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RFC for an operator to take a raw reference #2582

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merged 24 commits into from
Sep 15, 2019

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RalfJung
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@RalfJung RalfJung commented Nov 1, 2018

Introduce new variants of the & operator: &raw mut <place> to create a *mut <T>, and &raw const <place> to create a *const <T>. This creates a raw pointer directly, as opposed to the already existing &mut <place> as *mut _/&<place> as *const _, which create a temporary reference and then cast that to a raw pointer. As a consequence, the existing expressions <term> as *mut <T> and <term> as *const <T> where <term> has reference type are equivalent to &raw mut *<term> and &raw const *<term>, respectively. Moreover, add a lint to existing code that could use the new operator, and treat existing code that creates a reference and immediately casts or coerces it to a raw pointer as if it had been written with the new syntax.

As an option, we could treat &mut <place> as *mut _/&<place> as *const _ as if they had been written with &raw to avoid creating temporary references when that was likely not the intention.

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The RFC got half-rewritten; click here to jump to the beginning of the post-rewrite discussion.

Cc @Centril @rust-lang/wg-unsafe-code-guidelines

@ahicks92
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ahicks92 commented Nov 1, 2018

I've not been following Rust enough lately to judge this RFC from the technical side, but from the usability/ergonomics side, I think we should hide this semantic behind a magic function and/or macro, then tell people to use the macro. I think it's a bad idea to have a language construct where whether or not a part of an expression is stored in a variable changes defined behavior to undefined behavior.

In this case I understand why we want the semantic. What I'm saying is do both, put the semantic in the rustonomicon or somewhere else suitably advanced, and direct people to the macro instead.

@Centril Centril added T-lang Relevant to the language team, which will review and decide on the RFC. T-compiler Relevant to the compiler team, which will review and decide on the RFC. labels Nov 1, 2018
@strega-nil
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MIR is not a part of the language, and therefore, this does not require an RFC, afaik. It's simply a way of encoding the semantics we want into the compiler.

@Centril
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Centril commented Nov 1, 2018

@ubsan From my reading of this RFC, this affects Rust's abstract machine (in the sense that it makes some things defined behavior and some things explicitly UB...) and makes certain things that weren't hard errors into hard errors. Thus, it requires an RFC.

@strega-nil
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@Centril I disagree - it was always the case that we wanted &<lvalue expression> as *const T to be defined forall lvalue expressions, at least imo. The abstract machine isn't defined enough for this to be necessary, this should be done in the Unsafe Guidelines WG.

@eddyb
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eddyb commented Nov 1, 2018

I might not be able to keep track of the discussion but I should at least note down two things I thought of:

  • implicit reference -> pointer coercion is just as important, if not more
  • we don't have to make this about syntax, we could talk about the reference value being used always as the input to a coercion/cast to a raw pointer
    • we can compute this before building MIR, so MIR would still have a special operation
    • note that for a &expr expression being directly coerced/cast, this is trivially always the case, making this a superset of the original proposal
    • but also, these would be equivalent (iff r is never named again):
let r = &*p;
let p2 = r as *const _;
let p3 = r as *const _;
let p2 = &*p as *const _;
let p3 = &*p as *const _;

A more realistic scenario that this could enable is r being passed to two function calls that take raw pointers (so there are coercions in the caller, similar to the explicit casts above).

We might even be able to relax this so other operations involving the reference are also allowed, but I haven't fully considered the implications.

@nikomatsakis
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I do believe an RFC is appropriate here -- but perhaps I mistake the purpose of the RFC. I presumed that the RFC is more about the surface Rust syntax that generates this new MIR operator than the operator itself.

It seems to me that there are four main alternatives here:

  • What this RFC advocates, which is using &foo in conjunction with some other operator (as).
    • We probably do want to decide to what extent coercions apply here too.
  • Adding a very magic intrinsic which treats its argument as a place (lvalue) expression and not a value (rvalue) expression. That seems strictly more surprising to me.
  • Adding a brand new operator (ref x in an expression, for example) that produces a *mut directly.
  • Find some way to defer the validation of an &T reference which is created until it is first used or otherwise somehow is "confirmed" as a safe reference. That is basically the same as this RFC, which is proposing a fairly conservative rule in this regard (one that I think we could loosen in the future, if I'm not mistaken?).

