proc_macro_error2/lib.rs
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//! # proc-macro-error2
//!
//! This crate aims to make error reporting in proc-macros simple and easy to use.
//! Migrate from `panic!`-based errors for as little effort as possible!
//!
//! (Also, you can explicitly [append a dummy token stream](dummy/index.html) to your errors).
//!
//! To achieve his, this crate serves as a tiny shim around `proc_macro::Diagnostic` and
//! `compile_error!`. It detects the best way of emitting available based on compiler's version.
//! When the underlying diagnostic type is finally stabilized, this crate will simply be
//! delegating to it requiring no changes in your code!
//!
//! So you can just use this crate and have *both* some of `proc_macro::Diagnostic` functionality
//! available on stable ahead of time *and* your error-reporting code future-proof.
//!
//! ## Cargo features
//!
//! This crate provides *enabled by default* `syn-error` feature that gates
//! `impl From<syn::Error> for Diagnostic` conversion. If you don't use `syn` and want
//! to cut off some of compilation time, you can disable it via
//!
//! ```toml
//! [dependencies]
//! proc-macro-error2 = { version = "2.0.0", default-features = false }
//! ```
//!
//! ***Please note that disabling this feature makes sense only if you don't depend on `syn`
//! directly or indirectly, and you very likely do.**
//!
//! ## Real world examples
//!
//! * [`structopt-derive`](https://github.com/TeXitoi/structopt/tree/master/structopt-derive)
//! (abort-like usage)
//! * [`auto-impl`](https://github.com/auto-impl-rs/auto_impl/) (emit-like usage)
//!
//! ## Limitations
//!
//! - Warnings are emitted only on nightly, they are ignored on stable.
//! - "help" suggestions can't have their own span info on stable,
//! (essentially inheriting the parent span).
//! - If a panic occurs somewhere in your macro no errors will be displayed. This is not a
//! technical limitation but rather intentional design. `panic` is not for error reporting.
//!
//! ### `#[proc_macro_error]` attribute
//!
//! **This attribute MUST be present on the top level of your macro** (the function
//! annotated with any of `#[proc_macro]`, `#[proc_macro_derive]`, `#[proc_macro_attribute]`).
//!
//! This attribute performs the setup and cleanup necessary to make things work.
//!
//! In most cases you'll need the simple `#[proc_macro_error]` form without any
//! additional settings. Feel free to [skip the "Syntax" section](#macros).
//!
//! #### Syntax
//!
//! `#[proc_macro_error]` or `#[proc_macro_error(settings...)]`, where `settings...`
//! is a comma-separated list of:
//!
//! - `proc_macro_hack`:
//!
//! In order to correctly cooperate with `#[proc_macro_hack]`, `#[proc_macro_error]`
//! attribute must be placed *before* (above) it, like this:
//!
//! ```no_run
//! # use proc_macro2::TokenStream;
//! # const IGNORE: &str = "
//! #[proc_macro_error]
//! #[proc_macro_hack]
//! #[proc_macro]
//! # ";
//! fn my_macro(input: TokenStream) -> TokenStream {
//! unimplemented!()
//! }
//! ```
//!
//! If, for some reason, you can't place it like that you can use
//! `#[proc_macro_error(proc_macro_hack)]` instead.
//!
//! # Note
//!
//! If `proc-macro-hack` was detected (by any means) `allow_not_macro`
//! and `assert_unwind_safe` will be applied automatically.
//!
//! - `allow_not_macro`:
//!
//! By default, the attribute checks that it's applied to a proc-macro.
//! If none of `#[proc_macro]`, `#[proc_macro_derive]` nor `#[proc_macro_attribute]` are
//! present it will panic. It's the intention - this crate is supposed to be used only with
//! proc-macros.
//!
//! This setting is made to bypass the check, useful in certain circumstances.
//!
//! Pay attention: the function this attribute is applied to must return
//! `proc_macro::TokenStream`.
//!
//! This setting is implied if `proc-macro-hack` was detected.
//!
//! - `assert_unwind_safe`:
//!
