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9c6ef1c6d4
nushell/tests/repl/test_parser.rs
Ian Manske 93e121782c
Improve and fix filesize formatting/display (#14397) 
# Description

This PR cleans up the code surrounding formatting and displaying file
sizes.
- The `byte_unit` crate we use for file size units displays kilobytes as
`KB`, which is not the SI or ISO/IEC standard. Rather it should be `kB`,
so this fixes #8872. On some systems, `KB` actually means `KiB`, so this
avoids any potential confusion.
- The `byte_unit` crate, when displaying file sizes, casts integers to
floats which will lose precision for large file sizes. This PR adds a
custom `Display` implementation for `Filesize` that can give an exact
string representation of a `Filesize` for metric/SI units.
- This PR also removes the dependency on the `byte_unit` crate which
brought in several other dependencies.

Additionally, this PR makes some changes to the config for filesize
formatting (`$env.config.filesize`).
- The previous filesize config had the `metric` and `format` options. If
a metric (SI) unit was set in `format`, but `metric` was set to false,
then the `metric` option would take precedence and convert `format` to
the corresponding binary unit (or vice versa). E.g., `{ format: kB,
metric: false }` => `KiB`. Instead, this PR adds the `unit` option to
replace the `format` and `metric` options. `unit` can be set to a fixed
file size unit like `kB` or `KiB`, or it can be set to one of the
special options: `binary` or `metric`. These options tells nushell to
format file sizes using an appropriately scaled metric or binary unit
(examples below).
  ```nushell
  # precision = null

  # unit = kB
  1kB  # 1 kB
  1KiB # 1.024 kB
  
  # unit = KiB
  1kB  # 0.9765625 KiB
  1KiB # 1 KiB
  
  # unit = metric
  1000B     # 1 kB
  1024B     # 1.024 kB
  10_000MB  # 10 GB
  10_240MiB # 10.73741824 GB

  # unit = binary
  1000B     # 1000 B
  1024B     # 1 KiB
  10_000MB  # 9.313225746154785 GiB
  10_240MiB # 10 GiB
  ```
- In addition, this PR also adds the `precision` option to the filesize
config. It determines how many digits to show after the decimal point.
If set to null, then everything after the decimal point is shown.
- The default filesize config is `{ unit: metric, precision: 1 }`.

# User-Facing Changes

- Commands that use the config to format file sizes will follow the
changes described above (e.g., `table`, `into string`, `to text`, etc.).
- The file size unit/format passed to `format filesize` is now case
sensitive. An error with the valid units is shown if the case does not
match.
- `$env.config.filesize.format` and `$env.config.filesize.metric` are
deprecated and replaced by `$env.config.filesize.unit`.
- A new `$env.config.filesize.precision` option was added.

# Tests + Formatting

Mostly updated test expected outputs.

# After Submitting

This PR does not change the way NUON serializes file sizes, because that
would require changing the nu parser to be able to losslessly decode the
new, exact string representation introduced in this PR.

Similarly, this PR also does not change the file size parsing in any
way. Although the file size units provided to `format filesize` or the
filesize config are now case-sensitive, the same is not yet true for
file size literals in nushell code.
