Add binary literals (#4680)

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JT 2022-02-28 18:31:53 -05:00 committed by GitHub
parent e3100e6afd
commit a6a96b29cb
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15 changed files with 199 additions and 10 deletions

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@ -55,6 +55,13 @@ impl Highlighter for NuHighlighter {
get_shape_color(shape.1.to_string(), &self.config),
next_token,
)),
FlatShape::Binary => {
// nushell ?
output.push((
get_shape_color(shape.1.to_string(), &self.config),
next_token,
))
}
FlatShape::Bool => {
// nushell ?
output.push((

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@ -10,6 +10,7 @@ pub fn get_shape_color(shape: String, conf: &Config) -> Style {
},
None => match shape.as_ref() {
"shape_garbage" => Style::new().fg(Color::White).on(Color::Red).bold(),
"shape_binary" => Style::new().fg(Color::Purple).bold(),
"shape_bool" => Style::new().fg(Color::LightCyan),
"shape_int" => Style::new().fg(Color::Purple).bold(),
"shape_float" => Style::new().fg(Color::Purple).bold(),

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@ -201,6 +201,7 @@ fn convert_to_value(
"blocks not supported in nuon".into(),
expr.span,
)),
Expr::Binary(val) => Ok(Value::Binary { val, span }),
Expr::Bool(val) => Ok(Value::Bool { val, span }),
Expr::Call(..) => Err(ShellError::OutsideSpannedLabeledError(
original_text.to_string(),

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@ -1,3 +1,4 @@
use core::fmt::Write;
use nu_engine::get_columns;
use nu_protocol::ast::{Call, RangeInclusion};
use nu_protocol::engine::{Command, EngineState, Stack};
@ -46,10 +47,18 @@ impl Command for ToNuon {
fn value_to_string(v: &Value, span: Span) -> Result<String, ShellError> {
match v {
Value::Binary { .. } => Err(ShellError::UnsupportedInput(
"binary not supported".into(),
span,
)),
Value::Binary { val, .. } => {
let mut s = String::with_capacity(2 * val.len());
for byte in val {
if write!(s, "{:02X}", byte).is_err() {
return Err(ShellError::UnsupportedInput(
"binary could not translate to string".into(),
span,
));
}
}
Ok(format!("0x[{}]", s))
}
Value::Block { .. } => Err(ShellError::UnsupportedInput(
"block not supported".into(),
span,

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@ -102,3 +102,27 @@ fn to_nuon_records() {
assert_eq!(actual.out, "true");
}
#[test]
fn binary_to() {
let actual = nu!(
cwd: "tests/fixtures/formats", pipeline(
r#"
0x[ab cd ef] | to nuon
"#
));
assert_eq!(actual.out, "0x[ABCDEF]");
}
#[test]
fn binary_roundtrip() {
let actual = nu!(
cwd: "tests/fixtures/formats", pipeline(
r#"
"0x[1f ff]" | from nuon | to nuon
"#
));
assert_eq!(actual.out, "0x[1FFF]");
}

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@ -227,6 +227,10 @@ pub fn eval_expression(
val: *f,
span: expr.span,
}),
Expr::Binary(b) => Ok(Value::Binary {
val: b.clone(),
span: expr.span,
}),
Expr::ValueWithUnit(e, unit) => match eval_expression(engine_state, stack, e)? {
Value::Int { val, .. } => Ok(compute(val, unit.item, unit.span)),
x => Err(ShellError::CantConvert(

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@ -7,6 +7,7 @@ pub enum FlatShape {
Garbage,
Nothing,
Bool,
Binary,
Int,
Float,
Range,
@ -35,6 +36,7 @@ impl Display for FlatShape {
match self {
FlatShape::Garbage => write!(f, "shape_garbage"),
FlatShape::Nothing => write!(f, "shape_nothing"),
FlatShape::Binary => write!(f, "shape_binary"),
FlatShape::Bool => write!(f, "shape_bool"),
FlatShape::Int => write!(f, "shape_int"),
FlatShape::Float => write!(f, "shape_float"),
@ -189,6 +191,9 @@ pub fn flatten_expression(
Expr::DateTime(_) => {
vec![(expr.span, FlatShape::DateTime)]
}
Expr::Binary(_) => {
vec![(expr.span, FlatShape::Binary)]
}
Expr::Int(_) => {
vec![(expr.span, FlatShape::Int)]
}

