nushell/crates/nu-std/tests/test_asserts.nu
NotTheDr01ds a2873336bb
Fix do signature (#13216)
Recommend holding until after #13125 is fully digested and *possibly*
until 0.96.

# Description

Fixes one of the issues described in #13125 

The `do` signature included a `SyntaxShape:Any` as one of the possible
first-positional types. This is incorrect. `do` only takes a closure as
a positional. This had the result of:

1. Moving what should have been a parser error to evaluation-time

   ## Before

   ```nu
   > do 1
   Error: nu:🐚:cant_convert

     × Can't convert to Closure.
      ╭─[entry #26:1:4]
    1 │ do 1
      ·    ┬
      ·    ╰── can't convert int to Closure
      ╰────
   ```

   ## After

   ```nu
   > do 1
   Error: nu::parser::parse_mismatch

     × Parse mismatch during operation.
      ╭─[entry #5:1:4]
    1 │ do 1
      ·    ┬
      ·    ╰── expected block, closure or record
      ╰────
   ```  

2. Masking a bad test in `std assert`

This is a bit convoluted, but `std assert` tests included testing
`assert error` to make sure it:

* Asserts on bad code
* Doesn't assert on good code

The good-code test was broken, and was essentially bad-code (really
bad-code) that wasn't getting caught due to the bad signature.

Fixing this resulted in *parse time* failures on every call to
`test_asserts` (not something that particular test was designed to
handle.

This PR also fixes the test case to properly evaluate `std assert error`
against a good code path.

# User-Facing Changes

* Error-type returned (possible breaking change?)

# Tests + Formatting

- 🟢 `toolkit fmt`
- 🟢 `toolkit clippy`
- 🟢 `toolkit test`
- 🟢 `toolkit test stdlib`

# After Submitting

N/A
2024-06-29 16:17:06 -05:00

80 lines
1.7 KiB
Text

use std *
#[test]
def assert_basic [] {
assert true
assert (1 + 2 == 3)
assert error { assert false }
assert error { assert (1 + 2 == 4) }
}
#[test]
def assert_not [] {
assert not false
assert not (1 + 2 == 4)
assert error { assert not true }
assert error { assert not (1 + 2 == 3) }
}
#[test]
def assert_equal [] {
assert equal (1 + 2) 3
assert equal (0.1 + 0.2 | into string | into float) 0.3 # 0.30000000000000004 == 0.3
assert error { assert equal 1 "foo" }
assert error { assert equal (1 + 2) 4 }
}
#[test]
def assert_not_equal [] {
assert not equal (1 + 2) 4
assert not equal 1 "foo"
assert not equal (1 + 2) "3"
assert error { assert not equal 1 1 }
}
#[test]
def assert_error [] {
let failing_code = {|| missing_code_to_run}
assert error $failing_code
let good_code = {|| }
let assert_error_raised = (try { assert error $good_code; false } catch { true })
assert $assert_error_raised "The assert error should be false if there is no error in the executed code."
}
#[test]
def assert_less [] {
assert less 1 2
assert error { assert less 1 1 }
}
#[test]
def assert_less_or_equal [] {
assert less or equal 1 2
assert less or equal 1 1
assert error { assert less or equal 1 0 }
}
#[test]
def assert_greater [] {
assert greater 2 1
assert error { assert greater 2 2 }
}
#[test]
def assert_greater_or_equal [] {
assert greater or equal 1 1
assert greater or equal 2 1
assert error { assert greater or equal 0 1 }
}
#[test]
def assert_length [] {
assert length [0, 0, 0] 3
assert error { assert length [0, 0] 3 }
}
#[ignore]
def assert_skip [] {
assert true # This test case is skipped on purpose
}