2025-01-22 22:24:51 -08:00

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use crate::repl::tests::{fail_test, run_test, run_test_contains, run_test_with_env, TestResult};
use nu_test_support::{nu, nu_repl_code};
use std::collections::HashMap;
#[test]
fn env_shorthand() -> TestResult {
run_test("FOO=BAR if false { 3 } else { 4 }", "4")
}
#[test]
fn subcommand() -> TestResult {
run_test("def foo [] {}; def \"foo bar\" [] {3}; foo bar", "3")
}
#[test]
fn alias_1() -> TestResult {
run_test("def foo [$x] { $x + 10 }; alias f = foo; f 100", "110")
}
#[test]
fn ints_with_underscores() -> TestResult {
run_test("1_0000_0000_0000 + 10", "1000000000010")
}
#[test]
fn floats_with_underscores() -> TestResult {
run_test("3.1415_9265_3589_793 * 2", "6.283185307179586")
}
#[test]
fn bin_ints_with_underscores() -> TestResult {
run_test("0b_10100_11101_10010", "21426")
}
#[test]
fn oct_ints_with_underscores() -> TestResult {
run_test("0o2443_6442_7652_0044", "90422533333028")
}
#[test]
fn hex_ints_with_underscores() -> TestResult {
run_test("0x68__9d__6a", "6856042")
}
#[test]
fn alias_2() -> TestResult {
run_test(
"def foo [$x $y] { $x + $y + 10 }; alias f = foo 33; f 100",
"143",
)
}
#[test]
fn alias_2_multi_word() -> TestResult {
run_test(
r#"def "foo bar" [$x $y] { $x + $y + 10 }; alias f = foo bar 33; f 100"#,
"143",
)
}
#[ignore = "TODO: Allow alias to alias existing command with the same name"]
#[test]
fn alias_recursion() -> TestResult {
run_test_contains(r#"alias ls = ls -a; ls"#, " ")
}
#[test]
fn block_param1() -> TestResult {
run_test("[3] | each { |it| $it + 10 } | get 0", "13")
}
#[test]
fn block_param2() -> TestResult {
run_test("[3] | each { |y| $y + 10 } | get 0", "13")
}
#[test]
fn block_param3_list_iteration() -> TestResult {
run_test("[1,2,3] | each { |it| $it + 10 } | get 1", "12")
}
#[test]
fn block_param4_list_iteration() -> TestResult {
run_test("[1,2,3] | each { |y| $y + 10 } | get 2", "13")
}
#[test]
fn range_iteration1() -> TestResult {
run_test("1..4 | each { |y| $y + 10 } | get 0", "11")
}
#[test]
fn range_iteration2() -> TestResult {
run_test("4..1 | each { |y| $y + 100 } | get 3", "101")
}
#[test]
fn range_ends_with_duration_suffix_variable_name() -> TestResult {
run_test("let runs = 10; 1..$runs | math sum", "55")
}
#[test]
fn range_ends_with_filesize_suffix_variable_name() -> TestResult {
run_test("let sizekb = 10; 1..$sizekb | math sum", "55")
}
#[test]
fn simple_value_iteration() -> TestResult {
run_test("4 | each { |it| $it + 10 }", "14")
}
#[test]
fn comment_multiline() -> TestResult {
run_test(
r#"def foo [] {
let x = 1 + 2 # comment
let y = 3 + 4 # another comment
$x + $y
}; foo"#,
"10",
)
}
#[test]
fn comment_skipping_1() -> TestResult {
run_test(
r#"let x = {
y: 20
# foo
}; $x.y"#,
"20",
)
}
#[test]
fn comment_skipping_2() -> TestResult {
run_test(
r#"let x = {
y: 20
# foo
z: 40
}; $x.z"#,
"40",
)
}
#[test]
fn comment_skipping_in_pipeline_1() -> TestResult {
run_test(
r#"[1,2,3] | #comment
each { |$it| $it + 2 } | # foo
math sum #bar"#,
"12",
)
}
#[test]
fn comment_skipping_in_pipeline_2() -> TestResult {
run_test(
r#"[1,2,3] #comment
| #comment2
each { |$it| $it + 2 } #foo
| # bar
math sum #baz"#,
"12",
)
}
#[test]
fn comment_skipping_in_pipeline_3() -> TestResult {
run_test(
r#"[1,2,3] | #comment
#comment2
each { |$it| $it + 2 } #foo
| # bar
#baz
math sum #foobar"#,
"12",
)
}
#[test]
fn still_string_if_hashtag_is_middle_of_string() -> TestResult {
run_test(r#"echo test#testing"#, "test#testing")
}
#[test]
fn non_comment_hashtag_in_comment_does_not_stop_comment() -> TestResult {
run_test(r#"# command_bar_text: { fg: '#C4C9C6' },"#, "")
}
#[test]
fn non_comment_hashtag_in_comment_does_not_stop_comment_in_block() -> TestResult {
run_test(
r#"{
explore: {
# command_bar_text: { fg: '#C4C9C6' },
}
