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Port seq command (#755)

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Signed-off-by: nibon7 <nibon7@163.com>
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nibon7 2022-01-16 21:52:41 +08:00 committed by GitHub
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1
crates/nu-command/src/default_context.rs
View File

@ -298,6 +298,7 @@ pub fn create_default_context(cwd: impl AsRef<Path>) -> EngineState {
// Generators
bind_command! {
Cal,
Seq,
SeqDate,
};

2
crates/nu-command/src/generators/mod.rs
View File

@ -1,5 +1,7 @@
mod cal;
mod seq;
mod seq_date;
pub use cal::Cal;
pub use seq::Seq;
pub use seq_date::SeqDate;

369
crates/nu-command/src/generators/seq.rs Normal file
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@ -0,0 +1,369 @@
use nu_engine::CallExt;
use nu_protocol::{
ast::Call,
engine::{Command, EngineState, Stack},
Category, Example, IntoPipelineData, PipelineData, ShellError, Signature, Span, Spanned,
SyntaxShape, Value,
};
use std::cmp;
#[derive(Clone)]
pub struct Seq;
impl Command for Seq {
fn name(&self) -> &str {
"seq"
}
fn signature(&self) -> Signature {
Signature::build("seq")
.rest("rest", SyntaxShape::Number, "sequence values")
.named(
"separator",
SyntaxShape::String,
"separator character (defaults to \\n)",
Some('s'),
)
.named(
"terminator",
SyntaxShape::String,
"terminator character (defaults to \\n)",
Some('t'),
)
.switch(
"widths",
"equalize widths of all numbers by padding with zeros",
Some('w'),
)
.category(Category::Generators)
}
fn usage(&self) -> &str {
"Print sequences of numbers."
}
fn run(
&self,
engine_state: &EngineState,
stack: &mut Stack,
call: &Call,
_input: PipelineData,
) -> Result<PipelineData, ShellError> {
seq(engine_state, stack, call)
}
fn examples(&self) -> Vec<Example> {
vec![
Example {
description: "sequence 1 to 10 with newline separator",
example: "seq 1 10",
result: Some(Value::List {
vals: vec![
Value::test_int(1),
Value::test_int(2),
Value::test_int(3),
Value::test_int(4),
Value::test_int(5),
Value::test_int(6),
Value::test_int(7),
Value::test_int(8),
Value::test_int(9),
Value::test_int(10),
],
span: Span::test_data(),
}),
},
Example {
description: "sequence 1.0 to 2.0 by 0.1s with newline separator",
example: "seq 1.0 0.1 2.0",
result: Some(Value::List {
vals: vec![
Value::test_float(1.0000),
Value::test_float(1.1000),
Value::test_float(1.2000),
Value::test_float(1.3000),
Value::test_float(1.4000),
Value::test_float(1.5000),
Value::test_float(1.6000),
Value::test_float(1.7000),
Value::test_float(1.8000),
Value::test_float(1.9000),
Value::test_float(2.0000),
],
span: Span::test_data(),
}),
},
Example {
description: "sequence 1 to 10 with pipe separator",
example: "seq -s '|' 1 10",
result: Some(Value::test_string("1|2|3|4|5|6|7|8|9|10")),
},
Example {
description: "sequence 1 to 10 with pipe separator padded with 0",
example: "seq -s '|' -w 1 10",
result: Some(Value::test_string("01|02|03|04|05|06|07|08|09|10")),
},
Example {
description: "sequence 1 to 10 with pipe separator padded by 2s",
example: "seq -s ' | ' -w 1 2 10",
result: Some(Value::test_string("01 | 03 | 05 | 07 | 09")),
},
]
}
}
fn seq(
engine_state: &EngineState,
stack: &mut Stack,
call: &Call,
) -> Result<PipelineData, ShellError> {
let span = call.head;
let rest_nums: Vec<Spanned<f64>> = call.rest(engine_state, stack, 0)?;
let separator: Option<Spanned<String>> = call.get_flag(engine_state, stack, "separator")?;
let terminator: Option<Spanned<String>> = call.get_flag(engine_state, stack, "terminator")?;
let widths = call.has_flag("widths");
if rest_nums.is_empty() {
return Err(ShellError::SpannedLabeledError(
"seq requires some parameters".into(),
"needs parameter".into(),
call.head,
));
}
let sep: String = match separator {
Some(s) => {
if s.item == r"\t" {
'\t'.to_string()
} else if s.item == r"\n" {
'\n'.to_string()
} else if s.item == r"\r" {
'\r'.to_string()
} else {
let vec_s: Vec<char> = s.item.chars().collect();
if vec_s.is_empty() {
return Err(ShellError::SpannedLabeledError(
"Expected a single separator char from --separator".into(),
"requires a single character string input".into(),
s.span,
));
};
vec_s.iter().collect()
}
}
_ => '\n'.to_string(),
};
let term: String = match terminator {
Some(t) => {
if t.item == r"\t" {
'\t'.to_string()
