// spell-checker:ignore (paths) gnutest use crate::common::util::*; #[test] fn test_from_si() { new_ucmd!() .args(&["--from=si"]) .pipe_in("1000\n1.1M\n0.1G") .run() .stdout_is("1000\n1100000\n100000000\n"); } #[test] fn test_from_iec() { new_ucmd!() .args(&["--from=iec"]) .pipe_in("1024\n1.1M\n0.1G") .run() .stdout_is("1024\n1153434\n107374183\n"); } #[test] fn test_from_iec_i() { new_ucmd!() .args(&["--from=iec-i"]) .pipe_in("1.1Mi\n0.1Gi") .run() .stdout_is("1153434\n107374183\n"); } #[test] #[ignore] // FIXME: GNU from iec-i requires suffix fn test_from_iec_i_requires_suffix() { new_ucmd!() .args(&["--from=iec-i", "1024"]) .fails() .stderr_is("numfmt: missing 'i' suffix in input: '1024' (e.g Ki/Mi/Gi)"); } #[test] fn test_from_auto() { new_ucmd!() .args(&["--from=auto"]) .pipe_in("1K\n1Ki") .run() .stdout_is("1000\n1024\n"); } #[test] fn test_to_si() { new_ucmd!() .args(&["--to=si"]) .pipe_in("1000\n1100000\n100000000") .run() .stdout_is("1.0K\n1.1M\n100M\n"); } #[test] fn test_to_iec() { new_ucmd!() .args(&["--to=iec"]) .pipe_in("1024\n1153434\n107374182") .run() .stdout_is("1.0K\n1.2M\n103M\n"); } #[test] fn test_to_iec_i() { new_ucmd!() .args(&["--to=iec-i"]) .pipe_in("1024\n1153434\n107374182") .run() .stdout_is("1.0Ki\n1.2Mi\n103Mi\n"); } #[test] fn test_input_from_free_arguments() { new_ucmd!() .args(&["--from=si", "1K", "1.1M", "0.1G"]) .run() .stdout_is("1000\n1100000\n100000000\n"); } #[test] fn test_padding() { new_ucmd!() .args(&["--from=si", "--padding=8"]) .pipe_in("1K\n1.1M\n0.1G") .run() .stdout_is(" 1000\n 1100000\n100000000\n"); } #[test] fn test_negative_padding() { new_ucmd!() .args(&["--from=si", "--padding=-8"]) .pipe_in("1K\n1.1M\n0.1G") .run() .stdout_is("1000 \n1100000 \n100000000\n"); } #[test] fn test_header() { new_ucmd!() .args(&["--from=si", "--header=2"]) .pipe_in("header\nheader2\n1K\n1.1M\n0.1G") .run() .stdout_is("header\nheader2\n1000\n1100000\n100000000\n"); } #[test] fn test_header_default() { new_ucmd!() .args(&["--from=si", "--header"]) .pipe_in("header\n1K\n1.1M\n0.1G") .run() .stdout_is("header\n1000\n1100000\n100000000\n"); } #[test] fn test_header_error_if_non_numeric() { new_ucmd!() .args(&["--header=two"]) .run() .stderr_is("numfmt: invalid header value 'two'"); } #[test] fn test_header_error_if_0() { new_ucmd!() .args(&["--header=0"]) .run() .stderr_is("numfmt: invalid header value '0'"); } #[test] fn test_header_error_if_negative() { new_ucmd!() .args(&["--header=-3"]) .run() .stderr_is("numfmt: invalid header value '-3'"); } #[test] fn test_negative() { new_ucmd!() .args(&["--from=si"]) .pipe_in("-1000\n-1.1M\n-0.1G") .run() .stdout_is("-1000\n-1100000\n-100000000\n"); new_ucmd!() .args(&["--to=iec-i"]) .pipe_in("-1024\n-1153434\n-107374182") .run() .stdout_is("-1.0Ki\n-1.2Mi\n-103Mi\n"); } #[test] fn test_no_op() { new_ucmd!() .pipe_in("1024\n1234567") .run() .stdout_is("1024\n1234567\n"); } #[test] fn test_normalize() { new_ucmd!() .args(&["--from=si", "--to=si"]) .pipe_in("10000000K\n0.001K") .run() .stdout_is("10G\n1\n"); } #[test] fn test_si_to_iec() { new_ucmd!() .args(&["--from=si", "--to=iec", "15334263563K"]) .run() .stdout_is("14T\n"); } #[test] fn test_should_report_invalid_empty_number_on_empty_stdin() { new_ucmd!