use crate::common::util::*; use glob::glob; /// Returns a string of numbers with the given range, each on a new line. /// The upper bound is not included. fn generate(from: u32, to: u32) -> String { (from..to).fold(String::new(), |acc, v| format!("{}{}\n", acc, v)) } #[test] fn test_stdin() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["-", "10"]) .pipe_in(generate(1, 51)) .succeeds() .stdout_only("18\n123\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 2); assert_eq!(at.read("xx00"), generate(1, 10)); assert_eq!(at.read("xx01"), generate(10, 51)); } #[test] fn test_up_to_line() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "10"]) .succeeds() .stdout_only("18\n123\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 2); assert_eq!(at.read("xx00"), generate(1, 10)); assert_eq!(at.read("xx01"), generate(10, 51)); } #[test] fn test_up_to_line_repeat_twice() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "10", "{2}"]) .succeeds() .stdout_only("18\n30\n30\n63\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 4); assert_eq!(at.read("xx00"), generate(1, 10)); assert_eq!(at.read("xx01"), generate(10, 20)); assert_eq!(at.read("xx02"), generate(20, 30)); assert_eq!(at.read("xx03"), generate(30, 51)); } #[test] fn test_up_to_line_sequence() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "10", "25"]) .succeeds() .stdout_only("18\n45\n78\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 3); assert_eq!(at.read("xx00"), generate(1, 10)); assert_eq!(at.read("xx01"), generate(10, 25)); assert_eq!(at.read("xx02"), generate(25, 51)); } #[test] fn test_up_to_match() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/9$/"]) .succeeds() .stdout_only("16\n125\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 2); assert_eq!(at.read("xx00"), generate(1, 9)); assert_eq!(at.read("xx01"), generate(9, 51)); } #[test] fn test_up_to_match_repeat_twice() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/9$/", "{2}"]) .succeeds() .stdout_only("16\n29\n30\n66\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 4); assert_eq!(at.read("xx00"), generate(1, 9)); assert_eq!(at.read("xx01"), generate(9, 19)); assert_eq!(at.read("xx02"), generate(19, 29)); assert_eq!(at.read("xx03"), generate(29, 51)); } #[test] fn test_up_to_match_sequence() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/9$/", "/5$/"]) .succeeds() .stdout_only("16\n17\n108\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 3); assert_eq!(at.read("xx00"), generate(1, 9)); assert_eq!(at.read("xx01"), generate(9, 15)); assert_eq!(at.read("xx02"), generate(15, 51)); } #[test] fn test_up_to_match_offset() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/9$/+3"]) .succeeds() .stdout_only("24\n117\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 2); assert_eq!(at.read("xx00"), generate(1, 12)); assert_eq!(at.read("xx01"), generate(12, 51)); } #[test] fn test_up_to_match_offset_repeat_twice() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/9$/+3", "{2}"]) .succeeds() .stdout_only("24\n30\n30\n57\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 4); assert_eq!(at.read("xx00"), generate(1, 12)); assert_eq!(at.read("xx01"), generate(12, 22)); assert_eq!(at.read("xx02"), generate(22, 32)); assert_eq!(at.read("xx03"), generate(32, 51)); } #[test] fn test_up_to_match_negative_offset() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/9$/-3"]) .succeeds() .stdout_only("10\n131\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 2); assert_eq!(at.read("xx00"), generate(1, 6)); assert_eq!(at.read("xx01"), generate(6, 51)); } #[test] fn test_up_to_match_negative_offset_repeat_twice() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/9$/-3", "{2}"]) .succeeds() .stdout_only("10\n26\n30\n75\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 4); assert_eq!(at.read("xx00"), generate(1, 6)); assert_eq!(at.read("xx01"), generate(6, 16)); assert_eq!(at.read("xx02"), generate(16, 26)); assert_eq!(at.read("xx03"), generate(26, 51)); } #[test] fn test_up_to_match_repeat_always() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/9$/", "{*}"]) .succeeds() .stdout_only("16\n29\n30\n30\n30\n6\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 6); assert_eq!(at.read("xx00"), generate(1, 9)); assert_eq!