//! By default, your code must be [unwind safe]. If your code is not unwind safe,
//! but you believe it's correct, you can use this setting to bypass the check.
//! You would need this for code that uses `lazy_static` or `thread_local` with
//! `Cell/RefCell` inside (and the like).
//!
//! This setting is implied if `#[proc_macro_error]` is applied to a function
//! marked as `#[proc_macro]`, `#[proc_macro_derive]` or `#[proc_macro_attribute]`.
//!
//! This setting is also implied if `proc-macro-hack` was detected.
//!
//! ## Macros
//!
//! Most of the time you want to use the macros. Syntax is described in the next section below.
//!
//! You'll need to decide how you want to emit errors:
//!
//! * Emit the error and abort. Very much panic-like usage. Served by [`abort!`] and
//! [`abort_call_site!`].
//! * Emit the error but do not abort right away, looking for other errors to report.
//! Served by [`emit_error!`] and [`emit_call_site_error!`].
//!
//! You **can** mix these usages.
//!
//! `abort` and `emit_error` take a "source span" as the first argument. This source
//! will be used to highlight the place the error originates from. It must be one of:
//!
//! * *Something* that implements [`ToTokens`] (most types in `syn` and `proc-macro2` do).
//! This source is the preferable one since it doesn't lose span information on multi-token
//! spans, see [this issue](https://gitlab.com/CreepySkeleton/proc-macro-error/-/issues/6)
//! for details.
//! * [`proc_macro::Span`]
//! * [`proc-macro2::Span`]
//!
//! The rest is your message in format-like style.
//!
//! See [the next section](#syntax-1) for detailed syntax.
//!
//! - [`abort!`]:
//!
//! Very much panic-like usage - abort right away and show the error.
//! Expands to [`!`] (never type).
//!
//! - [`abort_call_site!`]:
//!
//! Shortcut for `abort!(Span::call_site(), ...)`. Expands to [`!`] (never type).
//!
//! - [`emit_error!`]:
//!
//! [`proc_macro::Diagnostic`]-like usage - emit the error but keep going,
//! looking for other errors to report.
//! The compilation will fail nonetheless. Expands to [`()`] (unit type).
//!
//! - [`emit_call_site_error!`]:
//!
//! Shortcut for `emit_error!(Span::call_site(), ...)`. Expands to [`()`] (unit type).
//!
//! - [`emit_warning!`]:
//!
//! Like `emit_error!` but emit a warning instead of error. The compilation won't fail
//! because of warnings.
//! Expands to [`()`] (unit type).
//!
//! **Beware**: warnings are nightly only, they are completely ignored on stable.
//!
//! - [`emit_call_site_warning!`]:
//!
//! Shortcut for `emit_warning!(Span::call_site(), ...)`. Expands to [`()`] (unit type).
//!
//! - [`diagnostic`]:
//!
//! Build an instance of `Diagnostic` in format-like style.
//!
//! #### Syntax
//!
//! All the macros have pretty much the same syntax:
//!
//! 1. ```ignore
//! abort!(single_expr)
//! ```
//! Shortcut for `Diagnostic::from(expr).abort()`.
//!
//! 2. ```ignore
//! abort!(span, message)
//! ```
//! The first argument is an expression the span info should be taken from.
//!
//! The second argument is the error message, it must implement [`ToString`].
//!
//! 3. ```ignore
//! abort!(span, format_literal, format_args...)
//! ```
//!
//! This form is pretty much the same as 2, except `format!(format_literal, format_args...)`
//! will be used to for the message instead of [`ToString`].
//!
//! That's it. `abort!`, `emit_warning`, `emit_error` share this exact syntax.
//!
//! `abort_call_site!`, `emit_call_site_warning`, `emit_call_site_error` lack 1 form
//! and do not take span in 2'th and 3'th forms. Those are essentially shortcuts for
//! `macro!(Span::call_site(), args...)`.
//!
//! `diagnostic!` requires a [`Level`] instance between `span` and second argument
//! (1'th form is the same).
