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# Nom Recipes

These are short recipes for accomplishing common tasks with nom.

* [Whitespace](#whitespace)

  + [Wrapper combinators that eat whitespace before and after a parser](#wrapper-combinators-that-eat-whitespace-before-and-after-a-parser)

* [Comments](#comments)

  + [`// C++/EOL-style comments`](#-ceol-style-comments)

  + [`/* C-style comments */`](#-c-style-comments-)

* [Identifiers](#identifiers)

  + [`Rust-Style Identifiers`](#rust-style-identifiers)

* [Literal Values](#literal-values)

  + [Escaped Strings](#escaped-strings)

  + [Integers](#integers)

    - [Hexadecimal](#hexadecimal)

    - [Octal](#octal)

    - [Binary](#binary)

    - [Decimal](#decimal)

  + [Floating Point Numbers](#floating-point-numbers)

## Whitespace

### Wrapper combinators that eat whitespace before and after a parser

```rust

use nom::{

  IResult,

  error::ParseError,

  combinator::value,

  sequence::delimited,

  character::complete::multispace0,

};

/// A combinator that takes a parser `inner` and produces a parser that also consumes both leading and

/// trailing whitespace, returning the output of `inner`.

fn ws<'a, F: 'a, O, E: ParseError<&'a str>>(inner: F) -> impl FnMut(&'a str) -> IResult<&'a str, O, E>

  where

  F: Fn(&'a str) -> IResult<&'a str, O, E>,

  delimited(

    multispace0,

    inner,

    multispace0

```

To eat only trailing whitespace, replace `delimited(...)` with `terminated(&inner, multispace0)`.

Likewise, the eat only leading whitespace, replace `delimited(...)` with `preceded(multispace0,

&inner)`. You can use your own parser instead of `multispace0` if you want to skip a different set

of lexemes.

## Comments

### `// C++/EOL-style comments`

This version uses `%` to start a comment, does not consume the newline character, and returns an

output of `()`.

```rust

use nom::{

  IResult,

  error::ParseError,

  combinator::value,

  sequence::pair,

  bytes::complete::is_not,

  character::complete::char,

};

pub fn peol_comment<'a, E: ParseError<&'a str>>(i: &'a str) -> IResult<&'a str, (), E>

  value(

    (), // Output is thrown away.

    pair(char('%'), is_not("\n\r"))

  )(i)

```

### `/* C-style comments */`

Inline comments surrounded with sentinel tags `(*` and `*)`. This version returns an output of `()`

and does not handle nested comments.

```rust

use nom::{

  IResult,

  error::ParseError,

  combinator::value,

  sequence::tuple,

  bytes::complete::{tag, take_until},

};

pub fn pinline_comment<'a, E: ParseError<&'a str>>(i: &'a str) -> IResult<&'a str, (), E> {

  value(

    (), // Output is thrown away.

    tuple((

      tag("(*"),

      take_until("*)"),

      tag("*)")

))

  )(i)

```

## Identifiers

### `Rust-Style Identifiers`

Parsing identifiers that may start with a letter (or underscore) and may contain underscores,

letters and numbers may be parsed like this:

```rust

use nom::{

  IResult,

  branch::alt,

  multi::many0_count,

  combinator::recognize,

  sequence::pair,

  character::complete::{alpha1, alphanumeric1},

  bytes::complete::tag,

};

pub fn identifier(input: &str) -> IResult<&str, &str> {

  recognize(

    pair(

      alt((alpha1, tag("_"))),

      many0_count(alt((alphanumeric1, tag("_"))))

  )(input)

```

Let's say we apply this to the identifier `hello_world123abc`. The first `alt` parser would

recognize `h`. The `pair` combinator ensures that `ello_world123abc` will be piped to the next

`alphanumeric0` parser, which recognizes every remaining character. However, the `pair` combinator

returns a tuple of the results of its sub-parsers. The `recognize` parser produces a `&str` of the

input text that was parsed, which in this case is the entire `&str` `hello_world123abc`.

## Literal Values

### Escaped Strings

This is [one of the examples](https://github.com/Geal/nom/blob/main/examples/string.rs) in the

examples directory.

### Integers

The following recipes all return string slices rather than integer values. How to obtain an

integer value instead is demonstrated for hexadecimal integers. The others are similar.

The parsers allow the grouping character `_`, which allows one to group the digits by byte, for

example: `0xA4_3F_11_28`. If you prefer to exclude the `_` character, the lambda to convert from a

string slice to an integer value is slightly simpler. You can also strip the `_` from the string

slice that is returned, which is demonstrated in the second hexdecimal number parser.

If you wish to limit the number of digits in a valid integer literal, replace `many1` with

`many_m_n` in the recipes.

