# nom-derive [](./LICENSE-MIT) [](./LICENSE-APACHE) [](https://docs.rs/nom-derive) [](https://travis-ci.org/chifflier/nom-derive) [](https://crates.io/crates/nom-derive) ## Overview nom-derive is a custom derive attribute, to derive [nom] parsers automatically from the structure definition. It is not meant to replace [nom], but to provide a quick and easy way to generate parsers for structures, especially for simple structures. This crate aims at simplifying common cases. In some cases, writing the parser manually will remain more efficient. - [API documentation](https://docs.rs/nom-derive) - The [docs::Nom] pseudo-module. This is the main documentation for the `Nom` attribute, with all possible options and many examples. *Feedback welcome !* ## `#[derive(Nom)]` This crate exposes a single custom-derive macro `Nom` which implements `parse` for the struct it is applied to. The goal of this project is that: * `derive(Nom)` should be enough for you to derive [nom] parsers for simple structures easily, without having to write it manually * it allows overriding any parsing method by your own * it allows using generated parsing functions along with handwritten parsers and combining them without efforts * it remains as fast as nom `nom-derive` adds declarative parsing to `nom`. It also allows mixing with procedural parsing easily, making writing parsers for byte-encoded formats very easy. For example: ```rust use nom_derive::*; #[derive(Nom)] struct S { a: u32, b: u16, c: u16 } ``` This adds static method `parse` to `S`. The generated code looks like: ```rust,ignore impl S { pub fn parse(i: &[u8]) -> nom::IResult(&[u8], S) { let (i, a) = be_u32(i)?; let (i, b) = be_u16(i)?; let (i, c) = be_u16(i)?; Ok((i, S{ a, b, c })) } } ``` To parse input, just call `let res = S::parse(input);`. For extensive documentation of all attributes and examples, see the documentation of [docs::Nom] custom derive attribute. Many examples are provided, and more can be found in the [project tests](https://github.com/rust-bakery/nom-derive/tree/master/tests). ## Combinators visibility All inferred parsers will generate code with absolute type path, so there is no need to add `use` statements for them. However, if you use any combinator directly (or in a `Parse` statement, for ex.), it has to be imported as usual. That is probably not going to change, since * a proc_macro cannot export items other than functions tagged with `#[proc_macro_derive]` * there are variants of combinators with the same names (complete/streaming, bits/bytes), so re-exporting them would create side-effects. ## Debug tips * If the generated parser does not compile, add `#[nom(DebugDerive)]` to the structure. It will dump the generated parser to `stderr`. * If the generated parser fails at runtime, try adding `#[nom(Debug)]` to the structure or to fields. It wraps subparsers in `dbg_dmp` and will print the field name and input to `stderr` if the parser fails. [nom]: https://github.com/geal/nom ## Changes See `CHANGELOG.md`, and `UPGRADING.md` for instructions for upgrading major versions. ## License Licensed under either of * Apache License, Version 2.0 ([LICENSE-APACHE](LICENSE-APACHE) or http://www.apache.org/licenses/LICENSE-2.0) * MIT license ([LICENSE-MIT](LICENSE-MIT) or http://opensource.org/licenses/MIT) at your option. ## Contribution Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.