//! This library provides [`eyre::Report`][Report], a trait object based //! error handling type for easy idiomatic error handling and reporting in Rust //! applications. //! //! This crate is a fork of [`anyhow`] with support for customized //! error reports. For more details on customization, check out the docs on //! [`eyre::EyreHandler`]. //! //! ## Custom Report Handlers //! //! The heart of this crate is its ability to swap out the Handler type to change //! what information is carried alongside errors and how the end report is //! formatted. This crate is meant to be used alongside companion crates that //! customize its behavior. Below is a list of known crates that export report //! handlers for eyre and short summaries of what features they provide. //! //! - [`stable-eyre`]: Switches the backtrace type from `std`'s to `backtrace-rs`'s //! so that it can be captured on stable. The report format is identical to //! `DefaultHandler`'s report format. //! - [`color-eyre`]: Captures a `backtrace::Backtrace` and a //! `tracing_error::SpanTrace`. Provides a `Section` trait for attaching warnings //! and suggestions to error reports. The end report is then pretty printed with //! the help of [`color-backtrace`], [`color-spantrace`], and `ansi_term`. Check //! out the README on [`color-eyre`] for details on the report format. //! - [`simple-eyre`]: A minimal `EyreHandler` that captures no additional //! information, for when you do not wish to capture `Backtrace`s with errors. //! - [`jane-eyre`]: A report handler crate that exists purely for the pun. //! Currently just re-exports `color-eyre`. //! //! ## Usage Recommendations and Stability Considerations //! //! **We recommend users do not re-export types from this library as part their //! own public API for libraries with external users.** The main reason for this //! is that it will make your library API break if we ever bump the major version //! number on eyre and your users upgrade the eyre version they use in their //! application code before you upgrade your own eyre dep version[^1]. //! //! However, even beyond this API stability hazard, there are other good reasons //! to avoid using `eyre::Report` as your public error type. //! //! - You export an undocumented error interface that is otherwise still //! accessible via downcast, making it hard for users to react to specific //! errors while not preventing them from depending on details you didn't mean //! to make part of your public API. //! - This in turn makes the error types of all libraries you use a part of //! your public API as well, and makes changing any of those libraries into //! undetectable runtime breakage. //! - If many of your errors are constructed from strings, you encourage your //! users to use string comparison for reacting to specific errors, which is //! brittle and turns updating error messages into potentially undetectable //! runtime breakage. //! //! ## Details //! //! - Use `Result`, or equivalently `eyre::Result`, as the //! return type of any fallible function. //! //! Within the function, use `?` to easily propagate any error that implements the //! `std::error::Error` trait. //! //! ```rust //! # pub trait Deserialize {} //! # //! # mod serde_json { //! # use super::Deserialize; //! # use std::io; //! # //! # pub fn from_str(json: &str) -> io::Result { //! # unimplemented!() //! # } //! # } //! # //! # struct ClusterMap; //! # //! # impl Deserialize for ClusterMap {} //! # //! use eyre::Result; //! //! fn get_cluster_info() -> Result { //! let config = std::fs::read_to_string("cluster.json")?; //! let map: ClusterMap = serde_json::from_str(&config)?; //! Ok(map) //! } //! # //! # fn main() {} //! ``` //! //! - Wrap a lower level error with a new error created from a message to help the //! person troubleshooting understand the chain of failures that occurred. A //! low-level error like "No such file or directory" can be annoying to debug //! without more information about what higher level step the application was in //! the middle of. //! //! ```rust //! # struct It; //! # //! # impl It { //! # fn detach(&self) -> Result<()> { //! # unimplemented!() //! # } //! # } //! # //! use eyre::{WrapErr, Result}; //! //! fn main() -> Result<()> { //! # return Ok(()); //! # //! # const _: &str = stringify! { //! ... //! # }; //! # //! # let it = It; //! # let path = "./path/to/instrs.json"; //! # //! it.detach().wrap_err("Failed to detach the important thing")?; //! //! let content = std::fs::read(path) //! .wrap_err_with(|| format!