This is a large spring-cleaning commit now that the 0.12.0 release has passed removing an amount of deprecated functionality. This removes a number of deprecated crates (all still available as cargo packages in the rust-lang organization) as well as a slew of deprecated functions. All `#[crate_id]` support has also been removed.
I tried to avoid anything that was recently deprecated, but I may have missed something! The major pain points of this commit is the fact that rustc/syntax have `#[allow(deprecated)]`, but I've removed that annotation so moving forward they should be cleaned up as we go.
Spring cleaning is here! In the Fall! This commit removes quite a large amount
of deprecated functionality from the standard libraries. I tried to ensure that
only old deprecated functionality was removed.
This is removing lots and lots of deprecated features, so this is a breaking
change. Please consult the deprecation messages of the deleted code to see how
to migrate code forward if it still needs migration.
[breaking-change]
When translating the unboxing shim, account for the fact that the shim translation has already performed the necessary unboxing of input types and values when forwarding to the shimmed function. This prevents ICEing or generating incorrect code.
Closes#16739
Check object lifetime bounds in coercions, not just trait bounds. Fixes#18055.
r? @pcwalton
This is a [breaking change]. Change code like this:
fn foo(v: &[u8]) -> Box<Clone+'static> { ... }
to make the lifetimes agree:
// either...
fn foo(v: &'static[u8]) -> Box<Clone+'static> { box v }
// or ...
fn foo<'a>(v: &'a [u8]) -> Box<Clone+'a> { box v }
The representability-checking routine ```is_type_representable``` failed to detect structural recursion in some cases, leading to stack overflow later on.
The first problem was in the loop in the ```find_nonrepresentable``` function. We were improperly terminating the iteration if we saw a ```ContainsRecursive``` condition. We should have kept going in case a later member of the struct (or enum, etc) being examined was ```SelfRecursive```. The example from #17431 triggered this issue:
```rust
use std::sync::Mutex;
struct Foo { foo: Mutex<Option<Foo>> }
impl Foo { fn bar(self) {} }
fn main() {}
```
I'm not 100% sure, but I think the ```ty_enum``` case of ```fn type_structurally_recursive``` had a similar problem, since it could ```break``` on ```ContainsRecursive``` before looking at all variants. I've replaced this with a ```flat_map``` call.
The second problem was that we were failing to identify code like ```struct Foo { foo: Option<Option<Foo>> }``` as SelfRecursive, even though we correctly identified ```struct Foo { foo: Option<Foo> }```. This was caused by using DefId's for the ```ContainsRecursive``` check, which meant the nested ```Option```s were identified as illegally recursive (because ```ContainsRecursive``` is not an error, we would then keep compiling and eventually hit a stack overflow).
In order to make sure that we can recurse through the different ```Option``` invocations, I've changed the type of ```seen``` from ```Vec<DefId>``` to ```Vec<t>``` and added a separate ```same_type``` function to check whether two types are the same when generics are taken into account. Now we only return ```ContainsRecursive``` when this stricter check is satisfied. (There's probably a better way to do this, and I'm not sure my code is entirely correct--but my knowledge of rustc internals is pretty limited, so any help here would be appreciated!)
Note that the ```SelfRecursive``` check is still comparing ```DefId```s--this is necessary to prevent code like this from being allowed:
```rust
struct Foo { x: Bar<Foo> }
struct Bar<T> { x: Bar<Foo> }
```
All four of the new ```issue-17431``` tests cause infinite recursion on master, and errors with this pull request. I wrote the extra ```issue-3008-4.rs``` test to make sure I wasn't introducing a regression.
Fixes#17431.
This adds ‘help’ diagnostic messages to rustc. This is used for anything that provides help to the user, particularly the `--explain` messages that were previously integrated into the relevant error message.
They look like this:
```
match.rs:10:13: 10:14 error: unreachable pattern [E0001]
match.rs:10 1 => {},
^
match.rs:3:1: 3:38 note: in expansion of foo!
match.rs:7:5: 20:2 note: expansion site
match.rs:10:13: 10:14 help: pass `--explain E0001` to see a detailed explanation
```
(`help` is coloured cyan.) Adding these errors on a separate line stops the lines from being too long, as discussed in #16619.
When translating the unboxing shim, account for the fact that the shim
translation has already performed the necessary unboxing of input
types and values when forwarding to the shimmed function. This
prevents ICEing or generating incorrect code.
Closes#16739
When an overloaded call expression has parameters but the function
object takes none, construct an array of formal argument types with
the arity of the call expression so that we don't fail by indexing out
of bounds later.
