mirror of
https://github.com/nushell/nushell.git
synced 2024-12-13 02:31:32 +01:00
e530e7d654
This PR closes [Issue #13482](https://github.com/nushell/nushell/issues/13482) # Description This PR tend to make all math function to be constant. # User-Facing Changes The math commands now can be used as constant methods. ### Some Example ``` > const MODE = [3 3 9 12 12 15] | math mode > $MODE ╭───┬────╮ │ 0 │ 3 │ │ 1 │ 12 │ ╰───┴────╯ > const LOG = [16 8 4] | math log 2 > $LOG ╭───┬──────╮ │ 0 │ 4.00 │ │ 1 │ 3.00 │ │ 2 │ 2.00 │ ╰───┴──────╯ > const VAR = [1 3 5] | math variance > $VAR 2.6666666666666665 ``` # Tests + Formatting Tests are added for all of the math command to test there constant behavior. I mostly focused on the actual user experience, not the correctness of the methods and algorithms. # After Submitting I think this change don't require any additional documentation. Feel free to correct me in this topic please.
511 lines
8.1 KiB
Rust
511 lines
8.1 KiB
Rust
mod abs;
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mod avg;
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mod ceil;
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mod floor;
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mod log;
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mod max;
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mod median;
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mod min;
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mod mode;
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mod product;
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mod round;
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mod sqrt;
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mod stddev;
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mod sum;
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mod variance;
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use nu_test_support::{nu, pipeline};
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#[test]
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fn one_arg() {
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let actual = nu!(pipeline(
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r#"
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1
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"#
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));
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assert_eq!(actual.out, "1");
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}
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#[test]
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fn add() {
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let actual = nu!(pipeline(
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r#"
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1 + 1
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"#
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));
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assert_eq!(actual.out, "2");
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}
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#[test]
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fn add_compound() {
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let actual = nu!(pipeline(
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r#"
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1 + 2 + 2
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"#
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));
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assert_eq!(actual.out, "5");
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}
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#[test]
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fn precedence_of_operators() {
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let actual = nu!(pipeline(
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r#"
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1 + 2 * 2
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"#
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));
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assert_eq!(actual.out, "5");
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}
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#[test]
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fn precedence_of_operators2() {
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let actual = nu!(pipeline(
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r#"
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1 + 2 * 2 + 1
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"#
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));
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assert_eq!(actual.out, "6");
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}
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#[test]
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fn precedence_of_operators3() {
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let actual = nu!(pipeline(
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r#"
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5 - 5 * 10 + 5
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"#
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));
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assert_eq!(actual.out, "-40");
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}
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#[test]
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fn precedence_of_operators4() {
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let actual = nu!(pipeline(
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r#"
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5 - (5 * 10) + 5
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"#
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));
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assert_eq!(actual.out, "-40");
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}
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#[test]
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fn division_of_ints() {
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let actual = nu!(pipeline(
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r#"
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4 / 2
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"#
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));
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assert_eq!(actual.out, "2");
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}
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#[test]
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fn division_of_ints2() {
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let actual = nu!(pipeline(
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r#"
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1 / 4
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"#
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));
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assert_eq!(actual.out, "0.25");
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}
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#[test]
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fn error_zero_division_int_int() {
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let actual = nu!(pipeline(
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r#"
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1 / 0
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"#
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));
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assert!(actual.err.contains("division by zero"));
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}
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#[test]
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fn error_zero_division_float_int() {
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let actual = nu!(pipeline(
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r#"
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1.0 / 0
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"#
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));
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assert!(actual.err.contains("division by zero"));
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}
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#[test]
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fn error_zero_division_int_float() {
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let actual = nu!(pipeline(
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r#"
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1 / 0.0
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"#
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));
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assert!(actual.err.contains("division by zero"));
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}
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#[test]
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fn error_zero_division_float_float() {
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let actual = nu!(pipeline(
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r#"
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1.0 / 0.0
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"#
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));
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assert!(actual.err.contains("division by zero"));
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}
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#[test]
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fn floor_division_of_ints() {
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let actual = nu!(pipeline(
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r#"
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5 // 2
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"#
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));
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assert_eq!(actual.out, "2");
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}
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#[test]
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fn floor_division_of_ints2() {
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let actual = nu!(pipeline(
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r#"
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-3 // 2
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"#
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));
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assert_eq!(actual.out, "-2");
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}
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#[test]
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fn floor_division_of_floats() {
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let actual = nu!(pipeline(
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r#"
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-3.0 // 2.0
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"#
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));
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assert_eq!(actual.out, "-2");
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}
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#[test]
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fn error_zero_floor_division_int_int() {
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let actual = nu!(pipeline(
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r#"
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1 // 0
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"#
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));
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assert!(actual.err.contains("division by zero"));
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}
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#[test]
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fn error_zero_floor_division_float_int() {
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let actual = nu!(pipeline(
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r#"
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1.0 // 0
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"#
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));
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assert!(actual.err.contains("division by zero"));
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}
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#[test]
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fn error_zero_floor_division_int_float() {
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let actual = nu!(pipeline(
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r#"
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1 // 0.0
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"#
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));
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assert!(actual.err.contains("division by zero"));
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}
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#[test]
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fn error_zero_floor_division_float_float() {
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let actual = nu!(pipeline(
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r#"
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1.0 // 0.0
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"#
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));
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assert!(actual.err.contains("division by zero"));
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}
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#[test]
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fn proper_precedence_history() {
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let actual = nu!(pipeline(
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r#"
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2 / 2 / 2 + 1
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"#
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));
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assert_eq!(actual.out, "1.5");
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}
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#[test]
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fn parens_precedence() {
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let actual = nu!(pipeline(