("Failed to read instrs from {}", path))?; //! # //! # const _: &str = stringify! { //! ... //! # }; //! # //! # Ok(()) //! } //! ``` //! //! ```console //! Error: Failed to read instrs from ./path/to/instrs.json //! //! Caused by: //! No such file or directory (os error 2) //! ``` //! //! - Downcasting is supported and can be done by value, by shared reference, or by //! mutable reference as needed. //! //! ```rust //! # use eyre::{Report, eyre}; //! # use std::fmt::{self, Display}; //! # use std::task::Poll; //! # //! # #[derive(Debug)] //! # enum DataStoreError { //! # Censored(()), //! # } //! # //! # impl Display for DataStoreError { //! # fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { //! # unimplemented!() //! # } //! # } //! # //! # impl std::error::Error for DataStoreError {} //! # //! # const REDACTED_CONTENT: () = (); //! # //! # #[cfg(not(feature = "auto-install"))] //! # eyre::set_hook(Box::new(eyre::DefaultHandler::default_with)).unwrap(); //! # //! # let error: Report = eyre!("..."); //! # let root_cause = &error; //! # //! # let ret = //! // If the error was caused by redaction, then return a //! // tombstone instead of the content. //! match root_cause.downcast_ref::() { //! Some(DataStoreError::Censored(_)) => Ok(Poll::Ready(REDACTED_CONTENT)), //! None => Err(error), //! } //! # ; //! ``` //! //! - If using the nightly channel, a backtrace is captured and printed with the //! error if the underlying error type does not already provide its own. In order //! to see backtraces, they must be enabled through the environment variables //! described in [`std::backtrace`]: //! //! - If you want panics and errors to both have backtraces, set //! `RUST_BACKTRACE=1`; //! - If you want only errors to have backtraces, set `RUST_LIB_BACKTRACE=1`; //! - If you want only panics to have backtraces, set `RUST_BACKTRACE=1` and //! `RUST_LIB_BACKTRACE=0`. //! //! The tracking issue for this feature is [rust-lang/rust#53487]. //! //! [`std::backtrace`]: https://doc.rust-lang.org/std/backtrace/index.html#environment-variables //! [rust-lang/rust#53487]: https://github.com/rust-lang/rust/issues/53487 //! //! - Eyre works with any error type that has an impl of `std::error::Error`, //! including ones defined in your crate. We do not bundle a `derive(Error)` macro //! but you can write the impls yourself or use a standalone macro like //! [thiserror]. //! //! ```rust //! use thiserror::Error; //! //! #[derive(Error, Debug)] //! pub enum FormatError { //! #[error("Invalid header (expected {expected:?}, got {found:?})")] //! InvalidHeader { //! expected: String, //! found: String, //! }, //! #[error("Missing attribute: {0}")] //! MissingAttribute(String), //! } //! ``` //! //! - One-off error messages can be constructed using the `eyre!` macro, which //! supports string interpolation and produces an `eyre::Report`. //! //! ```rust //! # use eyre::{eyre, Result}; //! # //! # fn demo() -> Result<()> { //! # let missing = "..."; //! return Err(eyre!("Missing attribute: {}", missing)); //! # Ok(()) //! # } //! ``` //! //! - On newer versions of the compiler (i.e. 1.58 and later) this macro also //! supports format args captures. //! //! ```rust //! # use eyre::{eyre, Result}; //! # //! # fn demo() -> Result<()> { //! # let missing = "..."; //! # #[cfg(not(eyre_no_fmt_args_capture))] //! return Err(eyre!("Missing attribute: {missing}")); //! # Ok(()) //! # } //! ``` //! //! ## No-std support //! //! No-std support was removed in 2020 in [commit 608a16a] due to unaddressed upstream breakages. //! //! [commit 608a16a]: https://github.com/eyre-rs/eyre/pull/29/commits/608a16aa2c2c27eca6c88001cc94c6973c18f1d5 //! //! ## Comparison to failure //! //! The `eyre::Report` type works something like `failure::Error`, but unlike //! failure ours is built around the standard library's `std::error::Error` trait //! rather than a separate trait `failure::Fail`. The standard library has adopted //! the necessary improvements for this to be possible as part of [RFC 2504]. //! //! [RFC 2504]: https://github.com/rust-lang/rfcs/blob/master/text/2504-fix-error.md //! //! ## Comparison to thiserror //! //! Use `eyre` if you don't think you'll do anything with an error other than //! report it. This is common in application code. Use `thiserror` if you think //! you need an error type that can be handled via match or reported. This is //! common in library crates where you don't know how your users will handle //! your errors. //! //! [thiserror]: https://github.com/dtolnay/thiserror //! //! ## Compatibility with `anyhow` //! //! This crate does its best to be usable as a drop in replacement of `anyhow` and //! vice-versa by re-exporting all of the renamed APIs with the names used in //! `anyhow`, though there are some differences still. //! //! #### `Context` and `Option` //! //! As part of renaming `Context` to `WrapErr` we also intentionally do not //! implement `WrapErr` for `Option`. This decision was made because `wrap_err` //! implies that you're creating a new error that saves the old error as its //! `source`. With `Option` there is no source error to wrap, so `wrap_err` ends up //! being somewhat meaningless. //! //! Instead `eyre` offers [`OptionExt::ok_or_eyre`] to yield _static_ errors from `None`, //! and intends for users to use the combinator functions provided by //! `std`, converting `Option`s to `Result`s, for _dynamic_ errors. //! So where you would write this with //! anyhow: //! //! ```rust //! use anyhow::Context; //! //! let opt: Option<()> = None; //! let result_static = opt.context("static error message"); //! let result_dynamic = opt.with_context(|| format!