//!
//! > **Important!**
//! >
//! > If you have some type from `proc_macro` or `syn` to point to, do not call `.span()`
//! > on it but rather use it directly:
//! > ```no_run
//! > # use proc_macro_error2::abort;
//! > # let input = proc_macro2::TokenStream::new();
//! > let ty: syn::Type = syn::parse2(input).unwrap();
//! > abort!(ty, "BOOM");
//! > // ^^ <-- avoid .span()
//! > ```
//! >
//! > `.span()` calls work too, but you may experience regressions in message quality.
//!
//! #### Note attachments
//!
//! 3. Every macro can have "note" attachments (only 2 and 3 form).
//! ```ignore
//! let opt_help = if have_some_info { Some("did you mean `this`?") } else { None };
//!
//! abort!(
//! span, message; // <--- attachments start with `;` (semicolon)
//!
//! help = "format {} {}", "arg1", "arg2"; // <--- every attachment ends with `;`,
//! // maybe except the last one
//!
//! note = "to_string"; // <--- one arg uses `.to_string()` instead of `format!()`
//!
//! yay = "I see what {} did here", "you"; // <--- "help =" and "hint =" are mapped
//! // to Diagnostic::help,
//! // anything else is Diagnostic::note
//!
//! wow = note_span => "custom span"; // <--- attachments can have their own span
//! // it takes effect only on nightly though
//!
//! hint =? opt_help; // <-- "optional" attachment, get displayed only if `Some`
//! // must be single `Option` expression
//!
//! note =? note_span => opt_help // <-- optional attachments can have custom spans too
//! );
//! ```
//!
//! ### Diagnostic type
//!
//! [`Diagnostic`] type is intentionally designed to be API compatible with [`proc_macro::Diagnostic`].
//! Not all API is implemented, only the part that can be reasonably implemented on stable.
//!
//!
//! [`abort!`]: macro.abort.html
//! [`abort_call_site!`]: macro.abort_call_site.html
//! [`emit_warning!`]: macro.emit_warning.html
//! [`emit_error!`]: macro.emit_error.html
//! [`emit_call_site_warning!`]: macro.emit_call_site_error.html
//! [`emit_call_site_error!`]: macro.emit_call_site_warning.html
//! [`diagnostic!`]: macro.diagnostic.html
//! [`Diagnostic`]: struct.Diagnostic.html
//!
//! [`proc_macro::Span`]: https://doc.rust-lang.org/proc_macro/struct.Span.html
//! [`proc_macro::Diagnostic`]: https://doc.rust-lang.org/proc_macro/struct.Diagnostic.html
//!
//! [unwind safe]: https://doc.rust-lang.org/std/panic/trait.UnwindSafe.html#what-is-unwind-safety
//! [`!`]: https://doc.rust-lang.org/std/primitive.never.html
//! [`()`]: https://doc.rust-lang.org/std/primitive.unit.html
//! [`ToString`]: https://doc.rust-lang.org/std/string/trait.ToString.html
//!
//! [`proc-macro2::Span`]: https://docs.rs/proc-macro2/1.0.10/proc_macro2/struct.Span.html
//! [`ToTokens`]: https://docs.rs/quote/1.0.3/quote/trait.ToTokens.html
//!
#![cfg_attr(feature = "nightly", feature(proc_macro_diagnostic))]
#![forbid(unsafe_code)]
extern crate proc_macro;
pub use crate::{
diagnostic::{Diagnostic, DiagnosticExt, Level},
dummy::{append_dummy, set_dummy},
};
pub use proc_macro_error_attr2::proc_macro_error;
use proc_macro2::Span;
use quote::{quote, ToTokens};
use std::cell::Cell;
use std::panic::{catch_unwind, resume_unwind, UnwindSafe};
pub mod dummy;
mod diagnostic;
mod macros;
mod sealed;
#[cfg(not(feature = "nightly"))]
#[path = "imp/fallback.rs"]
mod imp;
#[cfg(feature = "nightly")]
#[path = "imp/delegate.rs"]
mod imp;
#[derive(Debug, Clone, Copy)]
#[must_use = "A SpanRange does nothing unless used"]
pub struct SpanRange {
pub first: Span,
pub last: Span,
}
impl SpanRange {
/// Create a range with the `first` and `last` spans being the same.