(at.read("xx01"), generate(9, 19)); assert_eq!(at.read("xx02"), generate(19, 29)); assert_eq!(at.read("xx03"), generate(29, 39)); assert_eq!(at.read("xx04"), generate(39, 49)); assert_eq!(at.read("xx05"), generate(49, 51)); } #[test] fn test_up_to_match_repeat_over() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/9$/", "{50}"]) .fails() .stdout_is("16\n29\n30\n30\n30\n6\n") .stderr_is("csplit: '/9$/': match not found on repetition 5"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 0); let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/9$/", "{50}", "-k"]) .fails() .stdout_is("16\n29\n30\n30\n30\n6\n") .stderr_is("csplit: '/9$/': match not found on repetition 5"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 6); assert_eq!(at.read("xx00"), generate(1, 9)); assert_eq!(at.read("xx01"), generate(9, 19)); assert_eq!(at.read("xx02"), generate(19, 29)); assert_eq!(at.read("xx03"), generate(29, 39)); assert_eq!(at.read("xx04"), generate(39, 49)); assert_eq!(at.read("xx05"), generate(49, 51)); } #[test] fn test_skip_to_match() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "%23%"]) .succeeds() .stdout_only("84\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 1); assert_eq!(at.read("xx00"), generate(23, 51)); } #[test] fn test_skip_to_match_sequence1() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "%0$%", "%^4%"]) .succeeds() .stdout_only("33\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 1); assert_eq!(at.read("xx00"), generate(40, 51)); } #[test] fn test_skip_to_match_sequence2() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "%0$%", "{1}", "%^4%"]) .succeeds() .stdout_only("33\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 1); assert_eq!(at.read("xx00"), generate(40, 51)); } #[test] fn test_skip_to_match_sequence3() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "%0$%", "{1}", "/^4/"]) .succeeds() .stdout_only("60\n33\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 2); assert_eq!(at.read("xx00"), generate(20, 40)); assert_eq!(at.read("xx01"), generate(40, 51)); } #[test] fn test_skip_to_match_sequence4() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "%0$%", "/^4/"]) .succeeds() .stdout_only("90\n33\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 2); assert_eq!(at.read("xx00"), generate(10, 40)); assert_eq!(at.read("xx01"), generate(40, 51)); } #[test] fn test_skip_to_match_offset() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "%23%+3"]) .succeeds() .stdout_only("75\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 1); assert_eq!(at.read("xx00"), generate(26, 51)); } #[test] fn test_skip_to_match_negative_offset() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "%23%-3"]) .succeeds() .stdout_only("93\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 1); assert_eq!(at.read("xx00"), generate(20, 51)); } #[test] fn test_skip_to_match_repeat_always() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "%0$%", "{*}"]) .succeeds() .no_stdout(); let count = glob(&at.plus_as_string("xx*")).unwrap().count(); assert_eq!(count, 0); } #[test] fn test_mix() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "13", "%25%", "/0$/"]) .succeeds() .stdout_only("27\n15\n63\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 3); assert_eq!(at.read("xx00"), generate(1, 13)); assert_eq!(at.read("xx01"), generate(25, 30)); assert_eq!(at.read("xx02"), generate(30, 51)); } #[test] fn test_option_keep() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["-k", "numbers50.txt", "/20/", "/nope/"]) .fails() .stderr_is("csplit: '/nope/': match not found") .stdout_is("48\n93\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 2); assert_eq!(at.read("xx00"), generate(1, 20)); assert_eq!(at.read("xx01"), generate(20, 51)); } #[test] fn test_option_quiet() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["--quiet", "numbers50.txt", "13", "%25%", "/0$/"]) .succeeds() .no_stdout(); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 3); assert_eq!(at.read("xx00"), generate(1, 13)); assert_eq!(at.read("xx01"), generate(25, 30)); assert_eq!(at.read("xx02"), generate(30, 51)); } #[test] fn test_option_prefix() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["--prefix", "dog", "numbers50.txt", "13", "%25%", "/0$/"]) .succeeds() .stdout_only("27\n15\n63\n"); let count = glob(&at.plus_as_string("dog*")) .expect("there should be splits created") .count(); assert_eq!