diff --git a/src/doc/nomicon/repr-rust.md b/src/doc/nomicon/repr-rust.md index c8a372be767..e038ae5639b 100644 --- a/src/doc/nomicon/repr-rust.md +++ b/src/doc/nomicon/repr-rust.md @@ -36,9 +36,9 @@ struct A { } ``` -will be 32-bit aligned assuming these primitives are aligned to their size. -It will therefore have a size that is a multiple of 32-bits. It will potentially -*really* become: +will be 32-bit aligned on an architecture that aligns these primitives to their +respective sizes. The whole struct will therefore have a size that is a multiple +of 32-bits. It will potentially become: ```rust struct A { @@ -50,10 +50,10 @@ struct A { } ``` -There is *no indirection* for these types; all data is stored contiguously as -you would expect in C. However with the exception of arrays (which are densely -packed and in-order), the layout of data is not by default specified in Rust. -Given the two following struct definitions: +There is *no indirection* for these types; all data is stored within the struct, +as you would expect in C. However with the exception of arrays (which are +densely packed and in-order), the layout of data is not by default specified in +Rust. Given the two following struct definitions: ```rust struct A { @@ -62,18 +62,17 @@ struct A { } struct B { - x: i32, + a: i32, b: u64, } ``` Rust *does* guarantee that two instances of A have their data laid out in -exactly the same way. However Rust *does not* guarantee that an instance of A -has the same field ordering or padding as an instance of B (in practice there's -no particular reason why they wouldn't, other than that its not currently -guaranteed). +exactly the same way. However Rust *does not* currently guarantee that an +instance of A has the same field ordering or padding as an instance of B, though +in practice there's no reason why they wouldn't. -With A and B as written, this is basically nonsensical, but several other +With A and B as written, this point would seem to be pedantic, but several other features of Rust make it desirable for the language to play with data layout in complex ways. @@ -133,18 +132,21 @@ struct FooRepr { } ``` -And indeed this is approximately how it would be laid out in general -(modulo the size and position of `tag`). However there are several cases where -such a representation is inefficient. The classic case of this is Rust's -"null pointer optimization". Given a pointer that is known to not be null -(e.g. `&u32`), an enum can *store* a discriminant bit *inside* the pointer -by using null as a special value. The net result is that -`size_of::>() == size_of::<&T>()` +And indeed this is approximately how it would be laid out in general (modulo the +size and position of `tag`). -There are many types in Rust that are, or contain, "not null" pointers such as +However there are several cases where such a representation is inefficient. The +classic case of this is Rust's "null pointer optimization": an enum consisting +of a single outer unit variant (e.g. `None`) and a (potentially nested) non- +nullable pointer variant (e.g. `&T`) makes the tag unnecessary, because a null +pointer value can safely be interpreted to mean that the unit variant is chosen +instead. The net result is that, for example, `size_of::>() == +size_of::<&T>()`. + +There are many types in Rust that are, or contain, non-nullable pointers such as `Box`, `Vec`, `String`, `&T`, and `&mut T`. Similarly, one can imagine nested enums pooling their tags into a single discriminant, as they are by -definition known to have a limited range of valid values. In principle enums can +definition known to have a limited range of valid values. In principle enums could use fairly elaborate algorithms to cache bits throughout nested types with special constrained representations. As such it is *especially* desirable that we leave enum layout unspecified today.