut(|x| &mut x[..5])
.map_mut(|x| &mut x[1..3]);
assert_eq!(&*or, "el");
}
#[test]
fn try_map_mut() {
let or: BoxRefMut<String> = Box::new(example().1).into();
let or: Result<BoxRefMut<_, str>, ()> = or.try_map_mut(|x| Ok(&mut x[1..5]));
assert_eq!(&*or.unwrap(), "ello");
let or: BoxRefMut<String> = Box::new(example().1).into();
let or: Result<BoxRefMut<_, str>, ()> = or.try_map_mut(|_| Err(()));
assert!(or.is_err());
}
#[test]
fn owner() {
let or: BoxRefMut<String> = Box::new(example().1).into();
let or = or.map_mut(|x| &mut x[..5]);
assert_eq!(&*or, "hello");
assert_eq!(&**or.owner(), "hello world");
}
#[test]
fn into_inner() {
let or: BoxRefMut<String> = Box::new(example().1).into();
let or = or.map_mut(|x| &mut x[..5]);
assert_eq!(&*or, "hello");
let s = *or.into_inner();
assert_eq!(&s, "hello world");
}
#[test]
fn fmt_debug() {
let or: BoxRefMut<String> = Box::new(example().1).into();
let or = or.map_mut(|x| &mut x[..5]);
let s = format!("{:?}", or);
assert_eq!(&s, "OwningRefMut { owner: \"hello world\", reference: \"hello\" }");
}
#[test]
fn erased_owner() {
let o1: BoxRefMut<Example, str> =
BoxRefMut::new(Box::new(example())).map_mut(|x| &mut x.1[..]);
let o2: BoxRefMut<String, str> =
BoxRefMut::new(Box::new(example().1)).map_mut(|x| &mut x[..]);
let os: Vec<ErasedBoxRefMut<str>> = vec![o1.erase_owner(), o2.erase_owner()];
assert!(os.iter().all(|e| &e[..] == "hello world"));
}
#[test]
fn raii_locks() {
use super::super::RefMutRefMut;
use super::super::{MutexGuardRefMut, RwLockWriteGuardRefMut};
use std::cell::RefCell;
use std::sync::{Mutex, RwLock};
{
let a = RefCell::new(1);
let a = {
let a = RefMutRefMut::new(a.borrow_mut());
assert_eq!(*a, 1);
a
};
assert_eq!(*a, 1);
drop(a);
}
{
let a = Mutex::new(1);
let a = {
let a = MutexGuardRefMut::new(a.lock().unwrap());
assert_eq!(*a, 1);
a
};
assert_eq!(*a, 1);
drop(a);
}
{
let a = RwLock::new(1);
let a = {
let a = RwLockWriteGuardRefMut::new(a.write().unwrap());
assert_eq!(*a, 1);
a
};
assert_eq!(*a, 1);
drop(a);
}
}
#[test]
fn eq() {
let or1: BoxRefMut<[u8]> = BoxRefMut::new(vec![1, 2, 3].into_boxed_slice());
let or2: BoxRefMut<[u8]> = BoxRefMut::new(vec![1, 2, 3].into_boxed_slice());
assert_eq!(or1.eq(&or2), true);
}
#[test]
fn cmp() {
let or1: BoxRefMut<[u8]> = BoxRefMut::new(vec![1, 2, 3].into_boxed_slice());
let or2: BoxRefMut<[u8]> = BoxRefMut::new(vec![4, 5, 6].into_boxed_slice());
assert_eq!(or1.cmp(&or2), Ordering::Less);
}
#[test]
fn partial_cmp() {
let or1: BoxRefMut<[u8]> = BoxRefMut::new(vec![4, 5, 6].into_boxed_slice());
let or2: BoxRefMut<[u8]> = BoxRefMut::new(vec![1, 2, 3].into_boxed_slice());
assert_eq!(or1.partial_cmp(&or2), Some(Ordering::Greater));
}
#[test]
fn hash() {
let mut h1 = DefaultHasher::new();
let mut h2 = DefaultHasher::new();
let or1: BoxRefMut<[u8]> = BoxRefMut::new(vec![1, 2, 3].into_boxed_slice());