Of these, I currently prefer the first. @RalfJung, am I correct that this would leave us room in the future to extend the rules to more cases (e.g., if coerced etc)?

One open question mark for me is how best to manage the design process here. This applies to all the efforts of the Unsafe Code Guidelines work, in my view. I will leave a separate comment on how I think that should work, actually.

@nikomatsakis
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Regarding the meta question of how the UCG group should be approaching RFCs. The challenge is that we have a lot of "little pieces" that have to be put together that affect one another. I don't think we should be working out a huge "all or nothing" proposal, but I also think it's hard to reason about random RFCs for one tiny piece without seeing the whole picture.

I think I'd like to compromise somehow but having

  • a sketch of the current big picture in the UCG repo
  • RFCs like this for key pieces that are collected in a sort of "preliminary state"
    • like any RFC, I would expect this decision to have a "stabilization FCP" before it becomes final
    • and I would want to do that once we have the "stacked borrows" concept worked out (or whichever concept we end up with), so that you can see the whle

I'm not entirely sure where these RFCs should be opened. I'd like to be trying out the "phase RFC" procedure, which I think basically implies that we are opening up RFCs on this repo as we move between "phases" -- so this RFC in particular might correspond to moving from the "proposal" (nee spitballing) to "prototyping" -- so it's not really a final decision.

But anyway I suppose this isn't the right forum for this comment. Perhaps I should open an internals thread to talk about it. I think it'd be good to figure this out, though, as it seems relevant to a lot of things the UCG team will be producing.

@strega-nil
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strega-nil commented Nov 1, 2018

I would say the best thing would probably be that the result of the &t expression shouldn't cause UB until it is bound to an &T value somehow; if it's bound to a *const T value, it'll be okay; but all of the following should be UB:

fn foo() -> &T {
  &<invalid lvalue expression>
}

let x = &<invalid lvalue expression>;

fn bar(x: &T) {}
bar(&<invalid lvalue expression>); // note: this is UB at the call site, not in bar

&<invalid lvalue expression>;
  // this is equivalent to `let __tmp = &t; drop(__tmp);
&<invalid lvalue expression> as &T as *const T
  // this creates a value of reference type with the 'as &T'

@RalfJung
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RalfJung commented Nov 2, 2018

@ubsan

MIR is not a part of the language, and therefore, this does not require an RFC, afaik. It's simply a way of encoding the semantics we want into the compiler.

This RFC is mostly about changing/specifying those semantics. MIR is a good way to do that, as it provides a much clearer language to talk about what happens when a Rust program gets executed than if we tried to do the same thing in the surface language.

This is not the first RFC to talk about MIR or use MIR as means of specification, either.

it was always the case that we wanted & as *const T to be defined forall lvalue expressions

Which RFC/reference is saying that?

@RalfJung
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RalfJung commented Nov 2, 2018

implicit reference -> pointer coercion is just as important, if not more

I do not understand. This RFC is not primarily about the "cast" part of "take-ref-then-cast", it is about the "take-ref" part.

Or are you saying that we should also compile let x: *const _ = &packed.field; to taking a raw reference? I would agree with that.

we don't have to make this about syntax, we could talk about the reference value being used always as the input to a coercion/cast to a raw pointer

This is about defining the semantics, which starts with the syntax.
If we make this about how the reference value is used, then fundamentally we are allowing an unaligned value at reference type to exist. We could decide that, but then we'd have to dial back the amount of aligned and dereferencable annotations we are sending to LLVM.

@RalfJung, am I correct that this would leave us room in the future to extend the rules to more cases (e.g., if coerced etc)?

This RFC is first and foremost about adding such a primitive operation to the MIR -- acknowledging the need for it. Secondly, it is about how the user can write code that ends up generating this operation. It would certainly be easy to later add more cases where we take a raw reference instead of a safe one, that can only make more code defined.
(Or, to use terminology more like what @ubsan would likely use, this RFC is first and foremost about acknowledging that "taking a raw reference" is a primitive operation that exists in Rust, and about specifying some situations where this operation is what is encoded by surface Rust. I am using MIR for terminology here merely as a more precise way to talk about the semantics of Rust: In my experience and in what I see in several other language specifications that actually had some success with formalization, semantics of a complex language are best specified by means of translation to a simpler language.)

