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@ -1,13 +1,13 @@
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use nom::branch::alt;
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use nom::branch::alt;
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use nom::bytes::complete::{escaped, is_not, take, take_till, take_until, take_while};
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use nom::bytes::complete::{escaped, is_not, take, take_till, take_until, take_while};
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use nom::bytes::complete::{tag, take_while1, take_while_m_n};
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use nom::bytes::complete::{tag, take_while1, take_while_m_n};
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use nom::character::complete::{anychar, char, line_ending, newline, not_line_ending, one_of};
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use nom::character::complete::{anychar, char, line_ending, newline, not_line_ending, one_of, multispace1};
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use nom::character::complete::alphanumeric1 as alphanumeric;
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use nom::character::complete::alphanumeric1 as alphanumeric;
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use nom::character::is_alphabetic;
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use nom::character::is_alphabetic;
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use nom::combinator::{cut, map, map_res, opt};
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use nom::combinator::{cut, map, map_res, opt, value, verify, map_opt};
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use nom::error::ParseError;
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use nom::error::{ParseError, FromExternalError};
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use nom::IResult;
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use nom::IResult;
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use nom::multi::many0;
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use nom::multi::{many0, fold_many0};
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use nom::number::complete::be_u16;
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use nom::number::complete::be_u16;
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use nom::sequence::{delimited, preceded, terminated, tuple};
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use nom::sequence::{delimited, preceded, terminated, tuple};
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@ -63,7 +63,7 @@ pub fn elem<'a, E: ParseError<&'a str>>(input: &'a str) -> IResult<&'a str, &'a
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let (input, _) = delimited(opt(sp), tag("elem"), sp)(input)?;
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let (input, _) = delimited(opt(sp), tag("elem"), sp)(input)?;
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let (input, elem_name) = parse_str(input)?;
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let (input, elem_name) = parse_token(input)?;
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let (input, _) = scope::<'a, E>(input)?;
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let (input, _) = scope::<'a, E>(input)?;
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@ -73,11 +73,132 @@ pub fn elem<'a, E: ParseError<&'a str>>(input: &'a str) -> IResult<&'a str, &'a
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}
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}
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fn parse_str<'a, E: ParseError<&'a str>>(i: &'a str) -> IResult<&'a str, &'a str, E> {
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// Parse a single alphanumeric token delimited by spaces
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fn parse_token<'a, E: ParseError<&'a str>>(i: &'a str) -> IResult<&'a str, &'a str, E> {
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let chars = "\n";
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let chars = "\n";
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escaped(alphanumeric, '\\', one_of(""))(i)
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escaped(alphanumeric, '\\', one_of(""))(i)
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}
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}
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#[derive(Debug, Clone, Copy, PartialEq, Eq)]
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enum StringFragment<'a> {
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Literal(&'a str),
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EscapedChar(char),
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EscapedWS,
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}
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fn parse_unicode<'a, E: ParseError<&'a str> + FromExternalError<&'a str, std::num::ParseIntError>>(input: &'a str)
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-> IResult<&'a str, char, E> {
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// `take_while_m_n` parses between `m` and `n` bytes (inclusive) that match
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// a predicate. `parse_hex` here parses between 1 and 6 hexadecimal numerals.
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let parse_hex = take_while_m_n(1, 6, |c: char| c.is_ascii_hexdigit());
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// `preceeded` takes a prefix parser, and if it succeeds, returns the result
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// of the body parser. In this case, it parses u{XXXX}.
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let parse_delimited_hex = preceded(
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char('u'),
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// `delimited` is like `preceded`, but it parses both a prefix and a suffix.
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// It returns the result of the middle parser. In this case, it parses
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// {XXXX}, where XXXX is 1 to 6 hex numerals, and returns XXXX
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delimited(char('{'), parse_hex, char('}')),
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);
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// `map_res` takes the result of a parser and applies a function that returns
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// a Result. In this case we take the hex bytes from parse_hex and attempt to
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// convert them to a u32.
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let parse_u32 = map_res(parse_delimited_hex, move |hex| u32::from_str_radix(hex, 16));
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// map_opt is like map_res, but it takes an Option instead of a Result. If
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// the function returns None, map_opt returns an error. In this case, because
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// not all u32 values are valid unicode code points, we have to fallibly
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// convert to char with from_u32.
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map_opt(parse_u32, |value| std::char::from_u32(value))(input)
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}
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/// Parse an escaped character: \n, \t, \r, \u{00AC}, etc.
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fn parse_escaped_char<'a, E: ParseError<&'a str>+ FromExternalError<&'a str, std::num::ParseIntError>>(input: &'a str)
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-> IResult<&'a str, char, E> {
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preceded(
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char('\\'),
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// `alt` tries each parser in sequence, returning the result of
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// the first successful match
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alt((
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parse_unicode,
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// The `value` parser returns a fixed value (the first argument) if its
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// parser (the second argument) succeeds. In these cases, it looks for
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// the marker characters (n, r, t, etc) and returns the matching
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// character (\n, \r, \t, etc).
