rust/src/libproc_macro/lib.rs

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2016-08-04 14:20:01 -05:00
// Copyright 2016 The Rust Project Developers. See the COPYRIGHT
// file at the top-level directory of this distribution and at
// http://rust-lang.org/COPYRIGHT.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
//! A support library for macro authors when defining new macros.
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//!
//! This library, provided by the standard distribution, provides the types
//! consumed in the interfaces of procedurally defined macro definitions such as
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//! function-like macros `#[proc_macro]`, macro attributes `#[proc_macro_attribute]` and
//! custom derive attributes`#[proc_macro_derive]`.
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//!
//! See [the book](../book/first-edition/procedural-macros.html) for more.
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#![stable(feature = "proc_macro_lib", since = "1.15.0")]
#![deny(missing_docs)]
#![doc(html_logo_url = "https://www.rust-lang.org/logos/rust-logo-128x128-blk-v2.png",
html_favicon_url = "https://doc.rust-lang.org/favicon.ico",
html_root_url = "https://doc.rust-lang.org/nightly/",
html_playground_url = "https://play.rust-lang.org/",
issue_tracker_base_url = "https://github.com/rust-lang/rust/issues/",
test(no_crate_inject, attr(deny(warnings))),
test(attr(allow(dead_code, deprecated, unused_variables, unused_mut))))]
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#![feature(nll)]
#![feature(staged_api)]
#![feature(const_fn)]
#![feature(extern_types)]
#![feature(in_band_lifetimes)]
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#![feature(optin_builtin_traits)]
#![feature(non_exhaustive)]
#![feature(specialization)]
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#![recursion_limit="256"]
#[unstable(feature = "proc_macro_internals", issue = "27812")]
#[doc(hidden)]
pub mod bridge;
mod diagnostic;
#[unstable(feature = "proc_macro_diagnostic", issue = "54140")]
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pub use diagnostic::{Diagnostic, Level, MultiSpan};
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use std::{fmt, iter, mem};
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use std::ops::{Bound, RangeBounds};
use std::path::PathBuf;
use std::str::FromStr;
/// The main type provided by this crate, representing an abstract stream of
/// tokens, or, more specifically, a sequence of token trees.
/// The type provide interfaces for iterating over those token trees and, conversely,
/// collecting a number of token trees into one stream.
///
/// This is both the input and output of `#[proc_macro]`, `#[proc_macro_attribute]`
/// and `#[proc_macro_derive]` definitions.
#[stable(feature = "proc_macro_lib", since = "1.15.0")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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#[derive(Clone)]
pub struct TokenStream(bridge::client::TokenStream);
#[stable(feature = "proc_macro_lib", since = "1.15.0")]
impl !Send for TokenStream {}
#[stable(feature = "proc_macro_lib", since = "1.15.0")]
impl !Sync for TokenStream {}
/// Error returned from `TokenStream::from_str`.
#[stable(feature = "proc_macro_lib", since = "1.15.0")]
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#[derive(Debug)]
pub struct LexError {
_inner: (),
}
#[stable(feature = "proc_macro_lib", since = "1.15.0")]
impl !Send for LexError {}
#[stable(feature = "proc_macro_lib", since = "1.15.0")]
impl !Sync for LexError {}
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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impl TokenStream {
/// Returns an empty `TokenStream` containing no token trees.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
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#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
pub fn new() -> TokenStream {
TokenStream(bridge::client::TokenStream::new())
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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}
/// Checks if this `TokenStream` is empty.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
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#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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pub fn is_empty(&self) -> bool {
self.0.is_empty()
}
}
/// Attempts to break the string into tokens and parse those tokens into a token stream.
/// May fail for a number of reasons, for example, if the string contains unbalanced delimiters
/// or characters not existing in the language.
/// All tokens in the parsed stream get `Span::call_site()` spans.
///
/// NOTE: Some errors may cause panics instead of returning `LexError`. We reserve the right to
/// change these errors into `LexError`s later.
#[stable(feature = "proc_macro_lib", since = "1.15.0")]
impl FromStr for TokenStream {
type Err = LexError;
fn from_str(src: &str) -> Result<TokenStream, LexError> {
Ok(TokenStream(bridge::client::TokenStream::from_str(src)))
}
}
// NB: the bridge only provides `to_string`, implement `fmt::Display`
// based on it (the reverse of the usual relationship between the two).
#[stable(feature = "proc_macro_lib", since = "1.15.0")]
impl ToString for TokenStream {
fn to_string(&self) -> String {
self.0.to_string()
}
}
/// Prints the token stream as a string that is supposed to be losslessly convertible back
/// into the same token stream (modulo spans), except for possibly `TokenTree::Group`s
/// with `Delimiter::None` delimiters and negative numeric literals.
#[stable(feature = "proc_macro_lib", since = "1.15.0")]
impl fmt::Display for TokenStream {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.write_str(&self.to_string())
}
}
/// Prints token in a form convenient for debugging.
