coreutils/tests/by-util/test_seq.rs

use crate::common::util::*;
use std::io::Read;

#[test]
fn test_rejects_nan() {
    let ts = TestScenario::new(util_name!());

    ts.ucmd().args(&["NaN"]).fails().stderr_only(format!(
        "{0}: invalid 'not-a-number' argument: 'NaN'\nTry '{1} {0} --help' for more information.",
        ts.util_name,
        ts.bin_path.to_string_lossy()
    ));
}

#[test]
fn test_rejects_non_floats() {
    let ts = TestScenario::new(util_name!());

    ts.ucmd().args(&["foo"]).fails().stderr_only(&format!(
        "{0}: invalid floating point argument: 'foo'\nTry '{1} {0} --help' for more information.",
        ts.util_name,
        ts.bin_path.to_string_lossy()
    ));
}

#[test]
fn test_invalid_float() {
    new_ucmd!()
        .args(&["1e2.3"])
        .fails()
        .no_stdout()
        .stderr_contains("invalid floating point argument: '1e2.3'")
        .stderr_contains("for more information.");
    new_ucmd!()
        .args(&["1e2.3", "2"])
        .fails()
        .no_stdout()
        .stderr_contains("invalid floating point argument: '1e2.3'")
        .stderr_contains("for more information.");
    new_ucmd!()
        .args(&["1", "1e2.3"])
        .fails()
        .no_stdout()
        .stderr_contains("invalid floating point argument: '1e2.3'")
        .stderr_contains("for more information.");
    new_ucmd!()
        .args(&["1e2.3", "2", "3"])
        .fails()
        .no_stdout()
        .stderr_contains("invalid floating point argument: '1e2.3'")
        .stderr_contains("for more information.");
    new_ucmd!()
        .args(&["1", "1e2.3", "3"])
        .fails()
        .no_stdout()
        .stderr_contains("invalid floating point argument: '1e2.3'")
        .stderr_contains("for more information.");
    new_ucmd!()
        .args(&["1", "2", "1e2.3"])
        .fails()
        .no_stdout()
        .stderr_contains("invalid floating point argument: '1e2.3'")
        .stderr_contains("for more information.");
}

#[test]
fn test_width_invalid_float() {
    new_ucmd!()
        .args(&["-w", "1e2.3"])
        .fails()
        .no_stdout()
        .stderr_contains("invalid floating point argument: '1e2.3'")
        .stderr_contains("for more information.");
}

// ---- Tests for the big integer based path ----

#[test]
fn test_count_up() {
    new_ucmd!()
        .args(&["10"])
        .run()
        .stdout_is("1\n2\n3\n4\n5\n6\n7\n8\n9\n10\n");
}

#[test]
fn test_count_down() {
    new_ucmd!()
        .args(&["--", "5", "-1", "1"])
        .run()
        .stdout_is("5\n4\n3\n2\n1\n");
    new_ucmd!()
        .args(&["5", "-1", "1"])
        .run()
        .stdout_is("5\n4\n3\n2\n1\n");
}

#[test]
fn test_separator_and_terminator() {
    new_ucmd!()
        .args(&["-s", ",", "-t", "!", "2", "6"])
        .run()
        .stdout_is("2,3,4,5,6!");
    new_ucmd!()
        .args(&["-s", ",", "2", "6"])
        .run()
        .stdout_is("2,3,4,5,6\n");
    new_ucmd!()
        .args(&["-s", "\n", "2", "6"])
        .run()
        .stdout_is("2\n3\n4\n5\n6\n");
    new_ucmd!()
        .args(&["-s", "\\n", "2", "6"])
        .run()
        .stdout_is("2\\n3\\n4\\n5\\n6\n");
}

#[test]
fn test_equalize_widths() {
    new_ucmd!()
        .args(&["-w", "5", "10"])
        .run()
        .stdout_is("05\n06\n07\n08\n09\n10\n");
}

#[test]
fn test_seq_wrong_arg() {
    new_ucmd!().args(&["-w", "5", "10", "33", "32"]).fails();
}

#[test]
fn test_zero_step() {
    new_ucmd!().args(&["10", "0", "32"]).fails();
}

#[test]
fn test_big_numbers() {
    new_ucmd!()
        .args(&[
            "1000000000000000000000000000",
            "1000000000000000000000000001",
        ])
        .succeeds()
        .stdout_only("1000000000000000000000000000\n1000000000000000000000000001\n");
}

// ---- Tests for the floating point based path ----

#[test]
fn test_count_up_floats() {
    new_ucmd!()
        .args(&["10.0"])
        .run()
        .stdout_is("1\n2\n3\n4\n5\n6\n7\n8\n9\n10\n");
}

#[test]
fn test_count_down_floats() {
    new_ucmd!()
        .args(&["--", "5", "-1.0", "1"])
        .run()
        .stdout_is("5.0\n4.0\n3.0\n2.0\n1.0\n");
    new_ucmd!()
        .args(&["5", "-1", "1.0"])
        .run()
        .stdout_is("5\n4\n3\n2\n1\n");
}

#[test]
fn test_separator_and_terminator_floats() {
    new_ucmd!()
        .args(&["-s", ",", "-t", "!", "2.0", "6"])
        .run()
        .stdout_is("2.0,3.0,4.0,5.0,6.0!");
}

#[test]
fn test_equalize_widths_floats() {
    new_ucmd!()
        .args(&["-w", "5", "10.0"])
        .run()
        .stdout_is("05\n06\n07\n08\n09\n10\n");
}