() .args(&["--from=auto"]) .pipe_in("\n") .run() .stderr_is("numfmt: invalid number: ''\n"); } #[test] fn test_should_report_invalid_empty_number_on_blank_stdin() { new_ucmd!() .args(&["--from=auto"]) .pipe_in(" \t \n") .run() .stderr_is("numfmt: invalid number: ''\n"); } #[test] fn test_should_report_invalid_suffix_on_stdin() { new_ucmd!() .args(&["--from=auto"]) .pipe_in("1k") .run() .stderr_is("numfmt: invalid suffix in input: '1k'\n"); // GNU numfmt reports this one as “invalid number” new_ucmd!() .args(&["--from=auto"]) .pipe_in("NaN") .run() .stderr_is("numfmt: invalid suffix in input: 'NaN'\n"); } #[test] fn test_should_report_invalid_number_with_interior_junk() { // GNU numfmt reports this as “invalid suffix” new_ucmd!() .args(&["--from=auto"]) .pipe_in("1x0K") .run() .stderr_is("numfmt: invalid number: '1x0K'\n"); } #[test] fn test_should_skip_leading_space_from_stdin() { new_ucmd!() .args(&["--from=auto"]) .pipe_in(" 2Ki") .run() .stdout_is("2048\n"); // multi-line new_ucmd!() .args(&["--from=auto"]) .pipe_in("\t1Ki\n 2K") .run() .stdout_is("1024\n2000\n"); } #[test] fn test_should_convert_only_first_number_in_line() { new_ucmd!() .args(&["--from=auto"]) .pipe_in("1Ki 2M 3G") .run() .stdout_is("1024 2M 3G\n"); } #[test] fn test_leading_whitespace_should_imply_padding() { new_ucmd!() .args(&["--from=auto"]) .pipe_in(" 1K") .run() .stdout_is(" 1000\n"); new_ucmd!() .args(&["--from=auto"]) .pipe_in(" 202Ki") .run() .stdout_is(" 206848\n"); } #[test] fn test_should_calculate_implicit_padding_per_line() { new_ucmd!() .args(&["--from=auto"]) .pipe_in(" 1Ki\n 2K") .run() .stdout_is(" 1024\n 2000\n"); } #[test] fn test_leading_whitespace_in_free_argument_should_imply_padding() { new_ucmd!() .args(&["--from=auto", " 1Ki"]) .run() .stdout_is(" 1024\n"); } #[test] #[ignore] fn test_should_calculate_implicit_padding_per_free_argument() { new_ucmd!() .args(&["--from=auto", " 1Ki", " 2K"]) .pipe_in(" 1Ki\n 2K") .run() .stdout_is(" 1024\n 2000\n"); } #[test] fn test_to_si_should_truncate_output() { new_ucmd!() .args(&["--to=si"]) .pipe_in_fixture("gnutest_si_input.txt") .succeeds() .stdout_is_fixture("gnutest_si_result.txt"); } #[test] fn test_to_iec_should_truncate_output() { new_ucmd!() .args(&["--to=iec"]) .pipe_in_fixture("gnutest_iec_input.txt") .succeeds() .stdout_is_fixture("gnutest_iec_result.txt"); } #[test] fn test_to_iec_i_should_truncate_output() { new_ucmd!() .args(&["--to=iec-i"]) .pipe_in_fixture("gnutest_iec_input.txt") .succeeds() .stdout_is_fixture("gnutest_iec-i_result.txt"); } #[test] fn test_format_selected_field() { new_ucmd!() .args(&["--from=auto", "--field", "3", "1K 2K 3K"]) .succeeds() .stdout_only("1K 2K 3000\n"); new_ucmd!() .args(&["--from=auto", "--field", "2", "1K 2K 3K"]) .succeeds() .stdout_only("1K 2000 3K\n"); } #[test] fn test_format_selected_fields() { new_ucmd!() .args(&["--from=auto", "--field", "1,4,3", "1K 2K 3K 4K 5K 6K"]) .succeeds() .stdout_only("1000 2K 3000 4000 5K 6K\n"); } #[test] fn test_should_succeed_if_selected_field_out_of_range() { new_ucmd!