(count, 3); assert_eq!(at.read("dog00"), generate(1, 13)); assert_eq!(at.read("dog01"), generate(25, 30)); assert_eq!(at.read("dog02"), generate(30, 51)); } #[test] fn test_negative_offset_at_start() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["-", "/a/-1", "{*}"]) .pipe_in("\na\n") .succeeds() .stdout_only("0\n3\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 2); assert_eq!(at.read("xx00"), ""); assert_eq!(at.read("xx01"), "\na\n"); } #[test] fn test_up_to_match_option_suppress_matched() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "--suppress-matched", "/0$/", "{*}"]) .succeeds() .stdout_only("18\n27\n27\n27\n27\n0\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 6); assert_eq!(at.read("xx00"), generate(1, 10)); assert_eq!(at.read("xx01"), generate(11, 20)); assert_eq!(at.read("xx02"), generate(21, 30)); assert_eq!(at.read("xx03"), generate(31, 40)); assert_eq!(at.read("xx04"), generate(41, 50)); assert_eq!(at.read("xx05"), ""); } #[test] fn test_up_to_match_offset_option_suppress_matched() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "--suppress-matched", "/10/+4"]) .succeeds() .stdout_only("27\n111\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 2); assert_eq!(at.read("xx00"), generate(1, 10) + &generate(11, 14)); assert_eq!(at.read("xx01"), generate(14, 51)); } #[test] fn test_up_to_match_negative_offset_option_suppress_matched() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "--suppress-matched", "/10/-4"]) .succeeds() .stdout_only("10\n128\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 2); assert_eq!(at.read("xx00"), generate(1, 6)); assert_eq!(at.read("xx01"), generate(6, 10) + &generate(11, 51)); } #[test] fn test_up_to_line_option_suppress_matched() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "--suppress-matched", "10"]) .succeeds() .stdout_only("18\n120\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 2); assert_eq!(at.read("xx00"), generate(1, 10)); assert_eq!(at.read("xx01"), generate(11, 51)); } #[test] fn test_skip_to_match_option_suppress_matched() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "--suppress-matched", "%0$%"]) .succeeds() .stdout_only("120\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 1); assert_eq!(at.read("xx00"), generate(11, 51)); } #[test] fn test_option_elide_empty_file1() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "--suppress-matched", "-z", "/0$/", "{*}"]) .succeeds() .stdout_only("18\n27\n27\n27\n27\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 5); assert_eq!(at.read("xx00"), generate(1, 10)); assert_eq!(at.read("xx01"), generate(11, 20)); assert_eq!(at.read("xx02"), generate(21, 30)); assert_eq!(at.read("xx03"), generate(31, 40)); assert_eq!(at.read("xx04"), generate(41, 50)); } #[test] fn test_option_elide_empty_file2() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["-", "-z", "/a/-1", "{*}"]) .pipe_in("\na\n") .succeeds() .stdout_only("3\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 1); assert_eq!(at.read("xx00"), "\na\n"); } #[test] fn test_up_to_match_context_overflow() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/45/+10"]) .fails() .stdout_is("141\n") .stderr_is("csplit: '/45/+10': line number out of range"); let count = glob(&at.plus_as_string("xx*")) .expect("counting splits") .count(); assert_eq!(count, 0); let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/45/+10", "-k"]) .fails() .stdout_is("141\n") .stderr_is("csplit: '/45/+10': line number out of range"); let count = glob(&at.plus_as_string("xx*")) .expect("counting splits") .count(); assert_eq!(count, 1); assert_eq!(at.read("xx00"), generate(1, 51)); } #[test] fn test_skip_to_match_context_underflow() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "%5%-10"]) .fails() .stdout_is("141\n") .stderr_is("csplit: '%5%-10': line number out of range"); let count = glob(&at.plus_as_string("xx*")) .expect("counting splits") .count(); assert_eq!(count, 0); let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "%5%-10", "-k"]) .fails() .stdout_is("141\n") .stderr_is("csplit: '%5%-10': line number out of range"); let count = glob(&at.plus_as_string("xx*")) .expect("counting splits") .count(); assert_eq!