#[test]
fn test_seq_wrong_arg_floats() {
    new_ucmd!().args(&["-w", "5", "10.0", "33", "32"]).fails();
}

#[test]
fn test_zero_step_floats() {
    new_ucmd!().args(&["10.0", "0", "32"]).fails();
}

#[test]
fn test_preserve_negative_zero_start() {
    new_ucmd!()
        .args(&["-0", "1"])
        .succeeds()
        .stdout_is("-0\n1\n")
        .no_stderr();
    new_ucmd!()
        .args(&["-0", "1", "2"])
        .succeeds()
        .stdout_is("-0\n1\n2\n")
        .no_stderr();
    new_ucmd!()
        .args(&["-0", "1", "2.0"])
        .succeeds()
        .stdout_is("-0\n1\n2\n")
        .no_stderr();
}

#[test]
fn test_drop_negative_zero_end() {
    new_ucmd!()
        .args(&["1", "-1", "-0"])
        .succeeds()
        .stdout_is("1\n0\n")
        .no_stderr();
}

#[test]
fn test_width_scientific_notation() {
    new_ucmd!()
        .args(&["-w", "999", "1e3"])
        .succeeds()
        .stdout_is("0999\n1000\n")
        .no_stderr();
}

#[test]
fn test_width_negative_zero() {
    new_ucmd!()
        .args(&["-w", "-0", "1"])
        .succeeds()
        .stdout_is("-0\n01\n")
        .no_stderr();
    new_ucmd!()
        .args(&["-w", "-0", "1", "2"])
        .succeeds()
        .stdout_is("-0\n01\n02\n")
        .no_stderr();
    new_ucmd!()
        .args(&["-w", "-0", "1", "2.0"])
        .succeeds()
        .stdout_is("-0\n01\n02\n")
        .no_stderr();
}

#[test]
fn test_width_negative_zero_decimal_notation() {
    new_ucmd!()
        .args(&["-w", "-0.0", "1"])
        .succeeds()
        .stdout_is("-0.0\n01.0\n")
        .no_stderr();
    new_ucmd!()
        .args(&["-w", "-0.0", "1.0"])
        .succeeds()
        .stdout_is("-0.0\n01.0\n")
        .no_stderr();
    new_ucmd!()
        .args(&["-w", "-0.0", "1", "2"])
        .succeeds()
        .stdout_is("-0.0\n01.0\n02.0\n")
        .no_stderr();
    new_ucmd!()
        .args(&["-w", "-0.0", "1", "2.0"])
        .succeeds()
        .stdout_is("-0.0\n01.0\n02.0\n")
        .no_stderr();
    new_ucmd!()
        .args(&["-w", "-0.0", "1.0", "2"])
        .succeeds()
        .stdout_is("-0.0\n01.0\n02.0\n")
        .no_stderr();
    new_ucmd!()
        .args(&["-w", "-0.0", "1.0", "2.0"])
        .succeeds()
        .stdout_is("-0.0\n01.0\n02.0\n")
        .no_stderr();
}

#[test]
fn test_width_negative_zero_scientific_notation() {
    new_ucmd!()
        .args(&["-w", "-0e0", "1"])
        .succeeds()
        .stdout_is("-0\n01\n")
        .no_stderr();
    new_ucmd!()
        .args(&["-w", "-0e0", "1", "2"])
        .succeeds()
        .stdout_is("-0\n01\n02\n")
        .no_stderr();
    new_ucmd!()
        .args(&["-w", "-0e0", "1", "2.0"])
        .succeeds()
        .stdout_is("-0\n01\n02\n")
        .no_stderr();

    new_ucmd!()
        .args(&["-w", "-0e+1", "1"])
        .succeeds()
        .stdout_is("-00\n001\n")
        .no_stderr();
    new_ucmd!()
        .args(&["-w", "-0e+1", "1", "2"])
        .succeeds()
        .stdout_is("-00\n001\n002\n")
        .no_stderr();
    new_ucmd!()
        .args(&["-w", "-0e+1", "1", "2.0"])
        .succeeds()
        .stdout_is("-00\n001\n002\n")
        .no_stderr();

    new_ucmd!()
        .args(&["-w", "-0.000e0", "1"])
        .succeeds()
        .stdout_is("-0.000\n01.000\n")
        .no_stderr();
    new_ucmd!()
        .args(&["-w", "-0.000e0", "1", "2"])
        .succeeds()
        .stdout_is("-0.000\n01.000\n02.000\n")
        .no_stderr();
    new_ucmd!()
        .args(&["-w", "-0.000e0", "1", "2.0"])
        .succeeds()
        .stdout_is("-0.000\n01.000\n02.000\n")
        .no_stderr();

    new_ucmd!()
        .args(&["-w", "-0.000e-2", "1"])
        .succeeds()
        .stdout_is("-0.00000\n01.00000\n")
        .no_stderr();
    new_ucmd!()
        .args(&["-w", "-0.000e-2", "1", "2"])
        .succeeds()
        .stdout_is("-0.00000\n01.00000\n02.00000\n")
        .no_stderr();
    new_ucmd!()
        .args(&["-w", "-0.000e-2", "1", "2.0"])
        .succeeds()
        .stdout_is("-0.00000\n01.00000\n02.00000\n")
        .no_stderr();