("{} error message", "dynamic")); //! ``` //! //! With `eyre` we want users to write: //! //! ```rust //! use eyre::{eyre, OptionExt, Result}; //! //! # #[cfg(not(feature = "auto-install"))] //! # eyre::set_hook(Box::new(eyre::DefaultHandler::default_with)).unwrap(); //! # //! let opt: Option<()> = None; //! let result_static: Result<()> = opt.ok_or_eyre("static error message"); //! let result_dynamic: Result<()> = opt.ok_or_else(|| eyre!("{} error message", "dynamic")); //! ``` //! //! **NOTE**: However, to help with porting we do provide a `ContextCompat` trait which //! implements `context` for options which you can import to make existing //! `.context` calls compile. //! //! [^1]: example and explanation of breakage //! //! [Report]: https://docs.rs/eyre/*/eyre/struct.Report.html //! [`eyre::EyreHandler`]: https://docs.rs/eyre/*/eyre/trait.EyreHandler.html //! [`eyre::WrapErr`]: https://docs.rs/eyre/*/eyre/trait.WrapErr.html //! [`anyhow::Context`]: https://docs.rs/anyhow/*/anyhow/trait.Context.html //! [`anyhow`]: https://github.com/dtolnay/anyhow //! [`tracing_error::SpanTrace`]: https://docs.rs/tracing-error/*/tracing_error/struct.SpanTrace.html //! [`stable-eyre`]: https://github.com/eyre-rs/stable-eyre //! [`color-eyre`]: https://github.com/eyre-rs/color-eyre //! [`jane-eyre`]: https://github.com/yaahc/jane-eyre //! [`simple-eyre`]: https://github.com/eyre-rs/simple-eyre //! [`color-spantrace`]: https://github.com/eyre-rs/color-spantrace //! [`color-backtrace`]: https://github.com/athre0z/color-backtrace #![doc(html_root_url = "https://docs.rs/eyre/0.6.12")] #![cfg_attr( nightly, feature(rustdoc_missing_doc_code_examples), warn(rustdoc::missing_doc_code_examples) )] #![warn( missing_debug_implementations, missing_docs, unsafe_op_in_unsafe_fn, rust_2018_idioms, unreachable_pub, bad_style, dead_code, improper_ctypes, non_shorthand_field_patterns, no_mangle_generic_items, overflowing_literals, path_statements, patterns_in_fns_without_body, unconditional_recursion, unused, unused_allocation, unused_comparisons, unused_parens, while_true )] #![cfg_attr(backtrace, feature(backtrace))] #![cfg_attr(doc_cfg, feature(doc_cfg))] #![allow( clippy::needless_doctest_main, clippy::new_ret_no_self, clippy::wrong_self_convention )] extern crate alloc; #[macro_use] mod backtrace; mod chain; mod context; mod error; mod fmt; mod kind; mod macros; mod option; mod ptr; mod wrapper; use crate::backtrace::Backtrace; use crate::error::ErrorImpl; use core::fmt::{Debug, Display}; use std::error::Error as StdError; pub use eyre as format_err; /// Compatibility re-export of `eyre` for interop with `anyhow` pub use eyre as anyhow; use once_cell::sync::OnceCell; use ptr::OwnedPtr; #[doc(hidden)] pub use DefaultHandler as DefaultContext; #[doc(hidden)] pub use EyreHandler as EyreContext; #[doc(hidden)] pub use Report as ErrReport; /// Compatibility re-export of `Report` for interop with `anyhow` pub use Report as Error; /// Compatibility re-export of `WrapErr` for interop with `anyhow` pub use WrapErr as Context; /// The core error reporting type of the library, a wrapper around a dynamic error reporting type. /// /// `Report` works a lot like `Box`, but with these /// differences: /// /// - `Report` requires that the error is `Send`, `Sync`, and `'static`. /// - `Report` guarantees that a backtrace is available, even if the underlying /// error type does not provide one. /// - `Report` is represented as a narrow pointer — exactly one word in /// size instead of two. /// /// # Display representations /// /// When you print an error object using "{}" or to_string(), only the outermost underlying error /// is printed, not any of the lower level causes. This is exactly as if you had called the Display /// impl of the error from which you constructed your eyre::Report. /// /// ```console /// Failed to read instrs from ./path/to/instrs.json /// ``` /// /// To print causes as well using eyre's default formatting of causes, use the /// alternate selector "{:#}". /// /// ```console /// Failed to read instrs from ./path/to/instrs.json: No such file or directory (os error 2) /// ``` /// /// The Debug format "{:?