I don't think we should be working out a huge "all or nothing" proposal, but I also think it's hard to reason about random RFCs for one tiny piece without seeing the whole picture.

I felt this is somewhat different from the kind of "let us decide about this type's layout/invariant"-RFC that we (UCG) will likely be producing eventually: The invariant this refers to is already encoded in rustc, and the RFC proposes to add a new ingredient to our "toolbox for defining surface language semantics", namely taking a raw borrow.

the result of the &t expression shouldn't cause UB until it is bound to an &T value somehow

I and the RFC agree these should all be UB. More interesting would be some examples you think should not be UB that the RFC leaves UB.

@glaebhoerl
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Another possibility, just so that it doesn't go unmentioned:

Currently the &x operator produces an &T, with &T having an implicit coercion into *const T. Another way to go would be to reframe this as &x being a kind of polymorphic literal similarly to how numeric constants work, with its type initially being a type metavariable, until further constraints determine whether it is actually &T or *const T -- with a fallback default to the former if unconstrained, much like how numeric constants default to i32.

This might be a way to codify the "result of the &t expression shouldn't cause UB until it is bound to an &T value somehow" intuition.

It's not obvious to me whether there would be backwards compatibility edge cases to worry about?

(To be clear this neither would nor could entirely replace the reference-to-pointer coercion, as that applies to any expression, whereas this only applies to literals.)

@Diggsey
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Diggsey commented Nov 2, 2018

This seems really important to have. I even have a crate which already relies on this behaviour. One thing I am concerned about is the implicitness - it would be very easy for someone not familiar with this corner case to come along and accidentally refactor the code in a way which "broke" the guarantee, even with changes that would in most languages be semantically identical.

As a way to solve this, would it make sense to relax the constraint on values being initialised if they are only used in this way?

eg. start allowing:

fn main() {
    let x: u32;
    
    let y = &x as *const _;
    println!("{:?}", y);
}

This would allow writing code that would turn into a hard error if you somehow tried to actually do something with the value, and would also make it possible to calculate field offsets from completely safe code: we would no longer have to do hacks with mem::uninitialized to pretend to construct a value.

@eddyb
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eddyb commented Nov 2, 2018

We could decide that, but then we'd have to dial back the amount of aligned and dereferencable annotations we are sending to LLVM.

But the only cases where we'd not treat a borrow as being of a reference type is if it's only ever used as a raw pointer, in my value-use-based model. Anything else (including calling a function with the reference as an argument) would still impose reference requirements.

I actually think @glaebhoerl's formulation of a polymorphic borrow operator is equivalent to mine in behavior but it might be easier to implement it as an analysis in order to construct the MIR (as I've suggested) instead of during type-checking.

@strega-nil
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strega-nil commented Nov 2, 2018

@RalfJung yeah, alright that makes sense. I don't believe there are any examples on which me and the RFC disagree, although if you can think of any, that'd be useful to know. I would like to see that list put in the RFC, if you don't mind, since I feel it gives a nice overview from a Rust pov; I also don't feel the transform is defined well enough

I think discussing "binding to reference values" is probably more useful, instead of talking about "the same statement", since that would make your let example valid if written like this:

let x: *const T = {
  let y: &T = &*null;
  y as *const T
};

since y and the cast to *const T are in the same statement.

It's also important to think about when the coercion actually occurs - for example, does

let x: *const T = {&*null};

translate to

let x: *const T = {&*null} as *const T;
// or
let x: *const T = {(&*null) as *const T};

if the former, it should be UB. If the latter, it should not be.

@nikomatsakis
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@glaebhoerl

It's not obvious to me whether there would be backwards compatibility edge cases to worry about?

Certainly we could not today just make &x yield up an inference variable with fallback: fallback occurs quite late in the type inferencing stage, and we sometimes need to know types before that (e.g., with the . operator).

I do sort of like the idea of making &x an "overloaded operator", and we definitely have need of improving our handling of type inferencing in any case, so it's conceivable it may be possible at some point. (I would like in general to make our coercions less eager, which carries precisely the same challenges.)

@nikomatsakis
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@RalfJung

This RFC is first and foremost about adding such a primitive operation to the MIR -- acknowledging the need for it. Secondly, it is about how the user can write code that ends up generating this operation.

Yes. I'm not sure I agree about the relative importance of those two points, but it doesn't really matter very much.

