![Hi! miette also includes a screen-reader-oriented diagnostic printer that's enabled in various situations, such as when you use NO_COLOR or CLICOLOR settings, or on CI. This behavior is also fully configurable and customizable. For example, this is what this particular diagnostic will look like when the narrated printer is enabled:
\
Error: Received some bad JSON from the source. Unable to parse.
Caused by: missing field <code>foo</code> at line 1 column 1700
\
Begin snippet for https://api.nuget.org/v3/registration5-gz-semver2/json.net/index.json starting
at line 1, column 1659
\
snippet line 1: gs":["json"],"title":"","version":"1.0.0"},"packageContent":"https://api.nuget.o
highlight starting at line 1, column 1699: last parsing location
\
diagnostic help: This is a bug. It might be in ruget, or it might be in the source you're using,
but it's definitely a bug and should be reported.
diagnostic error code: ruget::api::bad_json](https://raw.githubusercontent.com/zkat/miette/main/images/serde_json.png)
you run miette? You run her code like the software? Oh. Oh! Error code for coder! Error code for One Thousand Lines!
miette is a diagnostic library for Rust. It includes a series of
traits/protocols that allow you to hook into its error reporting facilities,
and even write your own error reports! It lets you define error types that can
print out like this (or in any format you like!):
std::error::Error.anyhow/eyre-style error wrapper type, [DiagnosticReport],
which can be returned from main.Strings included.The miette crate also comes bundles with a default [DiagnosticReportPrinter] with the following features:
NO_COLOR, and other heuristics.Using cargo-edit:
sh
$ cargo add miette
``rust
/*
You can derive a Diagnostic from anystd::error::Error` type.
thiserror is a great way to define them, and plays nicely with miette!
*/
use miette::{Diagnostic, SourceSpan};
use thiserror::Error;
code(oops::my::bad),
help("try doing it better next time?"),
)] struct MyBad { // The Source that we're gonna be printing snippets out of. src: String, // Snippets and highlights can be included in the diagnostic! #[snippet(src, "This is the part that broke")] snip: SourceSpan, #[highlight(snip)] bad_bit: SourceSpan, }
/* Now let's define a function!
Use this DiagnosticResult type (or its expanded version) as the return type
throughout your app (but NOT your libraries! Those should always return concrete
types!).
*/
use miette::DiagnosticResult;
fn thisfails() -> DiagnosticResult<()> {
// You can use plain strings as a Source, or anything that implements
// the one-method Source trait.
let src = "source\n text\n here".tostring();
let len = src.len();
Err(MyBad {
src,
snip: ("bad_file.rs", 0, len).into(),
bad_bit: ("this bit here", 9, 4).into(),
})?;
Ok(())
}
/* Now to get everything printed nicely, just return a DiagnosticResult<()> and you're all set!
Note: You can swap out the default reporter for a custom one using miette::set_reporter()
*/
fn pretendthisismain() -> DiagnosticResult<()> {
// kaboom~
thisfails()?;
Ok(())
} ```
And this is the output you'll get if you run this program:
miette is fully compatible with library usage. Consumers who don't know
about, or don't want, miette features can safely use its error types as
regular [std::error::Error].
We highly recommend using something like thiserror to define unique error types and error wrappers for your library.
While miette integrates smoothly with thiserror, it is not required. If
you don't want to use the [Diagnostic] derive macro, you can implement the
trait directly, just like with std::error::Error.
```rust // lib/error.rs use thiserror::Error; use miette::Diagnostic;
pub enum MyLibError { #[error(transparent)] #[diagnostic(code(mylib::ioerror))] IoError(#[from] std::io::Error),
#[error("Oops it blew up")]
#[diagnostic(code(my_lib::bad_code))]
BadThingHappened,
} ```
Then, return this error type from all your fallible public APIs. It's a best
practice to wrap any "external" error types in your error enum instead of
using something like eyre in a library.
Application code tends to work a little differently than libraries. You don't always need or care to define dedicated error wrappers for errors coming from external libraries and tools.
For this situation, miette includes two tools: [DiagnosticReport] and
[IntoDiagnostic]. They work in tandem to make it easy to convert regular
std::error::Errors into [Diagnostic]s. Additionally, there's a
[DiagnosticResult] type alias that you can use to be more terse:
```rust // myapp/lib/myinternal_file.rs use miette::{IntoDiagnostic, DiagnosticResult}; use semver::Version;
pub fn sometool() -> DiagnosticResult
main()main() is just like any other part of your application-internal code. Use
DiagnosticResult as your return value, and it will pretty-print your
diagnostics automatically.
```rust use miette::{DiagnosticResult, IntoDiagnostic}; use semver::Version;
fn pretendthisismain() -> DiagnosticResult<()> { let version: Version = "1.2.x".parse().intodiagnostic("myapp::semver::parseerror")?; println!("{}", version); Ok(()) } ```
Along with its general error handling and reporting features, miette also
includes facilities for adding error spans and annotations/highlights to your
output. This can be very useful when an error is syntax-related, but you can
even use it to print out sections of your own source code!
To achieve this, miette defines its own lightweight [SourceSpan] type. This
is a basic byte-offset and length into an associated [Source] and, along with
the latter, gives miette all the information it needs to pretty-print some
snippets!
The easiest way to define errors like this is to use the derive(Diagnostic)
macro:
```rust use miette::{Diagnostic, SourceSpan}; use thiserror::Error;
pub struct MyErrorType {
// The Source that miette will use.
src: String,
// A snippet that points to `src`, our `Source`. The filename can be
// provided at the callsite.
#[snippet(src, "This is the snippet")]
snip: SourceSpan,
// A highlight for the `snip` snippet we defined above. This will
// underline/mark the specific code inside the larger snippet context.
//
// The label is provided using `SourceSpan`'s label.
#[highlight(snip)]
err_span: SourceSpan,
} ```
miette was not developed in a void. It owes enormous credit to various other projects and their authors:
anyhow and
color-eyre: these two enormously
influential error handling libraries have pushed forward the experience of
application-level error handling and error reporting. miette's
DiagnosticReport type is an attempt at a very very rough version of their
Report types.thiserror for setting the standard
for library-level error definitions, and for being the inspiration behind
miette's derive macro.rustc and @estebank for their state-of-the-art
work in compiler diagnostics.ariadne for pushing forward how
pretty these diagnostics can really look!miette is released to the Rust community under the Apache license 2.0.
It also includes some code taken from eyre,
and some from thiserror, also under
the Apache License. Some code is taken from
ariadne, which is MIT licensed.