(count, 1); assert_eq!(at.read("xx00"), generate(1, 51)); } #[test] fn test_skip_to_match_context_overflow() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "%45%+10"]) .fails() .stderr_only("csplit: '%45%+10': line number out of range"); let count = glob(&at.plus_as_string("xx*")) .expect("counting splits") .count(); assert_eq!(count, 0); let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "%45%+10", "-k"]) .fails() .stderr_only("csplit: '%45%+10': line number out of range"); let count = glob(&at.plus_as_string("xx*")) .expect("counting splits") .count(); assert_eq!(count, 0); } #[test] fn test_up_to_no_match1() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/4/", "/nope/"]) .fails() .stdout_is("6\n135\n") .stderr_is("csplit: '/nope/': match not found"); let count = glob(&at.plus_as_string("xx*")) .expect("counting splits") .count(); assert_eq!(count, 0); let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/4/", "/nope/", "-k"]) .fails() .stdout_is("6\n135\n") .stderr_is("csplit: '/nope/': match not found"); let count = glob(&at.plus_as_string("xx*")) .expect("counting splits") .count(); assert_eq!(count, 2); assert_eq!(at.read("xx00"), generate(1, 4)); assert_eq!(at.read("xx01"), generate(4, 51)); } #[test] fn test_up_to_no_match2() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/4/", "/nope/", "{50}"]) .fails() .stdout_is("6\n135\n") .stderr_is("csplit: '/nope/': match not found"); let count = glob(&at.plus_as_string("xx*")) .expect("counting splits") .count(); assert_eq!(count, 0); let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/4/", "/nope/", "{50}", "-k"]) .fails() .stdout_is("6\n135\n") .stderr_is("csplit: '/nope/': match not found"); let count = glob(&at.plus_as_string("xx*")) .expect("counting splits") .count(); assert_eq!(count, 2); assert_eq!(at.read("xx00"), generate(1, 4)); assert_eq!(at.read("xx01"), generate(4, 51)); } #[test] fn test_up_to_no_match3() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/0$/", "{50}"]) .fails() .stdout_is("18\n30\n30\n30\n30\n3\n") .stderr_is("csplit: '/0$/': match not found on repetition 5"); let count = glob(&at.plus_as_string("xx*")) .expect("counting splits") .count(); assert_eq!(count, 0); let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/0$/", "{50}", "-k"]) .fails() .stdout_is("18\n30\n30\n30\n30\n3\n") .stderr_is("csplit: '/0$/': match not found on repetition 5"); let count = glob(&at.plus_as_string("xx*")) .expect("counting splits") .count(); assert_eq!(count, 6); assert_eq!(at.read("xx00"), generate(1, 10)); assert_eq!(at.read("xx01"), generate(10, 20)); assert_eq!(at.read("xx02"), generate(20, 30)); assert_eq!(at.read("xx03"), generate(30, 40)); assert_eq!(at.read("xx04"), generate(40, 50)); assert_eq!(at.read("xx05"), "50\n"); } #[test] fn test_up_to_no_match4() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/nope/", "/4/"]) .fails() .stdout_is("141\n") .stderr_is("csplit: '/nope/': match not found"); let count = glob(&at.plus_as_string("xx*")) .expect("counting splits") .count(); assert_eq!(count, 0); let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/nope/", "/4/", "-k"]) .fails() .stdout_is("141\n") .stderr_is("csplit: '/nope/': match not found"); let count = glob(&at.plus_as_string("xx*")) .expect("counting splits") .count(); assert_eq!(count, 1); assert_eq!(at.read("xx00"), generate(1, 51)); } #[test] fn test_up_to_no_match5() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/nope/", "{*}"]) .succeeds() .stdout_only("141\n"); let count = glob(&at.plus_as_string("xx*")) .expect("counting splits") .count(); assert_eq!(count, 1); assert_eq!(at.read("xx00"), generate(1, 51)); } #[test] fn test_up_to_no_match6() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/nope/-5"]) .fails() .stdout_is("141\n") .stderr_is("csplit: '/nope/-5': match not found"); let count = glob(&at.plus_as_string("xx*")) .expect("counting splits") .count(); assert_eq!(count, 0); let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/nope/-5", "-k"]) .fails() .stdout_is("141\n") .stderr_is("csplit: '/nope/-5': match not found"); let count = glob(&at.plus_as_string("xx*")) .expect("counting splits") .count(); assert_eq!(count, 1); assert_eq!