} | get explore | is-empty"#,
"true",
)
}
#[test]
fn still_string_if_hashtag_is_middle_of_string_inside_each() -> TestResult {
run_test(
r#"1..1 | each {echo test#testing } | get 0"#,
"test#testing",
)
}
#[test]
fn still_string_if_hashtag_is_middle_of_string_inside_each_also_with_dot() -> TestResult {
run_test(r#"1..1 | each {echo '.#testing' } | get 0"#, ".#testing")
}
#[test]
fn bad_var_name() -> TestResult {
fail_test(r#"let $"foo bar" = 4"#, "can't contain")
}
#[test]
fn bad_var_name2() -> TestResult {
fail_test(r#"let $foo-bar = 4"#, "valid variable")?;
fail_test(r#"foo-bar=4 true"#, "Command `foo-bar=4` not found")
}
#[test]
fn bad_var_name3() -> TestResult {
fail_test(r#"let $=foo = 4"#, "valid variable")?;
fail_test(r#"=foo=4 true"#, "Command `=foo=4` not found")
}
#[test]
fn assignment_with_no_var() -> TestResult {
let cases = [
"let = if $",
"mut = if $",
"const = if $",
"let = 'foo' | $in; $x | describe",
"mut = 'foo' | $in; $x | describe",
];
let expecteds = [
"missing var_name",
"missing var_name",
"missing const_name",
"missing var_name",
"missing var_name",
];
for (case, expected) in std::iter::zip(cases, expecteds) {
fail_test(case, expected)?;
}
Ok(())
}
#[test]
fn too_few_arguments() -> TestResult {
// Test for https://github.com/nushell/nushell/issues/9072
let cases = [
"def a [b: bool, c: bool, d: float, e: float, f: float] {}; a true true 1 1",
"def a [b: bool, c: bool, d: float, e: float, f: float, g: float] {}; a true true 1 1",
"def a [b: bool, c: bool, d: float, e: float, f: float, g: float, h: float] {}; a true true 1 1",
];
let expected = "missing f";
for case in cases {
fail_test(case, expected)?;
}
Ok(())
}
#[test]
fn long_flag() -> TestResult {
run_test(
r#"([a, b, c] | enumerate | each --keep-empty { |e| if $e.index != 1 { 100 }}).1 | to nuon"#,
"null",
)
}
#[test]
fn for_in_missing_var_name() -> TestResult {
fail_test("for in", "missing")
}
#[test]
fn multiline_pipe_in_block() -> TestResult {
run_test(
r#"do {
echo hello |
str length
}"#,
"5",
)
}
#[test]
fn bad_short_flag() -> TestResult {
fail_test(r#"def foo3 [-l?:int] { $l }"#, "short flag")
}
#[test]
fn quotes_with_equals() -> TestResult {
run_test(
r#"let query_prefix = "https://api.github.com/search/issues?q=repo:nushell/"; $query_prefix"#,
"https://api.github.com/search/issues?q=repo:nushell/",
)
}
#[test]
fn string_interp_with_equals() -> TestResult {
run_test(
r#"let query_prefix = $"https://api.github.com/search/issues?q=repo:nushell/"; $query_prefix"#,
"https://api.github.com/search/issues?q=repo:nushell/",
)
}
#[test]
fn raw_string_with_equals() -> TestResult {
run_test(
r#"let query_prefix = r#'https://api.github.com/search/issues?q=repo:nushell/'#; $query_prefix"#,
"https://api.github.com/search/issues?q=repo:nushell/",
)
}
#[test]
fn raw_string_with_hashtag() -> TestResult {
run_test(r#"r##' one # two '##"#, "one # two")
}
#[test]
fn list_quotes_with_equals() -> TestResult {
run_test(
r#"["https://api.github.com/search/issues?q=repo:nushell/"] | get 0"#,
"https://api.github.com/search/issues?q=repo:nushell/",
)
}
#[test]
fn record_quotes_with_equals() -> TestResult {
run_test(r#"{"a=":b} | get a="#, "b")?;
run_test(r#"{"=a":b} | get =a"#, "b")?;
run_test(r#"{a:"=b"} | get a"#, "=b")?;
run_test(r#"{a:"b="} | get a"#, "b=")?;
run_test(r#"{a:b,"=c":d} | get =c"#, "d")?;
run_test(r#"{a:b,"c=":d} | get c="#, "d")
}
#[test]
fn recursive_parse() -> TestResult {
run_test(r#"def c [] { c }; echo done"#, "done")
}
#[test]
fn commands_have_description() -> TestResult {
run_test_contains(
r#"
# This is a test
#
# To see if I have cool description
def foo [] {}
help foo"#,
"cool description",
)
}
#[test]
fn commands_from_crlf_source_have_short_description() -> TestResult {
run_test_contains(