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
#[stable(feature = "proc_macro_lib", since = "1.15.0")]
impl fmt::Debug for TokenStream {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.write_str("TokenStream ")?;
f.debug_list().entries(self.clone()).finish()
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
}
}
2017-06-04 20:41:33 -05:00
#[unstable(feature = "proc_macro_quote", issue = "54722")]
pub use quote::{quote, quote_span};
/// Creates a token stream containing a single token tree.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
impl From<TokenTree> for TokenStream {
fn from(tree: TokenTree) -> TokenStream {
TokenStream(bridge::client::TokenStream::from_token_tree(match tree {
TokenTree::Group(tt) => bridge::TokenTree::Group(tt.0),
TokenTree::Punct(tt) => bridge::TokenTree::Punct(tt.0),
TokenTree::Ident(tt) => bridge::TokenTree::Ident(tt.0),
TokenTree::Literal(tt) => bridge::TokenTree::Literal(tt.0)
}))
}
}
/// Collects a number of token trees into a single stream.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
impl iter::FromIterator<TokenTree> for TokenStream {
fn from_iter<I: IntoIterator<Item = TokenTree>>(trees: I) -> Self {
trees.into_iter().map(TokenStream::from).collect()
}
}
/// A "flattening" operation on token streams, collects token trees
/// from multiple token streams into a single stream.
#[stable(feature = "proc_macro_lib", since = "1.15.0")]
impl iter::FromIterator<TokenStream> for TokenStream {
fn from_iter<I: IntoIterator<Item = TokenStream>>(streams: I) -> Self {
let mut builder = bridge::client::TokenStreamBuilder::new();
for stream in streams {
builder.push(stream.0);
}
TokenStream(builder.build())
}
}
2018-08-12 14:45:48 -05:00
#[stable(feature = "token_stream_extend", since = "1.30.0")]
impl Extend<TokenTree> for TokenStream {
fn extend<I: IntoIterator<Item = TokenTree>>(&mut self, trees: I) {
self.extend(trees.into_iter().map(TokenStream::from));
}
}
#[stable(feature = "token_stream_extend", since = "1.30.0")]
impl Extend<TokenStream> for TokenStream {
fn extend<I: IntoIterator<Item = TokenStream>>(&mut self, streams: I) {
// FIXME(eddyb) Use an optimized implementation if/when possible.
*self = iter::once(mem::replace(self, Self::new())).chain(streams).collect();
2018-08-12 14:45:48 -05:00
}
}
/// Public implementation details for the `TokenStream` type, such as iterators.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
pub mod token_stream {
use {bridge, Group, Ident, Literal, Punct, TokenTree, TokenStream};
/// An iterator over `TokenStream`'s `TokenTree`s.
/// The iteration is "shallow", e.g. the iterator doesn't recurse into delimited groups,
/// and returns whole groups as token trees.
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
#[derive(Clone)]
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
pub struct IntoIter(bridge::client::TokenStreamIter);
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
impl Iterator for IntoIter {
type Item = TokenTree;
fn next(&mut self) -> Option<TokenTree> {
self.0.next().map(|tree| match tree {
bridge::TokenTree::Group(tt) => TokenTree::Group(Group(tt)),
bridge::TokenTree::Punct(tt) => TokenTree::Punct(Punct(tt)),
bridge::TokenTree::Ident(tt) => TokenTree::Ident(Ident(tt)),
bridge::TokenTree::Literal(tt) => TokenTree::Literal(Literal(tt)),
})
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
}
}
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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impl IntoIterator for TokenStream {
type Item = TokenTree;
type IntoIter = IntoIter;
fn into_iter(self) -> IntoIter {
IntoIter(self.0.into_iter())
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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}
}
}
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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/// `quote!(..)` accepts arbitrary tokens and expands into a `TokenStream` describing the input.
/// For example, `quote!(a + b)` will produce a expression, that, when evaluated, constructs
/// the `TokenStream` `[Ident("a"), Punct('+', Alone), Ident("b")]`.
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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///
/// Unquoting is done with `$`, and works by taking the single next ident as the unquoted term.
/// To quote `$` itself, use `$$`.
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///
/// This is a dummy macro, the actual implementation is in `quote::quote`.`
#[unstable(feature = "proc_macro_quote", issue = "54722")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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#[macro_export]
macro_rules! quote { () => {} }
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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#[unstable(feature = "proc_macro_internals", issue = "27812")]
#[doc(hidden)]
mod quote;
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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/// A region of source code, along with macro expansion information.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
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#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
#[derive(Copy, Clone)]
pub struct Span(bridge::client::Span);
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
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#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
impl !Send for Span {}
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
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#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
impl !Sync for Span {}
macro_rules! diagnostic_method {
($name:ident, $level:expr) => (
/// Create a new `Diagnostic` with the given `message` at the span
/// `self`.
#[unstable(feature = "proc_macro_diagnostic", issue = "54140")]
pub fn $name<T: Into<String>>(self, message: T) -> Diagnostic {
Diagnostic::spanned(self, $level, message)
}
)
}
impl Span {
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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/// A span that resolves at the macro definition site.
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#[unstable(feature = "proc_macro_def_site", issue = "54724")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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pub fn def_site() -> Span {
Span(bridge::client::Span::def_site())
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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}
/// The span of the invocation of the current procedural macro.
/// Identifiers created with this span will be resolved as if they were written
/// directly at the macro call location (call-site hygiene) and other code
/// at the macro call site will be able to refer to them as well.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
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#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
pub fn call_site() -> Span {
Span(bridge::client::Span::call_site())
}
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/// The original source file into which this span points.
#[unstable(feature = "proc_macro_span", issue = "54725")]
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pub fn source_file(&self) -> SourceFile {
SourceFile(self.0.source_file())
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}
/// The `Span` for the tokens in the previous macro expansion from which
/// `self` was generated from, if any.
