Crates.io | pest_derive_tmp |
lib.rs | pest_derive_tmp |
version | 2.1.0 |
source | src |
created_at | 2019-06-15 13:49:49.267461 |
updated_at | 2019-06-15 13:49:49.267461 |
description | pest's derive macro |
homepage | https://pest-parser.github.io/ |
repository | https://github.com/pest-parser/pest |
max_upload_size | |
id | 141347 |
size | 59,238 |
pest is a general purpose parser written in Rust with a focus on accessibility, correctness, and performance. It uses parsing expression grammars (or PEG) as input, which are similar in spirit to regular expressions, but which offer the enhanced expressivity needed to parse complex languages.
The recommended way to start parsing with pest is to read the official book.
Other helpful resources:
The following is an example of a grammar for a list of alpha-numeric identifiers where the first identifier does not start with a digit:
alpha = { 'a'..'z' | 'A'..'Z' }
digit = { '0'..'9' }
ident = { (alpha | digit)+ }
ident_list = _{ !digit ~ ident ~ (" " ~ ident)+ }
// ^
// ident_list rule is silent which means it produces no tokens
Grammars are saved in separate .pest files which are never mixed with procedural code. This results in an always up-to-date formalization of a language that is easy to read and maintain.
Based on the grammar definition, the parser also includes automatic error
reporting. For the example above, the input "123"
will result in:
thread 'main' panicked at ' --> 1:1
|
1 | 123
| ^---
|
= unexpected digit', src/main.rs:12
while "ab *"
will result in:
thread 'main' panicked at ' --> 1:1
|
1 | ab *
| ^---
|
= expected ident', src/main.rs:12
The grammar can be used to derive a Parser
implementation automatically.
Parsing returns an iterator of nested token pairs:
extern crate pest;
#[macro_use]
extern crate pest_derive;
use pest::Parser;
#[derive(Parser)]
#[grammar = "ident.pest"]
struct IdentParser;
fn main() {
let pairs = IdentParser::parse(Rule::ident_list, "a1 b2").unwrap_or_else(|e| panic!("{}", e));
// Because ident_list is silent, the iterator will contain idents
for pair in pairs {
// A pair is a combination of the rule which matched and a span of input
println!("Rule: {:?}", pair.as_rule());
println!("Span: {:?}", pair.as_span());
println!("Text: {}", pair.as_str());
// A pair can be converted to an iterator of the tokens which make it up:
for inner_pair in pair.into_inner() {
match inner_pair.as_rule() {
Rule::alpha => println!("Letter: {}", inner_pair.as_str()),
Rule::digit => println!("Digit: {}", inner_pair.as_str()),
_ => unreachable!()
};
}
}
}
This produces the following output:
Rule: ident
Span: Span { start: 0, end: 2 }
Text: a1
Letter: a
Digit: 1
Rule: ident
Span: Span { start: 3, end: 5 }
Text: b2
Letter: b
Digit: 2
A special round of applause goes to prof. Marius Minea for his guidance and all pest contributors, some of which being none other than my friends.