I would argue that simply from a backwards compatibility point of view we really want to make &x as *const u32 "work", because there is tons of code in the wild that does this. (The same argument applies I suspect to coercions like let p: *const T = &x.)

There seem to be two "basic ways" we can make such code work:

  • Statically, as you propose: we identify (somehow) some set of cases where &x is really an "raw borrow" operation that is semantically distinct. We could in theory even add an explicit operator for this.
  • or dynamically, where there is one "borrow operation" and we somehow define the machine semantics such that insta-UB does not occur.

I don't think anybody has a good idea how to make the dynamic idea work. It seems "imaginable", though. To start, however, we'd probably have to remove the various annotations we give to LLVM.

Presuming that we are going to go with the static option, then we return to: what is this static subset? As I wrote above, I think that for backwards compat reasons it basically has to include cases where the &u32 is coerced to a raw pointer, or we will rule out a lot of extant code.

It is conceivable that we might go further and add an explicit Rust syntax for this. I had a strawman proposal of ref <place> -- so e.g. let p: *mut _ = &x would be written let p = ref x. You could then imagine deprecating the "two part" syntax and linting for people to write ref explicitly. (Note that I am not proposing this, just pointing out that it is a possible future extension of this RFC.)

Does all that make sense? Do we all agree that &x as *const _ must work even for potentially unaligned things, just for backwards compatibility reasons? (I suppose it is probably technically UB today, but still..)

@strega-nil
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@nikomatsakis I would argue that it should be valid for all (possibly-invalid) lvalue expressions, since we have no guarantees on raw pointers - i.e., let x = null(); let y = &*x as *const T; should, indeed, be valid, imo.

@RalfJung
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RalfJung commented Nov 4, 2018

@eddyb

But the only cases where we'd not treat a borrow as being of a reference type is if it's only ever used as a raw pointer, in my value-use-based model. Anything else (including calling a function with the reference as an argument) would still impose reference requirements.

But in let x: &T = &s.field; there is a use a a reference: The value gets copied into x at type &T. What you are suggesting then is to NOT desugar let x = &s.field as *const _ into let _tmp = &s.field; let x = _tmp as *const _;, and that is exactly what I am proposing as well. I am just trying to be precise about what happens, whereas I cannot deduce a precise spec from what you said.

Another way to go would be to reframe this as &x being a kind of polymorphic literal similarly to how numeric constants work, with its type initially being a type metavariable, until further constraints determine whether it is actually &T or *const T -- with a fallback default to the former if unconstrained, much like how numeric constants default to i32.

It seems to me that my proposal is a prerequisite for yours. You are also suggesting that there be a way to create a raw pointer to a field without creating an intermediate reference. We need a way to represent your inference after some kind of desugaring -- we need a primitive operation to "take a raw reference". You are just going further than I did in terms of when we use that operation, i.e. when we take a raw reference vs a safe one.

I will add a remark to the RFC saying that we might want to use the new operation for more cases. But I do not see a way to realize any of the proposals (by @glaebhoerl and @eddyb) without having this new operation that is distinct from any operation we can express so far; and if we do have such an operation it should explicitly show up in the MIR. Making such things explicit is part of what MIR is about.

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RalfJung commented Nov 4, 2018

My problem with this stronger inference proposed by @glaebhoerl is that if someone relies on this behavior, there is a danger of accidentally adding a non-raw-ptr use to a reference, which would then rather subtly make the program have UB. If we say that you have to cast immediately, things cannot be correct for "subtle" reasons. But I guess we could have a lint against any "taking a raw reference" that is not immediately followed by a cast: Then, more existing code works (because we take raw references in more cases), but it is less likely that people will accidentally break their code because they relied on this behavior.

We might even make this an err-by-default lint after some transition period?


@ubsan

since that would make your let example valid if written like this:

let x: *const T = {
  let y: &T = &*null;
  y as *const T
};

since y and the cast to *const T are in the same statement.

I never said that the new operation is used when the cast happens in the same statement. I said that it is used when the reference is "immediately cast [...] to a raw pointer":

When translating HIR to MIR, we recognize &[mut] <place> as *[mut|const] _ as
a special pattern and turn it into a single MIR Rvalue that takes the address
and produces it as a raw pointer

Anyway, I will add some examples.

let x: *const T = {&*null};

That is an interesting example indeed. During my experiments, I noticed a similar problem with implicit coercions, namely coercion &mut to *const will happen through & -- which is a problem because I plan to assign meaning to a mut-to-shr cast (namely, this is when the location gets frozen so it may not be mutated again).