#[unstable(feature = "proc_macro_span", issue = "54725")]
pub fn parent(&self) -> Option<Span> {
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self.0.parent().map(Span)
}
/// The span for the origin source code that `self` was generated from. If
/// this `Span` wasn't generated from other macro expansions then the return
/// value is the same as `*self`.
#[unstable(feature = "proc_macro_span", issue = "54725")]
pub fn source(&self) -> Span {
Span(self.0.source())
}
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/// Get the starting line/column in the source file for this span.
#[unstable(feature = "proc_macro_span", issue = "54725")]
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pub fn start(&self) -> LineColumn {
self.0.start()
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}
/// Get the ending line/column in the source file for this span.
#[unstable(feature = "proc_macro_span", issue = "54725")]
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pub fn end(&self) -> LineColumn {
self.0.end()
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}
/// Create a new span encompassing `self` and `other`.
///
/// Returns `None` if `self` and `other` are from different files.
#[unstable(feature = "proc_macro_span", issue = "54725")]
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pub fn join(&self, other: Span) -> Option<Span> {
self.0.join(other.0).map(Span)
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}
/// Creates a new span with the same line/column information as `self` but
/// that resolves symbols as though it were at `other`.
#[unstable(feature = "proc_macro_span", issue = "54725")]
pub fn resolved_at(&self, other: Span) -> Span {
Span(self.0.resolved_at(other.0))
}
/// Creates a new span with the same name resolution behavior as `self` but
/// with the line/column information of `other`.
#[unstable(feature = "proc_macro_span", issue = "54725")]
pub fn located_at(&self, other: Span) -> Span {
other.resolved_at(*self)
}
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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/// Compares to spans to see if they're equal.
#[unstable(feature = "proc_macro_span", issue = "54725")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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pub fn eq(&self, other: &Span) -> bool {
self.0 == other.0
}
diagnostic_method!(error, Level::Error);
diagnostic_method!(warning, Level::Warning);
diagnostic_method!(note, Level::Note);
diagnostic_method!(help, Level::Help);
}
/// Prints a span in a form convenient for debugging.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
impl fmt::Debug for Span {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
self.0.fmt(f)
}
}
2017-08-01 20:05:08 -05:00
/// A line-column pair representing the start or end of a `Span`.
#[unstable(feature = "proc_macro_span", issue = "54725")]
2017-08-01 20:05:08 -05:00
#[derive(Copy, Clone, Debug, PartialEq, Eq)]
pub struct LineColumn {
/// The 1-indexed line in the source file on which the span starts or ends (inclusive).
#[unstable(feature = "proc_macro_span", issue = "54725")]
pub line: usize,
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/// The 0-indexed column (in UTF-8 characters) in the source file on which
/// the span starts or ends (inclusive).
#[unstable(feature = "proc_macro_span", issue = "54725")]
pub column: usize
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}
#[unstable(feature = "proc_macro_span", issue = "54725")]
impl !Send for LineColumn {}
#[unstable(feature = "proc_macro_span", issue = "54725")]
impl !Sync for LineColumn {}
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/// The source file of a given `Span`.
#[unstable(feature = "proc_macro_span", issue = "54725")]
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#[derive(Clone)]
pub struct SourceFile(bridge::client::SourceFile);
2018-03-01 19:42:22 -06:00
2017-08-01 20:05:08 -05:00
impl SourceFile {
/// Get the path to this source file.
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///
/// ### Note
/// If the code span associated with this `SourceFile` was generated by an external macro, this
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/// macro, this may not be an actual path on the filesystem. Use [`is_real`] to check.
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///
/// Also note that even if `is_real` returns `true`, if `--remap-path-prefix` was passed on
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/// the command line, the path as given may not actually be valid.
///
/// [`is_real`]: #method.is_real
#[unstable(feature = "proc_macro_span", issue = "54725")]
pub fn path(&self) -> PathBuf {
PathBuf::from(self.0.path())
2017-08-01 20:05:08 -05:00
}
/// Returns `true` if this source file is a real source file, and not generated by an external
/// macro's expansion.
#[unstable(feature = "proc_macro_span", issue = "54725")]
2017-08-01 20:05:08 -05:00
pub fn is_real(&self) -> bool {
// This is a hack until intercrate spans are implemented and we can have real source files
// for spans generated in external macros.
// https://github.com/rust-lang/rust/pull/43604#issuecomment-333334368
self.0.is_real()
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}
}
#[unstable(feature = "proc_macro_span", issue = "54725")]
2017-08-01 20:05:08 -05:00
impl fmt::Debug for SourceFile {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.debug_struct("SourceFile")
.field("path", &self.path())
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.field("is_real", &self.is_real())
.finish()
}
}
#[unstable(feature = "proc_macro_span", issue = "54725")]
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impl PartialEq for SourceFile {
fn eq(&self, other: &Self) -> bool {
self.0.eq(&other.0)
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}
}
#[unstable(feature = "proc_macro_span", issue = "54725")]
2017-08-01 20:05:08 -05:00
impl Eq for SourceFile {}
/// A single token or a delimited sequence of token trees (e.g. `[1, (), ..]`).
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
#[derive(Clone)]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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pub enum TokenTree {
/// A token stream surrounded by bracket delimiters.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
Group(
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
Group
),
/// An identifier.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
Ident(
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
Ident
),
/// A single punctuation character (`+`, `,`, `$`, etc.).