}" includes your backtrace if one was captured. Note /// that this is the representation you get by default if you return an error /// from `fn main` instead of printing it explicitly yourself. /// /// ```console /// Error: Failed to read instrs from ./path/to/instrs.json /// /// Caused by: /// No such file or directory (os error 2) /// /// Stack backtrace: /// 0: ::ext_report /// at /git/eyre/src/backtrace.rs:26 /// 1: core::result::Result::map_err /// at /git/rustc/src/libcore/result.rs:596 /// 2: eyre::context:: for core::result::Result>::wrap_err_with /// at /git/eyre/src/context.rs:58 /// 3: testing::main /// at src/main.rs:5 /// 4: std::rt::lang_start /// at /git/rustc/src/libstd/rt.rs:61 /// 5: main /// 6: __libc_start_main /// 7: _start /// ``` /// /// To see a conventional struct-style Debug representation, use "{:#?}". /// /// ```console /// Error { /// msg: "Failed to read instrs from ./path/to/instrs.json", /// source: Os { /// code: 2, /// kind: NotFound, /// message: "No such file or directory", /// }, /// } /// ``` /// /// If none of the built-in representations are appropriate and you would prefer /// to render the error and its cause chain yourself, it can be done by defining /// your own [`EyreHandler`] and [`hook`] to use it. /// /// [`EyreHandler`]: trait.EyreHandler.html /// [`hook`]: fn.set_hook.html #[must_use] pub struct Report { inner: OwnedPtr>, } type ErrorHook = Box Box + Sync + Send + 'static>; static HOOK: OnceCell = OnceCell::new(); /// Error indicating that `set_hook` was unable to install the provided ErrorHook #[derive(Debug, Clone, Copy)] pub struct InstallError; impl core::fmt::Display for InstallError { fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result { f.write_str("cannot install provided ErrorHook, a hook has already been installed") } } impl StdError for InstallError {} /// Install the provided error hook for constructing EyreHandlers when converting /// Errors to Reports /// /// # Details /// /// To customize the format and content of error reports from `eyre` you must /// first define a new `EyreHandler` type to capture and store the extra context /// and to define the format of how to display the chain of errors and this /// stored context. Once this type has been defined you must also define a global /// hook used to construct these handlers whenever `Report`s are constructed. /// /// # Examples /// /// ```rust,should_panic /// use backtrace::Backtrace; /// use eyre::EyreHandler; /// use std::error::Error; /// use std::{fmt, iter}; /// /// fn main() -> eyre::Result<()> { /// // Install our custom eyre report hook for constructing our custom Handlers /// install().unwrap(); /// /// // construct a report with, hopefully, our custom handler! /// let mut report = eyre::eyre!("hello from custom error town!"); /// /// // manually set the custom msg for this report after it has been constructed /// if let Some(handler) = report.handler_mut().downcast_mut::() { /// handler.custom_msg = Some("you're the best users, you know that right???"); /// } /// /// // print that shit!! /// Err(report) /// } /// /// // define a handler that captures backtraces unless told not to /// fn install() -> Result<(), impl Error> { /// let capture_backtrace = std::env::var("RUST_BACKWARDS_TRACE") /// .map(|val| val != "0") /// .unwrap_or(true); /// /// let hook = Hook { capture_backtrace }; /// /// eyre::set_hook(Box::new(move |e| Box::new(hook.make_handler(e)))) /// } /// /// struct Hook { /// capture_backtrace: bool, /// } /// /// impl Hook { /// fn make_handler(&self, _error: &(dyn Error + 'static)) -> Handler { /// let backtrace = if self.capture_backtrace { /// Some(Backtrace::new()) /// } else { /// None /// }; /// /// Handler { /// backtrace, /// custom_msg: None, /// } /// } /// } /// /// struct Handler { /// // custom configured backtrace capture /// backtrace: Option, /// // customizable message payload associated with reports /// custom_msg: Option<&'static str>, /// } /// /// impl EyreHandler for Handler { /// fn debug(&self, error: &(dyn Error + 'static), f: &mut fmt::Formatter<'_>) -> fmt::Result { /// if f.alternate() { /// return fmt::Debug::fmt(error, f); /// } /// /// let errors = iter::successors(Some(error), |error| (*error).source()); /// /// for (ind, error) in errors.enumerate() { /// write!(f, "\n{:>4}: {}", ind, error)?; /// } /// /// if let Some(backtrace) = self.backtrace.as_ref() { /// writeln!(f, "\n\nBacktrace:\n{:?}", backtrace)?; /// } /// /// if let Some(msg) = self.custom_msg.as_ref() { /// writeln!