I would argue that it should be valid for all (possibly-invalid) lvalue expressions, since we have no guarantees on raw pointers - i.e., let x = null(); let y = &*x as *const T; should, indeed, be valid, imo.

Not sure which part of @nikomatsakis posts' you are referring to here, but assuming null() returns a raw pointer, I agree that code has defined behavior.

@RalfJung
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RalfJung commented Nov 4, 2018

@nikomatsakis Very well put, I do not have anything to add. :)

@eddyb
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eddyb commented Nov 4, 2018

@RalfJung What I'm suggesting is a pre-MIR analysis, not considering those copies.

Alternatively, a dataflow analysis on MIR, where copies are considered noops, and which rewrites the MIR to "weaken" borrows, as needed.

Something I have not considered is interaction with mutable state, but I suspect dataflow analysis would be able to understand that.

I will add a remark to the RFC saying that we might want to use the new operation for more cases.

Yes, I never said anything about the MIR operation not being needed, but rather that the syntactic condition for producing it, could be relaxed to something more general.

@RalfJung
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RalfJung commented Nov 4, 2018

Yes, I never said anything about the MIR operation not being needed, but rather that the syntactic condition for producing it, could be relaxed to something more general.

I see, okay. I do not fully understand which syntactic condition you have in mind, but if the result is that at some point (pre-borrowck, I would guess) we have the result of this inference encoded explicitly in the MIR, then I think I am fine.

I'd prefer this condition to be as simple and hence predictable as possible, but I'd be basically satisfied with any syntactic condition.

@glaebhoerl
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It seems to me that my proposal is a prerequisite for yours.

I didn't mean to imply otherwise :)

there is a danger of accidentally adding a non-raw-ptr use to a reference, which would then rather subtly make the program have UB

It seems we are concerned about different things, both of which however seem worth being concerned about:

  1. If one cannot visually determine at a glance whether UB is invoked, that is bad

  2. If one performs a transformation (such as lifting a temporary into a let) which seems "obviously benign" but actually ends up introducing UB, that is also bad

I guess the latter is easier to lint against than the former. But otherwise as long as we wish to re-use the & operator for creating raw pointers, it seems like the tension between them is inherent. Which leads me to...


It is conceivable that we might go further and add an explicit Rust syntax for this.

(Once again, this is in the spirit of "so that the option doesn't go unmentioned", and I'm not sure how well I like it.)

How about, as a (drawback) slightly jarring but otherwise (advantage) extremely simple and straightforward alternative: *const x creates a *const T pointing to x, and likewise *mut x creates a *mut T pointing to x?

It is slightly jarring because of course * on its own means dereferencing. But I don't think *const and *mut are otherwise valid syntax in expressions, so it's unambiguous; and it's entirely consistent, and even predictable, with respect to "literal syntax follows type syntax". And I suppose one could argue that the jarringness stone here was originally cast back when we decided to name our reference types after the referencing operator and our pointer types after the dereferencing operator.

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Ixrec commented Nov 4, 2018

As a non-expert on all of these issues who's hoping for Rust to become the first language with UB where non-wizards can actually figure out whether or not they're invoking UB, I'm strongly in favor of only making the &x as *... syntax do this magic for now. It's very easy for me to understand, remember and apply that rule. At least right now, all of the options for generalizing it feel pretty spooky. We're just too far away from having "complete" unsafe code guidelines, or from knowing how good programmatic UB-checking will end up being in practice.

@rfcbot rfcbot removed the proposed-final-comment-period Currently awaiting signoff of all team members in order to enter the final comment period. label Sep 5, 2019
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rfcbot commented Sep 15, 2019

The final comment period, with a disposition to merge, as per the review above, is now complete.

As the automated representative of the governance process, I would like to thank the author for their work and everyone else who contributed.

The RFC will be merged soon.