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
Punct(
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
Punct
),
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
/// A literal character (`'a'`), string (`"hello"`), number (`2.3`), etc.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
Literal(
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
Literal
),
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
}
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
impl !Send for TokenTree {}
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
impl !Sync for TokenTree {}
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
impl TokenTree {
/// Returns the span of this tree, delegating to the `span` method of
/// the contained token or a delimited stream.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
pub fn span(&self) -> Span {
match *self {
TokenTree::Group(ref t) => t.span(),
2018-05-05 13:09:41 -05:00
TokenTree::Ident(ref t) => t.span(),
TokenTree::Punct(ref t) => t.span(),
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
TokenTree::Literal(ref t) => t.span(),
}
}
/// Configures the span for *only this token*.
///
/// Note that if this token is a `Group` then this method will not configure
/// the span of each of the internal tokens, this will simply delegate to
/// the `set_span` method of each variant.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
pub fn set_span(&mut self, span: Span) {
match *self {
TokenTree::Group(ref mut t) => t.set_span(span),
2018-05-05 13:09:41 -05:00
TokenTree::Ident(ref mut t) => t.set_span(span),
TokenTree::Punct(ref mut t) => t.set_span(span),
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
TokenTree::Literal(ref mut t) => t.set_span(span),
}
}
}
2018-11-12 12:05:20 -06:00
/// Prints token tree in a form convenient for debugging.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
impl fmt::Debug for TokenTree {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
// Each of these has the name in the struct type in the derived debug,
// so don't bother with an extra layer of indirection
match *self {
TokenTree::Group(ref tt) => tt.fmt(f),
2018-05-05 13:09:41 -05:00
TokenTree::Ident(ref tt) => tt.fmt(f),
TokenTree::Punct(ref tt) => tt.fmt(f),
TokenTree::Literal(ref tt) => tt.fmt(f),
}
}
}
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
impl From<Group> for TokenTree {
fn from(g: Group) -> TokenTree {
TokenTree::Group(g)
}
}
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
2018-05-05 13:09:41 -05:00
impl From<Ident> for TokenTree {
fn from(g: Ident) -> TokenTree {
TokenTree::Ident(g)
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
}
}
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
2018-05-05 13:09:41 -05:00
impl From<Punct> for TokenTree {
fn from(g: Punct) -> TokenTree {
TokenTree::Punct(g)
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
}
}
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
impl From<Literal> for TokenTree {
fn from(g: Literal) -> TokenTree {
TokenTree::Literal(g)
}
}
// NB: the bridge only provides `to_string`, implement `fmt::Display`
// based on it (the reverse of the usual relationship between the two).
#[stable(feature = "proc_macro_lib", since = "1.15.0")]
impl ToString for TokenTree {
fn to_string(&self) -> String {
match *self {
TokenTree::Group(ref t) => t.to_string(),
TokenTree::Ident(ref t) => t.to_string(),
TokenTree::Punct(ref t) => t.to_string(),
TokenTree::Literal(ref t) => t.to_string(),
}
}
}
/// Prints the token tree as a string that is supposed to be losslessly convertible back
/// into the same token tree (modulo spans), except for possibly `TokenTree::Group`s
/// with `Delimiter::None` delimiters and negative numeric literals.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
impl fmt::Display for TokenTree {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.write_str(&self.to_string())
}
}
/// A delimited token stream.
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
///
/// A `Group` internally contains a `TokenStream` which is surrounded by `Delimiter`s.
#[derive(Clone)]
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
pub struct Group(bridge::client::Group);
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
impl !Send for Group {}
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
impl !Sync for Group {}
/// Describes how a sequence of token trees is delimited.
#[derive(Copy, Clone, Debug, PartialEq, Eq)]
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
pub enum Delimiter {
/// `( ... )`
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
Parenthesis,
/// `{ ... }`
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
Brace,
/// `[ ... ]`
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
Bracket,
/// `Ø ... Ø`
/// An implicit delimiter, that may, for example, appear around tokens coming from a
/// "macro variable" `$var`. It is important to preserve operator priorities in cases like
/// `$var * 3` where `$var` is `1 + 2`.
/// Implicit delimiters may not survive roundtrip of a token stream through a string.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
None,
}
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
impl Group {
/// Creates a new `Group` with the given delimiter and token stream.
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
///
/// This constructor will set the span for this group to
/// `Span::call_site()`. To change the span you can use the `set_span`
/// method below.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
pub fn new(delimiter: Delimiter, stream: TokenStream) -> Group {
Group(bridge::client::Group::new(delimiter, stream.0))
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
}
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
/// Returns the delimiter of this `Group`
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
pub fn delimiter(&self) -> Delimiter {
self.0.delimiter()
}
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
/// Returns the `TokenStream` of tokens that are delimited in this `Group`.
///
/// Note that the returned token stream does not include the delimiter
/// returned above.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
pub fn stream(&self) -> TokenStream {
TokenStream(self.0.stream())
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
}
/// Returns the span for the delimiters of this token stream, spanning the
/// entire `Group`.
///
/// ```text
/// pub fn span(&self) -> Span {
/// ^^^^^^^
/// ```
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
pub fn span(&self) -> Span {
Span(self.0.span())
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
}
/// Returns the span pointing to the opening delimiter of this group.
