nushell/tests/repl/test_bits.rs

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use crate::repl::tests::{fail_test, run_test, TestResult};
#[test]
fn bits_and() -> TestResult {
run_test("2 | bits and 4", "0")
}
#[test]
fn bits_and_negative() -> TestResult {
run_test("-3 | bits and 5", "5")
}
#[test]
fn bits_and_list() -> TestResult {
run_test("[1 2 3 8 9 10] | bits and 2 | str join '.'", "0.2.2.0.0.2")
}
#[test]
fn bits_or() -> TestResult {
run_test("2 | bits or 3", "3")
}
#[test]
fn bits_or_negative() -> TestResult {
run_test("-3 | bits or 5", "-3")
}
#[test]
fn bits_or_list() -> TestResult {
run_test(
"[1 2 3 8 9 10] | bits or 2 | str join '.'",
"3.2.3.10.11.10",
)
}
#[test]
fn bits_xor() -> TestResult {
run_test("2 | bits xor 3", "1")
}
#[test]
fn bits_xor_negative() -> TestResult {
run_test("-3 | bits xor 5", "-8")
}
#[test]
fn bits_xor_list() -> TestResult {
run_test(
Input output checking (#9680) # Description This PR tights input/output type-checking a bit more. There are a lot of commands that don't have correct input/output types, so part of the effort is updating them. This PR now contains updates to commands that had wrong input/output signatures. It doesn't add examples for these new signatures, but that can be follow-up work. # User-Facing Changes BREAKING CHANGE BREAKING CHANGE This work enforces many more checks on pipeline type correctness than previous nushell versions. This strictness may uncover incompatibilities in existing scripts or shortcomings in the type information for internal commands. # Tests + Formatting <!-- Don't forget to add tests that cover your changes. Make sure you've run and fixed any issues with these commands: - `cargo fmt --all -- --check` to check standard code formatting (`cargo fmt --all` applies these changes) - `cargo clippy --workspace -- -D warnings -D clippy::unwrap_used -A clippy::needless_collect -A clippy::result_large_err` to check that you're using the standard code style - `cargo test --workspace` to check that all tests pass - `cargo run -- -c "use std testing; testing run-tests --path crates/nu-std"` to run the tests for the standard library > **Note** > from `nushell` you can also use the `toolkit` as follows > ```bash > use toolkit.nu # or use an `env_change` hook to activate it automatically > toolkit check pr > ``` --> # After Submitting <!-- If your PR had any user-facing changes, update [the documentation](https://github.com/nushell/nushell.github.io) after the PR is merged, if necessary. This will help us keep the docs up to date. -->
2023-07-14 05:20:35 +02:00
"[1 2 3 8 9 10] | bits xor 2 | into string | str join '.'",
"3.0.1.10.11.8",
)
}
#[test]
fn bits_shift_left() -> TestResult {
run_test("2 | bits shl 3", "16")
}
#[test]
fn bits_shift_left_negative_operand() -> TestResult {
fail_test("8 | bits shl -2", "positive value")
}
#[test]
fn bits_shift_left_exceeding1() -> TestResult {
// We have no type accepting more than 64 bits so guaranteed fail
fail_test("8 | bits shl 65", "more than the available bits")
}
#[test]
fn bits_shift_left_exceeding2() -> TestResult {
// Explicitly specifying 2 bytes, but 16 is already the max
fail_test(
"8 | bits shl --number-bytes 2 16",
"more than the available bits",
)
}
#[test]
fn bits_shift_left_exceeding3() -> TestResult {
// This is purely down to the current autodetect feature limiting to the smallest integer
// type thus assuming a u8
fail_test("8 | bits shl 9", "more than the available bits")
}
#[test]
fn bits_shift_left_negative() -> TestResult {
run_test("-3 | bits shl 5", "-96")
}
#[test]
fn bits_shift_left_list() -> TestResult {
run_test(
"[1 2 7 32 9 10] | bits shl 3 | str join '.'",
"8.16.56.0.72.80",
)
}
#[test]
fn bits_shift_left_binary1() -> TestResult {
run_test(
"0x[01 30 80] | bits shl 3 | into bits",
"00001001 10000100 00000000",
)
}
#[test]
fn bits_shift_left_binary2() -> TestResult {
// Whole byte case
run_test(
"0x[01 30 80] | bits shl 8 | into bits",
"00110000 10000000 00000000",
)
}
#[test]
fn bits_shift_left_binary3() -> TestResult {
// Compared to the int case this is made inclusive of the bit count
run_test(
"0x[01 30 80] | bits shl 24 | into bits",
"00000000 00000000 00000000",
)
}
#[test]
fn bits_shift_left_binary4() -> TestResult {
// Shifting by both bytes and bits
run_test(
"0x[01 30 80] | bits shl 15 | into bits",
"01000000 00000000 00000000",
)
}
#[test]
fn bits_shift_left_binary_exceeding() -> TestResult {
// Compared to the int case this is made inclusive of the bit count
fail_test("0x[01 30] | bits shl 17 | into bits", "")
}
#[test]
fn bits_shift_right() -> TestResult {
run_test("8 | bits shr 2", "2")
}
#[test]
fn bits_shift_right_negative_operand() -> TestResult {
fail_test("8 | bits shr -2", "positive value")
}
#[test]
