use nu_test_support::nu; use pretty_assertions::assert_eq; use rstest::rstest; const MODULE_SETUP: &str = r#" module spam { export const X = 'x' export module eggs { export const E = 'e' export module bacon { export const viking = 'eats' export module none {} } } } "#; #[test] fn const_bool() { let inp = &["const x = false", "$x"]; let actual = nu!(&inp.join("; ")); assert_eq!(actual.out, "false"); } #[test] fn const_int() { let inp = &["const x = 10", "$x"]; let actual = nu!(&inp.join("; ")); assert_eq!(actual.out, "10"); } #[test] fn const_float() { let inp = &["const x = 1.234", "$x"]; let actual = nu!(&inp.join("; ")); assert_eq!(actual.out, "1.234"); } #[test] fn const_binary() { let inp = &["const x = 0x[12]", "$x"]; let actual = nu!(&inp.join("; ")); assert!(actual.out.contains("12")); } #[test] fn const_datetime() { let inp = &["const x = 2021-02-27T13:55:40+00:00", "$x"]; let actual = nu!(&inp.join("; ")); assert!(actual.out.contains("Sat, 27 Feb 2021 13:55:40")); } #[test] fn const_list() { let inp = &["const x = [ a b c ]", "$x | describe"]; let actual = nu!(&inp.join("; ")); assert_eq!(actual.out, "list"); } #[test] fn const_record() { let inp = &["const x = { a: 10, b: 20, c: 30 }", "$x | describe"]; let actual = nu!(&inp.join("; ")); assert_eq!(actual.out, "record"); } #[test] fn const_table() { let inp = &[ "const x = [[a b c]; [10 20 30] [100 200 300]]", "$x | describe", ]; let actual = nu!(&inp.join("; ")); assert_eq!(actual.out, "table"); } #[test] fn const_string() { let inp = &[r#"const x = "abc""#, "$x"]; let actual = nu!(&inp.join("; ")); assert_eq!(actual.out, "abc"); } #[test] fn const_nothing() { let inp = &["const x = null", "$x | describe"]; let actual = nu!(&inp.join("; ")); assert_eq!(actual.out, "nothing"); } #[rstest] #[case(&["const x = not false", "$x"], "true")] #[case(&["const x = false", "const y = not $x", "$y"], "true")] #[case(&["const x = not false", "const y = not $x", "$y"], "false")] fn const_unary_operator(#[case] inp: &[&str], #[case] expect: &str) { let actual = nu!(&inp.join("; ")); assert_eq!(actual.out, expect); } #[rstest] #[case(&["const x = 1 + 2", "$x"], "3")] #[case(&["const x = 1 * 2", "$x"], "2")] #[case(&["const x = 4 / 2", "$x"], "2")] #[case(&["const x = 4 mod 3", "$x"], "1")] #[case(&["const x = 5.0 / 2.0", "$x"], "2.5")] #[case(&[r#"const x = "a" + "b" "#, "$x"], "ab")] #[case(&[r#"const x = "a" ++ "b" "#, "$x"], "ab")] #[case(&[r#"const x = [1,2] ++ [3]"#, "$x | describe"], "list")] #[case(&[r#"const x = 0x[1,2] ++ 0x[3]"#, "$x | describe"], "binary")] #[case(&[r#"const x = 0x[1,2] ++ [3]"#, "$x | describe"], "list")] #[case(&["const x = 1 < 2", "$x"], "true")] #[case(&["const x = (3 * 200) > (2 * 100)", "$x"], "true")] #[case(&["const x = (3 * 200) < (2 * 100)", "$x"], "false")] #[case(&["const x = (3 * 200) == (2 * 300)", "$x"], "true")] fn const_binary_operator(#[case] inp: &[&str], #[case] expect: &str) { let actual = nu!(&inp.join("; ")); assert_eq!(actual.out, expect); } #[rstest] #[case(&["const x = 1 / 0", "$x"], "division by zero")] #[case(&["const x = 10 ** 10000000", "$x"], "pow operation overflowed")] #[case(&["const x = 2 ** 62 * 2", "$x"], "multiply operation overflowed")] #[case(&["const x = 1 ++ 0", "$x"], "doesn't support this value")] fn const_operator_error(#[case] inp: &[&str], #[case] expect: &str) { let actual = nu!(&inp.join("; ")); assert!(actual.err.contains(expect)); } #[rstest] #[case(&["const x = (1..3)", "$x | math sum"], "6")] #[case(&["const x = (1..3)", "$x | describe"], "range")] fn const_range(#[case] inp: &[&str], #[case] expect: &str) { let actual = nu!(&inp.join("; ")); assert_eq!(actual.out, expect); } #[test] fn const_subexpression_supported() { let inp = &["const x = ('spam')", "$x"]; let actual = nu!(&inp.join("; ")); assert_eq!(actual.out, "spam"); } #[test] fn const_command_supported() { let inp = &["const x = ('spam' | str length)", "$x"]; let actual = nu!(&inp.join("; ")); assert_eq!(actual.out, "4"); } #[test] fn const_command_unsupported() { let inp = &["const x = (loop { break })"]; let actual = nu!(&inp.join("; ")); assert!