///
/// ```text
/// pub fn span_open(&self) -> Span {
/// ^
/// ```
#[unstable(feature = "proc_macro_span", issue = "54725")]
pub fn span_open(&self) -> Span {
Span(self.0.span_open())
}
/// Returns the span pointing to the closing delimiter of this group.
///
/// ```text
/// pub fn span_close(&self) -> Span {
/// ^
/// ```
#[unstable(feature = "proc_macro_span", issue = "54725")]
pub fn span_close(&self) -> Span {
Span(self.0.span_close())
}
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
/// Configures the span for this `Group`'s delimiters, but not its internal
/// tokens.
///
/// This method will **not** set the span of all the internal tokens spanned
/// by this group, but rather it will only set the span of the delimiter
/// tokens at the level of the `Group`.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
pub fn set_span(&mut self, span: Span) {
self.0.set_span(span.0);
}
}
// NB: the bridge only provides `to_string`, implement `fmt::Display`
// based on it (the reverse of the usual relationship between the two).
#[stable(feature = "proc_macro_lib", since = "1.15.0")]
impl ToString for Group {
fn to_string(&self) -> String {
TokenStream::from(TokenTree::from(self.clone())).to_string()
}
}
/// Prints the group as a string that should be losslessly convertible back
/// into the same group (modulo spans), except for possibly `TokenTree::Group`s
/// with `Delimiter::None` delimiters.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
impl fmt::Display for Group {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.write_str(&self.to_string())
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
}
}
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
impl fmt::Debug for Group {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.debug_struct("Group")
.field("delimiter", &self.delimiter())
.field("stream", &self.stream())
.field("span", &self.span())
.finish()
}
}
2018-05-05 13:09:41 -05:00
/// An `Punct` is an single punctuation character like `+`, `-` or `#`.
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
///
2018-11-12 12:05:20 -06:00
/// Multi-character operators like `+=` are represented as two instances of `Punct` with different
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
/// forms of `Spacing` returned.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
#[derive(Clone)]
pub struct Punct(bridge::client::Punct);
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
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#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
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impl !Send for Punct {}
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
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#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
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impl !Sync for Punct {}
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/// Whether an `Punct` is followed immediately by another `Punct` or
/// followed by another token or whitespace.
#[derive(Copy, Clone, Debug, PartialEq, Eq)]
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
2017-06-04 20:41:33 -05:00
pub enum Spacing {
/// E.g. `+` is `Alone` in `+ =`, `+ident` or `+()`.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
Alone,
/// E.g. `+` is `Joint` in `+=` or `'#`.
/// Additionally, single quote `'` can join with identifiers to form lifetimes `'ident`.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
Joint,
}
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impl Punct {
/// Creates a new `Punct` from the given character and spacing.
/// The `ch` argument must be a valid punctuation character permitted by the language,
/// otherwise the function will panic.
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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///
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/// The returned `Punct` will have the default span of `Span::call_site()`
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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/// which can be further configured with the `set_span` method below.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
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#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
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pub fn new(ch: char, spacing: Spacing) -> Punct {
const LEGAL_CHARS: &[char] = &['=', '<', '>', '!', '~', '+', '-', '*', '/', '%', '^',
'&', '|', '@', '.', ',', ';', ':', '#', '$', '?', '\''];
if !LEGAL_CHARS.contains(&ch) {
panic!("unsupported character `{:?}`", ch)
}
Punct(bridge::client::Punct::new(ch, spacing))
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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}
/// Returns the value of this punctuation character as `char`.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
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#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
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pub fn as_char(&self) -> char {
self.0.as_char()
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
}
/// Returns the spacing of this punctuation character, indicating whether it's immediately
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/// followed by another `Punct` in the token stream, so they can potentially be combined into
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/// a multi-character operator (`Joint`), or it's followed by some other token or whitespace
/// (`Alone`) so the operator has certainly ended.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
pub fn spacing(&self) -> Spacing {
self.0.spacing()
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
}
/// Returns the span for this punctuation character.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
pub fn span(&self) -> Span {
Span(self.0.span())
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
}
/// Configure the span for this punctuation character.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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pub fn set_span(&mut self, span: Span) {
self.0 = self.0.with_span(span.0);
}
}
// NB: the bridge only provides `to_string`, implement `fmt::Display`
// based on it (the reverse of the usual relationship between the two).
#[stable(feature = "proc_macro_lib", since = "1.15.0")]
impl ToString for Punct {
fn to_string(&self) -> String {
TokenStream::from(TokenTree::from(self.clone())).to_string()
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
}
}
/// Prints the punctuation character as a string that should be losslessly convertible
/// back into the same character.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
2018-05-05 13:09:41 -05:00
impl fmt::Display for Punct {
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.write_str(&self.to_string())
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
}
}
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
impl fmt::Debug for Punct {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.debug_struct("Punct")
.field("ch", &self.as_char())
.field("spacing", &self.spacing())
.field("span", &self.span())
.finish()
}
}
/// An identifier (`ident`).
#[derive(Clone)]
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
pub struct Ident(bridge::client::Ident);
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impl Ident {
fn is_valid(string: &str) -> bool {
let mut chars = string.chars();
if let Some(start) = chars.next() {
(start == '_' || start.is_xid_start())
&& chars.all(|cont| cont == '_' || cont.is_xid_continue())
} else {
false
}
}
2018-05-05 13:09:41 -05:00
/// Creates a new `Ident` with the given `string` as well as the specified
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
/// `span`.
