Add test module

This commit is contained in:
Greg Shuflin 2024-01-28 02:36:21 -08:00
parent 918e3d042b
commit 3669d5d2cc
2 changed files with 75 additions and 76 deletions

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@ -6,85 +6,12 @@ mod parser;
mod primitives; mod primitives;
mod sequence; mod sequence;
#[cfg(test)]
mod test;
pub use choice::*; pub use choice::*;
pub use combinators::*; pub use combinators::*;
pub use map::*; pub use map::*;
pub use parser::{ParseResult, Parser, ParserExtension}; pub use parser::{ParseResult, Parser, ParserExtension};
pub use primitives::*; pub use primitives::*;
pub use sequence::*; pub use sequence::*;
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn parsing() {
let (parsed, rest) = literal("a")("a yolo").unwrap();
assert_eq!(parsed, "a");
assert_eq!(rest, " yolo");
}
#[test]
fn test_sequence() {
let parser = seq2(literal("bongo"), seq2(literal(" "), literal("jonzzz")));
let output = parser.parse("bongo jonzzz").unwrap();
assert_eq!(output.0 .0, "bongo");
assert_eq!(output.0 .1, (" ", "jonzzz"));
assert_eq!(output.1, "");
}
#[test]
fn test_choice() {
let a = literal("bongo");
let b = literal("sucy");
let c = literal("ara");
let inputs = [&a as &dyn Parser<&str, &str, ()>, &b, &c];
let parser = choice(&inputs);
let output = parser.parse("ara hajimete").unwrap();
assert_eq!(("ara", " hajimete"), output);
}
#[test]
fn test_map() {
let parser =
seq2(literal("a"), literal("b")).map(|(a, _b): (&str, &str)| (a.to_uppercase(), 59));
let output = parser.parse("abcd").unwrap();
assert_eq!((("A".to_owned(), 59), "cd"), output);
let spaces = repeated(literal_char(' ')).at_least(1);
let parser = seq2(literal("lute"), spaces).to(500);
assert_eq!(parser.parse("lute "), Ok((500, "")));
assert_eq!(parser.parse("lute"), Err(((), "")));
}
#[test]
fn test_combinators() {
let parser = repeated(literal_char('a')).to(10).then(literal_char('b'));
let output = parser.parse("aaaaaaaabcd").unwrap();
assert_eq! {((10, 'b'), "cd"), output};
}
#[test]
fn test_optional() {
let parser = seq2(
optional(literal("alpha")),
seq2(repeated(literal(" ")), literal("beta")),
);
let output1 = parser.parse(" beta").unwrap();
assert_eq!(output1.0 .0, None);
let output2 = parser.parse("alpha beta").unwrap();
assert_eq!(output2.0 .0, Some("alpha"));
}
#[test]
fn test_repeated() {
let spaces = repeated(literal_char(' ')).at_least(1);
let bongo = literal("bongo");
let parser = repeated(bongo).separated_by(map(spaces, |_| ()));
let output = parser.parse("bongo bongo bongo bongo");
let output = output.unwrap();
assert_eq!(output.0, vec!["bongo", "bongo", "bongo", "bongo"]);
}
}

72
src/test/mod.rs Normal file
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@ -0,0 +1,72 @@
use super::*;
#[test]
fn parsing() {
let (parsed, rest) = literal("a")("a yolo").unwrap();
assert_eq!(parsed, "a");
assert_eq!(rest, " yolo");
}
#[test]
fn test_sequence() {
let parser = seq2(literal("bongo"), seq2(literal(" "), literal("jonzzz")));
let output = parser.parse("bongo jonzzz").unwrap();
assert_eq!(output.0 .0, "bongo");
assert_eq!(output.0 .1, (" ", "jonzzz"));
assert_eq!(output.1, "");
}
#[test]
fn test_choice() {
let a = literal("bongo");
let b = literal("sucy");
let c = literal("ara");
let inputs = [&a as &dyn Parser<&str, &str, ()>, &b, &c];
let parser = choice(&inputs);
let output = parser.parse("ara hajimete").unwrap();
assert_eq!(("ara", " hajimete"), output);
}
#[test]
fn test_map() {
let parser =
seq2(literal("a"), literal("b")).map(|(a, _b): (&str, &str)| (a.to_uppercase(), 59));
let output = parser.parse("abcd").unwrap();
assert_eq!((("A".to_owned(), 59), "cd"), output);
let spaces = repeated(literal_char(' ')).at_least(1);
let parser = seq2(literal("lute"), spaces).to(500);
assert_eq!(parser.parse("lute "), Ok((500, "")));
assert_eq!(parser.parse("lute"), Err(((), "")));
}
#[test]
fn test_combinators() {
let parser = repeated(literal_char('a')).to(10).then(literal_char('b'));
let output = parser.parse("aaaaaaaabcd").unwrap();
assert_eq! {((10, 'b'), "cd"), output};
}
#[test]
fn test_optional() {
let parser = seq2(
optional(literal("alpha")),
seq2(repeated(literal(" ")), literal("beta")),
);
let output1 = parser.parse(" beta").unwrap();
assert_eq!(output1.0 .0, None);
let output2 = parser.parse("alpha beta").unwrap();
assert_eq!(output2.0 .0, Some("alpha"));
}
#[test]
fn test_repeated() {
let spaces = repeated(literal_char(' ')).at_least(1);
let bongo = literal("bongo");
let parser = repeated(bongo).separated_by(map(spaces, |_| ()));
let output = parser.parse("bongo bongo bongo bongo");
let output = output.unwrap();
assert_eq!(output.0, vec!["bongo", "bongo", "bongo", "bongo"]);
}