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value('\n', char('n')),
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value('\r', char('r')),
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value('\t', char('t')),
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value('\u{08}', char('b')),
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value('\u{0C}', char('f')),
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value('\\', char('\\')),
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value('/', char('/')),
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value('"', char('"')),
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)),
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)(input)
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}
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/// Parse a backslash, followed by any amount of whitespace. This is used later
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/// to discard any escaped whitespace.
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fn parse_escaped_whitespace<'a, E: ParseError<&'a str>>(
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input: &'a str,
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) -> IResult<&'a str, &'a str, E> {
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preceded(char('\\'), multispace1)(input)
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}
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/// Parse a non-empty block of text that doesn't include \ or "
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fn parse_literal<'a, E: ParseError<&'a str>>(input: &'a str) -> IResult<&'a str, &'a str, E> {
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// `is_not` parses a string of 0 or more characters that aren't one of the
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// given characters.
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let not_quote_slash = is_not("\"\\");
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// `verify` runs a parser, then runs a verification function on the output of
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// the parser. The verification function accepts out output only if it
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// returns true. In this case, we want to ensure that the output of is_not
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// is non-empty.
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verify(not_quote_slash, |s: &str| !s.is_empty())(input)
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}
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/// Combine parse_literal, parse_escaped_whitespace, and parse_escaped_char
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/// into a StringFragment.
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fn parse_fragment<'a, E: ParseError<&'a str>+ FromExternalError<&'a str, std::num::ParseIntError>>(
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input: &'a str,
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) -> IResult<&'a str, StringFragment<'a>, E> {
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alt((
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// The `map` combinator runs a parser, then applies a function to the output
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// of that parser.
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map(parse_literal, StringFragment::Literal),
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map(parse_escaped_char, StringFragment::EscapedChar),
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value(StringFragment::EscapedWS, parse_escaped_whitespace),
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))(input)
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}
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/// Parse a string. Use a loop of parse_fragment and push all of the fragments
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/// into an output string.
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fn parse_string<'a, E: ParseError<&'a str> + FromExternalError<&'a str, std::num::ParseIntError>>(input: &'a str) -> IResult<&'a str, String, E> {
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// fold_many0 is the equivalent of iterator::fold. It runs a parser in a loop,
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// and for each output value, calls a folding function on each output value.
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let build_string = fold_many0(
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// Our parser function– parses a single string fragment
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parse_fragment,
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// Our init value, an empty string
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String::new(),
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// Our folding function. For each fragment, append the fragment to the
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// string.
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|mut string, fragment| {
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match fragment {
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StringFragment::Literal(s) => string.push_str(s),
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StringFragment::EscapedChar(c) => string.push(c),
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StringFragment::EscapedWS => {}
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}
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string
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},
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);
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delimited(char('"'), build_string, char('"'))(input)
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}
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// Parse from a # to a newline character
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// Parse from a # to a newline character
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pub fn comment<'a, E: ParseError<&'a str>>(input: &'a str) -> IResult<&'a str, &'a str, E> {
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pub fn comment<'a, E: ParseError<&'a str>>(input: &'a str) -> IResult<&'a str, &'a str, E> {
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@ -94,21 +215,14 @@ pub fn comment<'a, E: ParseError<&'a str>>(input: &'a str) -> IResult<&'a str, &
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}
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}
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// Eat up whitespace characters
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/// parser combinators are constructed from the bottom up:
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/// first we write parsers for the smallest elements (here a space character),
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/// then we'll combine them in larger parsers
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fn sp<'a>(i: &'a str) -> IResult<&'a str, &'a str> {
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fn sp<'a>(i: &'a str) -> IResult<&'a str, &'a str> {
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let chars = " \t\r\n";
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let chars = " \t\r\n";
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// nom combinators like `take_while` return a function. That function is the
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// parser,to which we can pass the input
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take_while(move |c| chars.contains(c))(i)
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take_while(move |c| chars.contains(c))(i)
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}
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}
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pub fn parse_script<'a, E: ParseError<&'a str>>(input: &'a str) -> IResult<&'a str, ScriptMeta, E> {
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pub fn parse_script<'a, E: ParseError<&'a str>>(input: &'a str) -> IResult<&'a str, ScriptMeta, E> {
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println!("Full input string : {:?}\n", input);
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println!("Full input string : {:?}\n", input);
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let mut remaining_str = input;
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let mut remaining_str = input;
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@ -125,23 +239,6 @@ pub fn parse_script<'a, E: ParseError<&'a str>>(input: &'a str) -> IResult<&'a s
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remaining_str = x.unwrap().0;
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remaining_str = x.unwrap().0;
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}
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}
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//println!("{:?}", x);
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// if let Ok(v) = elem_tag(input) {
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// println!("Found elem tag");
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// if let Ok(v) = sp(v.0) {
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//
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// println!("ate some spaces");
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// }
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// else {
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// println!("didn't eat spaces?");
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// }
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// }
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// if let Ok(v) = comment(input) {
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// println!("Found comment tag")
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// }
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return Ok((remaining_str, ScriptMeta::Comment(String::default())));
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return Ok((remaining_str, ScriptMeta::Comment(String::default())));
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}
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}
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