fn bits_shift_right_exceeding1() -> TestResult {
// We have no type accepting more than 64 bits so guaranteed fail
fail_test("8 | bits shr 65", "more than the available bits")
}
#[test]
fn bits_shift_right_exceeding2() -> TestResult {
// Explicitly specifying 2 bytes, but 16 is already the max
fail_test(
"8 | bits shr --number-bytes 2 16",
"more than the available bits",
)
}
#[test]
fn bits_shift_right_exceeding3() -> TestResult {
// This is purely down to the current autodetect feature limiting to the smallest integer
// type thus assuming a u8
fail_test("8 | bits shr 9", "more than the available bits")
}
#[test]
fn bits_shift_right_negative() -> TestResult {
run_test("-32 | bits shr 2", "-8")
}
#[test]
fn bits_shift_right_list() -> TestResult {
run_test(
"[12 98 7 64 900 10] | bits shr 3 | str join '.'",
"1.12.0.8.112.1",
)
}
#[test]
fn bits_shift_right_binary1() -> TestResult {
run_test(
"0x[01 30 80] | bits shr 3 | into bits",
"00000000 00100110 00010000",
)
}
#[test]
fn bits_shift_right_binary2() -> TestResult {
// Whole byte case
run_test(
"0x[01 30 80] | bits shr 8 | into bits",
"00000000 00000001 00110000",
)
}
#[test]
fn bits_shift_right_binary3() -> TestResult {
// Compared to the int case this is made inclusive of the bit count
run_test(
"0x[01 30 80] | bits shr 24 | into bits",
"00000000 00000000 00000000",
)
}
#[test]
fn bits_shift_right_binary4() -> TestResult {
// Shifting by both bytes and bits
run_test(
"0x[01 30 80] | bits shr 15 | into bits",
"00000000 00000000 00000010",
)
}
#[test]
fn bits_shift_right_binary_exceeding() -> TestResult {
// Compared to the int case this is made inclusive of the bit count
fail_test("0x[01 30] | bits shr 17 | into bits", "available bits (16)")
}
#[test]
fn bits_rotate_left() -> TestResult {
run_test("2 | bits rol 3", "16")
}
#[test]
fn bits_rotate_left_negative() -> TestResult {
run_test("-3 | bits rol 5", "-65")
}
#[test]
fn bits_rotate_left_list() -> TestResult {
run_test(
"[1 2 7 32 9 10] | bits rol 3 | str join '.'",
"8.16.56.1.72.80",
)
}
#[test]
fn bits_rotate_left_negative_operand() -> TestResult {
fail_test("8 | bits rol -2", "positive value")
}
#[test]
fn bits_rotate_left_exceeding1() -> TestResult {
// We have no type accepting more than 64 bits so guaranteed fail
fail_test("8 | bits rol 65", "more than the available bits (8)")
}
#[test]
fn bits_rotate_left_exceeding2() -> TestResult {
// This is purely down to the current autodetect feature limiting to the smallest integer
// type thus assuming a u8
fail_test("8 | bits rol 9", "more than the available bits (8)")
}
#[test]
fn bits_rotate_left_binary1() -> TestResult {
run_test(
"0x[01 30 80] | bits rol 3 | into bits",
"00001001 10000100 00000000",
)
}
#[test]
fn bits_rotate_left_binary2() -> TestResult {
// Whole byte case
run_test(
"0x[01 30 80] | bits rol 8 | into bits",
"00110000 10000000 00000001",
)
}
#[test]
fn bits_rotate_left_binary3() -> TestResult {
// Compared to the int case this is made inclusive of the bit count
run_test(
"0x[01 30 80] | bits rol 24 | into bits",
"00000001 00110000 10000000",
)
}
#[test]
fn bits_rotate_left_binary4() -> TestResult {
// Shifting by both bytes and bits
run_test(
"0x[01 30 80] | bits rol 15 | into bits",
"01000000 00000000 10011000",
)
}
#[test]
fn bits_rotate_right() -> TestResult {
run_test("2 | bits ror 6", "8")
}
#[test]
fn bits_rotate_right_negative() -> TestResult {
run_test("-3 | bits ror 4", "-33")
}
#[test]
fn bits_rotate_right_list() -> TestResult {
run_test(
"[1 2 7 32 23 10] | bits ror 4 | str join '.'",
"16.32.112.2.113.160",
)
}
#[test]
fn bits_rotate_right_negative_operand() -> TestResult {
fail_test("8 | bits ror -2", "positive value")
}
#[test]
fn bits_rotate_right_exceeding1() -> TestResult {
// We have no type accepting more than 64 bits so guaranteed fail
fail_test("8 | bits ror 65", "more than the available bits (8)")
}
#[test]
fn bits_rotate_right_exceeding2() -> TestResult {
// This is purely down to the current autodetect feature limiting to the smallest integer
// type thus assuming a u8
fail_test("8 | bits ror 9", "more than the available bits (8)")
}
#[test]
fn bits_rotate_right_binary1() -> TestResult {
run_test(
"0x[01 30 80] | bits ror 3 | into bits",
"00000000 00100110 00010000",
)
}
#[test]
fn bits_rotate_right_binary2() -> TestResult {
// Whole byte case
run_test(
"0x[01 30 80] | bits ror 8 | into bits",
"10000000 00000001 00110000",
)
}
#[test]
fn bits_rotate_right_binary3() -> TestResult {
// Compared to the int case this is made inclusive of the bit count
run_test(
"0x[01 30 80] | bits ror 24 | into bits",
"00000001 00110000 10000000",
)
}
#[test]
fn bits_rotate_right_binary4() -> TestResult {
// Shifting by both bytes and bits
run_test(
"0x[01 30 80] | bits ror 15 | into bits",
"01100001 00000000 00000010",
)
}