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r#"
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4 * (6 - 3)
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"#
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));
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assert_eq!(actual.out, "12");
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}
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#[test]
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fn modulo() {
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let actual = nu!(pipeline(
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r#"
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9 mod 2
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"#
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));
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assert_eq!(actual.out, "1");
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}
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#[test]
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fn unit_multiplication_math() {
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let actual = nu!(pipeline(
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r#"
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1mb * 2
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"#
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));
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assert_eq!(actual.out, "1.9 MiB");
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}
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#[test]
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fn unit_multiplication_float_math() {
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let actual = nu!(pipeline(
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r#"
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1mb * 1.2
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"#
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));
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assert_eq!(actual.out, "1.1 MiB");
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}
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#[test]
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fn unit_float_floor_division_math() {
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let actual = nu!(pipeline(
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r#"
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1mb // 3.0
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"#
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));
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assert_eq!(actual.out, "325.5 KiB");
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}
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#[test]
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fn unit_division_math() {
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let actual = nu!(pipeline(
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r#"
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1mb / 4
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"#
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));
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assert_eq!(actual.out, "244.1 KiB");
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}
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#[test]
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fn unit_float_division_math() {
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let actual = nu!(pipeline(
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r#"
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1mb / 3.1
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"#
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));
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assert_eq!(actual.out, "315.0 KiB");
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}
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#[test]
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fn duration_math() {
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let actual = nu!(pipeline(
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r#"
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1wk + 1day
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"#
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));
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assert_eq!(actual.out, "1wk 1day");
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}
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#[test]
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fn duration_decimal_math() {
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let actual = nu!(pipeline(
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r#"
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5.5day + 0.5day
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"#
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));
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assert_eq!(actual.out, "6day");
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}
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#[test]
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fn duration_math_with_nanoseconds() {
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let actual = nu!(pipeline(
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r#"
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1wk + 10ns
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"#
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));
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assert_eq!(actual.out, "1wk 10ns");
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}
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#[test]
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fn duration_decimal_math_with_nanoseconds() {
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let actual = nu!(pipeline(
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r#"
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1.5wk + 10ns
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"#
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));
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assert_eq!(actual.out, "1wk 3day 10ns");
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}
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#[test]
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fn duration_decimal_math_with_all_units() {
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let actual = nu!(pipeline(
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r#"
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1wk + 3day + 8hr + 10min + 16sec + 121ms + 11us + 12ns
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"#
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));
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assert_eq!(actual.out, "1wk 3day 8hr 10min 16sec 121ms 11µs 12ns");
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}
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#[test]
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fn duration_decimal_dans_test() {
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let actual = nu!(pipeline(
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r#"
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3.14sec
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"#
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));
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assert_eq!(actual.out, "3sec 140ms");
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}
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#[test]
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fn duration_math_with_negative() {
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let actual = nu!(pipeline(
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r#"
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1day - 1wk
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"#
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));
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assert_eq!(actual.out, "-6day");
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}
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#[test]
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fn compound_comparison() {
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let actual = nu!(pipeline(
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r#"
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4 > 3 and 2 > 1
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"#
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));
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assert_eq!(actual.out, "true");
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}
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#[test]
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fn compound_comparison2() {
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let actual = nu!(pipeline(
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r#"
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4 < 3 or 2 > 1
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"#
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));
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assert_eq!(actual.out, "true");
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}
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#[test]
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fn compound_where() {
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let actual = nu!(pipeline(
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r#"
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echo '[{"a": 1, "b": 1}, {"a": 2, "b": 1}, {"a": 2, "b": 2}]' | from json | where a == 2 and b == 1 | to json -r
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"#
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));
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assert_eq!(actual.out, r#"[{"a":2,"b":1}]"#);
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}
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#[test]
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fn compound_where_paren() {
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let actual = nu!(pipeline(
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r#"
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echo '[{"a": 1, "b": 1}, {"a": 2, "b": 1}, {"a": 2, "b": 2}]' | from json | where ($it.a == 2 and $it.b == 1) or $it.b == 2 | to json -r
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"#
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));
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assert_eq!(actual.out, r#"[{"a":2,"b":1},{"a":2,"b":2}]"#);
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}
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// TODO: these ++ tests are not really testing *math* functionality, maybe find another place for them
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#[test]
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fn adding_lists() {
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let actual = nu!(pipeline(
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r#"
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[1 3] ++ [5 6] | to nuon
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"#
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));
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assert_eq!(actual.out, "[1, 3, 5, 6]");
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}
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#[test]
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fn adding_list_and_value() {
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let actual = nu!(pipeline(
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r#"
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[1 3] ++ 5 | to nuon
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"#
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));
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assert_eq!(actual.out, "[1, 3, 5]");
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}
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#[test]
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fn adding_value_and_list() {
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let actual = nu!(pipeline(
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r#"
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1 ++ [3 5] | to nuon
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"#
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));
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assert_eq!(actual.out, "[1, 3, 5]");
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}
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#[test]
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fn adding_tables() {
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let actual = nu!(pipeline(
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r#"
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[[a b]; [1 2]] ++ [[c d]; [10 11]] | to nuon
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"#
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));
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assert_eq!(actual.out, "[{a: 1, b: 2}, {c: 10, d: 11}]");
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}
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#[test]
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fn append_strings() {
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let actual = nu!(pipeline(
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r#"
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"foo" ++ "bar"
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"#
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));
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assert_eq!(actual.out, "foobar");
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}
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#[test]
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fn append_binary_values() {
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let actual = nu!(pipeline(
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r#"
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0x[01 02] ++ 0x[03 04] | to nuon
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"#
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));
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assert_eq!(actual.out, "0x[01020304]");
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}
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