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2015-01-12cleanup: `&foo[0..a]` -> `&foo[..a]`Jorge Aparicio-44/+44
2015-01-12Add note about TLS lookups in random()Steve Klabnik-1/+26
Fixes #16072
2015-01-12auto merge of #20896 : sfackler/rust/atomic-rename, r=alexcrichtonbors-59/+59
Change any use of AtomicInt to AtomicIsize and AtomicUint to AtomicUsize Closes #20893 [breaking-change]
2015-01-11powerpc: pthread supportRicho Healey-3/+6
2015-01-11powerpc: Fixup more stack workRicho Healey-0/+1
2015-01-11powerpc: add cdefs for linuxRicho Healey-3/+9
This borrowed entirely from the mips definitions, and should be revisited after it lands while testing.
2015-01-11powerpc: Janky segmented stack supportRicho Healey-0/+12
2015-01-11powerpc: Add unwinder size REVISITRicho Healey-0/+3
2015-01-11powerpc: Add libstd utilsRicho Healey-4/+15
2015-01-12Merge pull request #20920 from piyo/issue-20853bors-1/+13
Give mmap a page-aligned stack start address Reviewed-by: Aatch
2015-01-12Merge pull request #20915 from csouth3/hash-itersbors-30/+98
Add ExactSizeIterator impls for Hash{Map, Set, Table} Reviewed-by: Gankro
2015-01-12Merge pull request #20903 from XMPPwocky/deadlink1bors-1/+1
Fix dead link in documentation (s/task/thread/) Reviewed-by: Aatch
2015-01-11Rename AtomicInt and AtomicUintSteven Fackler-59/+59
Change any use of AtomicInt to AtomicIsize and AtomicUint to AtomicUsize Closes #20893 [breaking-change]
2015-01-11std: Remove fortune cookies from fatal runtime errorsBrian Anderson-50/+0
Closes #13871
2015-01-11Give mmap a page-aligned stack start addressClifford Caoile-1/+13
2015-01-10Add ExactSizeIterator impls for Hash{Map, Set, Table}Chase Southwood-30/+98
This commit also changes the return types of all `size_hint()` impls in these files from (uint, Option<uint>) to (usize, Option<usize>).
2015-01-10Implement Show for types in std::io::{buffered,util}Steven Fackler-10/+46
A derived implementation would not be appropriate for the Buffered types since the buffer is both huge (64k by default) and full of uninitialized memory. Instead of printing the whole thing, we display how full it is. I also altered MultiWriter to make it generic over Writers instead of taking Box<Writer> trait objects. Box<Writer> implements Writer so existing use cases should continue to work, and this enables a more useful Show implementation in applicable cases. The change to MultiWriter may break code that uses it, but any fixes should be easy. [breaking-change]
2015-01-11Fix dead link (s/task/thread/)Nathaniel Theis-1/+1
2015-01-09auto merge of #20776 : kmcallister/rust/macro-cleanup, r=alexcrichtonbors-179/+2
r? @alexcrichton. This passes tests for me.
2015-01-09Re-reduce libstd macro duplicationKeegan McAllister-179/+2
The libstd definitions move to libcore, which causes some minor updates there.
2015-01-09Merge pull request #20699 from vhbit/ios-archsbors-11/+27
Better iOS support Reviewed-by: alexcrichton
2015-01-09iOS: preliminary 64-bit archs supportValerii Hiora-3/+6
2015-01-09iOS: fixed test buildValerii Hiora-8/+21
Now it is possible to run tests on a jailbroken device
2015-01-09Merge pull request #20741 from mneumann/dragonfly-pthread-mutexbors-0/+37
Fix assertion in Mutex::destroy() on DragonFly (#20698) Reviewed-by: alexcrichton
2015-01-08Merge pull request #20735 from squidpickles/masterbors-1/+1
Spelling fix compatibel -> compatible Reviewed-by: Gankro
2015-01-08Fix destroy assertions in mutex/rwlock/condvarMichael Neumann-0/+37
On DragonFly pthread_{mutex,rwlock,condvar}_destroy() returns EINVAL when called on a pthread_{mutex,rwlock,condvar}_t that was just initialized via PTHREAD_{MUTEX,RWLOCK,CONDVAR}_INITIALIZER and not used in the meantime or initialized via pthread_{mutex,rwlock,condvar}_init(). Change the code to treat a return value of EINVAL on DragonFly as success.
