use crate::common::util::*; use std::borrow::Cow; use std::path::Path; struct TestCase<'a> { from: &'a str, to: &'a str, expected: &'a str, } const TESTS: [TestCase; 10] = [ TestCase { from: "A/B/C", to: "A", expected: "../..", }, TestCase { from: "A/B/C", to: "A/B", expected: "..", }, TestCase { from: "A/B/C", to: "A/B/C", expected: "", }, TestCase { from: "A/B/C", to: "A/B/C/D", expected: "D", }, TestCase { from: "A/B/C", to: "A/B/C/D/E", expected: "D/E", }, TestCase { from: "A/B/C", to: "A/B/D", expected: "../D", }, TestCase { from: "A/B/C", to: "A/B/D/E", expected: "../D/E", }, TestCase { from: "A/B/C", to: "A/D", expected: "../../D", }, TestCase { from: "A/B/C", to: "D/E/F", expected: "../../../D/E/F", }, TestCase { from: "A/B/C", to: "A/D/E", expected: "../../D/E", }, ]; #[allow(clippy::needless_lifetimes)] fn convert_path<'a>(path: &'a str) -> Cow<'a, str> { #[cfg(windows)] return path.replace("/", "\\").into(); #[cfg(not(windows))] return path.into(); } #[test] fn test_relpath_with_from_no_d() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; for test in TESTS.iter() { let from: &str = &convert_path(test.from); let to: &str = &convert_path(test.to); let expected: &str = &convert_path(test.expected); at.mkdir_all(to); at.mkdir_all(from); scene .ucmd() .arg(to) .arg(from) .succeeds() .stdout_only(&format!("{}\n", expected)); } } #[test] fn test_relpath_with_from_with_d() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; for test in TESTS.iter() { let from: &str = &convert_path(test.from); let to: &str = &convert_path(test.to); let pwd = at.as_string(); at.mkdir_all(to); at.mkdir_all(from); // d is part of subpath -> expect relative path let mut _result_stdout = scene .ucmd() .arg(to) .arg(from) .arg(&format!("-d{}", pwd)) .succeeds() .stdout_move_str(); // relax rules for windows test environment #[cfg(not(windows))] assert!(Path::new(&_result_stdout).is_relative()); // d is not part of subpath -> expect absolute path _result_stdout = scene .ucmd() .arg(to) .arg(from) .arg("-dnon_existing") // spell-checker:disable-line .succeeds() .stdout_move_str(); assert!(Path::new(&_result_stdout).is_absolute()); } } #[test] fn test_relpath_no_from_no_d() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; for test in TESTS.iter() { let to: &str = &convert_path(test.to); at.mkdir_all(to); let _result_stdout = scene.ucmd().arg(to).succeeds().stdout_move_str(); #[cfg(not(windows))] assert_eq!(_result_stdout, format!("{}\n", to)); // relax rules for windows test environment #[cfg(windows)] assert!(_result_stdout.ends_with(&format!("{}\n", to))); } } #[test] fn test_relpath_no_from_with_d() { let scene = TestScenario::new(util_name!()); let at = &scene.fixtures; for test in TESTS.iter() { let to: &str = &convert_path(test.to); let pwd = at.as_string(); at.mkdir_all(to); // d is part of subpath -> expect relative path let _result_stdout = scene .ucmd() .arg(to) .arg(&format!("-d{}", pwd)) .succeeds() .stdout_move_str(); // relax rules for windows test environment #[cfg(not(windows))] assert!(Path::new(&_result_stdout).is_relative()); // d is not part of subpath -> expect absolute path let result_stdout = scene .ucmd() .arg(to) .arg("-dnon_existing") // spell-checker:disable-line .succeeds() .stdout_move_str(); assert!(Path::new(&result_stdout).is_absolute()); } }