Closes#16939
- Unify the representations of `cat_upvar` and `cat_copied_upvar`
- In `link_reborrowed_region`, account for the ability of upvars to
change their mutability due to later processing. A map of recursive
region links we may want to establish in the future is maintained,
with the links being established when the kind of the borrow is
adjusted.
- When categorizing upvars, add an explicit deref that represents the
closure environment pointer for closures that do not take the
environment by value. The region for the implicit pointer is an
anonymous free region type introduced for this purpose. This
creates the necessary constraint to prevent unsound reborrows from
the environment.
- Add a note to categorizations to make it easier to tell when extra
dereferences have been inserted by an upvar without having to
perform deep pattern matching.
- Adjust borrowck to deal with the changes. Where `cat_upvar` and
`cat_copied_upvar` were previously treated differently, they are
now both treated roughly like local variables within the closure
body, as the explicit derefs now ensure proper behavior. However,
error diagnostics had to be changed to explicitly look through the
extra dereferences to avoid producing confusing messages about
references not present in the source code.
Closes issue #17403. Remaining work:
- The error diagnostics that result from failed region inference are
pretty inscrutible and should be improved.
Code like the following is now rejected:
let mut x = 0u;
let f = || &mut x;
let y = f();
let z = f(); // multiple mutable references to the same location
This also breaks code that uses a similar construction even if it does
not go on to violate aliasability semantics. Such code will need to
be reworked in some way, such as by using a capture-by-value closure
type.
[breaking-change]
Adds an `assume` intrinsic that gets translated to llvm.assume. It is
used on a boolean expression and allows the optimizer to assume that
the expression is true.
This implements #18051.
librustc: Improve method autoderef/deref/index behavior more, and enable IndexMut on mutable vectors.
This fixes a bug whereby the mutability fixups for method behavior were
not kicking in after autoderef failed to happen at any level. It also
adds support for `Index` to the fixer-upper.
Closes#12825.
r? @pnkfelix
LLVM generates wrong code (which may be an instance of compile-time UB) when
faced with types that take lots of memory - bigger than the address space.
Make using such types a trans error. While trans errors are bad, overbig
types are expected to be very rare.
Use the integer sizes LLVM uses, rather than having random projections
laying around. Sizes are u64, Alignments are u32, C_*int is target-dependent
but 64-bit is fine (the int -> C_int conversion is non-precision-losing,
but it can be preceded by `as int` conversions which are, so it is
somewhat ugly. However, being able to suffix a `u` to properly infer
integer types is nice).
Since a large number of lints are being renamed for RFC 344, this commit
adds some basic deprecation/renaming functionality to the pluggable lint
system. It allows a simple mapping of old to new names, and can warn
when old names are being used.
This change needs to be rolled out in stages. In this commit, the
deprecation warning is commented out, but the old name is forwarded to
the new one.
Once the commit lands and we have generated a new snapshot of the
compiler, we can add the deprecation warning and rename all uses of the
lints in the rust codebase.
RFC 344 proposes a set of naming conventions for lints. This commit
renames existing lints to follow the conventions.
Use the following sed script to bring your code up to date:
```
s/unnecessary_typecast/unused_typecasts/g
s/unsigned_negate/unsigned_negation/g
s/type_limits/unused_comparisons/g
s/type_overflow/overflowing_literals/g
s/ctypes/improper_ctypes/g
s/owned_heap_memory/box_pointers/g
s/unused_attribute/unused_attributes/g
s/path_statement/path_statements/g
s/unused_must_use/unused_must_use/g
s/unused_result/unused_results/g
s/non_uppercase_statics/non_upper_case_globals/g
s/unnecessary_parens/unused_parens/g
s/unnecessary_import_braces/unused_import_braces/g
s/unused_unsafe/unused_unsafe/g
s/unsafe_block/unsafe_blocks/g
s/unused_mut/unused_mut/g
s/unnecessary_allocation/unused_allocation/g
s/missing_doc/missing_docs/g
s/unused_imports/unused_imports/g
s/unused_extern_crate/unused_extern_crates/g
s/unnecessary_qualification/unused_qualifications/g
s/unrecognized_lint/unknown_lints/g
s/unused_variable/unused_variables/g
s/dead_assignment/unused_assignments/g
s/unknown_crate_type/unknown_crate_types/g
s/variant_size_difference/variant_size_differences/g
s/transmute_fat_ptr/fat_ptr_transmutes/g
```
Closes#16545Closes#17932
Due to deprecation, this is a:
[breaking-change]
`IndexMut` on mutable vectors.
This fixes a bug whereby the mutability fixups for method behavior were
not kicking in after autoderef failed to happen at any level. It also
adds support for `Index` to the fixer-upper.
Closes#12825.
