#[macro_use]
extern crate nom;
use nom::IResult;
use nom::types::CompleteStr;
use std::collections::HashMap;
fn is_alphabetic(chr: char) -> bool {
(chr as u8 >= 0x41 && chr as u8 <= 0x5A) || (chr as u8 >= 0x61 && chr as u8 <= 0x7A)
}
fn is_digit(chr: char) -> bool {
chr as u8 >= 0x30 && chr as u8 <= 0x39
}
fn is_alphanumeric(chr: char) -> bool {
is_alphabetic(chr) || is_digit(chr)
}
fn is_space(chr: char) -> bool {
chr == ' ' || chr == '\t'
}
fn is_line_ending_or_comment(chr: char) -> bool {
chr == ';' || chr == '\n'
}
named!(alphanumeric<CompleteStr,CompleteStr>, take_while_s!(is_alphanumeric));
named!(not_line_ending<CompleteStr,CompleteStr>, is_not_s!("\r\n"));
named!(space<CompleteStr,CompleteStr>, take_while_s!(is_space));
named!(space_or_line_ending<CompleteStr,CompleteStr>, is_a_s!(" \r\n"));
fn right_bracket(c: char) -> bool {
c == ']'
}
named!(category <CompleteStr, &str>,
do_parse!(
tag_s!("[") >>
name: take_till_s!(right_bracket) >>
tag_s!("]") >>
opt!(space_or_line_ending) >>
(name.0)
)
);
named!(key_value <CompleteStr,(&str,&str)>,
do_parse!(
key: alphanumeric >>
opt!(space) >>
tag_s!("=") >>
opt!(space) >>
val: take_till_s!(is_line_ending_or_comment) >>
opt!(space) >>
opt!(pair!(tag_s!(";"), not_line_ending)) >>
opt!(space_or_line_ending) >>
(key.0, val.0)
)
);
named!(keys_and_values_aggregator<CompleteStr, Vec<(&str, &str)> >, many0!(key_value));
fn keys_and_values(input: CompleteStr) -> IResult<CompleteStr, HashMap<&str, &str>> {
match keys_and_values_aggregator(input) {
Ok((i, tuple_vec)) => Ok((i, tuple_vec.into_iter().collect())),
Err(e) => Err(e),
}
}
named!(category_and_keys<CompleteStr,(&str,HashMap<&str,&str>)>,
pair!(category, keys_and_values)
);
named!(categories_aggregator<CompleteStr, Vec<(&str, HashMap<&str,&str>)> >, many0!(category_and_keys));
fn categories(input: CompleteStr) -> IResult<CompleteStr, 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 = CompleteStr(
"[category]
parameter=value
key = value2",
);
let ini_without_category = CompleteStr(
"parameter=value
key = value2",
);
let res = category(ini_file);
println!("{:?}", res);
match res {
Ok((i, o)) => println!("i: {} | o: {:?}", i.0, o),
_ => println!("error"),
}
assert_eq!(res, Ok((ini_without_category, "category")));
}
#[test]
fn parse_key_value_test() {
let ini_file = CompleteStr(
"parameter=value
key = value2",
);
let ini_without_key_value = CompleteStr("key = value2");
let res = key_value(ini_file);
println!("{:?}", res);
match res {
Ok((i, (o1, o2))) => println!("i: {} | o: ({:?},{:?})", i.0, 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 = CompleteStr(
"parameter = value
key = value2",
);
let ini_without_key_value = CompleteStr("key = value2");
let res = key_value(ini_file);
println!("{:?}", res);
match res {
Ok((i, (o1, o2))) => println!("i: {} | o: ({:?},{:?})", i.0, 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 = CompleteStr(
"parameter=value;abc
key = value2",
);
let ini_without_key_value = CompleteStr("key = value2");
let res = key_value(ini_file);
println!("{:?}", res);
match res {
Ok((i, (o1, o2))) => println!("i: {} | o: ({:?},{:?})", i.0, 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 = CompleteStr(
"parameter=value;abc
key = value2
[category]",
);
let ini_without_key_value = CompleteStr("[category]");
let res = keys_and_values(ini_file);
println!("{:?}", res);
match res {
Ok((i, ref o)) => println!("i: {} | o: {:?}", i.0, 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() {
let ini_file = CompleteStr(
"[abcd]
parameter=value;abc
key = value2
[category]",
);
let ini_after_parser = CompleteStr("[category]");
let res = category_and_keys(ini_file);
println!("{:?}", res);
match res {
Ok((i, ref o)) => println!("i: {} | o: {:?}", i.0, 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 = CompleteStr(
"[abcd]
parameter=value;abc
key = value2
[category]
parameter3=value3
key4 = value4
",
);
let res = categories(ini_file);
match res {
Ok((i, ref o)) => println!("i: {} | o: {:?}", i.0, 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((CompleteStr(""), expected_h)));
}