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@ -21,7 +21,10 @@ use crate::parse_keywords::{
};
use log::trace;
use std::collections::{HashMap, HashSet};
use std::{
collections::{HashMap, HashSet},
num::ParseIntError,
};
#[cfg(feature = "plugin")]
use crate::parse_keywords::parse_register;
@ -964,6 +967,85 @@ pub fn parse_call(
}
}
pub fn parse_binary(
working_set: &mut StateWorkingSet,
span: Span,
) -> (Expression, Option<ParseError>) {
pub fn decode_hex(s: &str) -> Result<Vec<u8>, ParseIntError> {
(0..s.len())
.step_by(2)
.map(|i| u8::from_str_radix(&s[i..i + 2], 16))
.collect()
}
let token = working_set.get_span_contents(span);
if let Some(token) = token.strip_prefix(b"0x[") {
if let Some(token) = token.strip_suffix(b"]") {
let (lexed, err) = lex(token, span.start + 3, &[b',', b'\r', b'\n'], &[], true);
let mut hex_value = vec![];
for token in lexed {
match token.contents {
TokenContents::Item => {
let contents = working_set.get_span_contents(token.span);
hex_value.extend_from_slice(contents);
}
TokenContents::Pipe => {
return (
garbage(span),
Some(ParseError::Expected("binary".into(), span)),
);
}
TokenContents::Comment | TokenContents::Semicolon | TokenContents::Eol => {}
}
}
if hex_value.len() % 2 != 0 {
return (
garbage(span),
Some(ParseError::IncorrectValue(
"incomplete binary".into(),
span,
"number of binary digits needs to be a multiple of 2".into(),
)),
);
}
let str = String::from_utf8_lossy(&hex_value).to_string();
match decode_hex(&str) {
Ok(v) => {
return (
Expression {
expr: Expr::Binary(v),
span,
ty: Type::Binary,
custom_completion: None,
},
err,
)
}
Err(x) => {
return (
garbage(span),
Some(ParseError::IncorrectValue(
"not a binary value".into(),
span,
x.to_string(),
)),
)
}
}
}
}
(
garbage(span),
Some(ParseError::Expected("binary".into(), span)),
)
}
pub fn parse_int(token: &[u8], span: Span) -> (Expression, Option<ParseError>) {
if let Some(token) = token.strip_prefix(b"0x") {
if let Ok(v) = i64::from_str_radix(&String::from_utf8_lossy(token), 16) {
@ -2132,6 +2214,7 @@ pub fn parse_shape_name(
) -> (SyntaxShape, Option<ParseError>) {
let result = match bytes {
b"any" => SyntaxShape::Any,
b"binary" => SyntaxShape::Binary,
b"block" => SyntaxShape::Block(None), //FIXME: Blocks should have known output types
b"cell-path" => SyntaxShape::CellPath,
b"duration" => SyntaxShape::Duration,
@ -3231,6 +3314,7 @@ pub fn parse_value(
SyntaxShape::Filepath => parse_filepath(working_set, span),
SyntaxShape::GlobPattern => parse_glob_pattern(working_set, span),
SyntaxShape::String => parse_string(working_set, span),
SyntaxShape::Binary => parse_binary(working_set, span),
SyntaxShape::Block(_) => {
if bytes.starts_with(b"{") {
trace!("parsing value as a block expression");
@ -3320,6 +3404,7 @@ pub fn parse_value(
parse_full_cell_path(working_set, None, span)
} else {
let shapes = [
SyntaxShape::Binary,
SyntaxShape::Int,
SyntaxShape::Number,
SyntaxShape::Range,
@ -4020,6 +4105,7 @@ pub fn discover_captures_in_expr(
}
}
}
Expr::Binary(_) => {}
Expr::Bool(_) => {}
Expr::Call(call) => {
let decl = working_set.get_decl(call.decl_id);

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@ -8,6 +8,7 @@ pub enum Expr {
Bool(bool),
Int(i64),
Float(f64),
Binary(Vec<u8>),
Range(
Option<Box<Expression>>, // from
Option<Box<Expression>>, // next value after "from"