} else if t.item == r"\n" {
'\n'.to_string()
} else if t.item == r"\r" {
'\r'.to_string()
} else {
let vec_t: Vec<char> = t.item.chars().collect();
if vec_t.is_empty() {
return Err(ShellError::SpannedLabeledError(
"Expected a single terminator char from --terminator".into(),
"requires a single character string input".into(),
t.span,
));
};
vec_t.iter().collect()
}
}
_ => '\n'.to_string(),
};
let rest_nums: Vec<String> = rest_nums.iter().map(|n| n.item.to_string()).collect();
run_seq(sep, Some(term), widths, rest_nums, span)
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_examples() {
use crate::test_examples;
test_examples(Seq {})
}
}
fn parse_float(mut s: &str) -> Result<f64, String> {
if s.starts_with('+') {
s = &s[1..];
}
match s.parse() {
Ok(n) => Ok(n),
Err(e) => Err(format!(
"seq: invalid floating point argument `{}`: {}",
s, e
)),
}
}
fn escape_sequences(s: &str) -> String {
s.replace("\\n", "\n").replace("\\t", "\t")
}
pub fn run_seq(
sep: String,
termy: Option<String>,
widths: bool,
free: Vec<String>,
span: Span,
) -> Result<PipelineData, ShellError> {
let mut largest_dec = 0;
let mut padding = 0;
let first = if free.len() > 1 {
let slice = &free[0][..];
let len = slice.len();
let dec = slice.find('.').unwrap_or(len);
largest_dec = len - dec;
padding = dec;
match parse_float(slice) {
Ok(n) => n,
Err(s) => return Err(ShellError::LabeledError(s, "error parsing float".into())),
}
} else {
1.0
};
let step = if free.len() > 2 {
let slice = &free[1][..];
let len = slice.len();
let dec = slice.find('.').unwrap_or(len);
largest_dec = cmp::max(largest_dec, len - dec);
padding = cmp::max(padding, dec);
match parse_float(slice) {
Ok(n) => n,
Err(s) => return Err(ShellError::LabeledError(s, "error parsing float".into())),
}
} else {
1.0
};
let last = {
let slice = &free[free.len() - 1][..];
padding = cmp::max(padding, slice.find('.').unwrap_or_else(|| slice.len()));
match parse_float(slice) {
Ok(n) => n,
Err(s) => {
return Err(ShellError::LabeledError(s, "error parsing float".into()));
}
}
};
if largest_dec > 0 {
largest_dec -= 1;
}
let separator = escape_sequences(&sep[..]);
let terminator = match termy {
Some(term) => escape_sequences(&term[..]),
None => separator.clone(),
};
Ok(print_seq(
first,
step,
last,
largest_dec,
separator,
terminator,
widths,
padding,
span,
))
}
fn done_printing(next: f64, step: f64, last: f64) -> bool {
if step >= 0f64 {
next > last
} else {
next < last
}
}
#[allow(clippy::too_many_arguments)]
fn print_seq(
first: f64,
step: f64,
last: f64,
largest_dec: usize,
separator: String,
terminator: String,
pad: bool,
padding: usize,
span: Span,
) -> PipelineData {
let mut i = 0isize;
let mut value = first + i as f64 * step;
// for string output
let mut ret_str = "".to_owned();
// for number output
let mut ret_num = vec![];
// If the separator and terminator are line endings we can convert to numbers
let use_num =
(separator == "\n" || separator == "\r") && (terminator == "\n" || terminator == "\r");
while !done_printing(value, step, last) {
if use_num {
ret_num.push(value);
} else {
// formatting for string output with potential padding
let istr = format!("{:.*}", largest_dec, value);
let ilen = istr.len();
let before_dec = istr.find('.').unwrap_or(ilen);
if pad && before_dec < padding {
for _ in 0..(padding - before_dec) {
ret_str.push('0');
}
}
ret_str.push_str(&istr);
}
i += 1;
value = first + i as f64 * step;
if !done_printing(value, step, last) {
ret_str.push_str(&separator);
}
}
if !use_num && ((first >= last && step < 0f64) || (first <= last && step > 0f64)) {
ret_str.push_str(&terminator);
}
if use_num {
// we'd like to keep the datatype the same for the output, so check
// and see if any of the output is really decimals, and if it is
// we'll make the entire output decimals
let contains_decimals = vec_contains_decimals(&ret_num);
let rows: Vec<Value> = ret_num
.iter()
.map(|v| {
if contains_decimals {
Value::float(*v, span)
} else {
Value::int(*v as i64, span)
}
})
.collect();
Value::List { vals: rows, span }.into_pipeline_data()
} else {
let rows: String = ret_str.lines().collect();
Value::string(rows, span).into_pipeline_data()
}
}
fn vec_contains_decimals(array: &[f64]) -> bool {
let mut found_decimal = false;
for x in array {
if x.fract() != 0.0 {
found_decimal = true;
break;
}
}
found_decimal
}