tokens.rs - mozsearch

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#![allow(

    clippy::let_underscore_untyped,

    clippy::manual_range_contains,

    clippy::needless_pass_by_value,

    clippy::type_complexity

)]

#[path = "../src/tokens.rs"]

#[allow(dead_code)]

mod tokens;

use crate::tokens::{Error, Token, Tokenizer};

use std::borrow::Cow;

fn err(input: &str, err: Error) {

    let mut t = Tokenizer::new(input);

    let token = t.next().unwrap_err();

    assert_eq!(token, err);

    assert!(t.next().unwrap().is_none());

#[test]

fn literal_strings() {

    fn t(input: &str, val: &str, multiline: bool) {

        let mut t = Tokenizer::new(input);

        let (_, token) = t.next().unwrap().unwrap();

        assert_eq!(

            token,

            Token::String {

                src: input,

                val: Cow::Borrowed(val),

                multiline,

);

        assert!(t.next().unwrap().is_none());

    t("''", "", false);

    t("''''''", "", true);

    t("'''\n'''", "", true);

    t("'a'", "a", false);

    t("'\"a'", "\"a", false);

    t("''''a'''", "'a", true);

    t("'''\n'a\n'''", "'a\n", true);

    t("'''a\n'a\r\n'''", "a\n'a\n", true);

#[test]

fn basic_strings() {

    fn t(input: &str, val: &str, multiline: bool) {

        let mut t = Tokenizer::new(input);

        let (_, token) = t.next().unwrap().unwrap();

        assert_eq!(

            token,

            Token::String {

                src: input,

                val: Cow::Borrowed(val),

                multiline,

);

        assert!(t.next().unwrap().is_none());

    t(r#""""#, "", false);

    t(r#""""""""#, "", true);

    t(r#""a""#, "a", false);

    t(r#""""a""""#, "a", true);

    t(r#""\t""#, "\t", false);

    t(r#""\u0000""#, "\0", false);

    t(r#""\U00000000""#, "\0", false);

    t(r#""\U000A0000""#, "\u{A0000}", false);

    t(r#""\\t""#, "\\t", false);

    t("\"\t\"", "\t", false);

    t("\"\"\"\n\t\"\"\"", "\t", true);

    t("\"\"\"\\\n\"\"\"", "", true);

t(

        "\"\"\"\\\n     \t   \t  \\\r\n  \t \n  \t \r\n\"\"\"",

"",

        true,

);

    t(r#""\r""#, "\r", false);

    t(r#""\n""#, "\n", false);

    t(r#""\b""#, "\u{8}", false);

    t(r#""a\fa""#, "a\u{c}a", false);

    t(r#""\"a""#, "\"a", false);

    t("\"\"\"\na\"\"\"", "a", true);

    t("\"\"\"\n\"\"\"", "", true);

    t(r#""""a\"""b""""#, "a\"\"\"b", true);

    err(r#""\a"#, Error::InvalidEscape(2, 'a'));

    err("\"\\\n", Error::InvalidEscape(2, '\n'));

    err("\"\\\r\n", Error::InvalidEscape(2, '\n'));

    err("\"\\", Error::UnterminatedString(0));

    err("\"\u{0}", Error::InvalidCharInString(1, '\u{0}'));

    err(r#""\U00""#, Error::InvalidHexEscape(5, '"'));

    err(r#""\U00"#, Error::UnterminatedString(0));

    err(r#""\uD800"#, Error::InvalidEscapeValue(2, 0xd800));

    err(r#""\UFFFFFFFF"#, Error::InvalidEscapeValue(2, 0xffff_ffff));

#[test]

fn keylike() {

    fn t(input: &str) {

        let mut t = Tokenizer::new(input);

        let (_, token) = t.next().unwrap().unwrap();

        assert_eq!(token, Token::Keylike(input));

        assert!(t.next().unwrap().is_none());

    t("foo");

    t("0bar");

    t("bar0");

    t("1234");

    t("a-b");

    t("a_B");

    t("-_-");

    t("___");

#[test]

fn all() {

    fn t(input: &str, expected: &[((usize, usize), Token, &str)]) {

        let mut tokens = Tokenizer::new(input);

        let mut actual: Vec<((usize, usize), Token, &str)> = Vec::new();

        while let Some((span, token)) = tokens.next().unwrap() {

            actual.push((span.into(), token, &input[span.start..span.end]));

        for (a, b) in actual.iter().zip(expected) {

            assert_eq!(a, b);

        assert_eq!(actual.len(), expected.len());

t(

        " a ",

&[

            ((0, 1), Token::Whitespace(" "), " "),

            ((1, 2), Token::Keylike("a"), "a"),

            ((2, 3), Token::Whitespace(" "), " "),

],

);

t(

        " a\t [[]] \t [] {} , . =\n# foo \r\n#foo \n ",

&[

            ((0, 1), Token::Whitespace(" "), " "),

            ((1, 2), Token::Keylike("a"), "a"),

            ((2, 4), Token::Whitespace("\t "), "\t "),

            ((4, 5), Token::LeftBracket, "["),

            ((5, 6), Token::LeftBracket, "["),

            ((6, 7), Token::RightBracket, "]"),

            ((7, 8), Token::RightBracket, "]"),

            ((8, 11), Token::Whitespace(" \t "), " \t "),

            ((11, 12), Token::LeftBracket, "["),

            ((12, 13), Token::RightBracket, "]"),

            ((13, 14), Token::Whitespace(" "), " "),

            ((14, 15), Token::LeftBrace, "{"),

            ((15, 16), Token::RightBrace, "}"),

            ((16, 17), Token::Whitespace(" "), " "),

            ((17, 18), Token::Comma, ","),

            ((18, 19), Token::Whitespace(" "), " "),

            ((19, 20), Token::Period, "."),

            ((20, 21), Token::Whitespace(" "), " "),

            ((21, 22), Token::Equals, "="),

            ((22, 23), Token::Newline, "\n"),

            ((23, 29), Token::Comment("# foo "), "# foo "),

            ((29, 31), Token::Newline, "\r\n"),

            ((31, 36), Token::Comment("#foo "), "#foo "),

            ((36, 37), Token::Newline, "\n"),

            ((37, 38), Token::Whitespace(" "), " "),

],

);

#[test]

fn bare_cr_bad() {

    err("\r", Error::Unexpected(0, '\r'));

    err("'\n", Error::NewlineInString(1));

    err("'\u{0}", Error::InvalidCharInString(1, '\u{0}'));

    err("'", Error::UnterminatedString(0));

    err("\u{0}", Error::Unexpected(0, '\u{0}'));

#[test]

fn bad_comment() {

    let mut t = Tokenizer::new("#\u{0}");

    t.next().unwrap().unwrap();

    assert_eq!(t.next(), Err(Error::Unexpected(1, '\u{0}')));

    assert!(t.next().unwrap().is_none());