Derive Macro snafu::Snafu[]

#[derive(Snafu)]
{
    // Attributes available to this derive:
    #[snafu]
}
Expand description

The Snafu macro is the entrypoint to defining your own error types. It is designed to require little configuration for the recommended and typical usecases while still offering flexibility for unique situations.

Controlling Display

You can specify how the Display trait will be implemented for each variant. The argument is a format string and the arguments. All of the fields of the variant will be available and you can call methods on them, such as filename.display().

Example

#[derive(Debug, Snafu)]
enum Error {
    #[snafu(display("The user {} could not log in", username))]
    InvalidLogin { username: String, password: String },
}

fn main() {
    assert_eq!(
        InvalidLoginSnafu {
            username: "Stefani",
            password: "Germanotta"
        }
        .build()
        .to_string(),
        "The user Stefani could not log in",
    );
}

The default Display implementation

It is recommended that you provide a value for snafu(display), but if it is omitted, the summary of the documentation comment will be used. If that is not present, the name of the variant will be used.

#[derive(Debug, Snafu)]
enum Error {
    /// No user available.
    /// You may need to specify one.
    MissingUser,
    MissingPassword,
}

fn main() {
    assert_eq!(
        MissingUserSnafu.build().to_string(),
        "No user available. You may need to specify one.",
    );
    assert_eq!(MissingPasswordSnafu.build().to_string(), "MissingPassword");
}

Controlling context

Changing the context selector suffix

When context selectors are generated, they have the suffix Snafu added by default. If you’d prefer a different suffix, such as Ctx or Context, you can specify that with #[snafu(context(suffix(SomeIdentifier)))]. If you’d like to disable the suffix entirely, you can use #[snafu(context(suffix(false)))].

Example

#[derive(Debug, Snafu)]
enum Error {
    UsesTheDefaultSuffix,

    #[snafu(context(suffix(Ctx)))]
    HasAnotherSuffix,

    #[snafu(context(suffix(false)))]
    DoesNotHaveASuffix,
}

fn my_code() -> Result<(), Error> {
    UsesTheDefaultSuffixSnafu.fail()?;

    HasAnotherSuffixCtx.fail()?;

    DoesNotHaveASuffix.fail()?;

    Ok(())
}

Disabling the context selector

Sometimes, an underlying error can only occur in exactly one context and there’s no additional information that can be provided to the caller. In these cases, you can use #[snafu(context(false))] to indicate that no context selector should be created. This allows using the ? operator directly on the underlying error.

Please think about your end users before making liberal use of this feature. Adding context to an error is often what distinguishes an actionable error from a frustrating one.

Example

#[derive(Debug, Snafu)]
enum Error {
    #[snafu(context(false))]
    NeedsNoIntroduction { source: VeryUniqueError },
}

fn my_code() -> Result<i32, Error> {
    let val = do_something_unique()?;
    Ok(val + 10)
}

fn do_something_unique() -> Result<i32, VeryUniqueError> {
    // ...
}

Controlling visibility

By default, each of the context selectors and their inherent methods will be private. It is our opinion that each module should have one or more error types that are scoped to that module, reducing the need to deal with unrelated errors when matching and increasing cohesiveness.

If you need to access the context selectors from outside of their module, you can use the #[snafu(visibility)] attribute. This can be applied to the error type as a default visibility or to specific context selectors.

There are multiple forms of the attribute:

  • #[snafu(visibility(X))]

    X is a normal Rust visibility modifier (pub, pub(crate), pub(in some::path), etc.).

  • #[snafu(visibility)] will reset back to private visibility.

#[derive(Debug, Snafu)]
#[snafu(visibility(pub(crate)))] // Sets the default visibility for these context selectors
pub(crate) enum Error {
    IsPubCrate, // Uses the default
    #[snafu(visibility)]
    IsPrivate, // Will be private
}

It should be noted that API stability of context selectors is not guaranteed. Therefore, exporting them in a crate’s public API could cause semver breakage for such crates, should SNAFU internals change.

Controlling error sources

Selecting the source field

If your error enum variant contains other errors but the field cannot be named source, or if it contains a field named source which is not actually an error, you can use #[snafu(source)] to indicate if a field is an underlying cause or not:

#[derive(Debug, Snafu)]
enum Error {
    SourceIsNotAnError {
        #[snafu(source(false))]
        source: String,
    },

    CauseIsAnError {
        #[snafu(source)]
        cause: another::Error,
    },
}

Transforming the source

If your error type contains an underlying cause that needs to be transformed, you can use #[snafu(source(from(...)))]. This takes two arguments: the real type and an expression to transform from that type to the type held by the error.

#[derive(Debug, Snafu)]
enum Error {
    SourceNeedsToBeBoxed {
        #[snafu(source(from(another::Error, Box::new)))]
        source: Box<another::Error>,
    },
}

#[derive(Debug, Snafu)]
#[snafu(source(from(Error, Box::new)))]
struct ApiError(Box<Error>);

Note: If you specify #[snafu(source(from(...)))] then the field will be treated as a source, even if it’s not named “source” - in other words, #[snafu(source(from(...)))] implies #[snafu(source)].

Controlling backtraces

If your error enum variant contains a backtrace but the field cannot be named backtrace, or if it contains a field named backtrace which is not actually a backtrace, you can use #[snafu(backtrace)] to indicate if a field is actually a backtrace or not:

#[derive(Debug, Snafu)]
enum Error {
    BacktraceIsNotABacktrace {
        #[snafu(backtrace(false))]
        backtrace: bool,
    },

    TraceIsABacktrace {
        #[snafu(backtrace)]
        trace: Backtrace,
    },
}

If your error contains other SNAFU errors which can report backtraces, you may wish to delegate returning a backtrace to those errors. To specify this, use #[snafu(backtrace)] on the source field representing the other error:

#[derive(Debug, Snafu)]
enum Error {
    MyError {
        #[snafu(backtrace)]
        source: another::Error,
    },
}

Controlling stringly-typed errors

This allows your custom error type to behave like the Whatever error type. Since it is your type, you can implement additional methods or traits. When placed on a struct or enum variant, you will be able to use the type with the whatever! macro as well as whatever_context methods, such as ResultExt::whatever_context.

#[derive(Debug, Snafu)]
enum Error {
    SpecificError {
        username: String,
    },

    #[snafu(whatever, display("{}", message))]
    GenericError {
        message: String,

        // Having a `source` is optional, but if it is present, it must
        // have this specific attribute and type:
        #[snafu(source(from(Box<dyn std::error::Error>, Some)))]
        source: Option<Box<dyn std::error::Error>>,
    },
}

Controlling how the snafu crate is resolved

If the snafu crate is not called snafu for some reason, you can use #[snafu(crate_root)] to instruct the macro how to find the crate root:

use my_custom_naming_of_snafu::Snafu;

#[derive(Debug, Snafu)]
#[snafu(crate_root(my_custom_naming_of_snafu))]
enum Error {
    SomeFailureMode,
}

#[derive(Debug, Snafu)]
#[snafu(crate_root(my_custom_naming_of_snafu))]
struct ApiError(Error);