/// The `string` argument must be a valid identifier permitted by the
/// language, otherwise the function will panic.
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
///
/// Note that `span`, currently in rustc, configures the hygiene information
/// for this identifier.
///
/// As of this time `Span::call_site()` explicitly opts-in to "call-site" hygiene
/// meaning that identifiers created with this span will be resolved as if they were written
/// directly at the location of the macro call, and other code at the macro call site will be
/// able to refer to them as well.
///
/// Later spans like `Span::def_site()` will allow to opt-in to "definition-site" hygiene
/// meaning that identifiers created with this span will be resolved at the location of the
/// macro definition and other code at the macro call site will not be able to refer to them.
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
///
/// Due to the current importance of hygiene this constructor, unlike other
/// tokens, requires a `Span` to be specified at construction.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
2018-05-05 13:09:41 -05:00
pub fn new(string: &str, span: Span) -> Ident {
if !Ident::is_valid(string) {
panic!("`{:?}` is not a valid identifier", string)
}
Ident(bridge::client::Ident::new(string, span.0, false))
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
}
/// Same as `Ident::new`, but creates a raw identifier (`r#ident`).
#[unstable(feature = "proc_macro_raw_ident", issue = "54723")]
pub fn new_raw(string: &str, span: Span) -> Ident {
if !Ident::is_valid(string) {
panic!("`{:?}` is not a valid identifier", string)
}
Ident(bridge::client::Ident::new(string, span.0, true))
}
2018-05-05 13:09:41 -05:00
/// Returns the span of this `Ident`, encompassing the entire string returned
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
/// by `as_str`.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
pub fn span(&self) -> Span {
Span(self.0.span())
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
}
2018-05-05 13:09:41 -05:00
/// Configures the span of this `Ident`, possibly changing its hygiene context.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
pub fn set_span(&mut self, span: Span) {
self.0 = self.0.with_span(span.0);
}
}
// NB: the bridge only provides `to_string`, implement `fmt::Display`
// based on it (the reverse of the usual relationship between the two).
#[stable(feature = "proc_macro_lib", since = "1.15.0")]
impl ToString for Ident {
fn to_string(&self) -> String {
TokenStream::from(TokenTree::from(self.clone())).to_string()
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
}
}
/// Prints the identifier as a string that should be losslessly convertible
/// back into the same identifier.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
2018-05-05 13:09:41 -05:00
impl fmt::Display for Ident {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.write_str(&self.to_string())
}
}
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
impl fmt::Debug for Ident {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.debug_struct("Ident")
.field("ident", &self.to_string())
.field("span", &self.span())
.finish()
}
}
/// A literal string (`"hello"`), byte string (`b"hello"`),
/// character (`'a'`), byte character (`b'a'`), an integer or floating point number
/// with or without a suffix (`1`, `1u8`, `2.3`, `2.3f32`).
2018-05-05 13:09:41 -05:00
/// Boolean literals like `true` and `false` do not belong here, they are `Ident`s.
#[derive(Clone)]
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
pub struct Literal(bridge::client::Literal);
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
macro_rules! suffixed_int_literals {
($($name:ident => $kind:ident,)*) => ($(
/// Creates a new suffixed integer literal with the specified value.
///
/// This function will create an integer like `1u32` where the integer
/// value specified is the first part of the token and the integral is
/// also suffixed at the end.
2018-11-12 12:05:20 -06:00
/// Literals created from negative numbers may not survive round-trips through
/// `TokenStream` or strings and may be broken into two tokens (`-` and positive literal).
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
///
/// Literals created through this method have the `Span::call_site()`
/// span by default, which can be configured with the `set_span` method
/// below.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
pub fn $name(n: $kind) -> Literal {
Literal(bridge::client::Literal::typed_integer(&n.to_string(), stringify!($kind)))
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
}
)*)
}
macro_rules! unsuffixed_int_literals {
($($name:ident => $kind:ident,)*) => ($(
/// Creates a new unsuffixed integer literal with the specified value.
///
/// This function will create an integer like `1` where the integer
/// value specified is the first part of the token. No suffix is
/// specified on this token, meaning that invocations like
/// `Literal::i8_unsuffixed(1)` are equivalent to
/// `Literal::u32_unsuffixed(1)`.
/// Literals created from negative numbers may not survive rountrips through
/// `TokenStream` or strings and may be broken into two tokens (`-` and positive literal).
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
///
/// Literals created through this method have the `Span::call_site()`
/// span by default, which can be configured with the `set_span` method
/// below.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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pub fn $name(n: $kind) -> Literal {
Literal(bridge::client::Literal::integer(&n.to_string()))
}
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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)*)
}
impl Literal {
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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suffixed_int_literals! {
u8_suffixed => u8,
u16_suffixed => u16,
u32_suffixed => u32,
u64_suffixed => u64,
u128_suffixed => u128,
usize_suffixed => usize,
i8_suffixed => i8,
i16_suffixed => i16,
i32_suffixed => i32,
i64_suffixed => i64,
i128_suffixed => i128,
isize_suffixed => isize,
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}
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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unsuffixed_int_literals! {
u8_unsuffixed => u8,
u16_unsuffixed => u16,
u32_unsuffixed => u32,
u64_unsuffixed => u64,
u128_unsuffixed => u128,
usize_unsuffixed => usize,
i8_unsuffixed => i8,
i16_unsuffixed => i16,
i32_unsuffixed => i32,
i64_unsuffixed => i64,
i128_unsuffixed => i128,
isize_unsuffixed => isize,
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}
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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/// Creates a new unsuffixed floating-point literal.
