399a7c8836
# Description This PR introduces a new `Signals` struct to replace our adhoc passing around of `ctrlc: Option<Arc<AtomicBool>>`. Doing so has a few benefits: - We can better enforce when/where resetting or triggering an interrupt is allowed. - Consolidates `nu_utils::ctrl_c::was_pressed` and other ad-hoc re-implementations into a single place: `Signals::check`. - This allows us to add other types of signals later if we want. E.g., exiting or suspension. - Similarly, we can more easily change the underlying implementation if we need to in the future. - Places that used to have a `ctrlc` of `None` now use `Signals::empty()`, so we can double check these usages for correctness in the future.
198 lines
6.1 KiB
Rust
198 lines
6.1 KiB
Rust
use super::{get_input_num_type, get_number_bytes, InputNumType, NumberBytes};
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use itertools::Itertools;
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use nu_cmd_base::input_handler::{operate, CmdArgument};
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use nu_engine::command_prelude::*;
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struct Arguments {
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signed: bool,
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bits: usize,
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number_size: NumberBytes,
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}
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impl CmdArgument for Arguments {
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fn take_cell_paths(&mut self) -> Option<Vec<CellPath>> {
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None
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}
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}
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#[derive(Clone)]
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pub struct BitsRol;
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impl Command for BitsRol {
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fn name(&self) -> &str {
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"bits rol"
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}
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fn signature(&self) -> Signature {
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Signature::build("bits rol")
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.input_output_types(vec![
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(Type::Int, Type::Int),
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(Type::Binary, Type::Binary),
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(
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Type::List(Box::new(Type::Int)),
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Type::List(Box::new(Type::Int)),
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),
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(
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Type::List(Box::new(Type::Binary)),
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Type::List(Box::new(Type::Binary)),
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),
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])
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.allow_variants_without_examples(true)
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.required("bits", SyntaxShape::Int, "number of bits to rotate left")
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.switch(
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"signed",
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"always treat input number as a signed number",
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Some('s'),
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)
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.named(
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"number-bytes",
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SyntaxShape::Int,
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"the word size in number of bytes, it can be 1, 2, 4, 8, auto, default value `8`",
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Some('n'),
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)
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.category(Category::Bits)
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}
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fn usage(&self) -> &str {
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"Bitwise rotate left for ints or binary values."
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}
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fn search_terms(&self) -> Vec<&str> {
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vec!["rotate left"]
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}
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fn run(
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&self,
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engine_state: &EngineState,
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stack: &mut Stack,
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call: &Call,
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input: PipelineData,
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) -> Result<PipelineData, ShellError> {
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let head = call.head;
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let bits: usize = call.req(engine_state, stack, 0)?;
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let signed = call.has_flag(engine_state, stack, "signed")?;
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let number_bytes: Option<Spanned<usize>> =
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call.get_flag(engine_state, stack, "number-bytes")?;
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let number_size = get_number_bytes(number_bytes, head)?;
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// This doesn't match explicit nulls
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if matches!(input, PipelineData::Empty) {
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return Err(ShellError::PipelineEmpty { dst_span: head });
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}
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let args = Arguments {
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signed,
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number_size,
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bits,
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};
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operate(action, args, input, head, engine_state.signals())
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}
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fn examples(&self) -> Vec<Example> {
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vec![
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Example {
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description: "Rotate left a number with 2 bits",
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example: "17 | bits rol 2",
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result: Some(Value::test_int(68)),
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},
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Example {
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description: "Rotate left a list of numbers with 2 bits",
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example: "[5 3 2] | bits rol 2",
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result: Some(Value::list(
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vec![Value::test_int(20), Value::test_int(12), Value::test_int(8)],
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Span::test_data(),
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)),
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},
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Example {
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description: "rotate left binary data",
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example: "0x[c0 ff ee] | bits rol 10",
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result: Some(Value::binary(vec![0xff, 0xbb, 0x03], Span::test_data())),
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},
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]
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}
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}
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fn action(input: &Value, args: &Arguments, span: Span) -> Value {
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let Arguments {
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signed,
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number_size,
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bits,
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} = *args;
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match input {
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Value::Int { val, .. } => {
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use InputNumType::*;
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let val = *val;
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let bits = bits as u32;
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let input_num_type = get_input_num_type(val, signed, number_size);
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let int = match input_num_type {
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One => (val as u8).rotate_left(bits) as i64,
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Two => (val as u16).rotate_left(bits) as i64,
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Four => (val as u32).rotate_left(bits) as i64,
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Eight => {
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let Ok(i) = i64::try_from((val as u64).rotate_left(bits)) else {
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return Value::error(
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ShellError::GenericError {
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error: "result out of range for specified number".into(),
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msg: format!(
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"rotating left by {bits} is out of range for the value {val}"
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),
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span: Some(span),
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help: None,
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inner: vec![],
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},
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span,
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);
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};
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i
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}
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SignedOne => (val as i8).rotate_left(bits) as i64,
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SignedTwo => (val as i16).rotate_left(bits) as i64,
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SignedFour => (val as i32).rotate_left(bits) as i64,
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SignedEight => val.rotate_left(bits),
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};
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Value::int(int, span)
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}
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Value::Binary { val, .. } => {
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let byte_shift = bits / 8;
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let bit_rotate = bits % 8;
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let mut bytes = val
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.iter()
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.copied()
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.circular_tuple_windows::<(u8, u8)>()
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.map(|(lhs, rhs)| (lhs << bit_rotate) | (rhs >> (8 - bit_rotate)))
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.collect::<Vec<u8>>();
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bytes.rotate_left(byte_shift);
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Value::binary(bytes, span)
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}
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// Propagate errors by explicitly matching them before the final case.
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Value::Error { .. } => input.clone(),
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other => Value::error(
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ShellError::OnlySupportsThisInputType {
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exp_input_type: "int or binary".into(),
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wrong_type: other.get_type().to_string(),
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dst_span: span,
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src_span: other.span(),
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},
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span,
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),
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}
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}
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#[cfg(test)]
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mod test {
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use super::*;
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#[test]
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fn test_examples() {
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use crate::test_examples;
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test_examples(BitsRol {})
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}
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}
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