use nom::{ bytes::complete::{is_a, tag, take_till, take_while}, character::complete::{alphanumeric1 as alphanumeric, char, space0 as space}, combinator::opt, multi::many, sequence::{delimited, pair, terminated}, IResult, Parser, }; use std::collections::HashMap; fn is_line_ending_or_comment(chr: char) -> bool { chr == ';' || chr == '\n' } fn not_line_ending(i: &str) -> IResult<&str, &str> { take_while(|c| c != '\r' && c != '\n')(i) } fn space_or_line_ending(i: &str) -> IResult<&str, &str> { is_a(" \r\n")(i) } fn category(i: &str) -> IResult<&str, &str> { terminated( delimited(char('['), take_while(|c| c != ']'), char(']')), opt(is_a(" \r\n")), ) .parse(i) } fn key_value(i: &str) -> IResult<&str, (&str, &str)> { let (i, key) = alphanumeric(i)?; let (i, _) = (opt(space), tag("="), opt(space)).parse(i)?; let (i, val) = take_till(is_line_ending_or_comment)(i)?; let (i, _) = opt(space).parse(i)?; let (i, _) = opt(pair(tag(";"), not_line_ending)).parse(i)?; let (i, _) = opt(space_or_line_ending).parse(i)?; Ok((i, (key, val))) } fn keys_and_values_aggregator(i: &str) -> IResult<&str, Vec<(&str, &str)>> { many(0.., key_value).parse(i) } fn keys_and_values(input: &str) -> IResult<&str, HashMap<&str, &str>> { match keys_and_values_aggregator(input) { Ok((i, tuple_vec)) => Ok((i, tuple_vec.into_iter().collect())), Err(e) => Err(e), } } fn category_and_keys(i: &str) -> IResult<&str, (&str, HashMap<&str, &str>)> { pair(category, keys_and_values).parse(i) } #[allow(clippy::type_complexity)] fn categories_aggregator(i: &str) -> IResult<&str, Vec<(&str, HashMap<&str, &str>)>> { many(0.., category_and_keys).parse(i) } fn categories(input: &str) -> IResult<&str, HashMap<&str, HashMap<&str, &str>>> { match categories_aggregator(input) { Ok((i, tuple_vec)) => Ok((i, tuple_vec.into_iter().collect())), Err(e) => Err(e), } } #[test] fn parse_category_test() { let ini_file = "[category] parameter=value key = value2"; let ini_without_category = "parameter=value key = value2"; let res = category(ini_file); println!("{:?}", res); match res { Ok((i, o)) => println!("i: {} | o: {:?}", i, o), _ => println!("error"), } assert_eq!(res, Ok((ini_without_category, "category"))); } #[test] fn parse_key_value_test() { let ini_file = "parameter=value key = value2"; let ini_without_key_value = "key = value2"; let res = key_value(ini_file); println!("{:?}", res); match res { Ok((i, (o1, o2))) => println!("i: {} | o: ({:?},{:?})", i, o1, o2), _ => println!("error"), } assert_eq!(res, Ok((ini_without_key_value, ("parameter", "value")))); } #[test] fn parse_key_value_with_space_test() { let ini_file = "parameter = value key = value2"; let ini_without_key_value = "key = value2"; let res = key_value(ini_file); println!("{:?}", res); match res { Ok((i, (o1, o2))) => println!("i: {} | o: ({:?},{:?})", i, o1, o2), _ => println!("error"), } assert_eq!(res, Ok((ini_without_key_value, ("parameter", "value")))); } #[test] fn parse_key_value_with_comment_test() { let ini_file = "parameter=value;abc key = value2"; let ini_without_key_value = "key = value2"; let res = key_value(ini_file); println!("{:?}", res); match res { Ok((i, (o1, o2))) => println!("i: {} | o: ({:?},{:?})", i, o1, o2), _ => println!("error"), } assert_eq!(res, Ok((ini_without_key_value, ("parameter", "value")))); } #[test] fn parse_multiple_keys_and_values_test() { let ini_file = "parameter=value;abc key = value2 [category]"; let ini_without_key_value = "[category]"; let res = keys_and_values(ini_file); println!("{:?}", res); match res { Ok((i, ref o)) => println!("i: {} | o: {:?}", i, o), _ => println!("error"), } let mut expected: HashMap<&str, &str> = HashMap::new(); expected.insert("parameter", "value"); expected.insert("key", "value2"); assert_eq!(res, Ok((ini_without_key_value, expected))); } #[test] fn parse_category_then_multiple_keys_and_values_test() { //FIXME: there can be an empty line or a comment line after a category let ini_file = "[abcd] parameter=value;abc key = value2 [category]"; let ini_after_parser = "[category]"; let res = category_and_keys(ini_file); println!("{:?}", res); match res { Ok((i, ref o)) => println!("i: {} | o: {:?}", i, o), _ => println!("error"), } let mut expected_h: HashMap<&str, &str> = HashMap::new(); expected_h.insert("parameter", "value"); expected_h.insert("key", "value2"); assert_eq!(res, Ok((ini_after_parser, ("abcd", expected_h)))); } #[test] fn parse_multiple_categories_test() { let ini_file = "[abcd] parameter=value;abc key = value2 [category] parameter3=value3 key4 = value4 "; let res = categories(ini_file); //println!("{:?}", res); match res { Ok((i, ref o)) => println!("i: {} | o: {:?}", i, o), _ => println!("error"), } let mut expected_1: HashMap<&str, &str> = HashMap::new(); expected_1.insert("parameter", "value"); expected_1.insert("key", "value2"); let mut expected_2: HashMap<&str, &str> = HashMap::new(); expected_2.insert("parameter3", "value3"); expected_2.insert("key4", "value4"); let mut expected_h: HashMap<&str, HashMap<&str, &str>> = HashMap::new(); expected_h.insert("abcd", expected_1); expected_h.insert("category", expected_2); assert_eq!(res, Ok(("", expected_h))); }