#### Hexadecimal

The parser outputs the string slice of the digits without the leading `0x`/`0X`.

```rust

use nom::{

  IResult,

  branch::alt,

  multi::{many0, many1},

  combinator::recognize,

  sequence::{preceded, terminated},

  character::complete::{char, one_of},

  bytes::complete::tag,

};

fn hexadecimal(input: &str) -> IResult<&str, &str> { // <'a, E: ParseError<&'a str>>

  preceded(

    alt((tag("0x"), tag("0X"))),

    recognize(

      many1(

        terminated(one_of("0123456789abcdefABCDEF"), many0(char('_')))

  )(input)

```

If you want it to return the integer value instead, use map:

```rust

use nom::{

  IResult,

  branch::alt,

  multi::{many0, many1},

  combinator::{map_res, recognize},

  sequence::{preceded, terminated},

  character::complete::{char, one_of},

  bytes::complete::tag,

};

fn hexadecimal_value(input: &str) -> IResult<&str, i64> {

  map_res(

    preceded(

      alt((tag("0x"), tag("0X"))),

      recognize(

        many1(

          terminated(one_of("0123456789abcdefABCDEF"), many0(char('_')))

),

    |out: &str| i64::from_str_radix(&str::replace(&out, "_", ""), 16)

  )(input)

```

#### Octal

```rust

use nom::{

  IResult,

  branch::alt,

  multi::{many0, many1},

  combinator::recognize,

  sequence::{preceded, terminated},

  character::complete::{char, one_of},

  bytes::complete::tag,

};

fn octal(input: &str) -> IResult<&str, &str> {

  preceded(

    alt((tag("0o"), tag("0O"))),

    recognize(

      many1(

        terminated(one_of("01234567"), many0(char('_')))

  )(input)

```

#### Binary

```rust

use nom::{

  IResult,

  branch::alt,

  multi::{many0, many1},

  combinator::recognize,

  sequence::{preceded, terminated},

  character::complete::{char, one_of},

  bytes::complete::tag,

};

fn binary(input: &str) -> IResult<&str, &str> {

  preceded(

    alt((tag("0b"), tag("0B"))),

    recognize(

      many1(

        terminated(one_of("01"), many0(char('_')))

  )(input)

```

#### Decimal

```rust

use nom::{

  IResult,

  multi::{many0, many1},

  combinator::recognize,

  sequence::terminated,

  character::complete::{char, one_of},

};

fn decimal(input: &str) -> IResult<&str, &str> {

  recognize(

    many1(

      terminated(one_of("0123456789"), many0(char('_')))

  )(input)

```

### Floating Point Numbers

The following is adapted from [the Python parser by Valentin Lorentz (ProgVal)](https://github.com/ProgVal/rust-python-parser/blob/master/src/numbers.rs).

```rust

use nom::{

  IResult,

  branch::alt,

  multi::{many0, many1},

  combinator::{opt, recognize},

  sequence::{preceded, terminated, tuple},

  character::complete::{char, one_of},

};

fn float(input: &str) -> IResult<&str, &str> {

  alt((

    // Case one: .42

    recognize(

      tuple((

        char('.'),

        decimal,

        opt(tuple((

          one_of("eE"),

          opt(one_of("+-")),

          decimal

)))

))

    , // Case two: 42e42 and 42.42e42

    recognize(

      tuple((

        decimal,

        opt(preceded(

          char('.'),

          decimal,

)),

        one_of("eE"),

        opt(one_of("+-")),

        decimal

))

    , // Case three: 42. and 42.42

    recognize(

      tuple((

        decimal,

        char('.'),

        opt(decimal)

))

  ))(input)

fn decimal(input: &str) -> IResult<&str, &str> {

  recognize(

    many1(

      terminated(one_of("0123456789"), many0(char('_')))

  )(input)

```

# implementing FromStr

The [FromStr trait](https://doc.rust-lang.org/std/str/trait.FromStr.html) provides

a common interface to parse from a string.

```rust

use nom::{

  IResult, Finish, error::Error,

  bytes::complete::{tag, take_while},

};

use std::str::FromStr;

// will recognize the name in "Hello, name!"

fn parse_name(input: &str) -> IResult<&str, &str> {

  let (i, _) = tag("Hello, ")(input)?;

  let (i, name) = take_while(|c:char| c.is_alphabetic())(i)?;

  let (i, _) = tag("!")(i)?;

  Ok((i, name))

// with FromStr, the result cannot be a reference to the input, it must be owned

#[derive(Debug)]

pub struct Name(pub String);

impl FromStr for Name {

  // the error must be owned as well

  type Err = Error<String>;

  fn from_str(s: &str) -> Result<Self, Self::Err> {

      match parse_name(s).finish() {

          Ok((_remaining, name)) => Ok(Name(name.to_string())),

          Err(Error { input, code }) => Err(Error {

              input: input.to_string(),

              code,

})

fn main() {

  // parsed: Ok(Name("nom"))

  println!("parsed: {:?}", "Hello, nom!".parse::<Name>());

  // parsed: Err(Error { input: "123!", code: Tag })

  println!("parsed: {:?}", "Hello, 123!".parse::<Name>());

```