///
/// This constructor is similar to those like `Literal::i8_unsuffixed` where
/// the float's value is emitted directly into the token but no suffix is
/// used, so it may be inferred to be a `f64` later in the compiler.
/// Literals created from negative numbers may not survive rountrips through
/// `TokenStream` or strings and may be broken into two tokens (`-` and positive literal).
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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///
/// # Panics
///
/// This function requires that the specified float is finite, for
/// example if it is infinity or NaN this function will panic.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
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#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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pub fn f32_unsuffixed(n: f32) -> Literal {
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if !n.is_finite() {
panic!("Invalid float literal {}", n);
}
Literal(bridge::client::Literal::float(&n.to_string()))
}
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
/// Creates a new suffixed floating-point literal.
///
2018-11-12 12:05:20 -06:00
/// This constructor will create a literal like `1.0f32` where the value
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
/// specified is the preceding part of the token and `f32` is the suffix of
/// the token. This token will always be inferred to be an `f32` in the
/// compiler.
/// Literals created from negative numbers may not survive rountrips through
/// `TokenStream` or strings and may be broken into two tokens (`-` and positive literal).
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
///
/// # Panics
///
/// This function requires that the specified float is finite, for
/// example if it is infinity or NaN this function will panic.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
pub fn f32_suffixed(n: f32) -> Literal {
2017-06-04 20:41:33 -05:00
if !n.is_finite() {
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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panic!("Invalid float literal {}", n);
}
Literal(bridge::client::Literal::f32(&n.to_string()))
}
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
/// Creates a new unsuffixed floating-point literal.
///
/// This constructor is similar to those like `Literal::i8_unsuffixed` where
/// the float's value is emitted directly into the token but no suffix is
/// used, so it may be inferred to be a `f64` later in the compiler.
/// Literals created from negative numbers may not survive rountrips through
/// `TokenStream` or strings and may be broken into two tokens (`-` and positive literal).
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
///
/// # Panics
///
/// This function requires that the specified float is finite, for
/// example if it is infinity or NaN this function will panic.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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pub fn f64_unsuffixed(n: f64) -> Literal {
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if !n.is_finite() {
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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panic!("Invalid float literal {}", n);
}
Literal(bridge::client::Literal::float(&n.to_string()))
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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}
/// Creates a new suffixed floating-point literal.
///
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/// This constructor will create a literal like `1.0f64` where the value
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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/// specified is the preceding part of the token and `f64` is the suffix of
/// the token. This token will always be inferred to be an `f64` in the
/// compiler.
/// Literals created from negative numbers may not survive rountrips through
/// `TokenStream` or strings and may be broken into two tokens (`-` and positive literal).
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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///
/// # Panics
///
/// This function requires that the specified float is finite, for
/// example if it is infinity or NaN this function will panic.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
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#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
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pub fn f64_suffixed(n: f64) -> Literal {
if !n.is_finite() {
panic!("Invalid float literal {}", n);
}
Literal(bridge::client::Literal::f64(&n.to_string()))
}
/// String literal.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
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#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
pub fn string(string: &str) -> Literal {
Literal(bridge::client::Literal::string(string))
}
/// Character literal.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
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#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
pub fn character(ch: char) -> Literal {
Literal(bridge::client::Literal::character(ch))
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}
/// Byte string literal.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
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#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
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pub fn byte_string(bytes: &[u8]) -> Literal {
Literal(bridge::client::Literal::byte_string(bytes))
}
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
/// Returns the span encompassing this literal.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
pub fn span(&self) -> Span {
Span(self.0.span())
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
}
/// Configures the span associated for this literal.
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
pub fn set_span(&mut self, span: Span) {
self.0.set_span(span.0);
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
}
2018-11-20 23:12:30 -06:00
/// Returns a `Span` that is a subset of `self.span()` containing only the
/// source bytes in range `range`. Returns `None` if the would-be trimmed
/// span is outside the bounds of `self`.
// FIXME(SergioBenitez): check that the byte range starts and ends at a
// UTF-8 boundary of the source. otherwise, it's likely that a panic will
// occur elsewhere when the source text is printed.
// FIXME(SergioBenitez): there is no way for the user to know what
// `self.span()` actually maps to, so this method can currently only be
// called blindly. For example, `to_string()` for the character 'c' returns
// "'\u{63}'"; there is no way for the user to know whether the source text
// was 'c' or whether it was '\u{63}'.
#[unstable(feature = "proc_macro_span", issue = "54725")]
pub fn subspan<R: RangeBounds<usize>>(&self, range: R) -> Option<Span> {
// HACK(eddyb) something akin to `Option::cloned`, but for `Bound<&T>`.
fn cloned_bound<T: Clone>(bound: Bound<&T>) -> Bound<T> {
match bound {
Bound::Included(x) => Bound::Included(x.clone()),
Bound::Excluded(x) => Bound::Excluded(x.clone()),
Bound::Unbounded => Bound::Unbounded,
}
2018-11-20 23:12:30 -06:00
}
self.0.subspan(
cloned_bound(range.start_bound()),
cloned_bound(range.end_bound()),
).map(Span)
}
}
// NB: the bridge only provides `to_string`, implement `fmt::Display`
// based on it (the reverse of the usual relationship between the two).
