use crate::common::util::*; static INPUT: &str = "lists.txt"; struct TestedSequence<'b> { name: &'b str, sequence: &'b str, } static EXAMPLE_SEQUENCES: &[TestedSequence] = &[ TestedSequence { name: "singular", sequence: "2", }, TestedSequence { name: "prefix", sequence: "-2", }, TestedSequence { name: "suffix", sequence: "2-", }, TestedSequence { name: "range", sequence: "2-4", }, TestedSequence { name: "aggregate", sequence: "9-,6-7,-2,4", }, TestedSequence { name: "subsumed", sequence: "2-,3", }, ]; static COMPLEX_SEQUENCE: &TestedSequence = &TestedSequence { name: "", sequence: "9-,6-7,-2,4", }; #[test] fn test_byte_sequence() { for param in ["-b", "--bytes", "--byt"] { for example_seq in EXAMPLE_SEQUENCES { new_ucmd!() .args(&[param, example_seq.sequence, INPUT]) .succeeds() .stdout_only_fixture(format!("sequences/byte_{}.expected", example_seq.name)); } } } #[test] fn test_char_sequence() { for param in ["-c", "--characters", "--char"] { for example_seq in EXAMPLE_SEQUENCES { //as of coreutils 8.25 a char range is effectively the same as a byte range; there is no distinct treatment of utf8 chars. new_ucmd!() .args(&[param, example_seq.sequence, INPUT]) .succeeds() .stdout_only_fixture(format!("sequences/byte_{}.expected", example_seq.name)); } } } #[test] fn test_field_sequence() { for param in ["-f", "--fields", "--fie"] { for example_seq in EXAMPLE_SEQUENCES { new_ucmd!() .args(&[param, example_seq.sequence, INPUT]) .succeeds() .stdout_only_fixture(format!("sequences/field_{}.expected", example_seq.name)); } } } #[test] fn test_specify_delimiter() { for param in ["-d", "--delimiter", "--del"] { new_ucmd!() .args(&[param, ":", "-f", COMPLEX_SEQUENCE.sequence, INPUT]) .succeeds() .stdout_only_fixture("delimiter_specified.expected"); } } #[test] fn test_output_delimiter() { // we use -d here to ensure output delimiter // is applied to the current, and not just the default, input delimiter new_ucmd!() .args(&[ "-d:", "--output-delimiter=@", "-f", COMPLEX_SEQUENCE.sequence, INPUT, ]) .succeeds() .stdout_only_fixture("output_delimiter.expected"); new_ucmd!() .args(&[ "-d:", "--output-del=@", "-f", COMPLEX_SEQUENCE.sequence, INPUT, ]) .succeeds() .stdout_only_fixture("output_delimiter.expected"); } #[test] fn test_complement() { for param in ["--complement", "--com"] { new_ucmd!() .args(&["-d_", param, "-f", "2"]) .pipe_in("9_1\n8_2\n7_3") .succeeds() .stdout_only("9\n8\n7\n"); } } #[test] fn test_zero_terminated() { new_ucmd!() .args(&["-d_", "-z", "-f", "1"]) .pipe_in("9_1\n8_2\n\x007_3") .succeeds() .stdout_only("9\x007\0"); } #[test] fn test_only_delimited() { for param in ["-s", "--only-delimited", "--only-del"] { new_ucmd!() .args(&["-d_", param, "-f", "1"]) .pipe_in("91\n82\n7_3") .succeeds() .stdout_only("7\n"); } } #[test] fn test_zero_terminated_only_delimited() { new_ucmd!() .args(&["-d_", "-z", "-s", "-f", "1"]) .pipe_in("91\n\082\n7_3") .succeeds() .stdout_only("82\n7\0"); } #[test] fn test_directory_and_no_such_file() { let (at, mut ucmd) = at_and_ucmd!(); at.mkdir("some"); ucmd.arg("-b1") .arg("some") .run() .stderr_is("cut: some: Is a directory\n"); new_ucmd!() .arg("-b1") .arg("some") .run() .stderr_is("cut: some: No such file or directory\n"); } #[test] fn test_equal_as_delimiter1() { new_ucmd!() .args(&["-f", "2", "-d="]) .pipe_in("--dir=./out/lib") .succeeds() .stdout_only("./out/lib\n"); } #[test] fn test_equal_as_delimiter2() { new_ucmd!() .args(&["-f2", "--delimiter="]) .pipe_in("a=b\n") .succeeds() .stdout_only("a=b\n"); } #[test] fn test_equal_as_delimiter3() { new_ucmd!() .args(&["-f", "1,2", "-d", "''", "--output-delimiter=Z"]) .pipe_in("ab\0cd\n") .succeeds() .stdout_only_bytes("abZcd\n"); }