() .args(&["--from=auto", "--field", "9", "1K 2K 3K"]) .succeeds() .stdout_only("1K 2K 3K\n"); } #[test] fn test_format_selected_field_range() { new_ucmd!() .args(&["--from=auto", "--field", "2-5", "1K 2K 3K 4K 5K 6K"]) .succeeds() .stdout_only("1K 2000 3000 4000 5000 6K\n"); } #[test] fn test_should_succeed_if_range_out_of_bounds() { new_ucmd!() .args(&["--from=auto", "--field", "5-10", "1K 2K 3K 4K 5K 6K"]) .succeeds() .stdout_only("1K 2K 3K 4K 5000 6000\n"); } #[test] fn test_implied_initial_field_value() { new_ucmd!() .args(&["--from=auto", "--field", "-2", "1K 2K 3K"]) .succeeds() .stdout_only("1000 2000 3K\n"); // same as above but with the equal sign new_ucmd!() .args(&["--from=auto", "--field=-2", "1K 2K 3K"]) .succeeds() .stdout_only("1000 2000 3K\n"); } #[test] fn test_field_df_example() { // df -B1 | numfmt --header --field 2-4 --to=si new_ucmd!() .args(&["--header", "--field", "2-4", "--to=si"]) .pipe_in_fixture("df_input.txt") .succeeds() .stdout_is_fixture("df_expected.txt"); } #[test] fn test_delimiter_must_not_be_empty() { new_ucmd!().args(&["-d"]).fails(); } #[test] fn test_delimiter_must_not_be_more_than_one_character() { new_ucmd!() .args(&["--delimiter", "sad"]) .fails() .stderr_is("numfmt: the delimiter must be a single character"); } #[test] fn test_delimiter_only() { new_ucmd!() .args(&["-d", ","]) .pipe_in("1234,56") .succeeds() .stdout_only("1234,56\n"); } #[test] fn test_line_is_field_with_no_delimiter() { new_ucmd!() .args(&["-d,", "--to=iec"]) .pipe_in("123456") .succeeds() .stdout_only("121K\n"); } #[test] fn test_delimiter_to_si() { new_ucmd!() .args(&["-d=,", "--to=si"]) .pipe_in("1234,56") .succeeds() .stdout_only("1.3K,56\n"); } #[test] fn test_delimiter_skips_leading_whitespace() { new_ucmd!() .args(&["-d=,", "--to=si"]) .pipe_in(" \t 1234,56") .succeeds() .stdout_only("1.3K,56\n"); } #[test] fn test_delimiter_preserves_leading_whitespace_in_unselected_fields() { new_ucmd!() .args(&["-d=|", "--to=si"]) .pipe_in(" 1000| 2000") .succeeds() .stdout_only("1.0K| 2000\n"); } #[test] fn test_delimiter_from_si() { new_ucmd!() .args(&["-d=,", "--from=si"]) .pipe_in("1.2K,56") .succeeds() .stdout_only("1200,56\n"); } #[test] fn test_delimiter_overrides_whitespace_separator() { // GNU numfmt reports this as “invalid suffix” new_ucmd!() .args(&["-d,"]) .pipe_in("1 234,56") .fails() .stderr_is("numfmt: invalid number: '1 234'\n"); } #[test] fn test_delimiter_with_padding() { new_ucmd!() .args(&["-d=|", "--to=si", "--padding=5"]) .pipe_in("1000|2000") .succeeds() .stdout_only(" 1.0K|2000\n"); } #[test] fn test_delimiter_with_padding_and_fields() { new_ucmd!() .args(&["-d=|", "--to=si", "--padding=5", "--field=-"]) .pipe_in("1000|2000") .succeeds() .stdout_only(" 1.0K| 2.0K\n"); } #[test] fn test_round() { for (method, exp) in &[ ("from-zero", ["9.1K", "-9.1K", "9.1K", "-9.1K"]), ("towards-zero", ["9.0K", "-9.0K", "9.0K", "-9.0K"]), ("up", ["9.1K", "-9.0K", "9.1K", "-9.0K"]), ("down", ["9.0K", "-9.1K", "9.0K", "-9.1K"]), ("nearest", ["9.0K", "-9.0K", "9.1K", "-9.1K"]), ] { new_ucmd!() .args(&[ "--to=si", &format!("--round={}", method), "--", "9001", "-9001", "9099", "-9099", ]) .succeeds() .stdout_only(exp.join("\n") + "\n"); } }