(at.read("xx00"), generate(1, 51)); } #[test] fn test_up_to_no_match7() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/nope/+5"]) .fails() .stdout_is("141\n") .stderr_is("csplit: '/nope/+5': match not found"); let count = glob(&at.plus_as_string("xx*")) .expect("counting splits") .count(); assert_eq!(count, 0); let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/nope/+5", "-k"]) .fails() .stdout_is("141\n") .stderr_is("csplit: '/nope/+5': match not found"); let count = glob(&at.plus_as_string("xx*")) .expect("counting splits") .count(); assert_eq!(count, 1); assert_eq!(at.read("xx00"), generate(1, 51)); } #[test] fn test_skip_to_no_match1() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "%nope%"]) .fails() .stderr_only("csplit: '%nope%': match not found"); let count = glob(&at.plus_as_string("xx*")) .expect("counting splits") .count(); assert_eq!(count, 0); } #[test] fn test_skip_to_no_match2() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "%nope%", "{50}"]) .fails() .stderr_only("csplit: '%nope%': match not found"); let count = glob(&at.plus_as_string("xx*")) .expect("counting splits") .count(); assert_eq!(count, 0); } #[test] fn test_skip_to_no_match3() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "%0$%", "{50}"]) .fails() .stderr_only("csplit: '%0$%': match not found on repetition 5"); let count = glob(&at.plus_as_string("xx*")) .expect("counting splits") .count(); assert_eq!(count, 0); } #[test] fn test_skip_to_no_match4() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "%nope%", "/4/"]) .fails() .stderr_only("csplit: '%nope%': match not found"); let count = glob(&at.plus_as_string("xx*")) .expect("counting splits") .count(); assert_eq!(count, 0); } #[test] fn test_skip_to_no_match5() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "%nope%", "{*}"]) .succeeds() .no_stderr() .no_stdout(); let count = glob(&at.plus_as_string("xx*")) .expect("counting splits") .count(); assert_eq!(count, 0); } #[test] fn test_skip_to_no_match6() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "%nope%-5"]) .fails() .stderr_only("csplit: '%nope%-5': match not found"); let count = glob(&at.plus_as_string("xx*")) .expect("counting splits") .count(); assert_eq!(count, 0); } #[test] fn test_skip_to_no_match7() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "%nope%+5"]) .fails() .stderr_only("csplit: '%nope%+5': match not found"); let count = glob(&at.plus_as_string("xx*")) .expect("counting splits") .count(); assert_eq!(count, 0); } #[test] fn test_no_match() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "%nope%"]) .fails() .stderr_only("csplit: '%nope%': match not found"); let count = glob(&at.plus_as_string("xx*")) .expect("counting splits") .count(); assert_eq!(count, 0); let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/nope/"]) .fails() .stdout_is("141\n") .stderr_is("csplit: '/nope/': match not found"); let count = glob(&at.plus_as_string("xx*")) .expect("counting splits") .count(); assert_eq!(count, 0); } #[test] fn test_too_small_line_num() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/20/", "10", "/40/"]) .succeeds() .stdout_only("48\n0\n60\n33\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 4); assert_eq!(at.read("xx00"), generate(1, 20)); assert_eq!(at.read("xx01"), ""); assert_eq!(at.read("xx02"), generate(20, 40)); assert_eq!(at.read("xx03"), generate(40, 51)); } #[test] fn test_too_small_line_num_equal() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/20/", "20"]) .succeeds() .stdout_only("48\n0\n93\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 3); assert_eq!(at.read("xx00"), generate(1, 20)); assert_eq!(at.read("xx01"), ""); assert_eq!(at.read("xx02"), generate(20, 51)); } #[test] fn test_too_small_line_num_elided() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "-z", "/20/", "10", "/40/"]) .succeeds() .stdout_only("48\n60\n33\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 3); assert_eq!(at.read("xx00"), generate(1, 20)); assert_eq!(at.read("xx01"), generate(20, 40)); assert_eq!(at.read("xx02"), generate(40, 51)); } #[test] fn test_too_small_line_num_negative_offset() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/20/-5", "10", "/40/"]) .succeeds() .stdout_only("33\n0\n75\n33\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 4); assert_eq!