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2014-02-08Update deriving to pass around the `cx` linearlyNiko Matsakis-132/+157
2014-02-08Fixed error starting with uppercasemr.Shu-28/+28
Error messages cleaned in librustc/middle Error messages cleaned in libsyntax Error messages cleaned in libsyntax more agressively Error messages cleaned in librustc more aggressively Fixed affected tests Fixed other failing tests Last failing tests fixed
2014-02-08auto merge of #12109 : omasanori/rust/small-fixes, r=sfacklerbors-6/+4
Most of them are to reduce warnings in testing builds.
2014-02-08Remove unnecessary parentheses.OGINO Masanori-1/+1
Signed-off-by: OGINO Masanori <masanori.ogino@gmail.com>
2014-02-08Fix unused import warnings.OGINO Masanori-5/+3
Signed-off-by: OGINO Masanori <masanori.ogino@gmail.com>
2014-02-08Implement `#[deriving(Show)]`.Huon Wilson-0/+140
2014-02-08syntax: split out the parsing and the formatting part of format_args!().Huon Wilson-74/+92
2014-02-08syntax: convert deriving to take &mut ExtCtxt.Huon Wilson-63/+63
2014-02-08syntax: remove some dead code.Huon Wilson-15/+1
2014-02-06auto merge of #12039 : alexcrichton/rust/no-conditions, r=brsonbors-11/+14
This has been a long time coming. Conditions in rust were initially envisioned as being a good alternative to error code return pattern. The idea is that all errors are fatal-by-default, and you can opt-in to handling the error by registering an error handler. While sounding nice, conditions ended up having some unforseen shortcomings: * Actually handling an error has some very awkward syntax: let mut result = None; let mut answer = None; io::io_error::cond.trap(|e| { result = Some(e) }).inside(|| { answer = Some(some_io_operation()); }); match result { Some(err) => { /* hit an I/O error */ } None => { let answer = answer.unwrap(); /* deal with the result of I/O */ } } This pattern can certainly use functions like io::result, but at its core actually handling conditions is fairly difficult * The "zero value" of a function is often confusing. One of the main ideas behind using conditions was to change the signature of I/O functions. Instead of read_be_u32() returning a result, it returned a u32. Errors were notified via a condition, and if you caught the condition you understood that the "zero value" returned is actually a garbage value. These zero values are often difficult to understand, however. One case of this is the read_bytes() function. The function takes an integer length of the amount of bytes to read, and returns an array of that size. The array may actually be shorter, however, if an error occurred. Another case is fs::stat(). The theoretical "zero value" is a blank stat struct, but it's a little awkward to create and return a zero'd out stat struct on a call to stat(). In general, the return value of functions that can raise error are much more natural when using a Result as opposed to an always-usable zero-value. * Conditions impose a necessary runtime requirement on *all* I/O. In theory I/O is as simple as calling read() and write(), but using conditions imposed the restriction that a rust local task was required if you wanted to catch errors with I/O. While certainly an surmountable difficulty, this was always a bit of a thorn in the side of conditions. * Functions raising conditions are not always clear that they are raising conditions. This suffers a similar problem to exceptions where you don't actually know whether a function raises a condition or not. The documentation likely explains, but if someone retroactively adds a condition to a function there's nothing forcing upstream users to acknowledge a new point of task failure. * Libaries using I/O are not guaranteed to correctly raise on conditions when an error occurs. In developing various I/O libraries, it's much easier to just return `None` from a read rather than raising an error. The silent contract of "don't raise on EOF" was a little difficult to understand and threw a wrench into the answer of the question "when do I raise a condition?" Many of these difficulties can be overcome through documentation, examples, and general practice. In the end, all of these difficulties added together ended up being too overwhelming and improving various aspects didn't end up helping that much. A result-based I/O error handling strategy also has shortcomings, but the cognitive burden is much smaller. The tooling necessary to make this strategy as usable as conditions were is much smaller than the tooling necessary for conditions. Perhaps conditions may manifest themselves as a future entity, but for now we're going to remove them from the standard library. Closes #9795 Closes #8968
2014-02-06Remove std::conditionAlex Crichton-11/+14