    new_ucmd!()
        .args(&["-w", "-0.000e5", "1"])
        .succeeds()
        .stdout_is("-000000\n0000001\n")
        .no_stderr();
    new_ucmd!()
        .args(&["-w", "-0.000e5", "1", "2"])
        .succeeds()
        .stdout_is("-000000\n0000001\n0000002\n")
        .no_stderr();
    new_ucmd!()
        .args(&["-w", "-0.000e5", "1", "2.0"])
        .succeeds()
        .stdout_is("-000000\n0000001\n0000002\n")
        .no_stderr();

    new_ucmd!()
        .args(&["-w", "-0.000e5", "1"])
        .succeeds()
        .stdout_is("-000000\n0000001\n")
        .no_stderr();
    new_ucmd!()
        .args(&["-w", "-0.000e5", "1", "2"])
        .succeeds()
        .stdout_is("-000000\n0000001\n0000002\n")
        .no_stderr();
    new_ucmd!()
        .args(&["-w", "-0.000e5", "1", "2.0"])
        .succeeds()
        .stdout_is("-000000\n0000001\n0000002\n")
        .no_stderr();
}

#[test]
fn test_width_decimal_scientific_notation_increment() {
    new_ucmd!()
        .args(&["-w", ".1", "1e-2", ".11"])
        .succeeds()
        .stdout_is("0.10\n0.11\n")
        .no_stderr();

    new_ucmd!()
        .args(&["-w", ".0", "1.500e-1", ".2"])
        .succeeds()
        .stdout_is("0.0000\n0.1500\n")
        .no_stderr();
}

/// Test that trailing zeros in the start argument contribute to precision.
#[test]
fn test_width_decimal_scientific_notation_trailing_zeros_start() {
    new_ucmd!()
        .args(&["-w", ".1000", "1e-2", ".11"])
        .succeeds()
        .stdout_is("0.1000\n0.1100\n")
        .no_stderr();
}

/// Test that trailing zeros in the increment argument contribute to precision.
#[test]
fn test_width_decimal_scientific_notation_trailing_zeros_increment() {
    new_ucmd!()
        .args(&["-w", "1e-1", "0.0100", ".11"])
        .succeeds()
        .stdout_is("0.1000\n0.1100\n")
        .no_stderr();
}

/// Test that trailing zeros in the end argument do not contribute to width.
#[test]
fn test_width_decimal_scientific_notation_trailing_zeros_end() {
    new_ucmd!()
        .args(&["-w", "1e-1", "1e-2", ".1100"])
        .succeeds()
        .stdout_is("0.10\n0.11\n")
        .no_stderr();
}

#[test]
fn test_width_floats() {
    new_ucmd!()
        .args(&["-w", "9.0", "10.0"])
        .succeeds()
        .stdout_is("09.0\n10.0\n")
        .no_stderr();
}

// TODO This is duplicated from `test_yes.rs`; refactor them.
/// Run `seq`, capture some of the output, close the pipe, and verify it.
fn run(args: &[&str], expected: &[u8]) {
    let mut cmd = new_ucmd!();
    let mut child = cmd.args(args).run_no_wait();
    let mut stdout = child.stdout.take().unwrap();
    let mut buf = vec![0; expected.len()];
    stdout.read_exact(&mut buf).unwrap();
    drop(stdout);
    assert!(child.wait().unwrap().success());
    assert_eq!(buf.as_slice(), expected);
}

#[test]
fn test_neg_inf() {
    run(&["--", "-inf", "0"], b"-inf\n-inf\n-inf\n");
}

#[test]
fn test_inf() {
    run(&["inf"], b"1\n2\n3\n");
}

#[test]
fn test_ignore_leading_whitespace() {
    new_ucmd!()
        .arg("   1")
        .succeeds()
        .stdout_is("1\n")
        .no_stderr();
}

#[test]
fn test_trailing_whitespace_error() {
    // In some locales, the GNU error message has curly quotes (‘)
    // instead of straight quotes ('). We just test the straight single
    // quotes.
    new_ucmd!()
        .arg("1 ")
        .fails()
        .no_stdout()
        .stderr_contains("seq: invalid floating point argument: '1 '")
        // FIXME The second line of the error message is "Try 'seq
        // --help' for more information."
        .stderr_contains("for more information.");
}
-												tests ~ fix 'edition=2018' module import errors

- ref: <https://users.rust-lang.org/t/imports-can-only-refer-to-extern-crate-names/24388> @@ <https://archive.is/iCaXp>

											
										
										
											2020-05-25 17:05:26 +00:00
+								use crate::common::util::*;
-												seq: use stdout.write_all() instead of print!()

Change from using `print!()` to using `stdout.write_all()` in order to
allow the main function to handle broken pipe errors gracefully.

											
										
										
											2021-09-10 02:02:31 +00:00
+								use std::io::Read;
-												rewrite tests for cargo compat, decoupled directory, output handling

											
										
										
											2015-11-16 05:25:01 +00:00
-												seq: reject NaN arguments

Move the validation logic to an argument validator.

											
										
										
											2021-06-01 16:12:37 +00:00
+								#[test]
 								fn test_rejects_nan() {
-												tests ~ fix tests for new `execution_phrase!()` and usage phrasing

											
										
										
											2021-07-27 05:21:12 +00:00
+								    let ts = TestScenario::new(util_name!());
 								    ts.ucmd().args(&["NaN"]).fails().stderr_only(format!(
-												refactor ~ revert to single quotes for "Try '{0 --help'"

This is a test expectation for gnu.

											
										
										
											2021-08-14 15:21:18 +00:00
+								        "{0}: invalid 'not-a-number' argument: 'NaN'\nTry '{1} {0} --help' for more information.",
-												tests ~ fix tests for new `execution_phrase!()` and usage phrasing

											
										
										
											2021-07-27 05:21:12 +00:00
+								        ts.util_name,
 								        ts.bin_path.to_string_lossy()
 								    ));
-												seq: reject NaN arguments

Move the validation logic to an argument validator.