(at.read("xx00"), generate(1, 15)); assert_eq!(at.read("xx01"), ""); assert_eq!(at.read("xx02"), generate(15, 40)); assert_eq!(at.read("xx03"), generate(40, 51)); } #[test] fn test_too_small_line_num_twice() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/20/", "10", "15", "/40/"]) .succeeds() .stdout_only("48\n0\n0\n60\n33\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 5); assert_eq!(at.read("xx00"), generate(1, 20)); assert_eq!(at.read("xx01"), ""); assert_eq!(at.read("xx02"), ""); assert_eq!(at.read("xx03"), generate(20, 40)); assert_eq!(at.read("xx04"), generate(40, 51)); } #[test] fn test_too_small_line_num_repeat() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/20/", "10", "{*}"]) .fails() .stderr_is("csplit: '10': line number out of range on repetition 5") .stdout_is("48\n0\n0\n30\n30\n30\n3\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 0); let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/20/", "10", "{*}", "-k"]) .fails() .stderr_is("csplit: '10': line number out of range on repetition 5") .stdout_is("48\n0\n0\n30\n30\n30\n3\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 7); assert_eq!(at.read("xx00"), generate(1, 20)); assert_eq!(at.read("xx01"), ""); assert_eq!(at.read("xx02"), ""); assert_eq!(at.read("xx03"), generate(20, 30)); assert_eq!(at.read("xx04"), generate(30, 40)); assert_eq!(at.read("xx05"), generate(40, 50)); assert_eq!(at.read("xx06"), "50\n"); } #[test] fn test_line_num_out_of_range1() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "100"]) .fails() .stdout_is("141\n") .stderr_is("csplit: '100': line number out of range"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 0); let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "100", "-k"]) .fails() .stdout_is("141\n") .stderr_is("csplit: '100': line number out of range"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 1); assert_eq!(at.read("xx00"), generate(1, 51)); } #[test] fn test_line_num_out_of_range2() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "10", "100"]) .fails() .stdout_is("18\n123\n") .stderr_is("csplit: '100': line number out of range"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 0); let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "10", "100", "-k"]) .fails() .stdout_is("18\n123\n") .stderr_is("csplit: '100': line number out of range"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 2); assert_eq!(at.read("xx00"), generate(1, 10)); assert_eq!(at.read("xx01"), generate(10, 51)); } #[test] fn test_line_num_out_of_range3() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "40", "{2}"]) .fails() .stdout_is("108\n33\n") .stderr_is("csplit: '40': line number out of range on repetition 1"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 0); let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "40", "{2}", "-k"]) .fails() .stdout_is("108\n33\n") .stderr_is("csplit: '40': line number out of range on repetition 1"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 2); assert_eq!(at.read("xx00"), generate(1, 40)); assert_eq!(at.read("xx01"), generate(40, 51)); } #[test] fn test_line_num_out_of_range4() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "40", "{*}"]) .fails() .stdout_is("108\n33\n") .stderr_is("csplit: '40': line number out of range on repetition 1"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 0); let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "40", "{*}", "-k"]) .fails() .stdout_is("108\n33\n") .stderr_is("csplit: '40': line number out of range on repetition 1"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 2); assert_eq!(at.read("xx00"), generate(1, 40)); assert_eq!(at.read("xx01"), generate(40, 51)); } #[test] fn test_skip_to_match_negative_offset_before_a_match() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/20/-10", "/15/"]) .fails() .stdout_is("18\n123\n") .stderr_is("csplit: '/15/': match not found"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 0); } #[test] fn test_skip_to_match_negative_offset_before_a_line_num() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/20/-10", "15"]) .succeeds() .stdout_only("18\n15\n108\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 3); assert_eq!(at.read("xx00"), generate(1, 10)); assert_eq!(at.read("xx01"), generate(10, 15)); assert_eq!