This has been a long time coming. Conditions in rust were initially envisioned as being a good alternative to error code return pattern. The idea is that all errors are fatal-by-default, and you can opt-in to handling the error by registering an error handler. While sounding nice, conditions ended up having some unforseen shortcomings: * Actually handling an error has some very awkward syntax: let mut result = None; let mut answer = None; io::io_error::cond.trap(|e| { result = Some(e) }).inside(|| { answer = Some(some_io_operation()); }); match result { Some(err) => { /* hit an I/O error */ } None => { let answer = answer.unwrap(); /* deal with the result of I/O */ } } This pattern can certainly use functions like io::result, but at its core actually handling conditions is fairly difficult * The "zero value" of a function is often confusing. One of the main ideas behind using conditions was to change the signature of I/O functions. Instead of read_be_u32() returning a result, it returned a u32. Errors were notified via a condition, and if you caught the condition you understood that the "zero value" returned is actually a garbage value. These zero values are often difficult to understand, however. One case of this is the read_bytes() function. The function takes an integer length of the amount of bytes to read, and returns an array of that size. The array may actually be shorter, however, if an error occurred. Another case is fs::stat(). The theoretical "zero value" is a blank stat struct, but it's a little awkward to create and return a zero'd out stat struct on a call to stat(). In general, the return value of functions that can raise error are much more natural when using a Result as opposed to an always-usable zero-value. * Conditions impose a necessary runtime requirement on *all* I/O. In theory I/O is as simple as calling read() and write(), but using conditions imposed the restriction that a rust local task was required if you wanted to catch errors with I/O. While certainly an surmountable difficulty, this was always a bit of a thorn in the side of conditions. * Functions raising conditions are not always clear that they are raising conditions. This suffers a similar problem to exceptions where you don't actually know whether a function raises a condition or not. The documentation likely explains, but if someone retroactively adds a condition to a function there's nothing forcing upstream users to acknowledge a new point of task failure. * Libaries using I/O are not guaranteed to correctly raise on conditions when an error occurs. In developing various I/O libraries, it's much easier to just return `None` from a read rather than raising an error. The silent contract of "don't raise on EOF" was a little difficult to understand and threw a wrench into the answer of the question "when do I raise a condition?" Many of these difficulties can be overcome through documentation, examples, and general practice. In the end, all of these difficulties added together ended up being too overwhelming and improving various aspects didn't end up helping that much. A result-based I/O error handling strategy also has shortcomings, but the cognitive burden is much smaller. The tooling necessary to make this strategy as usable as conditions were is much smaller than the tooling necessary for conditions. Perhaps conditions may manifest themselves as a future entity, but for now we're going to remove them from the standard library. Closes #9795 Closes #8968
2014-02-07Removed @self and @Trait.Eduard Burtescu-156/+49
2014-02-06auto merge of #12048 : sanxiyn/rust/crate-config, r=alexcrichtonbors-6/+5
2014-02-07Fix expansion testsSeo Sanghyeon-4/+4
2014-02-05pull extra::{serialize, ebml} into a separate libserialize crateJeff Olson-8/+7
- `extra::json` didn't make the cut, because of `extra::json` required dep on `extra::TreeMap`. If/when `extra::TreeMap` moves out of `extra`, then `extra::json` could move into `serialize` - `libextra`, `libsyntax` and `librustc` depend on the newly created `libserialize` - The extensions to various `extra` types like `DList`, `RingBuf`, `TreeMap` and `TreeSet` for `Encodable`/`Decodable` were moved into the respective modules in `extra` - There is some trickery, evident in `src/libextra/lib.rs` where a stub of `extra::serialize` is set up (in `src/libextra/serialize.rs`) for use in the stage0 build, where the snapshot rustc is still making deriving for `Encodable` and `Decodable` point at extra. Big props to @huonw for help working out the re-export solution for this extra: inline extra::serialize stub fix stuff clobbered in rebase + don't reexport serialize::serialize no more globs in libserialize syntax: fix import of libserialize traits librustc: fix bad imports in encoder/decoder add serialize dep to librustdoc fix failing run-pass tests w/ serialize dep adjust uuid dep more rebase de-clobbering for libserialize fixing tests, pushing libextra dep into cfg(test) fix doc code in extra::json adjust index.md links to serialize and uuid library
2014-02-06Avoid cloning ast::CrateConfigSeo Sanghyeon-2/+1
2014-02-03syntax: Remove usage of io_error in testsAlex Crichton-5/+4
2014-02-03syntax: Remove io_error usageAlex Crichton-5/+4
2014-02-02std::fmt: prepare to convert the formatting traits to methods, and workHuon Wilson-7/+5
around the lack of UFCS. The further work is pending a snapshot, to avoid putting #[cfg(stage0)] attributes on all the traits and duplicating them.