2015-01-08rollup merge of #20754: nikomatsakis/int-featureAlex Crichton-4/+5
Conflicts: src/test/compile-fail/borrowck-move-out-of-overloaded-auto-deref.rs src/test/compile-fail/issue-2590.rs src/test/compile-fail/lint-stability.rs src/test/compile-fail/slice-mut-2.rs src/test/compile-fail/std-uncopyable-atomics.rs
2015-01-08Remove warning from the libraries.Huon Wilson-4/+5
This adds the int_uint feature to *every* library, whether or not it needs it.
2015-01-08Improvements to feature stagingBrian Anderson-80/+80
This gets rid of the 'experimental' level, removes the non-staged_api case (i.e. stability levels for out-of-tree crates), and lets the staged_api attributes use 'unstable' and 'deprecated' lints. This makes the transition period to the full feature staging design a bit nicer.
2015-01-07Spelling fix compatibel -> compatibleKevin Rauwolf-1/+1
2015-01-07More test fixes and rebase conflictsAlex Crichton-1/+1
2015-01-07Test fixes and rebase conflictsAlex Crichton-4/+4
2015-01-07rollup merge of #20723: pnkfelix/feature-gate-box-syntaxAlex Crichton-0/+1
Conflicts: src/compiletest/compiletest.rs src/libcollections/lib.rs src/libserialize/lib.rs src/libsyntax/feature_gate.rs
2015-01-07rollup merge of #20657: alexcrichton/stabilize-macrosAlex Crichton-49/+32
2015-01-07rollup merge of #20721: japaric/snapAlex Crichton-127/+123
Conflicts: src/libcollections/vec.rs src/libcore/fmt/mod.rs src/librustc/lint/builtin.rs src/librustc/session/config.rs src/librustc_trans/trans/base.rs src/librustc_trans/trans/context.rs src/librustc_trans/trans/type_.rs src/librustc_typeck/check/_match.rs src/librustdoc/html/format.rs src/libsyntax/std_inject.rs src/libsyntax/util/interner.rs src/test/compile-fail/mut-pattern-mismatched.rs
2015-01-07rollup merge of #20722: alexcrichton/audit-showAlex Crichton-2/+2
Conflicts: src/libcollections/vec.rs src/libcore/fmt/mod.rs src/librustdoc/html/format.rs
2015-01-07rollup merge of #20708: aturon/new-int-modulesAlex Crichton-20/+59
Conflicts: src/libserialize/lib.rs
2015-01-07rollup merge of #20680: nick29581/target-wordAlex Crichton-22/+41
Closes #20421 [breaking-change] r? @brson
2015-01-07rollup merge of #20663: brson/feature-stagingAlex Crichton-0/+1
This partially implements the feature staging described in the [release channel RFC][rc]. It does not yet fully conform to the RFC as written, but does accomplish its goals sufficiently for the 1.0 alpha release. It has three primary user-visible effects: * On the nightly channel, use of unstable APIs generates a warning. * On the beta channel, use of unstable APIs generates a warning. * On the beta channel, use of feature gates generates a warning. Code that does not trigger these warnings is considered 'stable', modulo pre-1.0 bugs. Disabling the warnings for unstable APIs continues to be done in the existing (i.e. old) style, via `#[allow(...)]`, not that specified in the RFC. I deem this marginally acceptable since any code that must do this is not using the stable dialect of Rust. Use of feature gates is itself gated with the new 'unstable_features' lint, on nightly set to 'allow', and on beta 'warn'. The attribute scheme used here corresponds to an older version of the RFC, with the `#[staged_api]` crate attribute toggling the staging behavior of the stability attributes, but the user impact is only in-tree so I'm not concerned about having to make design changes later (and I may ultimately prefer the scheme here after all, with the `#[staged_api]` crate attribute). Since the Rust codebase itself makes use of unstable features the compiler and build system do a midly elaborate dance to allow it to bootstrap while disobeying these lints (which would otherwise be errors because Rust builds with `-D warnings`). This patch includes one significant hack that causes a regression. Because the `format_args!` macro emits calls to unstable APIs it would trigger the lint. I added a hack to the lint to make it not trigger, but this in turn causes arguments to `println!` not to be checked for feature gates. I don't presently understand macro expansion well enough to fix. This is bug #20661. Closes #16678 [rc]: https://github.com/rust-lang/rfcs/blob/master/text/0507-release-channels.md Next steps are to disable the existing out-of-tree behavior for stability attributes, and convert the remaining system to be feature-based per the RFC. During the first beta cycle we will set these lints to 'forbid'.