"# This is a test\r\n#\r\n# To see if I have cool description\r\ndef foo [] {}\r\nscope commands | where name == foo | get description.0",
"This is a test",
)
}
#[test]
fn commands_from_crlf_source_have_extra_description() -> TestResult {
run_test_contains(
"# This is a test\r\n#\r\n# To see if I have cool description\r\ndef foo [] {}\r\nscope commands | where name == foo | get extra_description.0",
"To see if I have cool description",
)
}
#[test]
fn equals_separates_long_flag() -> TestResult {
run_test(
r#"'nushell' | fill --alignment right --width=10 --character='-'"#,
"---nushell",
)
}
#[test]
fn assign_expressions() -> TestResult {
let env = HashMap::from([("VENV_OLD_PATH", "Foobar"), ("Path", "Quux")]);
run_test_with_env(
r#"$env.Path = (if ($env | columns | "VENV_OLD_PATH" in $in) { $env.VENV_OLD_PATH } else { $env.Path }); echo $env.Path"#,
"Foobar",
&env,
)
}
#[test]
fn assign_takes_pipeline() -> TestResult {
run_test(
r#"mut foo = 'bar'; $foo = $foo | str upcase | str reverse; $foo"#,
"RAB",
)
}
#[test]
fn append_assign_takes_pipeline() -> TestResult {
run_test(
r#"mut foo = 'bar'; $foo ++= $foo | str upcase; $foo"#,
"barBAR",
)
}
#[test]
fn assign_bare_external_fails() {
let result = nu!("$env.FOO = nu --testbin cococo");
assert!(!result.status.success());
assert!(result.err.contains("must be explicit"));
}
#[test]
fn assign_bare_external_with_caret() {
let result = nu!("$env.FOO = ^nu --testbin cococo");
assert!(result.status.success());
}
#[test]
fn assign_backtick_quoted_external_fails() {
let result = nu!("$env.FOO = `nu` --testbin cococo");
assert!(!result.status.success());
assert!(result.err.contains("must be explicit"));
}
#[test]
fn assign_backtick_quoted_external_with_caret() {
let result = nu!("$env.FOO = ^`nu` --testbin cococo");
assert!(result.status.success());
}
#[test]
fn string_interpolation_paren_test() -> TestResult {
run_test(r#"$"('(')(')')""#, "()")
}
#[test]
fn string_interpolation_paren_test2() -> TestResult {
run_test(r#"$"('(')test(')')""#, "(test)")
}
#[test]
fn string_interpolation_paren_test3() -> TestResult {
run_test(r#"$"('(')("test")test(')')""#, "(testtest)")
}
#[test]
fn string_interpolation_escaping() -> TestResult {
run_test(r#"$"hello\nworld" | lines | length"#, "2")
}
#[test]
fn capture_multiple_commands() -> TestResult {
run_test(
r#"
let CONST_A = 'Hello'
def 'say-hi' [] {
echo (call-me)
}
def 'call-me' [] {
echo $CONST_A
}
[(say-hi) (call-me)] | str join
"#,
"HelloHello",
)
}
#[test]
fn capture_multiple_commands2() -> TestResult {
run_test(
r#"
let CONST_A = 'Hello'
def 'call-me' [] {
echo $CONST_A
}
def 'say-hi' [] {
echo (call-me)
}
[(say-hi) (call-me)] | str join
"#,
"HelloHello",
)
}
#[test]
fn capture_multiple_commands3() -> TestResult {
run_test(
r#"
let CONST_A = 'Hello'
def 'say-hi' [] {
echo (call-me)
}
def 'call-me' [] {
echo $CONST_A
}
[(call-me) (say-hi)] | str join
"#,
"HelloHello",
)
}
#[test]
fn capture_multiple_commands4() -> TestResult {
run_test(
r#"
let CONST_A = 'Hello'
def 'call-me' [] {
echo $CONST_A
}
def 'say-hi' [] {
echo (call-me)
}
[(call-me) (say-hi)] | str join
"#,
"HelloHello",
)
}
#[test]
fn capture_row_condition() -> TestResult {
run_test(
r#"let name = "foo"; [foo] | where $'($name)' =~ $it | str join"#,
"foo",
)
}
#[test]
fn starts_with_operator_succeeds() -> TestResult {
run_test(
r#"[Moe Larry Curly] | where $it starts-with L | str join"#,
"Larry",
)
}
#[test]
fn ends_with_operator_succeeds() -> TestResult {
run_test(
r#"[Moe Larry Curly] | where $it ends-with ly | str join"#,
"Curly",
)
}
#[test]
fn proper_missing_param() -> TestResult {
fail_test(r#"def foo [x y z w] { }; foo a b c"#, "missing w")
}
#[test]
fn block_arity_check1() -> TestResult {
fail_test(r#"ls | each { |x, y| 1}"#, "expected 1 closure parameter")
}
// deprecating former support for escapes like `/uNNNN`, dropping test.