(f, "\n\n{}", msg)?; /// } /// /// Ok(()) /// } /// } /// ``` pub fn set_hook(hook: ErrorHook) -> Result<(), InstallError> { HOOK.set(hook).map_err(|_| InstallError) } #[cfg_attr(track_caller, track_caller)] #[cfg_attr(not(track_caller), allow(unused_mut))] fn capture_handler(error: &(dyn StdError + 'static)) -> Box { #[cfg(not(feature = "auto-install"))] let hook = HOOK .get() .expect("a handler must always be installed if the `auto-install` feature is disabled") .as_ref(); #[cfg(feature = "auto-install")] let hook = HOOK .get_or_init(|| Box::new(DefaultHandler::default_with)) .as_ref(); let mut handler = hook(error); #[cfg(track_caller)] { handler.track_caller(std::panic::Location::caller()) } handler } impl dyn EyreHandler { /// pub fn is(&self) -> bool { // Get `TypeId` of the type this function is instantiated with. let t = core::any::TypeId::of::(); // Get `TypeId` of the type in the trait object (`self`). let concrete = self.type_id(); // Compare both `TypeId`s on equality. t == concrete } /// pub fn downcast_ref(&self) -> Option<&T> { if self.is::() { unsafe { Some(&*(self as *const dyn EyreHandler as *const T)) } } else { None } } /// pub fn downcast_mut(&mut self) -> Option<&mut T> { if self.is::() { unsafe { Some(&mut *(self as *mut dyn EyreHandler as *mut T)) } } else { None } } } /// Error Report Handler trait for customizing `eyre::Report` pub trait EyreHandler: core::any::Any + Send + Sync { /// Define the report format /// /// Used to override the report format of `eyre::Report` /// /// # Example /// /// ```rust /// use backtrace::Backtrace; /// use eyre::EyreHandler; /// use eyre::Chain; /// use std::error::Error; /// use indenter::indented; /// /// pub struct Handler { /// backtrace: Backtrace, /// } /// /// impl EyreHandler for Handler { /// fn debug( /// &self, /// error: &(dyn Error + 'static), /// f: &mut core::fmt::Formatter<'_>, /// ) -> core::fmt::Result { /// use core::fmt::Write as _; /// /// if f.alternate() { /// return core::fmt::Debug::fmt(error, f); /// } /// /// write!(f, "{}", error)?; /// /// if let Some(cause) = error.source() { /// write!(f, "\n\nCaused by:")?; /// let multiple = cause.source().is_some(); /// /// for (n, error) in Chain::new(cause).enumerate() { /// writeln!(f)?; /// if multiple { /// write!(indented(f).ind(n), "{}", error)?; /// } else { /// write!(indented(f), "{}", error)?; /// } /// } /// } /// /// let backtrace = &self.backtrace; /// write!(f, "\n\nStack backtrace:\n{:?}", backtrace)?; /// /// Ok(()) /// } /// } /// ``` fn debug( &self, error: &(dyn StdError + 'static), f: &mut core::fmt::Formatter<'_>, ) -> core::fmt::Result; /// Override for the `Display` format fn display( &self, error: &(dyn StdError + 'static), f: &mut core::fmt::Formatter<'_>, ) -> core::fmt::Result { write!(f, "{}", error)?; if f.alternate() { for cause in crate::chain::Chain::new(error).skip(1) { write!(f, ": {}", cause)?; } } Result::Ok(()) } /// Store the location of the caller who constructed this error report #[allow(unused_variables)] fn track_caller(&mut self, location: &'static std::panic::Location<'static>) {} } /// The default provided error report handler for `eyre::Report`. /// /// On nightly this supports conditionally capturing a `std::backtrace::Backtrace` if the source /// error did not already capture one. #[allow(dead_code)] pub struct DefaultHandler { backtrace: Option, #[cfg(track_caller)] location: Option<&'static std::panic::Location<'static>>, } impl DefaultHandler { /// Manual hook which constructs `DefaultHandler`s. /// /// # Details /// /// When supplied to the `set_hook` function, `default_with` will cause `eyre::Report` to use /// `DefaultHandler` as the error report handler. /// /// If the `auto-install` feature is enabled, and a user-provided hook for constructing /// `EyreHandlers` was not installed using `set_hook`, `DefaultHandler::default_with` /// is automatically installed as the hook. /// /// # Example /// /// ```rust,should_panic /// use eyre::{DefaultHandler, eyre, InstallError, Result, set_hook}; /// /// fn main() -> Result<()> { /// install_default().expect("default handler inexplicably already installed"); /// Err(eyre!("hello from default error city!")) /// } /// /// fn install_default() -> Result<(), InstallError> { /// set_hook(Box::new(DefaultHandler::default_with)) /// } /// /// ``` #[allow(unused_variables)] #[cfg_attr(not(feature = "auto-install"), allow(dead_code))] pub fn default_with(error: &(dyn StdError + 'static)) -> Box { let backtrace = backtrace_if_absent!(error); Box::new(Self { backtrace, #[cfg(track_caller)] location: None, }) } } impl core::fmt::Debug for DefaultHandler { fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result { f.debug_struct("DefaultHandler") .field( "backtrace", match &self.backtrace { Some(_) => &"Some(Backtrace { ... })", None => &"None", }, ) .finish() } } impl EyreHandler for DefaultHandler { fn debug( &self, error: &(dyn StdError + 'static), f: &mut core::fmt::Formatter<'_>, ) -> core::fmt::Result { use core::fmt::Write as _; if f.alternate() { return core::fmt::Debug::fmt(error, f); } write!(f, "{}", error)?; if let Some(cause) = error.source() { write!(f, "\n\nCaused by:")?; let multiple = cause.source().is_some(); for (n, error) in crate::chain::Chain::new(cause).enumerate() { writeln!(f)?; if multiple { write!(indenter::indented(f).ind(n), "{}", error)?; } else { write!