											
										
										
											2021-06-01 16:12:37 +00:00
+								}
 								#[test]
 								fn test_rejects_non_floats() {
-												tests ~ fix tests for new `execution_phrase!()` and usage phrasing

											
										
										
											2021-07-27 05:21:12 +00:00
+								    let ts = TestScenario::new(util_name!());
 								    ts.ucmd().args(&["foo"]).fails().stderr_only(&format!(
-												refactor ~ revert to single quotes for "Try '{0 --help'"

This is a test expectation for gnu.

											
										
										
											2021-08-14 15:21:18 +00:00
+								        "{0}: invalid floating point argument: 'foo'\nTry '{1} {0} --help' for more information.",
-												tests ~ fix tests for new `execution_phrase!()` and usage phrasing

											
										
										
											2021-07-27 05:21:12 +00:00
+								        ts.util_name,
 								        ts.bin_path.to_string_lossy()
 								    ));
-												seq: reject NaN arguments

Move the validation logic to an argument validator.

											
										
										
											2021-06-01 16:12:37 +00:00
+								}
-												seq: compute correct width for scientific notation

Change the way `seq` computes the number of digits needed to print a
number so that it works for inputs given in scientific notation.
Specifically, this commit parses the input string to determine whether
it is an integer, a float in decimal notation, or a float in scientific
notation, and then computes the number of integral digits and the number
of fractional digits based on that. This also supports floating point
negative zero, expressed in both decimal and scientific notation.

											
										
										
											2021-09-11 16:49:12 +00:00
+								#[test]
 								fn test_invalid_float() {
 								    new_ucmd!()
 								        .args(&["1e2.3"])
 								        .fails()
 								        .no_stdout()
 								        .stderr_contains("invalid floating point argument: '1e2.3'")
 								        .stderr_contains("for more information.");
 								    new_ucmd!()
 								        .args(&["1e2.3", "2"])
 								        .fails()
 								        .no_stdout()
 								        .stderr_contains("invalid floating point argument: '1e2.3'")
 								        .stderr_contains("for more information.");
 								    new_ucmd!()
 								        .args(&["1", "1e2.3"])
 								        .fails()
 								        .no_stdout()
 								        .stderr_contains("invalid floating point argument: '1e2.3'")
 								        .stderr_contains("for more information.");
 								    new_ucmd!()
 								        .args(&["1e2.3", "2", "3"])
 								        .fails()
 								        .no_stdout()
 								        .stderr_contains("invalid floating point argument: '1e2.3'")
 								        .stderr_contains("for more information.");
 								    new_ucmd!()
 								        .args(&["1", "1e2.3", "3"])
 								        .fails()
 								        .no_stdout()
 								        .stderr_contains("invalid floating point argument: '1e2.3'")
 								        .stderr_contains("for more information.");
 								    new_ucmd!()
 								        .args(&["1", "2", "1e2.3"])
 								        .fails()
 								        .no_stdout()
 								        .stderr_contains("invalid floating point argument: '1e2.3'")
 								        .stderr_contains("for more information.");
 								}
 								#[test]
 								fn test_width_invalid_float() {
 								    new_ucmd!()
 								        .args(&["-w", "1e2.3"])
 								        .fails()
 								        .no_stdout()
 								        .stderr_contains("invalid floating point argument: '1e2.3'")
 								        .stderr_contains("for more information.");
 								}
-												seq: implement integer sequences

If we notice that we can represent all arguments as BigInts, take a
different code path. Just like GNU seq this means we can print an
infinite amount of numbers in this case.

											
										
										
											2021-05-31 18:49:02 +00:00
+								// ---- Tests for the big integer based path ----
-												rewrite tests for cargo compat, decoupled directory, output handling

											
										
										
											2015-11-16 05:25:01 +00:00
+								#[test]
 								fn test_count_up() {
-												tests: remove helper function boilerplate via macros

											
										
										
											2016-08-23 11:52:43 +00:00
+								    new_ucmd!()
-												rustfmt the tests

											
										
										
											2020-04-13 18:36:03 +00:00
+								        .args(&["10"])
 								        .run()
 								        .stdout_is("1\n2\n3\n4\n5\n6\n7\n8\n9\n10\n");
-												rewrite tests for cargo compat, decoupled directory, output handling

											
										
										
											2015-11-16 05:25:01 +00:00
+								}
 								#[test]
 								fn test_count_down() {
-												tests: remove helper function boilerplate via macros

											
										
										
											2016-08-23 11:52:43 +00:00
+								    new_ucmd!()
-												rustfmt the tests

											
										
										
											2020-04-13 18:36:03 +00:00
+								        .args(&["--", "5", "-1", "1"])
 								        .run()
 								        .stdout_is("5\n4\n3\n2\n1\n");
-												fix formatting fr test_seq

											
										
										
											2021-01-02 09:14:18 +00:00
+								    new_ucmd!()
-												bug(seq) - Allow 'seq 6 -1 0'

Was failing with
```
Found argument '-1' which wasn't expected, or isn't valid in this context
```
otherwise

											
										
										
											2020-12-19 10:17:41 +00:00
+								        .args(&["5", "-1", "1"])
 								        .run()
 								        .stdout_is("5\n4\n3\n2\n1\n");
-												rewrite tests for cargo compat, decoupled directory, output handling

											
										
										
											2015-11-16 05:25:01 +00:00
+								}
 								#[test]
 								fn test_separator_and_terminator() {
-												tests: remove helper function boilerplate via macros

											
										
										
											2016-08-23 11:52:43 +00:00
+								    new_ucmd!()
-												rustfmt the tests

											
										
										
											2020-04-13 18:36:03 +00:00
+								        .args(&["-s", ",", "-t", "!", "2", "6"])
 								        .run()
 								        .stdout_is("2,3,4,5,6!");
-												seq: change default value for -t and remove dubious escape sequences

GNU seq does not support -t, but always outputs a newline at the end.
Therefore, our default for -t should be \n.