@rfcbot rfcbot added finished-final-comment-period The final comment period is finished for this RFC. and removed final-comment-period Will be merged/postponed/closed in ~10 calendar days unless new substational objections are raised. labels Sep 15, 2019
@Centril Centril merged commit 32dece0 into rust-lang:master Sep 15, 2019
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Centril commented Sep 15, 2019

🎉 Huzzah! This RFC has been merged!

Tracking issue: rust-lang/rust#64490

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bossmc commented Sep 19, 2019

Sorry for arriving late to the party (and arguably just adding bikeshedding), but I haven't seen this proposal discussed above, and I think it might make the syntax more intuitive.

Put simply, use *const <expr>/*mut <expr> to create a raw pointer. The semantics of *const are exactly the same as those proposed for &raw const (and *mut for &raw mut). This means that *const and *mut gain the same syntactic powers as & and &mut:

  • &T/&mut T/*const T/*mut T - Are the names of types of pointers
  • &t/&mut t/*const t/*mut t - Are the values of (different types of) pointers that point to t

This means that there's a clear split between &-like pointers which (maybe in future) must point to valid, aligned memory and conform to inbounds rules etc. and *-like pointers which are true raw pointers and are beholden to no-one.

&t as *const _ is still valid (as the requirements on & are stricter than those on *) but the other examples above would need the use of *const to make them defined behaviour:

#[repr(packed)]
#[derive(Default)]
struct Unaligned {
  field1: u8,
  field2: u32,
}

let s = Unaligned::default();
let sref = &s; // Fine
let field1ref = &s.field1; // Fine
let field2ref = &s.field2; // UB - unaligned reference
let field1ptr = *const s.field1;  // Fine
let field2ptr = *const s.field2;  // Fine
let bar = unsafe { &*field2ptr } // UB - the created ref is unaligned

My natural read of &raw const t is that it's creating a special kind of reference, but it isn't, it's creating a pointer which is a fundamentally different thing and I'm worried that this confusion will make this feature much harder to grok at a glance.

Disadvantage: & to mean "take the address of" is standard from C but Rust already breaks the C conventions by using &T to mean (something akin to) "pointer to T". Using * to mean "take the address of" might be unexpected, but (due to the attached mut/const) shouldn't actively steer people towards confusion.

@Centril
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Centril commented Sep 19, 2019

Put simply, use *const <expr>/*mut <expr> to create a raw pointer.

This has definitely been considered in the RFC and by the language team -- we rejected this proposal due to the disadvantage you mention.

@mb64
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mb64 commented Sep 19, 2019

The RFC mentions using &raw const x.field as an equivalent to &x->field that doesn't cause any UB. Is this being stabilized, or is this just a future possibility? If it's not being stabilized (yet), are there any UB-free ways of doing this currently?

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Centril commented Sep 19, 2019

@mb64 &raw [const|mut] $place_expr is being implemented in rust-lang/rust#64588.

There is no UB-free equivalent to &raw const x.field in the cases this RFC mentions.

@red75prime
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red75prime commented Sep 23, 2019

What is the status of rvalue to lvalue promotion in &raw mut <place>? Not long ago I was pointed to a code like this:

fn foo(_: *mut *mut c_void) {}

let ptr: *mut u8 = ...;
foo(&mut (ptr as *mut c_void));

The code compiles without warnings, but it doesn't modify ptr, as ptr as *mut c_void gets silently promoted to temporary value.

Does it make sense to prohibit such promotions in &raw mut <place> case?

@RalfJung
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RalfJung commented Oct 9, 2019

@red75prime promotion being confusing here seems mostly orthogonal to raw-vs-ref, doesn't it? If no promotion happens with raw ptrs, what would you expect to happen instead? The only alternative I see is for this code to be UB, because without promotion the temporary result of the cast is deallocated before foo is called. ptr as T is an rvalue; it is syntactic sugar for copy(ptr) as T so there is no way that anything you do with it can have any effect on the value of ptr -- the copy already happened.

However, whether we do promotion on raw refs or not is a good question indeed. I would expect &raw mut (1+2) to be promoted the same way &mut (1+2) is; not doing that seems even more confusing and very error-prone -- after all, this time there is no lifetime preventing bugs in case the user relies on promotion. OTOH, relying on promotion for raw pointers seems extremely fragile for this exact reason, so users should probably not do it. @oli-obk @eddyb what do you think?

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Centril commented Oct 9, 2019

We should probably continue over at the tracking issue tho. :)

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