#[test]
fn string_escape_unicode_extended() -> TestResult {
run_test(r#""\u{015B}\u{1f10b}""#, "ś🄋")
}
#[test]
fn string_escape_interpolation() -> TestResult {
run_test(r#"$"\u{015B}(char hamburger)abc""#, "ś≡abc")
}
#[test]
fn string_escape_interpolation2() -> TestResult {
run_test(r#"$"2 + 2 is \(2 + 2)""#, "2 + 2 is (2 + 2)")
}
#[test]
fn proper_rest_types() -> TestResult {
run_test(
r#"def foo [--verbose(-v), # my test flag
...rest: int # my rest comment
] { if $verbose { print "verbose!" } else { print "not verbose!" } }; foo"#,
"not verbose!",
)
}
#[test]
fn single_value_row_condition() -> TestResult {
run_test(
r#"[[a, b]; [true, false], [true, true]] | where a | length"#,
"2",
)
}
#[test]
fn performance_nested_lists() -> TestResult {
// Parser used to be exponential on deeply nested lists
// TODO: Add a timeout
fail_test(r#"[[[[[[[[[[[[[[[[[[[[[[[[[[[["#, "Unexpected end of code")
}
#[test]
fn unary_not_1() -> TestResult {
run_test(r#"not false"#, "true")
}
#[test]
fn unary_not_2() -> TestResult {
run_test(r#"not (false)"#, "true")
}
#[test]
fn unary_not_3() -> TestResult {
run_test(r#"(not false)"#, "true")
}
#[test]
fn unary_not_4() -> TestResult {
run_test(r#"if not false { "hello" } else { "world" }"#, "hello")
}
#[test]
fn unary_not_5() -> TestResult {
run_test(
r#"if not not not not false { "hello" } else { "world" }"#,
"world",
)
}
#[test]
fn unary_not_6() -> TestResult {
run_test(
r#"[[name, present]; [abc, true], [def, false]] | where not present | get name.0"#,
"def",
)
}
#[test]
fn comment_in_multiple_pipelines() -> TestResult {
run_test(
r#"[[name, present]; [abc, true], [def, false]]
# | where not present
| get name.0"#,
"abc",
)
}
#[test]
fn date_literal() -> TestResult {
run_test(r#"2022-09-10 | into record | get day"#, "10")
}
#[test]
fn and_and_or() -> TestResult {
run_test(r#"true and false or true"#, "true")
}
#[test]
fn and_and_xor() -> TestResult {
// Assumes the precedence NOT > AND > XOR > OR
run_test(r#"true and true xor true and false"#, "true")
}
#[test]
fn or_and_xor() -> TestResult {
// Assumes the precedence NOT > AND > XOR > OR
run_test(r#"true or false xor true or false"#, "true")
}
#[test]
fn unbalanced_delimiter() -> TestResult {
fail_test(r#"{a:{b:5}}}"#, "unbalanced { and }")
}
#[test]
fn unbalanced_delimiter2() -> TestResult {
fail_test(r#"{}#.}"#, "unbalanced { and }")
}
#[test]
fn unbalanced_delimiter3() -> TestResult {
fail_test(r#"{"#, "Unexpected end of code")
}
#[test]
fn unbalanced_delimiter4() -> TestResult {
fail_test(r#"}"#, "unbalanced { and }")
}
#[test]
fn unbalanced_parens1() -> TestResult {
fail_test(r#")"#, "unbalanced ( and )")
}
#[test]
fn unbalanced_parens2() -> TestResult {
fail_test(r#"("("))"#, "unbalanced ( and )")
}
#[test]
fn plugin_use_with_string_literal() -> TestResult {
fail_test(
r#"plugin use 'nu-plugin-math'"#,
"Plugin registry file not set",
)
}
#[test]
fn plugin_use_with_string_constant() -> TestResult {
let input = "\
const file = 'nu-plugin-math'
plugin use $file
";
// should not fail with `not a constant`