2015-01-07rollup merge of #20654: alexcrichton/stabilize-hashAlex Crichton-276/+363
This commit aims to prepare the `std::hash` module for alpha by formalizing its current interface whileholding off on adding `#[stable]` to the new APIs. The current usage with the `HashMap` and `HashSet` types is also reconciled by separating out composable parts of the design. The primary goal of this slight redesign is to separate the concepts of a hasher's state from a hashing algorithm itself. The primary change of this commit is to separate the `Hasher` trait into a `Hasher` and a `HashState` trait. Conceptually the old `Hasher` trait was actually just a factory for various states, but hashing had very little control over how these states were used. Additionally the old `Hasher` trait was actually fairly unrelated to hashing. This commit redesigns the existing `Hasher` trait to match what the notion of a `Hasher` normally implies with the following definition: trait Hasher { type Output; fn reset(&mut self); fn finish(&self) -> Output; } This `Hasher` trait emphasizes that hashing algorithms may produce outputs other than a `u64`, so the output type is made generic. Other than that, however, very little is assumed about a particular hasher. It is left up to implementors to provide specific methods or trait implementations to feed data into a hasher. The corresponding `Hash` trait becomes: trait Hash<H: Hasher> { fn hash(&self, &mut H); } The old default of `SipState` was removed from this trait as it's not something that we're willing to stabilize until the end of time, but the type parameter is always required to implement `Hasher`. Note that the type parameter `H` remains on the trait to enable multidispatch for specialization of hashing for particular hashers. Note that `Writer` is not mentioned in either of `Hash` or `Hasher`, it is simply used as part `derive` and the implementations for all primitive types. With these definitions, the old `Hasher` trait is realized as a new `HashState` trait in the `collections::hash_state` module as an unstable addition for now. The current definition looks like: trait HashState { type Hasher: Hasher; fn hasher(&self) -> Hasher; } The purpose of this trait is to emphasize that the one piece of functionality for implementors is that new instances of `Hasher` can be created. This conceptually represents the two keys from which more instances of a `SipHasher` can be created, and a `HashState` is what's stored in a `HashMap`, not a `Hasher`. Implementors of custom hash algorithms should implement the `Hasher` trait, and only hash algorithms intended for use in hash maps need to implement or worry about the `HashState` trait. The entire module and `HashState` infrastructure remains `#[unstable]` due to it being recently redesigned, but some other stability decision made for the `std::hash` module are: * The `Writer` trait remains `#[experimental]` as it's intended to be replaced with an `io::Writer` (more details soon). * The top-level `hash` function is `#[unstable]` as it is intended to be generic over the hashing algorithm instead of hardwired to `SipHasher` * The inner `sip` module is now private as its one export, `SipHasher` is reexported in the `hash` module. And finally, a few changes were made to the default parameters on `HashMap`. * The `RandomSipHasher` default type parameter was renamed to `RandomState`. This renaming emphasizes that it is not a hasher, but rather just state to generate hashers. It also moves away from the name "sip" as it may not always be implemented as `SipHasher`. This type lives in the `std::collections::hash_map` module as `#[unstable]` * The associated `Hasher` type of `RandomState` is creatively called... `Hasher`! This concrete structure lives next to `RandomState` as an implemenation of the "default hashing algorithm" used for a `HashMap`. Under the hood this is currently implemented as `SipHasher`, but it draws an explicit interface for now and allows us to modify the implementation over time if necessary. There are many breaking changes outlined above, and as a result this commit is a: [breaking-change]