pub fn single_span(span: Span) -> Self {
SpanRange {
first: span,
last: span,
}
}
/// Create a `SpanRange` resolving at call site.
pub fn call_site() -> Self {
SpanRange::single_span(Span::call_site())
}
/// Construct span range from a `TokenStream`. This method always preserves all the
/// range.
///
/// ### Note
///
/// If the stream is empty, the result is `SpanRange::call_site()`. If the stream
/// consists of only one `TokenTree`, the result is `SpanRange::single_span(tt.span())`
/// that doesn't lose anything.
pub fn from_tokens(ts: &dyn ToTokens) -> Self {
let mut spans = ts.to_token_stream().into_iter().map(|tt| tt.span());
let first = spans.next().unwrap_or_else(Span::call_site);
let last = spans.last().unwrap_or(first);
SpanRange { first, last }
}
/// Join two span ranges. The resulting range will start at `self.first` and end at
/// `other.last`.
pub fn join_range(self, other: SpanRange) -> Self {
SpanRange {
first: self.first,
last: other.last,
}
}
/// Collapse the range into single span, preserving as much information as possible.
#[must_use]
pub fn collapse(self) -> Span {
self.first.join(self.last).unwrap_or(self.first)
}
}
/// This traits expands `Result<T, Into<Diagnostic>>` with some handy shortcuts.
pub trait ResultExt {
type Ok;
/// Behaves like `Result::unwrap`: if self is `Ok` yield the contained value,
/// otherwise abort macro execution via `abort!`.
fn unwrap_or_abort(self) -> Self::Ok;
/// Behaves like `Result::expect`: if self is `Ok` yield the contained value,
/// otherwise abort macro execution via `abort!`.
/// If it aborts then resulting error message will be preceded with `message`.
fn expect_or_abort(self, msg: &str) -> Self::Ok;
}
/// This traits expands `Option` with some handy shortcuts.
pub trait OptionExt {
type Some;
/// Behaves like `Option::expect`: if self is `Some` yield the contained value,
/// otherwise abort macro execution via `abort_call_site!`.
/// If it aborts the `message` will be used for [`compile_error!`][compl_err] invocation.
///
/// [compl_err]: https://doc.rust-lang.org/std/macro.compile_error.html
fn expect_or_abort(self, msg: &str) -> Self::Some;
}
/// Abort macro execution and display all the emitted errors, if any.
///
/// Does nothing if no errors were emitted (warnings do not count).
pub fn abort_if_dirty() {
imp::abort_if_dirty();
}
impl<T, E: Into<Diagnostic>> ResultExt for Result<T, E> {
type Ok = T;
fn unwrap_or_abort(self) -> T {
match self {
Ok(res) => res,
Err(e) => e.into().abort(),
}
}
fn expect_or_abort(self, message: &str) -> T {
match self {
Ok(res) => res,
Err(e) => {
let mut e = e.into();
e.msg = format!("{}: {}", message, e.msg);
e.abort()
}
}
}
}
impl<T> OptionExt for Option<T> {
type Some = T;
fn expect_or_abort(self, message: &str) -> T {
match self {
Some(res) => res,
None => abort_call_site!(message),
}
}
}
/// This is the entry point for a proc-macro.