let or2: BoxRefMut<[u8]> = BoxRefMut::new(vec![1, 2, 3].into_boxed_slice());
or1.hash(&mut h1);
or2.hash(&mut h2);
assert_eq!(h1.finish(), h2.finish());
}
#[test]
fn borrow() {
let mut hash = HashMap::new();
let key1 = BoxRefMut::<String>::new(Box::new("foo".to_string())).map(|s| &s[..]);
let key2 = BoxRefMut::<String>::new(Box::new("bar".to_string())).map(|s| &s[..]);
hash.insert(key1, 42);
hash.insert(key2, 23);
assert_eq!(hash.get("foo"), Some(&42));
assert_eq!(hash.get("bar"), Some(&23));
}
#[test]
fn total_erase() {
let a: OwningRefMut<Vec<u8>, [u8]> = OwningRefMut::new(vec![]).map_mut(|x| &mut x[..]);
let b: OwningRefMut<Box<[u8]>, [u8]> =
OwningRefMut::new(vec![].into_boxed_slice()).map_mut(|x| &mut x[..]);
let c: OwningRefMut<Box<Vec<u8>>, [u8]> = unsafe { a.map_owner(Box::new) };
let d: OwningRefMut<Box<Box<[u8]>>, [u8]> = unsafe { b.map_owner(Box::new) };
let _e: OwningRefMut<Box<dyn Erased>, [u8]> = c.erase_owner();
let _f: OwningRefMut<Box<dyn Erased>, [u8]> = d.erase_owner();
}
#[test]
fn total_erase_box() {
let a: OwningRefMut<Vec<u8>, [u8]> = OwningRefMut::new(vec![]).map_mut(|x| &mut x[..]);
let b: OwningRefMut<Box<[u8]>, [u8]> =
OwningRefMut::new(vec![].into_boxed_slice()).map_mut(|x| &mut x[..]);
let c: OwningRefMut<Box<Vec<u8>>, [u8]> = a.map_owner_box();
let d: OwningRefMut<Box<Box<[u8]>>, [u8]> = b.map_owner_box();
let _e: OwningRefMut<Box<dyn Erased>, [u8]> = c.erase_owner();
let _f: OwningRefMut<Box<dyn Erased>, [u8]> = d.erase_owner();
}
#[test]
fn try_map1() {
use std::any::Any;
let x = Box::new(123_i32);
let y: Box<dyn Any> = x;
assert!(OwningRefMut::new(y).try_map_mut(|x| x.downcast_mut::<i32>().ok_or(())).is_ok());
}
#[test]
fn try_map2() {
use std::any::Any;
let x = Box::new(123_i32);
let y: Box<dyn Any> = x;
assert!(!OwningRefMut::new(y).try_map_mut(|x| x.downcast_mut::<i32>().ok_or(())).is_err());
}
#[test]
fn try_map3() {
use std::any::Any;
let x = Box::new(123_i32);
let y: Box<dyn Any> = x;
assert!(OwningRefMut::new(y).try_map(|x| x.downcast_ref::<i32>().ok_or(())).is_ok());
}
#[test]
fn try_map4() {
use std::any::Any;
let x = Box::new(123_i32);
let y: Box<dyn Any> = x;
assert!(!OwningRefMut::new(y).try_map(|x| x.downcast_ref::<i32>().ok_or(())).is_err());
}
#[test]
fn into_owning_ref() {
use super::super::BoxRef;
let or: BoxRefMut<()> = Box::new(()).into();
let or: BoxRef<()> = or.into();
assert_eq!(&*or, &());
}
struct Foo {
u: u32,
}
struct Bar {
f: Foo,
}
#[test]
fn ref_mut() {
use std::cell::RefCell;
let a = RefCell::new(Bar { f: Foo { u: 42 } });
let mut b = OwningRefMut::new(a.borrow_mut());
assert_eq!(b.f.u, 42);
b.f.u = 43;
let mut c = b.map_mut(|x| &mut x.f);
assert_eq!(c.u, 43);
c.u = 44;
let mut d = c.map_mut(|x| &mut x.u);
assert_eq!(*d, 44);
*d = 45;
assert_eq!(*d, 45);
}
}