2014-02-02std: rename fmt::Default to `Show`.Huon Wilson-16/+16
This is a better name with which to have a #[deriving] mode. Decision in: https://github.com/mozilla/rust/wiki/Meeting-weekly-2014-01-28
2014-02-02syntax: convert LitBinary from @[u8] to Rc<~[u8]>.Huon Wilson-4/+2
2014-02-02librustc: Remove `@str` from the languagePatrick Walton-2/+2
2014-02-02libsyntax: Remove many uses of `token::ident_to_str`Patrick Walton-21/+42
2014-02-02libsyntax: Fix tests.Patrick Walton-17/+17
2014-02-02libsyntax: De-`@str` `MacroDef`Patrick Walton-3/+3
2014-02-02librustc: De-`@str` `NameAndSpan`Patrick Walton-21/+34
2014-02-02librustc: Fix merge fallout.Patrick Walton-63/+88
2014-02-02libsyntax: De-`@str` `get_single_str_from_tts`Patrick Walton-2/+4
2014-02-02libsyntax: Remove all `@str` from the ASTPatrick Walton-9/+9
2014-02-02libsyntax: Make float literals not use `@str`Patrick Walton-4/+3
2014-02-02libsyntax: De-`@str` pathnamesPatrick Walton-18/+15
2014-02-02librustc: Stop using `@str` for source.Patrick Walton-14/+14
2014-02-02libsyntax: De-`@str` `to_source`Patrick Walton-41/+42
2014-02-02libsyntax: De-`@str` literal strings in the ASTPatrick Walton-79/+161
2014-02-02libsyntax: Introduce an `InternedString` type to reduce `@str` in thePatrick Walton-22/+53
compiler and use it for attributes
2014-01-31Fix minor doc typosVirgile Andreani-2/+2
2014-01-30Implement default type parameters in generics.Eduard Burtescu-5/+16
2014-01-30Remove Times traitBrendan Zabarauskas-2/+2
`Times::times` was always a second-class loop because it did not support the `break` and `continue` operations. Its playful appeal was then lost after `do` was disabled for closures. It's time to let this one go.
2014-01-27auto merge of #11826 : huonw/rust/7621-deriving-errors, r=alexcrichtonbors-9/+7
cc #7621. See the commit message. I'm not sure if we should merge this now, or wait until we can write `Clone::clone(x)` which will directly solve the above issue with perfect error messages.
2014-01-28syntax: make deriving have slightly less cryptic error messages.Huon Wilson-9/+7
This unfortunately changes an error like error: mismatched types: expected `&&NotClone` but found `&NotClone` into error: type `NotClone` does not implement any method in scope named `clone`
2014-01-27Demote self to an (almost) regular argument and remove the env param.Eduard Burtescu-8/+13
Fixes #10667 and closes #10259.
2014-01-27auto merge of #11834 : huonw/rust/deriving-spans, r=alexcrichtonbors-137/+139
I'd forgotten to update them when I changed this a while ago; it now displays error messages linked to the struct/variant field, rather than the `#[deriving(Trait)]` line, for all traits. This also adds a very large number of autogenerated tests. I can easily remove/tone down that commit if necessary.
2014-01-27syntax: improve the spans of some #[deriving] traits.Huon Wilson-137/+138
This makes error messages about (e.g.) `#[deriving(Clone)] struct Foo { x: Type }` point at `x: Type` rather than `Clone` in the header (while still referring to the `#[deriving(Clone)]` in the expansion info).
2014-01-26Removed all instances of XXX in preparation for relaxing of FIXME ruleSalem Talha-8/+8
2014-01-26syntax: Fix a missing closing code tag in docs.Huon Wilson-0/+1
2014-01-25Simplify and rename macro APISteven Fackler-139/+70
Now that procedural macros can be implemented outside of the compiler, it's more important to have a reasonable API to work with. Here are the basic changes: * Rename SyntaxExpanderTTTrait to MacroExpander, SyntaxExpanderTT to BasicMacroExpander, etc. I think "procedural macro" is the right term for these now, right? The other option would be SynExtExpander or something like that. * Stop passing the SyntaxContext to extensions. This was only ever used by macro_rules, which doesn't even use it anymore. I can't think of a context in which an external extension would need it, and removal allows the API to be significantly simpler - no more SyntaxExpanderTTItemExpanderWithoutContext wrappers to worry about.
2014-01-24Move macro_rules! macros to libstdSteven Fackler-241/+0
They all have to go into a single module at the moment unfortunately. Ideally, the logging macros would live in std::logging, condition! would live in std::condition, format! in std::fmt, etc. However, this introduces cyclic dependencies between those modules and the macros they use which the current expansion system can't deal with. We may be able to get around this by changing the expansion phase to a two-pass system but that's for a later PR. Closes #2247 cc #11763
2014-01-24auto merge of #11720 : sfackler/rust/macro-export-source, r=alexcrichtonbors-7/+16
The old method of serializing the AST gives totally bogus spans if the expansion of an imported macro causes compilation errors. The best solution seems to be to serialize the actual textual macro definition and load it the same way the std-macros are. I'm not totally confident that getting the source from the CodeMap will always do the right thing, but it seems to work in simple cases.
2014-01-23Update flip() to be rev().Sean Chalmers-2/+2
Consensus leaned in favour of using rev instead of flip.
2014-01-23Rename Invert to Flip - Issue 10632Sean Chalmers-2/+2
Renamed the invert() function in iter.rs to flip(). Also renamed the Invert<T> type to Flip<T>. Some related code comments changed. Documentation that I could find has been updated, and all the instances I could locate where the function/type were called have been updated as well.