Also removes support for escape sequences (interpreting a literal "\n"
as a newline). This is not what GNU seq is doing, and unexpected.

											
										
										
											2021-05-31 19:19:19 +00:00
+								    new_ucmd!()
 								        .args(&["-s", ",", "2", "6"])
 								        .run()
 								        .stdout_is("2,3,4,5,6\n");
 								    new_ucmd!()
 								        .args(&["-s", "\n", "2", "6"])
 								        .run()
 								        .stdout_is("2\n3\n4\n5\n6\n");
 								    new_ucmd!()
 								        .args(&["-s", "\\n", "2", "6"])
 								        .run()
 								        .stdout_is("2\\n3\\n4\\n5\\n6\n");
-												rewrite tests for cargo compat, decoupled directory, output handling

											
										
										
											2015-11-16 05:25:01 +00:00
+								}
 								#[test]
 								fn test_equalize_widths() {
-												tests: remove helper function boilerplate via macros

											
										
										
											2016-08-23 11:52:43 +00:00
+								    new_ucmd!()
-												rustfmt the tests

											
										
										
											2020-04-13 18:36:03 +00:00
+								        .args(&["-w", "5", "10"])
 								        .run()
 								        .stdout_is("05\n06\n07\n08\n09\n10\n");
-												rewrite tests for cargo compat, decoupled directory, output handling

											
										
										
											2015-11-16 05:25:01 +00:00
+								}
-												test(seq): add a test to check that we don't accept more than 3 args

											
										
										
											2020-10-20 20:35:19 +00:00
 								#[test]
 								fn test_seq_wrong_arg() {
 								    new_ucmd!().args(&["-w", "5", "10", "33", "32"]).fails();
 								}
-												Do not allow seq to run with an increment of zero

											
										
										
											2021-02-18 21:10:53 +00:00
 								#[test]
 								fn test_zero_step() {
 								    new_ucmd!().args(&["10", "0", "32"]).fails();
 								}
-												seq: implement integer sequences

If we notice that we can represent all arguments as BigInts, take a
different code path. Just like GNU seq this means we can print an
infinite amount of numbers in this case.

											
										
										
											2021-05-31 18:49:02 +00:00
 								#[test]
 								fn test_big_numbers() {
 								    new_ucmd!()
 								        .args(&[
 								            "1000000000000000000000000000",
 								            "1000000000000000000000000001",
 								        ])
 								        .succeeds()
 								        .stdout_only("1000000000000000000000000000\n1000000000000000000000000001\n");
 								}
 								// ---- Tests for the floating point based path ----
 								#[test]
 								fn test_count_up_floats() {
 								    new_ucmd!()
 								        .args(&["10.0"])
 								        .run()
 								        .stdout_is("1\n2\n3\n4\n5\n6\n7\n8\n9\n10\n");
 								}
 								#[test]
 								fn test_count_down_floats() {
 								    new_ucmd!()
 								        .args(&["--", "5", "-1.0", "1"])
 								        .run()
 								        .stdout_is("5.0\n4.0\n3.0\n2.0\n1.0\n");
 								    new_ucmd!()
 								        .args(&["5", "-1", "1.0"])
 								        .run()
 								        .stdout_is("5\n4\n3\n2\n1\n");
 								}
 								#[test]
 								fn test_separator_and_terminator_floats() {
 								    new_ucmd!()
 								        .args(&["-s", ",", "-t", "!", "2.0", "6"])
 								        .run()
 								        .stdout_is("2.0,3.0,4.0,5.0,6.0!");
 								}
 								#[test]
 								fn test_equalize_widths_floats() {
 								    new_ucmd!()
 								        .args(&["-w", "5", "10.0"])
 								        .run()
 								        .stdout_is("05\n06\n07\n08\n09\n10\n");
 								}
 								#[test]
 								fn test_seq_wrong_arg_floats() {
 								    new_ucmd!().args(&["-w", "5", "10.0", "33", "32"]).fails();
 								}
 								#[test]
 								fn test_zero_step_floats() {
 								    new_ucmd!().args(&["10.0", "0", "32"]).fails();
 								}
-												seq: print negative zero at start of integer seq.

											
										
										
											2021-08-27 22:55:02 +00:00
 								#[test]
 								fn test_preserve_negative_zero_start() {
 								    new_ucmd!()
 								        .args(&["-0", "1"])
 								        .succeeds()
 								        .stdout_is("-0\n1\n")
 								        .no_stderr();
-												seq: use print_seq_integers() regardless of last

Ensure that the `print_seq_integers()` function is called when the first
number and the increment are integers, regardless of the type of the
last value specified.

											
										
										
											2021-09-17 03:02:02 +00:00
+								    new_ucmd!()
 								        .args(&["-0", "1", "2"])
 								        .succeeds()
 								        .stdout_is("-0\n1\n2\n")
 								        .no_stderr();
 								    new_ucmd!()
 								        .args(&["-0", "1", "2.0"])
 								        .succeeds()
 								        .stdout_is("-0\n1\n2\n")
 								        .no_stderr();
-												seq: print negative zero at start of integer seq.