#[stable(feature = "proc_macro_lib", since = "1.15.0")]
impl ToString for Literal {
fn to_string(&self) -> String {
TokenStream::from(TokenTree::from(self.clone())).to_string()
2018-11-20 23:12:30 -06:00
}
}
/// Prints the literal as a string that should be losslessly convertible
/// back into the same literal (except for possible rounding for floating point literals).
rustc: Stabilize much of the `proc_macro` feature This commit stabilizes some of the `proc_macro` language feature as well as a number of APIs in the `proc_macro` crate as [previously discussed][1]. This means that on stable Rust you can now define custom procedural macros which operate as attributes attached to items or `macro_rules!`-like bang-style invocations. This extends the suite of currently stable procedural macros, custom derives, with custom attributes and custom bang macros. Note though that despite the stabilization in this commit procedural macros are still not usable on stable Rust. To stabilize that we'll need to stabilize at least part of the `use_extern_macros` feature. Currently you can define a procedural macro attribute but you can't import it to call it! A summary of the changes made in this PR (as well as the various consequences) is: * The `proc_macro` language and library features are now stable. * Other APIs not stabilized in the `proc_macro` crate are now named under a different feature, such as `proc_macro_diagnostic` or `proc_macro_span`. * A few checks in resolution for `proc_macro` being enabled have switched over to `use_extern_macros` being enabled. This means that code using `#![feature(proc_macro)]` today will likely need to move to `#![feature(use_extern_macros)]`. It's intended that this PR, once landed, will be followed up with an attempt to stabilize a small slice of `use_extern_macros` just for procedural macros to make this feature 100% usable on stable. [1]: https://internals.rust-lang.org/t/help-stabilize-a-subset-of-macros-2-0/7252
2018-07-03 17:36:31 -05:00
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
proc_macro: Reorganize public API This commit is a reorganization of the `proc_macro` crate's public user-facing API. This is the result of a number of discussions at the recent Rust All-Hands where we're hoping to get the `proc_macro` crate into ship shape for stabilization of a subset of its functionality in the Rust 2018 release. The reorganization here is motivated by experiences from the `proc-macro2`, `quote`, and `syn` crates on crates.io (and other crates which depend on them). The main focus is future flexibility along with making a few more operations consistent and/or fixing bugs. A summary of the changes made from today's `proc_macro` API is: * The `TokenNode` enum has been removed and the public fields of `TokenTree` have also been removed. Instead the `TokenTree` type is now a public enum (what `TokenNode` was) and each variant is an opaque struct which internally contains `Span` information. This makes the various tokens a bit more consistent, require fewer wrappers, and otherwise provides good future-compatibility as opaque structs are easy to modify later on. * `Literal` integer constructors have been expanded to be unambiguous as to what they're doing and also allow for more future flexibility. Previously constructors like `Literal::float` and `Literal::integer` were used to create unsuffixed literals and the concrete methods like `Literal::i32` would create a suffixed token. This wasn't immediately clear to all users (the suffixed/unsuffixed aspect) and having *one* constructor for unsuffixed literals required us to pick a largest type which may not always be true. To fix these issues all constructors are now of the form `Literal::i32_unsuffixed` or `Literal::i32_suffixed` (for all integral types). This should allow future compatibility as well as being immediately clear what's suffixed and what isn't. * Each variant of `TokenTree` internally contains a `Span` which can also be configured via `set_span`. For example `Literal` and `Term` now both internally contain a `Span` rather than having it stored in an auxiliary location. * Constructors of all tokens are called `new` now (aka `Term::intern` is gone) and most do not take spans. Manufactured tokens typically don't have a fresh span to go with them and the span is purely used for error-reporting **except** the span for `Term`, which currently affects hygiene. The default spans for all these constructed tokens is `Span::call_site()` for now. The `Term` type's constructor explicitly requires passing in a `Span` to provide future-proofing against possible hygiene changes. It's intended that a first pass of stabilization will likely only stabilize `Span::call_site()` which is an explicit opt-in for "I would like no hygiene here please". The intention here is to make this explicit in procedural macros to be forwards-compatible with a hygiene-specifying solution. * Some of the conversions for `TokenStream` have been simplified a little. * The `TokenTreeIter` iterator was renamed to `token_stream::IntoIter`. Overall the hope is that this is the "final pass" at the API of `TokenStream` and most of `TokenTree` before stabilization. Explicitly left out here is any changes to `Span`'s API which will likely need to be re-evaluated before stabilization. All changes in this PR have already been reflected to the [`proc-macro2`], `quote`, and `syn` crates. New versions of all these crates have also been published to crates.io. Once this lands in nightly I plan on making an internals post again summarizing the changes made here and also calling on all macro authors to give the APIs a spin and see how they work. Hopefully pending no major issues we can then have an FCP to stabilize later this cycle! [`proc-macro2`]: https://docs.rs/proc-macro2/0.3.1/proc_macro2/
2018-04-02 10:19:32 -05:00
impl fmt::Display for Literal {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.write_str(&self.to_string())
}
}
#[stable(feature = "proc_macro_lib2", since = "1.29.0")]
impl fmt::Debug for Literal {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
// FIXME(eddyb) `Literal` should not expose internal `Debug` impls.
self.0.fmt(f)
}
}