(indenter::indented(f), "{}", error)?; } } } #[cfg(all(track_caller, feature = "track-caller"))] { if let Some(location) = self.location { write!(f, "\n\nLocation:\n")?; write!(indenter::indented(f), "{}", location)?; } } #[cfg(backtrace)] { use std::backtrace::BacktraceStatus; let backtrace = self .backtrace .as_ref() .or_else(|| error.backtrace()) .expect("backtrace capture failed"); if let BacktraceStatus::Captured = backtrace.status() { write!(f, "\n\nStack backtrace:\n{}", backtrace)?; } } Result::Ok(()) } #[cfg(track_caller)] fn track_caller(&mut self, location: &'static std::panic::Location<'static>) { self.location = Some(location); } } /// Iterator of a chain of source errors. /// /// This type is the iterator returned by [`Report::chain`]. /// /// # Example /// /// ``` /// use eyre::Report; /// use std::io; /// /// pub fn underlying_io_error_kind(error: &Report) -> Option { /// for cause in error.chain() { /// if let Some(io_error) = cause.downcast_ref::() { /// return Some(io_error.kind()); /// } /// } /// None /// } /// ``` #[derive(Clone)] #[allow(missing_debug_implementations)] pub struct Chain<'a> { state: crate::chain::ChainState<'a>, } /// type alias for `Result` /// /// This is a reasonable return type to use throughout your application but also for `fn main`; if /// you do, failures will be printed along with a backtrace if one was captured. /// /// `eyre::Result` may be used with one *or* two type parameters. /// /// ```rust /// use eyre::Result; /// /// # const IGNORE: &str = stringify! { /// fn demo1() -> Result {...} /// // ^ equivalent to std::result::Result /// /// fn demo2() -> Result {...} /// // ^ equivalent to std::result::Result /// # }; /// ``` /// /// # Example /// /// ``` /// # pub trait Deserialize {} /// # /// # mod serde_json { /// # use super::Deserialize; /// # use std::io; /// # /// # pub fn from_str(json: &str) -> io::Result { /// # unimplemented!() /// # } /// # } /// # /// # #[derive(Debug)] /// # struct ClusterMap; /// # /// # impl Deserialize for ClusterMap {} /// # /// use eyre::Result; /// /// fn main() -> Result<()> { /// # return Ok(()); /// let config = std::fs::read_to_string("cluster.json")?; /// let map: ClusterMap = serde_json::from_str(&config)?; /// println!("cluster info: {:#?}", map); /// Ok(()) /// } /// ``` pub type Result = core::result::Result; /// Provides the `wrap_err` method for `Result`. /// /// This trait is sealed and cannot be implemented for types outside of /// `eyre`. /// /// # Example /// /// ``` /// use eyre::{WrapErr, Result}; /// use std::fs; /// use std::path::PathBuf; /// /// pub struct ImportantThing { /// path: PathBuf, /// } /// /// impl ImportantThing { /// # const IGNORE: &'static str = stringify! { /// pub fn detach(&mut self) -> Result<()> {...} /// # }; /// # fn detach(&mut self) -> Result<()> { /// # unimplemented!() /// # } /// } /// /// pub fn do_it(mut it: ImportantThing) -> Result> { /// it.detach().wrap_err("Failed to detach the important thing")?; /// /// let path = &it.path; /// let content = fs::read(path) /// .wrap_err_with(|| format!("Failed to read instrs from {}", path.display()))?; /// /// Ok(content) /// } /// ``` /// /// When printed, the outermost error would be printed first and the lower /// level underlying causes would be enumerated below. /// /// ```console /// Error: Failed to read instrs from ./path/to/instrs.json /// /// Caused by: /// No such file or directory (os error 2) /// ``` /// /// # Wrapping Types That Don't impl `Error` (e.g. `&str` and `Box`) /// /// Due to restrictions for coherence `Report` cannot impl `From` for types that don't impl /// `Error`. Attempts to do so will give "this type might implement Error in the future" as an /// error. As such, `wrap_err`, which uses `From` under the hood, cannot be used to wrap these /// types. Instead we encourage you to use the combinators provided for `Result` in `std`/`core`. /// /// For example, instead of this: /// /// ```rust,compile_fail /// use std::error::Error; /// use eyre::{WrapErr, Report}; /// /// fn wrap_example(err: Result<(), Box>) -> Result<(), Report> { /// err.wrap_err("saw a downstream error") /// } /// ``` /// /// We encourage you to write this: /// /// ```rust /// use std::error::Error; /// use eyre::{WrapErr, Report, eyre}; /// /// fn wrap_example(err: Result<(), Box>) -> Result<(), Report> { /// err.map_err(|e| eyre!(e)).wrap_err("saw a downstream error") /// } /// ``` /// /// # Effect on downcasting /// /// After attaching a message of type `D` onto an error of type `E`, the resulting /// `eyre::Report` may be downcast to `D` **or** to `E`. /// /// That is, in codebases that rely on downcasting, Eyre's wrap_err supports /// both of the following use cases: /// /// - **Attaching messages whose type is insignificant onto errors whose type /// is used in downcasts.