Erratic /ɪˈrætɪk/

This library provides Error<S = Stateless>, an error type with optional dynamic dispatch, enabling applications to handle errors uniformly across different contexts.

Quick Start

In most cases, Error can serve as a drop-in replacement for Box<dyn Error>. Compared to the latter, it occupies only 1 usize, making the happy path faster.

use erratic::*;

fn write(filename: &str) -> Result<()> {
    File::open(filename)?.write_all(b"Hello, World!")?;
    Ok(())
}

Attaching Context & Payload

When constructing an error, you can optionally attach a static context and/or a dynamic payload. If attached, the memory is merged into a single allocation when the upstream error is erased. If omitted, no extra memory is allocated for them. If only a context is provided, no heap allocation occurs at all.

use erratic::*;

fn read_weak(r: &mut Weak<Reader>, buf: &mut [u8]) -> Result<()> {
    if buf.is_empty() {
        return mkres!("buf must not be empty"); // No alloc so long as no format args.
    }
    let r = r.upgrade()
        .with_context(literal!("reader expired"))?; // No alloc.
    r.read(buf)
        .with_context(literal!("failed to write to"))
        .with_payload(r.name())?; // Alloc once for error, name, and context.
    Ok(())
}

Binding State

When propagating an error that requires special handling, you can attach a generic state to it. If the state is small enough and neither the source error, context, nor payload is attached, the state is inlined without any heap allocation.

use erratic::*;

#[derive(Debug)]
enum State { RetryLater }

fn try_write(w: &mut Writer, data: &[u8; 64]) -> Result<(), Error<State>> {
    w.ready_for_write(64)
        .ok()
        .with_state(State::RetryLater)?; // No alloc.
    w.write(data)
        .with_context(literal!("failed to write to"))
        .with_payload(w.name())?;
    Ok(())
}

The state is optional and can be extracted at runtime, enabling stateless errors to have different layouts within a single type. A stateful error can be cheaply converted into a stateless one (via extract_state), while a stateless error can be cheaply converted into a stateful one (via with_phantom_state).

use erratic::*;

fn write(w: &mut Writer, data: &[u8; 64]) -> Result<()> {
    while let Err((state, _)) = try_write(w, data).extract_state()? {
        match state {
            State::RetryLater => {
                thread::yield_now();
            }
        }
    }
    Ok(())
}

Representation

Type-wise, Error<S> is an internally tagged union, and it requires pointers to constant or heap-allocated data to be aligned to 4 bytes, freeing up the lower 2 bits to encode the discriminant. This design allows heap allocation to be avoided when unnecessary.

(32-bit platform, little-endian)
(Context Only)
[XXXXXX00|XXXXXXXX|XXXXXXXX|XXXXXXXX]
                                    \
                                     `rodata-> [Context]
(State Only)
[00000010|     ~    State     ~     ]

(Otherwise)
[XXXXXX01|XXXXXXXX|XXXXXXXX|XXXXXXXX]
                                    \
                                     `heap-> [VTable|State|Error|Payload|Context]

Contributing

Contributions are warmly welcomed! Whether you have a bug report, feature request, or an improvement in mind, feel free to open an issue or submit a pull request. All ideas—big or small—help make this library better for everyone.