											
										
										
											2021-08-27 22:55:02 +00:00
+								}
 								#[test]
 								fn test_drop_negative_zero_end() {
 								    new_ucmd!()
 								        .args(&["1", "-1", "-0"])
 								        .succeeds()
 								        .stdout_is("1\n0\n")
 								        .no_stderr();
 								}
-												seq: compute width of numbers after parsing

Fix a bug in `seq` where the number of characters needed to print the
number was computed incorrectly in some cases. This commit changes the
computation of the width to be after parsing the number instead of
before, in order to accommodate inputs like `1e3`, which requires four
digits when printing the number, not three.

											
										
										
											2021-08-28 20:28:38 +00:00
 								#[test]
 								fn test_width_scientific_notation() {
 								    new_ucmd!()
 								        .args(&["-w", "999", "1e3"])
 								        .succeeds()
 								        .stdout_is("0999\n1000\n")
 								        .no_stderr();
 								}
 								#[test]
 								fn test_width_negative_zero() {
 								    new_ucmd!()
 								        .args(&["-w", "-0", "1"])
 								        .succeeds()
 								        .stdout_is("-0\n01\n")
 								        .no_stderr();
-												seq: use print_seq_integers() regardless of last

Ensure that the `print_seq_integers()` function is called when the first
number and the increment are integers, regardless of the type of the
last value specified.

											
										
										
											2021-09-17 03:02:02 +00:00
+								    new_ucmd!()
 								        .args(&["-w", "-0", "1", "2"])
 								        .succeeds()
 								        .stdout_is("-0\n01\n02\n")
 								        .no_stderr();
 								    new_ucmd!()
 								        .args(&["-w", "-0", "1", "2.0"])
 								        .succeeds()
 								        .stdout_is("-0\n01\n02\n")
 								        .no_stderr();
 								}
 								#[test]
 								fn test_width_negative_zero_decimal_notation() {
 								    new_ucmd!()
 								        .args(&["-w", "-0.0", "1"])
 								        .succeeds()
 								        .stdout_is("-0.0\n01.0\n")
 								        .no_stderr();
 								    new_ucmd!()
 								        .args(&["-w", "-0.0", "1.0"])
 								        .succeeds()
 								        .stdout_is("-0.0\n01.0\n")
 								        .no_stderr();
 								    new_ucmd!()
 								        .args(&["-w", "-0.0", "1", "2"])
 								        .succeeds()
 								        .stdout_is("-0.0\n01.0\n02.0\n")
 								        .no_stderr();
 								    new_ucmd!()
 								        .args(&["-w", "-0.0", "1", "2.0"])
 								        .succeeds()
 								        .stdout_is("-0.0\n01.0\n02.0\n")
 								        .no_stderr();
 								    new_ucmd!()
 								        .args(&["-w", "-0.0", "1.0", "2"])
 								        .succeeds()
 								        .stdout_is("-0.0\n01.0\n02.0\n")
 								        .no_stderr();
 								    new_ucmd!()
 								        .args(&["-w", "-0.0", "1.0", "2.0"])
 								        .succeeds()
 								        .stdout_is("-0.0\n01.0\n02.0\n")
 								        .no_stderr();
-												seq: compute width of numbers after parsing

Fix a bug in `seq` where the number of characters needed to print the
number was computed incorrectly in some cases. This commit changes the
computation of the width to be after parsing the number instead of
before, in order to accommodate inputs like `1e3`, which requires four
digits when printing the number, not three.

											
										
										
											2021-08-28 20:28:38 +00:00
+								}
-												seq: use stdout.write_all() instead of print!()

Change from using `print!()` to using `stdout.write_all()` in order to
allow the main function to handle broken pipe errors gracefully.

											
										
										
											2021-09-10 02:02:31 +00:00
-												seq: compute correct width for scientific notation

Change the way `seq` computes the number of digits needed to print a
number so that it works for inputs given in scientific notation.
Specifically, this commit parses the input string to determine whether
it is an integer, a float in decimal notation, or a float in scientific
notation, and then computes the number of integral digits and the number
of fractional digits based on that. This also supports floating point
negative zero, expressed in both decimal and scientific notation.

											
										
										
											2021-09-11 16:49:12 +00:00
+								#[test]
 								fn test_width_negative_zero_scientific_notation() {
 								    new_ucmd!()
 								        .args(&["-w", "-0e0", "1"])
 								        .succeeds()
 								        .stdout_is("-0\n01\n")
 								        .no_stderr();
-												seq: use print_seq_integers() regardless of last

Ensure that the `print_seq_integers()` function is called when the first
number and the increment are integers, regardless of the type of the
last value specified.

											
										
										
											2021-09-17 03:02:02 +00:00
+								    new_ucmd!()
 								        .args(&["-w", "-0e0", "1", "2"])
 								        .succeeds()
 								        .stdout_is("-0\n01\n02\n")
 								        .no_stderr();
 								    new_ucmd!()
 								        .args(&["-w", "-0e0", "1", "2.0"])
 								        .succeeds()
 								        .stdout_is("-0\n01\n02\n")
 								        .no_stderr();
-												seq: compute correct width for scientific notation

Change the way `seq` computes the number of digits needed to print a
number so that it works for inputs given in scientific notation.
Specifically, this commit parses the input string to determine whether
it is an integer, a float in decimal notation, or a float in scientific
notation, and then computes the number of integral digits and the number
of fractional digits based on that. This also supports floating point
negative zero, expressed in both decimal and scientific notation.