2015-01-07fix the `&mut _` patternsJorge Aparicio-3/+3
2015-01-08Added `box_syntax` feature gate; added to std and rustc crates for bootstrap.Felix S. Klock II-0/+1
To avoid using the feauture, change uses of `box <expr>` to `Box::new(<expr>)` alternative, as noted by the feature gate message. (Note that box patterns have no analogous trivial replacement, at least not in general; you need to revise the code to do a partial match, deref, and then the rest of the match.) [breaking-change]
2015-01-07Preliminary feature stagingBrian Anderson-0/+1
This partially implements the feature staging described in the [release channel RFC][rc]. It does not yet fully conform to the RFC as written, but does accomplish its goals sufficiently for the 1.0 alpha release. It has three primary user-visible effects: * On the nightly channel, use of unstable APIs generates a warning. * On the beta channel, use of unstable APIs generates a warning. * On the beta channel, use of feature gates generates a warning. Code that does not trigger these warnings is considered 'stable', modulo pre-1.0 bugs. Disabling the warnings for unstable APIs continues to be done in the existing (i.e. old) style, via `#[allow(...)]`, not that specified in the RFC. I deem this marginally acceptable since any code that must do this is not using the stable dialect of Rust. Use of feature gates is itself gated with the new 'unstable_features' lint, on nightly set to 'allow', and on beta 'warn'. The attribute scheme used here corresponds to an older version of the RFC, with the `#[staged_api]` crate attribute toggling the staging behavior of the stability attributes, but the user impact is only in-tree so I'm not concerned about having to make design changes later (and I may ultimately prefer the scheme here after all, with the `#[staged_api]` crate attribute). Since the Rust codebase itself makes use of unstable features the compiler and build system to a midly elaborate dance to allow it to bootstrap while disobeying these lints (which would otherwise be errors because Rust builds with `-D warnings`). This patch includes one significant hack that causes a regression. Because the `format_args!` macro emits calls to unstable APIs it would trigger the lint. I added a hack to the lint to make it not trigger, but this in turn causes arguments to `println!` not to be checked for feature gates. I don't presently understand macro expansion well enough to fix. This is bug #20661. Closes #16678 [rc]: https://github.com/rust-lang/rfcs/blob/master/text/0507-release-channels.md
2015-01-07std: Tweak String implementationsAlex Crichton-2/+2
This commit performs a pass over the implementations of the new `String` trait in the formatting module. Some implementations were removed as a conservative move pending an upcoming convention about `String` implementations, and some were added in order to retain consistency across the libraries. Specifically: * All "smart pointers" implement `String` now, adding missing implementations for `Arc` and `Rc`. * The `Vec<T>` and `[T]` types no longer implement `String`. * The `*const T` and `*mut T` type no longer implement `String`. * The `()` type no longer implements `String`. * The `Path` type's `Show` implementation does not surround itself with `Path {}` (a minor tweak). All implementations of `String` in this PR were also marked `#[stable]` to indicate that the types will continue to implement the `String` trait regardless of what it looks like.