fail_test(input, "Plugin registry file not set")
}
#[test]
fn plugin_use_with_string_variable() -> TestResult {
let input = "\
let file = 'nu-plugin-math'
plugin use $file
";
fail_test(input, "Value is not a parse-time constant")
}
#[test]
fn plugin_use_with_non_string_constant() -> TestResult {
let input = "\
const file = 6
plugin use $file
";
fail_test(input, "expected string, found int")
}
#[test]
fn extern_errors_with_no_space_between_params_and_name_1() -> TestResult {
fail_test("extern cmd[]", "expected space")
}
#[test]
fn extern_errors_with_no_space_between_params_and_name_2() -> TestResult {
fail_test("extern cmd(--flag)", "expected space")
}
#[test]
fn duration_with_underscores_1() -> TestResult {
run_test("420_min", "7hr")
}
#[test]
fn duration_with_underscores_2() -> TestResult {
run_test("1_000_000sec", "1wk 4day 13hr 46min 40sec")
}
#[test]
fn duration_with_underscores_3() -> TestResult {
fail_test("1_000_d_ay", "Command `1_000_d_ay` not found")
}
#[test]
fn duration_with_faulty_number() -> TestResult {
fail_test("sleep 4-ms", "duration value must be a number")
}
#[test]
fn filesize_with_underscores_1() -> TestResult {
run_test("420_MB", "420.0 MB")
}
#[test]
fn filesize_with_underscores_2() -> TestResult {
run_test("1_000_000B", "1.0 MB")
}
#[test]
fn filesize_with_underscores_3() -> TestResult {
fail_test("42m_b", "Command `42m_b` not found")
}
#[test]
fn filesize_is_not_hex() -> TestResult {
run_test("0x42b", "1067")
}
#[test]
fn let_variable_type_mismatch() -> TestResult {
fail_test(r#"let x: int = "foo""#, "expected int, found string")
}
#[test]
fn let_variable_disallows_completer() -> TestResult {
fail_test(
r#"let x: int@completer = 42"#,
"Unexpected custom completer",
)
}
#[test]
fn def_with_input_output() -> TestResult {
run_test(r#"def foo []: nothing -> int { 3 }; foo"#, "3")
}
#[test]
fn def_with_input_output_with_line_breaks() -> TestResult {
run_test(
r#"def foo []: [
nothing -> int
] { 3 }; foo"#,
"3",
)
}
#[test]
fn def_with_multi_input_output_with_line_breaks() -> TestResult {
run_test(
r#"def foo []: [
nothing -> int
string -> int
] { 3 }; foo"#,
"3",
)
}
#[test]
fn def_with_multi_input_output_without_commas() -> TestResult {
run_test(
r#"def foo []: [nothing -> int string -> int] { 3 }; foo"#,
"3",
)
}
#[test]
fn def_with_multi_input_output_called_with_first_sig() -> TestResult {
run_test(
r#"def foo []: [int -> int, string -> int] { 3 }; 10 | foo"#,
"3",
)
}
#[test]
fn def_with_multi_input_output_called_with_second_sig() -> TestResult {
run_test(
r#"def foo []: [int -> int, string -> int] { 3 }; "bob" | foo"#,
"3",
)
}
#[test]
fn def_with_input_output_mismatch_1() -> TestResult {
fail_test(
r#"def foo []: [int -> int, string -> int] { 3 }; foo"#,
"command doesn't support",
)
}
#[test]
fn def_with_input_output_mismatch_2() -> TestResult {
fail_test(
r#"def foo []: [int -> int, string -> int] { 3 }; {x: 2} | foo"#,
"command doesn't support",
)
}
#[test]
fn def_with_input_output_broken_1() -> TestResult {