											
										
										
											2021-09-11 16:49:12 +00:00
 								    new_ucmd!()
 								        .args(&["-w", "-0e+1", "1"])
 								        .succeeds()
 								        .stdout_is("-00\n001\n")
 								        .no_stderr();
-												seq: use print_seq_integers() regardless of last

Ensure that the `print_seq_integers()` function is called when the first
number and the increment are integers, regardless of the type of the
last value specified.

											
										
										
											2021-09-17 03:02:02 +00:00
+								    new_ucmd!()
 								        .args(&["-w", "-0e+1", "1", "2"])
 								        .succeeds()
 								        .stdout_is("-00\n001\n002\n")
 								        .no_stderr();
 								    new_ucmd!()
 								        .args(&["-w", "-0e+1", "1", "2.0"])
 								        .succeeds()
 								        .stdout_is("-00\n001\n002\n")
 								        .no_stderr();
-												seq: compute correct width for scientific notation

Change the way `seq` computes the number of digits needed to print a
number so that it works for inputs given in scientific notation.
Specifically, this commit parses the input string to determine whether
it is an integer, a float in decimal notation, or a float in scientific
notation, and then computes the number of integral digits and the number
of fractional digits based on that. This also supports floating point
negative zero, expressed in both decimal and scientific notation.

											
										
										
											2021-09-11 16:49:12 +00:00
 								    new_ucmd!()
 								        .args(&["-w", "-0.000e0", "1"])
 								        .succeeds()
 								        .stdout_is("-0.000\n01.000\n")
 								        .no_stderr();
-												seq: use print_seq_integers() regardless of last

Ensure that the `print_seq_integers()` function is called when the first
number and the increment are integers, regardless of the type of the
last value specified.

											
										
										
											2021-09-17 03:02:02 +00:00
+								    new_ucmd!()
 								        .args(&["-w", "-0.000e0", "1", "2"])
 								        .succeeds()
 								        .stdout_is("-0.000\n01.000\n02.000\n")
 								        .no_stderr();
 								    new_ucmd!()
 								        .args(&["-w", "-0.000e0", "1", "2.0"])
 								        .succeeds()
 								        .stdout_is("-0.000\n01.000\n02.000\n")
 								        .no_stderr();
-												seq: compute correct width for scientific notation

Change the way `seq` computes the number of digits needed to print a
number so that it works for inputs given in scientific notation.
Specifically, this commit parses the input string to determine whether
it is an integer, a float in decimal notation, or a float in scientific
notation, and then computes the number of integral digits and the number
of fractional digits based on that. This also supports floating point
negative zero, expressed in both decimal and scientific notation.

											
										
										
											2021-09-11 16:49:12 +00:00
 								    new_ucmd!()
 								        .args(&["-w", "-0.000e-2", "1"])
 								        .succeeds()
 								        .stdout_is("-0.00000\n01.00000\n")
 								        .no_stderr();
-												seq: use print_seq_integers() regardless of last

Ensure that the `print_seq_integers()` function is called when the first
number and the increment are integers, regardless of the type of the
last value specified.

											
										
										
											2021-09-17 03:02:02 +00:00
+								    new_ucmd!()
 								        .args(&["-w", "-0.000e-2", "1", "2"])
 								        .succeeds()
 								        .stdout_is("-0.00000\n01.00000\n02.00000\n")
 								        .no_stderr();
 								    new_ucmd!()
 								        .args(&["-w", "-0.000e-2", "1", "2.0"])
 								        .succeeds()
 								        .stdout_is("-0.00000\n01.00000\n02.00000\n")
 								        .no_stderr();
-												seq: compute correct width for scientific notation

Change the way `seq` computes the number of digits needed to print a
number so that it works for inputs given in scientific notation.
Specifically, this commit parses the input string to determine whether
it is an integer, a float in decimal notation, or a float in scientific
notation, and then computes the number of integral digits and the number
of fractional digits based on that. This also supports floating point
negative zero, expressed in both decimal and scientific notation.

											
										
										
											2021-09-11 16:49:12 +00:00
 								    new_ucmd!()
 								        .args(&["-w", "-0.000e5", "1"])
 								        .succeeds()
 								        .stdout_is("-000000\n0000001\n")
 								        .no_stderr();
-												seq: use print_seq_integers() regardless of last

Ensure that the `print_seq_integers()` function is called when the first
number and the increment are integers, regardless of the type of the
last value specified.

											
										
										
											2021-09-17 03:02:02 +00:00
+								    new_ucmd!()
 								        .args(&["-w", "-0.000e5", "1", "2"])
 								        .succeeds()
 								        .stdout_is("-000000\n0000001\n0000002\n")
 								        .no_stderr();
 								    new_ucmd!()
 								        .args(&["-w", "-0.000e5", "1", "2.0"])
 								        .succeeds()
 								        .stdout_is("-000000\n0000001\n0000002\n")
 								        .no_stderr();
-												seq: compute correct width for scientific notation

Change the way `seq` computes the number of digits needed to print a
number so that it works for inputs given in scientific notation.
Specifically, this commit parses the input string to determine whether
it is an integer, a float in decimal notation, or a float in scientific
notation, and then computes the number of integral digits and the number
of fractional digits based on that. This also supports floating point
negative zero, expressed in both decimal and scientific notation.