(actual.err.contains("not_a_const_command")); } #[test] fn const_in_scope() { let inp = &["do { const x = 'x'; $x }"]; let actual = nu!(&inp.join("; ")); assert_eq!(actual.out, "x"); } #[test] fn not_a_const_help() { let actual = nu!("const x = ('abc' | str length -h)"); assert!(actual.err.contains("not_a_const_help")); } #[test] fn complex_const_export() { let inp = &[MODULE_SETUP, "use spam", "$spam.X"]; let actual = nu!(&inp.join("; ")); assert_eq!(actual.out, "x"); let inp = &[MODULE_SETUP, "use spam", "$spam.eggs.E"]; let actual = nu!(&inp.join("; ")); assert_eq!(actual.out, "e"); let inp = &[MODULE_SETUP, "use spam", "$spam.eggs.bacon.viking"]; let actual = nu!(&inp.join("; ")); assert_eq!(actual.out, "eats"); let inp = &[ MODULE_SETUP, "use spam", "($spam.eggs.bacon.none | is-empty)", ]; let actual = nu!(&inp.join("; ")); assert_eq!(actual.out, "true"); } #[test] fn complex_const_glob_export() { let inp = &[MODULE_SETUP, "use spam *", "$X"]; let actual = nu!(&inp.join("; ")); assert_eq!(actual.out, "x"); let inp = &[MODULE_SETUP, "use spam *", "$eggs.E"]; let actual = nu!(&inp.join("; ")); assert_eq!(actual.out, "e"); let inp = &[MODULE_SETUP, "use spam *", "$eggs.bacon.viking"]; let actual = nu!(&inp.join("; ")); assert_eq!(actual.out, "eats"); let inp = &[MODULE_SETUP, "use spam *", "($eggs.bacon.none | is-empty)"]; let actual = nu!(&inp.join("; ")); assert_eq!(actual.out, "true"); } #[test] fn complex_const_drill_export() { let inp = &[ MODULE_SETUP, "use spam eggs bacon none", "($none | is-empty)", ]; let actual = nu!(&inp.join("; ")); assert_eq!(actual.out, "true"); } #[test] fn complex_const_list_export() { let inp = &[ MODULE_SETUP, "use spam [X eggs]", "[$X $eggs.E] | str join ''", ]; let actual = nu!(&inp.join("; ")); assert_eq!(actual.out, "xe"); } #[test] fn exported_const_is_const() { let module1 = "module foo { export def main [] { 'foo' } }"; let module2 = "module spam { export const MOD_NAME = 'foo' }"; let inp = &[module1, module2, "use spam", "use $spam.MOD_NAME", "foo"]; let actual = nu!(&inp.join("; ")); assert_eq!(actual.out, "foo"); } #[test] fn const_captures_work() { let module = "module spam { export const X = 'x' const Y = 'y' export-env { $env.SPAM = $X + $Y } export def main [] { $X + $Y } }"; let inp = &[module, "use spam", "$env.SPAM"]; let actual = nu!(&inp.join("; ")); assert_eq!(actual.out, "xy"); let inp = &[module, "use spam", "spam"]; let actual = nu!(&inp.join("; ")); assert_eq!(actual.out, "xy"); } #[ignore = "TODO: Need to fix `overlay hide` to hide the constants brough by `overlay use`"] #[test] fn complex_const_overlay_use_hide() { let inp = &[MODULE_SETUP, "overlay use spam", "$X"]; let actual = nu!(&inp.join("; ")); assert_eq!(actual.out, "x"); let inp = &[MODULE_SETUP, "overlay use spam", "$eggs.E"]; let actual = nu!(&inp.join("; ")); assert_eq!(actual.out, "e"); let inp = &[MODULE_SETUP, "overlay use spam", "$eggs.bacon.viking"]; let actual = nu!(&inp.join("; ")); assert_eq!(actual.out, "eats"); let inp = &[ MODULE_SETUP, "overlay use spam", "($eggs.bacon.none | is-empty)", ]; let actual = nu!(&inp.join("; ")); assert_eq!(actual.out, "true"); let inp = &[MODULE_SETUP, "overlay use spam", "overlay hide", "$eggs"]; let actual = nu!(&inp.join("; ")); assert!(actual.err.contains("nu::parser::variable_not_found")); } // const implementations of commands without dedicated tests #[test] fn describe_const() { let actual = nu!("const x = ('abc' | describe); $x"); assert_eq!(actual.out, "string"); } #[test] fn ignore_const() { let actual = nu!(r#"const x = ("spam" | ignore); $x == null"#); assert_eq!(actual.out, "true"); } #[test] fn version_const() { let actual = nu!("const x = (version); $x"); assert!(actual.err.is_empty()); } #[test] fn if_const() { let actual = nu!("const x = (if 2 < 3 { 'yes!' }); $x"); assert_eq!(actual.out, "yes!"); let actual = nu!("const x = (if 5 < 3 { 'yes!' } else { 'no!' }); $x"); assert_eq!(actual.out, "no!"); let actual = nu!("const x = (if 5 < 3 { 'yes!' } else if 4 < 5 { 'no!' } else { 'okay!' }); $x"); assert_eq!(actual.out, "no!"); }