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@ -125,6 +125,7 @@ impl Expression {
false
}
}
Expr::Binary(_) => false,
Expr::Bool(_) => false,
Expr::Call(call) => {
for positional in &call.positional {
@ -290,6 +291,7 @@ impl Expression {
.map(|x| if *x != IN_VARIABLE_ID { *x } else { new_var_id })
.collect();
}
Expr::Binary(_) => {}
Expr::Bool(_) => {}
Expr::Call(call) => {
for positional in &mut call.positional {
@ -430,6 +432,7 @@ impl Expression {
*block_id = working_set.add_block(block);
}
Expr::Binary(_) => {}
Expr::Bool(_) => {}
Expr::Call(call) => {
if replaced.contains_span(call.head) {

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@ -40,6 +40,9 @@ pub enum SyntaxShape {
/// A module path pattern used for imports
ImportPattern,
/// A binary literal
Binary,
/// A block is allowed, eg `{start this thing}`
Block(Option<Vec<SyntaxShape>>),
@ -95,6 +98,7 @@ impl SyntaxShape {
match self {
SyntaxShape::Any => Type::Unknown,
SyntaxShape::Block(_) => Type::Block,
SyntaxShape::Binary => Type::Binary,
SyntaxShape::CellPath => Type::Unknown,
SyntaxShape::Custom(custom, _) => custom.to_type(),
SyntaxShape::DateTime => Type::Date,
@ -144,6 +148,7 @@ impl Display for SyntaxShape {
SyntaxShape::GlobPattern => write!(f, "glob"),
SyntaxShape::ImportPattern => write!(f, "import"),
SyntaxShape::Block(_) => write!(f, "block"),
SyntaxShape::Binary => write!(f, "binary"),
SyntaxShape::Table => write!(f, "table"),
SyntaxShape::List(x) => write!(f, "list<{}>", x),
SyntaxShape::Record => write!(f, "record"),

18
docs/commands/complete.md Normal file
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@ -0,0 +1,18 @@
---
title: complete
layout: command
version: 0.59.0
---
Complete the external piped in, collecting outputs and exit code
## Signature
```> complete ```
## Examples
Run the external completion
```shell
> ^external arg1 | complete
```

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@ -8,7 +8,11 @@ Describes dataframes numeric columns
## Signature
```> dfr describe ```
```> dfr describe --quantiles```
## Parameters
- `--quantiles {table}`: optional quantiles for describe
## Examples

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@ -8,12 +8,17 @@ Searches terms in the input or for elements of the input that satisfies the pred
## Signature
```> find ...rest --predicate```
```> find ...rest --predicate --regex --insensitive --multiline --dotall --invert```
## Parameters
- `...rest`: terms to search
- `--predicate {block}`: the predicate to satisfy
- `--regex {string}`: regex to match with
- `--insensitive`: case-insensitive search for regex (?i)
- `--multiline`: multi-line mode: ^ and $ match begin/end of line for regex (?m)
- `--dotall`: dotall mode: allow a dot . to match newline character \n for regex (?s)
- `--invert`: invert the match
## Examples
@ -37,12 +42,27 @@ Search a char in a list of string
> [moe larry curly] | find l
```
Find the first odd value
Find odd values
```shell
> echo [2 4 3 6 5 8] | find --predicate { |it| ($it mod 2) == 1 }
> [2 4 3 6 5 8] | find --predicate { |it| ($it mod 2) == 1 }
```
Find if a service is not running
```shell
> echo [[version patch]; [0.1.0 $false] [0.1.1 $true] [0.2.0 $false]] | find -p { |it| $it.patch }
> [[version patch]; [0.1.0 $false] [0.1.1 $true] [0.2.0 $false]] | find -p { |it| $it.patch }
```
Find using regex
```shell
> [abc bde arc abf] | find --regex "ab"
```
Find using regex case insensitive
```shell
> [aBc bde Arc abf] | find --regex "ab" -i
```
Find value in records
```shell
> [[version name]; [0.1.0 nushell] [0.1.1 fish] [0.2.0 zsh]] | find -r "nu"
```

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@ -134,6 +134,7 @@ let default_theme = {
# shapes are used to change the cli syntax highlighting
shape_garbage: { fg: "#FFFFFF" bg: "#FF0000" attr: b}
shape_binary: purple_bold
shape_bool: light_cyan
shape_int: purple_bold
shape_float: purple_bold