///
/// **NOT PUBLIC API, SUBJECT TO CHANGE WITHOUT ANY NOTICE**
#[doc(hidden)]
pub fn entry_point<F>(f: F, proc_macro_hack: bool) -> proc_macro::TokenStream
where
F: FnOnce() -> proc_macro::TokenStream + UnwindSafe,
{
ENTERED_ENTRY_POINT.with(|flag| flag.set(flag.get() + 1));
let caught = catch_unwind(f);
let dummy = dummy::cleanup();
let err_storage = imp::cleanup();
ENTERED_ENTRY_POINT.with(|flag| flag.set(flag.get() - 1));
let gen_error = || {
if proc_macro_hack {
quote! {{
macro_rules! proc_macro_call {
() => ( unimplemented!() )
}
#(#err_storage)*
#dummy
unimplemented!()
}}
} else {
quote!( #(#err_storage)* #dummy )
}
};
match caught {
Ok(ts) => {
if err_storage.is_empty() {
ts
} else {
gen_error().into()
}
}
Err(boxed) => match boxed.downcast::<AbortNow>() {
Ok(_) => gen_error().into(),
Err(boxed) => resume_unwind(boxed),
},
}
}
fn abort_now() -> ! {
check_correctness();
std::panic::panic_any(AbortNow)
}
thread_local! {
static ENTERED_ENTRY_POINT: Cell<usize> = const { Cell::new(0) };
}
struct AbortNow;
fn check_correctness() {
assert!(
ENTERED_ENTRY_POINT.with(Cell::get) != 0,
"proc-macro-error2 API cannot be used outside of `entry_point` invocation, \
perhaps you forgot to annotate your #[proc_macro] function with `#[proc_macro_error]"
);
}
/// **ALL THE STUFF INSIDE IS NOT PUBLIC API!!!**
#[doc(hidden)]
pub mod __export {
// reexports for use in macros
pub use proc_macro;
pub use proc_macro2;
use proc_macro2::Span;
use quote::ToTokens;
use crate::SpanRange;
// inspired by
// https://github.com/dtolnay/case-studies/blob/master/autoref-specialization/README.md#simple-application
pub trait SpanAsSpanRange {
#[allow(non_snake_case)]
fn FIRST_ARG_MUST_EITHER_BE_Span_OR_IMPLEMENT_ToTokens_OR_BE_SpanRange(&self) -> SpanRange;
}
pub trait Span2AsSpanRange {
#[allow(non_snake_case)]
fn FIRST_ARG_MUST_EITHER_BE_Span_OR_IMPLEMENT_ToTokens_OR_BE_SpanRange(&self) -> SpanRange;
}
pub trait ToTokensAsSpanRange {
#[allow(non_snake_case)]
fn FIRST_ARG_MUST_EITHER_BE_Span_OR_IMPLEMENT_ToTokens_OR_BE_SpanRange(&self) -> SpanRange;
}
pub trait SpanRangeAsSpanRange {
#[allow(non_snake_case)]
fn FIRST_ARG_MUST_EITHER_BE_Span_OR_IMPLEMENT_ToTokens_OR_BE_SpanRange(&self) -> SpanRange;
}
impl<T: ToTokens> ToTokensAsSpanRange for &T {
fn FIRST_ARG_MUST_EITHER_BE_Span_OR_IMPLEMENT_ToTokens_OR_BE_SpanRange(&self) -> SpanRange {
let mut ts = self.to_token_stream().into_iter();
let first = match ts.next() {
Some(t) => t.span(),
None => Span::call_site(),
};
let last = match ts.last() {
Some(t) => t.span(),
None => first,
};
SpanRange { first, last }
}
}
impl Span2AsSpanRange for Span {
fn FIRST_ARG_MUST_EITHER_BE_Span_OR_IMPLEMENT_ToTokens_OR_BE_SpanRange(&self) -> SpanRange {
SpanRange {
first: *self,
last: *self,
}
}
}
impl SpanAsSpanRange for proc_macro::Span {
fn FIRST_ARG_MUST_EITHER_BE_Span_OR_IMPLEMENT_ToTokens_OR_BE_SpanRange(&self) -> SpanRange {
SpanRange {
first: (*self).into(),
last: (*self).into(),
}
}
}
impl SpanRangeAsSpanRange for SpanRange {
fn FIRST_ARG_MUST_EITHER_BE_Span_OR_IMPLEMENT_ToTokens_OR_BE_SpanRange(&self) -> SpanRange {
*self
}
}
}