use nu_cmd_base::input_handler::{operate, CmdArgument};
use nu_cmd_base::util;
use nu_engine::CallExt;
use nu_protocol::record;
use nu_protocol::{
ast::{Call, CellPath},
engine::{Command, EngineState, Stack},
Category, Example, PipelineData, Range, ShellError, Signature, Span, SyntaxShape, Type, Value,
};
#[derive(Clone)]
pub struct BytesAt;
struct Arguments {
indexes: Subbytes,
cell_paths: Option<Vec<CellPath>>,
}
impl CmdArgument for Arguments {
fn take_cell_paths(&mut self) -> Option<Vec<CellPath>> {
self.cell_paths.take()
}
}
impl From<(isize, isize)> for Subbytes {
fn from(input: (isize, isize)) -> Self {
Self(input.0, input.1)
}
}
#[derive(Clone, Copy)]
struct Subbytes(isize, isize);
impl Command for BytesAt {
fn name(&self) -> &str {
"bytes at"
}
fn signature(&self) -> Signature {
Signature::build("bytes at")
.input_output_types(vec![
(Type::Binary, Type::Binary),
(
Type::List(Box::new(Type::Binary)),
Type::List(Box::new(Type::Binary)),
),
(Type::Table(vec![]), Type::Table(vec![])),
(Type::Record(vec![]), Type::Record(vec![])),
])
.required("range", SyntaxShape::Range, "The range to get bytes.")
.rest(
"rest",
SyntaxShape::CellPath,
"For a data structure input, get bytes from data at the given cell paths.",
)
.category(Category::Bytes)
}
fn usage(&self) -> &str {
"Get bytes defined by a range."
}
fn search_terms(&self) -> Vec<&str> {
vec!["slice"]
}
fn run(
&self,
engine_state: &EngineState,
stack: &mut Stack,
call: &Call,
input: PipelineData,
) -> Result<PipelineData, ShellError> {
let range: Range = call.req(engine_state, stack, 0)?;
let indexes = match util::process_range(&range) {
Ok(idxs) => idxs.into(),
Err(processing_error) => {
return Err(processing_error("could not perform subbytes", call.head));
}
};
let cell_paths: Vec<CellPath> = call.rest(engine_state, stack, 1)?;
let cell_paths = (!cell_paths.is_empty()).then_some(cell_paths);
let args = Arguments {
indexes,
cell_paths,
};
operate(action, args, input, call.head, engine_state.ctrlc.clone())
}
fn examples(&self) -> Vec<Example> {
vec![
Example {
description: "Get a subbytes `0x[10 01]` from the bytes `0x[33 44 55 10 01 13]`",
example: " 0x[33 44 55 10 01 13] | bytes at 3..<4",
result: Some(Value::test_binary(vec![0x10])),
},
Example {
description: "Get a subbytes `0x[10 01 13]` from the bytes `0x[33 44 55 10 01 13]`",
example: " 0x[33 44 55 10 01 13] | bytes at 3..6",
result: Some(Value::test_binary(vec![0x10, 0x01, 0x13])),
},
Example {
description: "Get the remaining characters from a starting index",
example: " { data: 0x[33 44 55 10 01 13] } | bytes at 3.. data",
result: Some(Value::test_record(record! {
"data" => Value::test_binary(vec![0x10, 0x01, 0x13]),
})),
},
Example {
description: "Get the characters from the beginning until ending index",
example: " 0x[33 44 55 10 01 13] | bytes at ..<4",
result: Some(Value::test_binary(vec![0x33, 0x44, 0x55, 0x10])),
},
Example {
description:
"Or the characters from the beginning until ending index inside a table",
example: r#" [[ColA ColB ColC]; [0x[11 12 13] 0x[14 15 16] 0x[17 18 19]]] | bytes at 1.. ColB ColC"#,
result: Some(Value::test_list(vec![Value::test_record(record! {
"ColA" => Value::test_binary(vec![0x11, 0x12, 0x13]),
"ColB" => Value::test_binary(vec![0x15, 0x16]),
"ColC" => Value::test_binary(vec![0x18, 0x19]),
})])),
},
]
}
}
fn action(input: &Value, args: &Arguments, head: Span) -> Value {
let range = &args.indexes;
match input {
Value::Binary { val, .. } => {
use std::cmp::{self, Ordering};
let len = val.len() as isize;
let start = if range.0 < 0 { range.0 + len } else { range.0 };
let end = if range.1 < 0 {
cmp::max(range.1 + len, 0)
} else {
range.1
};
if start < len && end >= 0 {
match start.cmp(&end) {
Ordering::Equal => Value::binary(vec![], head),
Ordering::Greater => Value::error(
ShellError::TypeMismatch {
err_message: "End must be greater than or equal to Start".to_string(),
span: head,
},
head,
),
Ordering::Less => Value::binary(
if end == isize::max_value() {
val.iter()
.skip(start as usize)
.copied()
.collect::<Vec<u8>>()
} else {
val.iter()
.skip(start as usize)
.take((end - start) as usize)
.copied()
.collect()
},
head,
),
}
} else {
Value::binary(vec![], head)
}
}
Value::Error { .. } => input.clone(),
other => Value::error(
ShellError::UnsupportedInput {
msg: "Only binary values are supported".into(),
input: format!("input type: {:?}", other.get_type()),
msg_span: head,
input_span: other.span(),
},
head,
),
}
}