mod sourcegen_inline_tests; mod entries; use std::{ fmt::Write, fs, path::{Path, PathBuf}, }; use expect_test::expect_file; use crate::LexedStr; #[test] fn lex_ok() { for case in TestCase::list("lexer/ok") { let actual = lex(&case.text); expect_file![case.txt].assert_eq(&actual) } } #[test] fn lex_err() { for case in TestCase::list("lexer/err") { let actual = lex(&case.text); expect_file![case.txt].assert_eq(&actual) } } fn lex(text: &str) -> String { let lexed = LexedStr::new(text); let mut res = String::new(); for i in 0..lexed.len() { let kind = lexed.kind(i); let text = lexed.text(i); let error = lexed.error(i); let error = error.map(|err| format!(" error: {}", err)).unwrap_or_default(); writeln!(res, "{:?} {:?}{}", kind, text, error).unwrap(); } res } #[test] fn parse_ok() { for case in TestCase::list("parser/ok") { let (actual, errors) = parse(&case.text); assert!(!errors, "errors in an OK file {}:\n{}", case.rs.display(), actual); expect_file![case.txt].assert_eq(&actual); } } #[test] fn parse_inline_ok() { for case in TestCase::list("parser/inline/ok") { let (actual, errors) = parse(&case.text); assert!(!errors, "errors in an OK file {}:\n{}", case.rs.display(), actual); expect_file![case.txt].assert_eq(&actual); } } #[test] fn parse_err() { for case in TestCase::list("parser/err") { let (actual, errors) = parse(&case.text); assert!(errors, "no errors in an ERR file {}:\n{}", case.rs.display(), actual); expect_file![case.txt].assert_eq(&actual) } } #[test] fn parse_inline_err() { for case in TestCase::list("parser/inline/err") { let (actual, errors) = parse(&case.text); assert!(errors, "no errors in an ERR file {}:\n{}", case.rs.display(), actual); expect_file![case.txt].assert_eq(&actual) } } fn parse(text: &str) -> (String, bool) { let lexed = LexedStr::new(text); let input = lexed.to_input(); let output = crate::TopEntryPoint::SourceFile.parse(&input); let mut buf = String::new(); let mut errors = Vec::new(); let mut indent = String::new(); lexed.intersperse_trivia(&output, &mut |step| match step { crate::StrStep::Token { kind, text } => { write!(buf, "{}", indent).unwrap(); write!(buf, "{:?} {:?}\n", kind, text).unwrap(); } crate::StrStep::Enter { kind } => { write!(buf, "{}", indent).unwrap(); write!(buf, "{:?}\n", kind).unwrap(); indent.push_str(" "); } crate::StrStep::Exit => { indent.pop(); indent.pop(); } crate::StrStep::Error { msg, pos } => errors.push(format!("error {}: {}\n", pos, msg)), }); for (token, msg) in lexed.errors() { let pos = lexed.text_start(token); errors.push(format!("error {}: {}\n", pos, msg)); } let has_errors = !errors.is_empty(); for e in errors { buf.push_str(&e); } (buf, has_errors) } #[derive(PartialEq, Eq, PartialOrd, Ord)] struct TestCase { rs: PathBuf, txt: PathBuf, text: String, } impl TestCase { fn list(path: &'static str) -> Vec { let crate_root_dir = Path::new(env!("CARGO_MANIFEST_DIR")); let test_data_dir = crate_root_dir.join("test_data"); let dir = test_data_dir.join(path); let mut res = Vec::new(); let read_dir = fs::read_dir(&dir) .unwrap_or_else(|err| panic!("can't `read_dir` {}: {}", dir.display(), err)); for file in read_dir { let file = file.unwrap(); let path = file.path(); if path.extension().unwrap_or_default() == "rs" { let rs = path; let txt = rs.with_extension("txt"); let text = fs::read_to_string(&rs).unwrap(); res.push(TestCase { rs, txt, text }); } } res.sort(); res } }