											
										
										
											2021-09-11 16:49:12 +00:00
 								    new_ucmd!()
 								        .args(&["-w", "-0.000e5", "1"])
 								        .succeeds()
 								        .stdout_is("-000000\n0000001\n")
 								        .no_stderr();
-												seq: use print_seq_integers() regardless of last

Ensure that the `print_seq_integers()` function is called when the first
number and the increment are integers, regardless of the type of the
last value specified.

											
										
										
											2021-09-17 03:02:02 +00:00
+								    new_ucmd!()
 								        .args(&["-w", "-0.000e5", "1", "2"])
 								        .succeeds()
 								        .stdout_is("-000000\n0000001\n0000002\n")
 								        .no_stderr();
 								    new_ucmd!()
 								        .args(&["-w", "-0.000e5", "1", "2.0"])
 								        .succeeds()
 								        .stdout_is("-000000\n0000001\n0000002\n")
 								        .no_stderr();
-												seq: compute correct width for scientific notation

Change the way `seq` computes the number of digits needed to print a
number so that it works for inputs given in scientific notation.
Specifically, this commit parses the input string to determine whether
it is an integer, a float in decimal notation, or a float in scientific
notation, and then computes the number of integral digits and the number
of fractional digits based on that. This also supports floating point
negative zero, expressed in both decimal and scientific notation.

											
										
										
											2021-09-11 16:49:12 +00:00
+								}
 								#[test]
 								fn test_width_decimal_scientific_notation_increment() {
 								    new_ucmd!()
 								        .args(&["-w", ".1", "1e-2", ".11"])
 								        .succeeds()
 								        .stdout_is("0.10\n0.11\n")
 								        .no_stderr();
 								    new_ucmd!()
 								        .args(&["-w", ".0", "1.500e-1", ".2"])
 								        .succeeds()
 								        .stdout_is("0.0000\n0.1500\n")
 								        .no_stderr();
 								}
 								/// Test that trailing zeros in the start argument contribute to precision.
 								#[test]
 								fn test_width_decimal_scientific_notation_trailing_zeros_start() {
 								    new_ucmd!()
 								        .args(&["-w", ".1000", "1e-2", ".11"])
 								        .succeeds()
 								        .stdout_is("0.1000\n0.1100\n")
 								        .no_stderr();
 								}
 								/// Test that trailing zeros in the increment argument contribute to precision.
 								#[test]
 								fn test_width_decimal_scientific_notation_trailing_zeros_increment() {
 								    new_ucmd!()
 								        .args(&["-w", "1e-1", "0.0100", ".11"])
 								        .succeeds()
 								        .stdout_is("0.1000\n0.1100\n")
 								        .no_stderr();
 								}
 								/// Test that trailing zeros in the end argument do not contribute to width.
 								#[test]
 								fn test_width_decimal_scientific_notation_trailing_zeros_end() {
 								    new_ucmd!()
 								        .args(&["-w", "1e-1", "1e-2", ".1100"])
 								        .succeeds()
 								        .stdout_is("0.10\n0.11\n")
 								        .no_stderr();
 								}
-												seq: replace loops with a single format string

Replace two loops that print leading and trailing 0s when printing a
number in fixed-width mode with a single call to `write!()` with the
appropriate formatting parameters.

											
										
										
											2021-09-14 01:19:49 +00:00
+								#[test]
 								fn test_width_floats() {
 								    new_ucmd!()
 								        .args(&["-w", "9.0", "10.0"])
 								        .succeeds()
 								        .stdout_is("09.0\n10.0\n")
 								        .no_stderr();
 								}
-												seq: use stdout.write_all() instead of print!()

Change from using `print!()` to using `stdout.write_all()` in order to
allow the main function to handle broken pipe errors gracefully.

											
										
										
											2021-09-10 02:02:31 +00:00
+								// TODO This is duplicated from `test_yes.rs`; refactor them.
 								/// Run `seq`, capture some of the output, close the pipe, and verify it.
 								fn run(args: &[&str], expected: &[u8]) {
 								    let mut cmd = new_ucmd!();
 								    let mut child = cmd.args(args).run_no_wait();
 								    let mut stdout = child.stdout.take().unwrap();
 								    let mut buf = vec![0; expected.len()];
 								    stdout.read_exact(&mut buf).unwrap();
 								    drop(stdout);
 								    assert!(child.wait().unwrap().success());
 								    assert_eq!(buf.as_slice(), expected);
 								}
 								#[test]
 								fn test_neg_inf() {
 								    run(&["--", "-inf", "0"], b"-inf\n-inf\n-inf\n");
 								}
 								#[test]
 								fn test_inf() {
 								    run(&["inf"], b"1\n2\n3\n");
 								}
-												seq: trim leading whitespace from inputs

											
										
										
											2021-09-12 03:10:13 +00:00
 								#[test]
 								fn test_ignore_leading_whitespace() {
 								    new_ucmd!()
 								        .arg("   1")
 								        .succeeds()
 								        .stdout_is("1\n")
 								        .no_stderr();
 								}
 								#[test]
 								fn test_trailing_whitespace_error() {
 								    // In some locales, the GNU error message has curly quotes (‘)
 								    // instead of straight quotes ('). We just test the straight single
 								    // quotes.
 								    new_ucmd!()
 								        .arg("1 ")
 								        .fails()
 								        .no_stdout()
 								        .stderr_contains("seq: invalid floating point argument: '1 '")
 								        // FIXME The second line of the error message is "Try 'seq
 								        // --help' for more information."
 								        .stderr_contains("for more information.");
 								}