(at.read("xx02"), generate(15, 51)); } #[test] fn test_corner_case1() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/10/", "11"]) .succeeds() .stdout_only("18\n3\n120\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 3); assert_eq!(at.read("xx00"), generate(1, 10)); assert_eq!(at.read("xx01"), "10\n"); assert_eq!(at.read("xx02"), generate(11, 51)); } #[test] fn test_corner_case2() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/10/-5", "/10/"]) .fails() .stderr_is("csplit: '/10/': match not found") .stdout_is("8\n133\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 0); } #[test] fn test_corner_case3() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/15/-3", "14", "/15/"]) .fails() .stderr_is("csplit: '/15/': match not found") .stdout_is("24\n6\n111\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 0); } #[test] fn test_corner_case4() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/20/-10", "/30/-4"]) .succeeds() .stdout_only("18\n48\n75\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 3); assert_eq!(at.read("xx00"), generate(1, 10)); assert_eq!(at.read("xx01"), generate(10, 26)); assert_eq!(at.read("xx02"), generate(26, 51)); } // NOTE: differs from gnu's output: the empty split is not written #[test] fn test_up_to_match_context_underflow() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/5/-10"]) .fails() .stdout_is("0\n141\n") .stderr_is("csplit: '/5/-10': line number out of range"); let count = glob(&at.plus_as_string("xx*")) .expect("counting splits") .count(); assert_eq!(count, 0); let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/5/-10", "-k"]) .fails() .stdout_is("0\n141\n") .stderr_is("csplit: '/5/-10': line number out of range"); let count = glob(&at.plus_as_string("xx*")) .expect("counting splits") .count(); assert_eq!(count, 2); assert_eq!(at.read("xx00"), ""); assert_eq!(at.read("xx01"), generate(1, 51)); } // the offset is out of range because of the first pattern // NOTE: output different than gnu's: the empty split is written but the rest of the input file is not #[test] fn test_line_num_range_with_up_to_match1() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "10", "/12/-5"]) .fails() .stderr_is("csplit: '/12/-5': line number out of range") .stdout_is("18\n0\n123\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 0); let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "10", "/12/-5", "-k"]) .fails() .stderr_is("csplit: '/12/-5': line number out of range") .stdout_is("18\n0\n123\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 3); assert_eq!(at.read("xx00"), generate(1, 10)); assert_eq!(at.read("xx01"), ""); assert_eq!(at.read("xx02"), generate(10, 51)); } // the offset is out of range because more lines are needed than physically available // NOTE: output different than gnu's: the empty split is not written but the rest of the input file is #[test] fn test_line_num_range_with_up_to_match2() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "10", "/12/-15"]) .fails() .stderr_is("csplit: '/12/-15': line number out of range") .stdout_is("18\n0\n123\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 0); let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "10", "/12/-15", "-k"]) .fails() .stderr_is("csplit: '/12/-15': line number out of range") .stdout_is("18\n0\n123\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 3); assert_eq!(at.read("xx00"), generate(1, 10)); assert_eq!(at.read("xx01"), ""); assert_eq!(at.read("xx02"), generate(10, 51)); } // NOTE: output different than gnu's: the pattern /10/ is matched but should not #[test] fn test_line_num_range_with_up_to_match3() { let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "10", "/10/", "-k"]) .fails() .stderr_is("csplit: '/10/': match not found") .stdout_is("18\n123\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 2); assert_eq!(at.read("xx00"), generate(1, 10)); assert_eq!(at.read("xx01"), generate(10, 51)); let (at, mut ucmd) = at_and_ucmd!(); ucmd.args(&["numbers50.txt", "/10/", "10"]) .succeeds() .stdout_only("18\n0\n123\n"); let count = glob(&at.plus_as_string("xx*")) .expect("there should be splits created") .count(); assert_eq!(count, 3); assert_eq!(at.read("xx00"), generate(1, 10)); assert_eq!(at.read("xx01"), ""); assert_eq!(at.read("xx02"), generate(10, 51)); }