fail_test(r#"def foo []: int { 3 }"#, "expected arrow")
}
#[test]
fn def_with_input_output_broken_2() -> TestResult {
fail_test(r#"def foo []: int -> { 3 }"#, "expected type")
}
#[test]
fn def_with_input_output_broken_3() -> TestResult {
fail_test(
r#"def foo []: int -> int@completer {}"#,
"Unexpected custom completer",
)
}
#[test]
fn def_with_input_output_broken_4() -> TestResult {
fail_test(
r#"def foo []: int -> list<int@completer> {}"#,
"Unexpected custom completer",
)
}
#[test]
fn def_with_in_var_let_1() -> TestResult {
run_test(
r#"def foo []: [int -> int, string -> int] { let x = $in; if ($x | describe) == "int" { 3 } else { 4 } }; "100" | foo"#,
"4",
)
}
#[test]
fn def_with_in_var_let_2() -> TestResult {
run_test(
r#"def foo []: [int -> int, string -> int] { let x = $in; if ($x | describe) == "int" { 3 } else { 4 } }; 100 | foo"#,
"3",
)
}
#[test]
fn def_with_in_var_mut_1() -> TestResult {
run_test(
r#"def foo []: [int -> int, string -> int] { mut x = $in; if ($x | describe) == "int" { 3 } else { 4 } }; "100" | foo"#,
"4",
)
}
#[test]
fn def_with_in_var_mut_2() -> TestResult {
run_test(
r#"def foo []: [int -> int, string -> int] { mut x = $in; if ($x | describe) == "int" { 3 } else { 4 } }; 100 | foo"#,
"3",
)
}
#[test]
fn properly_nest_captures() -> TestResult {
run_test(r#"do { let b = 3; def c [] { $b }; c }"#, "3")
}
#[test]
fn properly_nest_captures_call_first() -> TestResult {
run_test(r#"do { let b = 3; c; def c [] { $b }; c }"#, "3")
}
#[test]
fn properly_typecheck_rest_param() -> TestResult {
run_test(
r#"def foo [...rest: string] { $rest | length }; foo "a" "b" "c""#,
"3",
)
}
#[test]
fn implied_collect_has_compatible_type() -> TestResult {
run_test(r#"let idx = 3 | $in; $idx < 1"#, "false")
}
#[test]
fn record_expected_colon() -> TestResult {
fail_test(r#"{ a: 2 b }"#, "expected ':'")?;
fail_test(r#"{ a: 2 b 3 }"#, "expected ':'")
}
#[test]
fn record_missing_value() -> TestResult {
fail_test(r#"{ a: 2 b: }"#, "expected value for record field")
}
#[test]
fn def_requires_body_closure() -> TestResult {
fail_test("def a [] (echo 4)", "expected definition body closure")
}
#[test]
fn not_panic_with_recursive_call() {
let result = nu!(nu_repl_code(&[
"def px [] { if true { 3 } else { px } }",
"let x = 1",
"$x | px",
]));
assert_eq!(result.out, "3");
let result = nu!(nu_repl_code(&[
"def px [n=0] { let l = $in; if $n == 0 { return false } else { $l | px ($n - 1) } }",
"let x = 1",
"$x | px"
]));
assert_eq!(result.out, "false");
let result = nu!(nu_repl_code(&[
"def px [n=0] { let l = $in; if $n == 0 { return false } else { $l | px ($n - 1) } }",
"let x = 1",
"def foo [] { $x }",
"foo | px"
]));
assert_eq!(result.out, "false");
let result = nu!(nu_repl_code(&[
"def px [n=0] { let l = $in; if $n == 0 { return false } else { $l | px ($n - 1) } }",
"let x = 1",
"do {|| $x } | px"
]));
assert_eq!(result.out, "false");
let result = nu!(
cwd: "tests/parsing/samples",
"nu recursive_func_with_alias.nu"
);
assert!(result.status.success());
}
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