2015-01-07use slicing sugarJorge Aparicio-124/+120
2015-01-07register new snapshotsJorge Aparicio-13/+1
2015-01-07std: Stablize the macros moduleAlex Crichton-49/+32
This commit performs a pass over the `std::macros` module, applying stability attributes where necessary. In particular, this audits macros for patterns such as: * Standard use of forward-to-format-args via `$($arg:tt)*` (or `+`) * Prevent macro-defined identifiers from leaking into expression arguments as hygiene is not perfectly implemented. * Wherever possible, `$crate` is used now. Specifically, the following actions were taken: * The `std::macros` module itself is no longer public. * The `panic!` macro is stable * The `assert!` macro is stable * The `assert_eq!` macro is stable * The `debug_assert!` macro is stable * The `debug_assert_eq!` macro is stable * The `unreachable!` macro is stable after removing the extra forms to bring the definition in line with the `unimplemented!` macro. * The `try!` macro is stable * The `vec!` macro is stable [breaking-change]
2015-01-07std: Stabilize the std::hash moduleAlex Crichton-276/+363
This commit aims to prepare the `std::hash` module for alpha by formalizing its current interface whileholding off on adding `#[stable]` to the new APIs. The current usage with the `HashMap` and `HashSet` types is also reconciled by separating out composable parts of the design. The primary goal of this slight redesign is to separate the concepts of a hasher's state from a hashing algorithm itself. The primary change of this commit is to separate the `Hasher` trait into a `Hasher` and a `HashState` trait. Conceptually the old `Hasher` trait was actually just a factory for various states, but hashing had very little control over how these states were used. Additionally the old `Hasher` trait was actually fairly unrelated to hashing. This commit redesigns the existing `Hasher` trait to match what the notion of a `Hasher` normally implies with the following definition: trait Hasher { type Output; fn reset(&mut self); fn finish(&self) -> Output; } This `Hasher` trait emphasizes that hashing algorithms may produce outputs other than a `u64`, so the output type is made generic. Other than that, however, very little is assumed about a particular hasher. It is left up to implementors to provide specific methods or trait implementations to feed data into a hasher. The corresponding `Hash` trait becomes: trait Hash<H: Hasher> { fn hash(&self, &mut H); } The old default of `SipState` was removed from this trait as it's not something that we're willing to stabilize until the end of time, but the type parameter is always required to implement `Hasher`. Note that the type parameter `H` remains on the trait to enable multidispatch for specialization of hashing for particular hashers. Note that `Writer` is not mentioned in either of `Hash` or `Hasher`, it is simply used as part `derive` and the implementations for all primitive types. With these definitions, the old `Hasher` trait is realized as a new `HashState` trait in the `collections::hash_state` module as an unstable addition for now. The current definition looks like: trait HashState { type Hasher: Hasher; fn hasher(&self) -> Hasher; } The purpose of this trait is to emphasize that the one piece of functionality for implementors is that new instances of `Hasher` can be created. This conceptually represents the two keys from which more instances of a `SipHasher` can be created, and a `HashState` is what's stored in a `HashMap`, not a `Hasher`. Implementors of custom hash algorithms should implement the `Hasher` trait, and only hash algorithms intended for use in hash maps need to implement or worry about the `HashState` trait. The entire module and `HashState` infrastructure remains `#[unstable]` due to it being recently redesigned, but some other stability decision made for the `std::hash` module are: * The `Writer` trait remains `#[experimental]` as it's intended to be replaced with an `io::Writer` (more details soon). * The top-level `hash` function is `#[unstable]` as it is intended to be generic over the hashing algorithm instead of hardwired to `SipHasher` * The inner `sip` module is now private as its one export, `SipHasher` is reexported in the `hash` module. And finally, a few changes were made to the default parameters on `HashMap`. * The `RandomSipHasher` default type parameter was renamed to `RandomState`. This renaming emphasizes that it is not a hasher, but rather just state to generate hashers. It also moves away from the name "sip" as it may not always be implemented as `SipHasher`. This type lives in the `std::collections::hash_map` module as `#[unstable]` * The associated `Hasher` type of `RandomState` is creatively called... `Hasher`! This concrete structure lives next to `RandomState` as an implemenation of the "default hashing algorithm" used for a `HashMap`. Under the hood this is currently implemented as `SipHasher`, but it draws an explicit interface for now and allows us to modify the implementation over time if necessary. There are many breaking changes outlined above, and as a result this commit is a: [breaking-change]
2015-01-08Rename `target_word_size` to `target_pointer_width`Nick Cameron-22/+41
Closes #20421 [breaking-change]
2015-01-07Add isize, usize modules, deprecate int, uint modulesAaron Turon-6/+58
This PR introduces `isize` and `usize` modules to `core` and `std`, and deprecates the existing `int` and `uint` modules. The rustdoc primitive type links now point to these new modules. Due to deprecation this is a: [breaking-change]