** /// /// In other error libraries whose wrap_err is not designed this way, it can /// be risky to introduce messages to existing code because new message might /// break existing working downcasts. In Eyre, any downcast that worked /// before adding the message will continue to work after you add a message, so /// you should freely wrap errors wherever it would be helpful. /// /// ``` /// # use eyre::bail; /// # use thiserror::Error; /// # /// # #[derive(Error, Debug)] /// # #[error("???")] /// # struct SuspiciousError; /// # /// # fn helper() -> Result<()> { /// # bail!(SuspiciousError); /// # } /// # /// use eyre::{WrapErr, Result}; /// /// fn do_it() -> Result<()> { /// helper().wrap_err("Failed to complete the work")?; /// # const IGNORE: &str = stringify! { /// ... /// # }; /// # unreachable!() /// } /// /// fn main() { /// # #[cfg(not(feature = "auto-install"))] /// # eyre::set_hook(Box::new(eyre::DefaultHandler::default_with)).unwrap(); /// let err = do_it().unwrap_err(); /// if let Some(e) = err.downcast_ref::() { /// // If helper() returned SuspiciousError, this downcast will /// // correctly succeed even with the message in between. /// # return; /// } /// # panic!("expected downcast to succeed"); /// } /// ``` /// /// - **Attaching message whose type is used in downcasts onto errors whose /// type is insignificant.** /// /// Some codebases prefer to use machine-readable messages to categorize /// lower level errors in a way that will be actionable to higher levels of /// the application. /// /// ``` /// # use eyre::bail; /// # use thiserror::Error; /// # /// # #[derive(Error, Debug)] /// # #[error("???")] /// # struct HelperFailed; /// # /// # fn helper() -> Result<()> { /// # bail!("no such file or directory"); /// # } /// # /// use eyre::{WrapErr, Result}; /// /// fn do_it() -> Result<()> { /// helper().wrap_err(HelperFailed)?; /// # const IGNORE: &str = stringify! { /// ... /// # }; /// # unreachable!() /// } /// /// fn main() { /// # #[cfg(not(feature = "auto-install"))] /// # eyre::set_hook(Box::new(eyre::DefaultHandler::default_with)).unwrap(); /// let err = do_it().unwrap_err(); /// if let Some(e) = err.downcast_ref::() { /// // If helper failed, this downcast will succeed because /// // HelperFailed is the message that has been attached to /// // that error. /// # return; /// } /// # panic!("expected downcast to succeed"); /// } /// ``` /// /// # `wrap_err` vs `wrap_err_with` /// /// `wrap_err` incurs a runtime cost even in the non-error case because it requires eagerly /// constructing the error object. `wrap_err_with` avoids this cost through lazy evaluation. This /// cost is proportional to the cost of the currently installed [`EyreHandler`]'s creation step. /// `wrap_err` is useful in cases where an constructed error object already exists. pub trait WrapErr: context::private::Sealed { /// Wrap the error value with a new adhoc error #[cfg_attr(track_caller, track_caller)] fn wrap_err(self, msg: D) -> Result where D: Display + Send + Sync + 'static; /// Wrap the error value with a new adhoc error that is evaluated lazily /// only once an error does occur. #[cfg_attr(track_caller, track_caller)] fn wrap_err_with(self, f: F) -> Result where D: Display + Send + Sync + 'static, F: FnOnce() -> D; /// Compatibility re-export of wrap_err for interop with `anyhow` #[cfg_attr(track_caller, track_caller)] fn context(self, msg: D) -> Result where D: Display + Send + Sync + 'static; /// Compatibility re-export of wrap_err_with for interop with `anyhow` #[cfg_attr(track_caller, track_caller)] fn with_context(self, f: F) -> Result where D: Display + Send + Sync + 'static, F: FnOnce() -> D; } /// Provides the [`ok_or_eyre`][OptionExt::ok_or_eyre] method for [`Option`]. /// /// This trait is sealed and cannot be implemented for types outside of /// `eyre`. /// /// # Example /// /// ``` /// # #[cfg(not(feature = "auto-install"))] /// # eyre::set_hook(Box::new(eyre::DefaultHandler::default_with)).unwrap(); /// use eyre::OptionExt; /// /// let option: Option<()> = None; /// /// let result = option.ok_or_eyre("static str error"); /// /// assert_eq!(result.unwrap_err().to_string(), "static str error"); /// ``` /// /// # `ok_or_eyre` vs `ok_or_else` /// /// If string interpolation is required for the generated [report][Report], /// use [`ok_or_else`][Option::ok_or_else] instead, /// invoking [`eyre!`] to perform string interpolation: /// /// ``` /// # #[cfg(not(feature = "auto-install"))] /// # eyre::set_hook(Box::new(eyre::DefaultHandler::default_with)).unwrap(); /// use eyre::eyre; /// /// let option: Option<()> = None; /// /// let result = option.ok_or_else(|| eyre!("{} error", "dynamic")); /// /// assert_eq!