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Rollup merge of #131457 - kpreid:fnaddr, r=dtolnay
Expand `ptr::fn_addr_eq()` documentation. * Describe more clearly what is (not) guaranteed, and de-emphasize the description of rustc implementation details. * Explain what you *can* reliably use it for. Tracking issue for `ptr_fn_addr_eq`: #129322 The motivation for this PR is that I just learned that `ptr::fn_addr_eq()` exists, read the documentation, and thought: “*I* know what this means, but someone not already familiar with how `rustc` works could be left wondering whether this is even good for anything.” Fixing that seems especially important if we’re going to recommend people use it instead of `==` (as per #118833).
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@ -2107,13 +2107,39 @@ pub fn addr_eq<T: ?Sized, U: ?Sized>(p: *const T, q: *const U) -> bool {
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/// Compares the *addresses* of the two function pointers for equality.
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///
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/// Function pointers comparisons can have surprising results since
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/// they are never guaranteed to be unique and could vary between different
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/// code generation units. Furthermore, different functions could have the
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/// same address after being merged together.
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/// This is the same as `f == g`, but using this function makes clear that the potentially
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/// surprising semantics of function pointer comparison are involved.
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///
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/// There are **very few guarantees** about how functions are compiled and they have no intrinsic
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/// “identity”; in particular, this comparison:
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///
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/// * May return `true` unexpectedly, in cases where functions are equivalent.
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///
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/// For example, the following program is likely (but not guaranteed) to print `(true, true)`
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/// when compiled with optimization:
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///
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/// ```
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/// # #![feature(ptr_fn_addr_eq)]
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/// let f: fn(i32) -> i32 = |x| x;
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/// let g: fn(i32) -> i32 = |x| x + 0; // different closure, different body
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/// let h: fn(u32) -> u32 = |x| x + 0; // different signature too
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/// dbg!(std::ptr::fn_addr_eq(f, g), std::ptr::fn_addr_eq(f, h)); // not guaranteed to be equal
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/// ```
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///
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/// * May return `false` in any case.
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///
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/// This is particularly likely with generic functions but may happen with any function.
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/// (From an implementation perspective, this is possible because functions may sometimes be
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/// processed more than once by the compiler, resulting in duplicate machine code.)
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///
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/// Despite these false positives and false negatives, this comparison can still be useful.
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/// Specifically, if
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///
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/// * `T` is the same type as `U`, `T` is a [subtype] of `U`, or `U` is a [subtype] of `T`, and
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/// * `ptr::fn_addr_eq(f, g)` returns true,
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///
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/// then calling `f` and calling `g` will be equivalent.
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///
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/// This is the same as `f == g` but using this function makes clear
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/// that you are aware of these potentially surprising semantics.
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///
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/// # Examples
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///
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@ -2125,6 +2151,8 @@ pub fn addr_eq<T: ?Sized, U: ?Sized>(p: *const T, q: *const U) -> bool {
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/// fn b() { println!("b"); }
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/// assert!(!ptr::fn_addr_eq(a as fn(), b as fn()));
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/// ```
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///
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/// [subtype]: https://doc.rust-lang.org/reference/subtyping.html
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#[unstable(feature = "ptr_fn_addr_eq", issue = "129322")]
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#[inline(always)]
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#[must_use = "function pointer comparison produces a value"]
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