(result.unwrap_err().to_string(), "dynamic error"); /// ``` /// /// `ok_or_eyre` incurs no runtime cost, as the error object /// is constructed from the provided static argument /// only in the `None` case. pub trait OptionExt: context::private::Sealed { /// Transform the [`Option`] into a [`Result`], /// mapping [`Some(v)`][Option::Some] to [`Ok(v)`][Result::Ok] /// and [`None`] to [`Report`]. /// /// `ok_or_eyre` allows for eyre [`Report`] error objects /// to be lazily created from static messages in the `None` case. /// /// For dynamic error messages, use [`ok_or_else`][Option::ok_or_else], /// invoking [`eyre!`] in the closure to perform string interpolation. fn ok_or_eyre(self, message: M) -> crate::Result where M: Debug + Display + Send + Sync + 'static; } /// Provides the `context` method for `Option` when porting from `anyhow` /// /// This trait is sealed and cannot be implemented for types outside of /// `eyre`. /// /// ## Why Doesn't `Eyre` impl `WrapErr` for `Option`? /// /// `eyre` doesn't impl `WrapErr` for `Option` because `wrap_err` implies that you're creating a /// new error that saves the previous error as its `source`. Calling `wrap_err` on an `Option` is /// meaningless because there is no source error. `anyhow` avoids this issue by using a different /// mental model where you're adding "context" to an error, though this not a mental model for /// error handling that `eyre` agrees with. /// /// Instead, `eyre` encourages users to think of each error as distinct, where the previous error /// is the context being saved by the new error, which is backwards compared to anyhow's model. In /// this model you're encouraged to use combinators provided by `std` for `Option` to convert an /// option to a `Result` /// /// # Example /// /// Instead of: /// /// ```rust /// use eyre::ContextCompat; /// /// fn get_thing(mut things: impl Iterator) -> eyre::Result { /// things /// .find(|&thing| thing == 42) /// .context("the thing wasnt in the list") /// } /// ``` /// /// We encourage you to use this: /// /// ```rust /// use eyre::eyre; /// /// fn get_thing(mut things: impl Iterator) -> eyre::Result { /// things /// .find(|&thing| thing == 42) /// .ok_or_else(|| eyre!("the thing wasnt in the list")) /// } /// ``` pub trait ContextCompat: context::private::Sealed { /// Compatibility version of `wrap_err` for creating new errors with new source on `Option` /// when porting from `anyhow` #[cfg_attr(track_caller, track_caller)] fn context(self, msg: D) -> Result where D: Display + Send + Sync + 'static; /// Compatibility version of `wrap_err_with` for creating new errors with new source on `Option` /// when porting from `anyhow` #[cfg_attr(track_caller, track_caller)] fn with_context(self, f: F) -> Result where D: Display + Send + Sync + 'static, F: FnOnce() -> D; /// Compatibility re-export of `context` for porting from `anyhow` to `eyre` #[cfg_attr(track_caller, track_caller)] fn wrap_err(self, msg: D) -> Result where D: Display + Send + Sync + 'static; /// Compatibility re-export of `with_context` for porting from `anyhow` to `eyre` #[cfg_attr(track_caller, track_caller)] fn wrap_err_with(self, f: F) -> Result where D: Display + Send + Sync + 'static, F: FnOnce() -> D; } /// Equivalent to Ok::<_, eyre::Error>(value). /// /// This simplifies creation of an eyre::Result in places where type inference /// cannot deduce the `E` type of the result — without needing to write /// `Ok::<_, eyre::Error>(value)`. /// /// One might think that `eyre::Result::Ok(value)` would work in such cases /// but it does not. /// /// ```console /// error[E0282]: type annotations needed for `std::result::Result` /// --> src/main.rs:11:13 /// | /// 11 | let _ = eyre::Result::Ok(1); /// | - ^^^^^^^^^^^^^^^^ cannot infer type for type parameter `E` declared on the enum `Result` /// | | /// | consider giving this pattern the explicit type `std::result::Result`, where the type parameter `E` is specified /// ``` #[allow(non_snake_case)] pub fn Ok(t: T) -> Result { Result::Ok(t) } // Not public API. Referenced by macro-generated code. #[doc(hidden)] pub mod private { use crate::Report; use alloc::fmt; use core::fmt::{Arguments, Debug, Display}; pub use alloc::format; pub use core::format_args; pub use core::result::Result::Err; #[doc(hidden)] pub mod kind { pub use crate::kind::{AdhocKind, TraitKind}; pub use crate::kind::BoxedKind; } #[cfg_attr(track_caller, track_caller)] pub fn new_adhoc(message: M) -> Report where M: Display + Debug + Send + Sync + 'static, { Report::from_adhoc(message) } #[doc(hidden)] #[cold] #[cfg_attr(track_caller, track_caller)] pub fn format_err(args: Arguments<'_>) -> Report { #[cfg(eyre_no_fmt_arguments_as_str)] let fmt_arguments_as_str: Option<&str> = None; #[cfg(not(eyre_no_fmt_arguments_as_str))] let fmt_arguments_as_str = args.as_str(); if let Some(message) = fmt_arguments_as_str { // eyre!("literal"), can downcast to &'static str Report::msg(message) } else { // eyre!("interpolate {var}"), can downcast to String Report::msg(fmt::format(args)) } } }