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value.rs
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value.rs
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use crate::parse_date_from_string;
use nu_engine::CallExt;
use nu_protocol::{
ast::Call,
engine::{Command, EngineState, Stack},
Category, Example, IntoInterruptiblePipelineData, PipelineData, PipelineIterator, ShellError,
Signature, Span, SyntaxShape, Type, Value,
};
use once_cell::sync::Lazy;
use regex::{Regex, RegexBuilder};
use std::collections::HashSet;
#[derive(Clone)]
pub struct IntoValue;
impl Command for IntoValue {
fn name(&self) -> &str {
"into value"
}
fn signature(&self) -> Signature {
Signature::build("into value")
.input_output_types(vec![(Type::Table(vec![]), Type::Table(vec![]))])
.named(
"columns",
SyntaxShape::Table(vec![]),
"list of columns to update",
Some('c'),
)
.switch(
"prefer-filesizes",
"For ints display them as human-readable file sizes",
Some('f'),
)
.allow_variants_without_examples(true)
.category(Category::Filters)
}
fn usage(&self) -> &str {
"Infer nushell datatype for each cell."
}
fn examples(&self) -> Vec<Example> {
vec![
Example {
description: "Infer Nushell values for each cell.",
example: "$table | into value",
result: None,
},
Example {
description: "Infer Nushell values for each cell in the given columns.",
example: "$table | into value -c [column1, column5]",
result: None,
},
]
}
fn run(
&self,
engine_state: &EngineState,
stack: &mut Stack,
call: &Call,
input: PipelineData,
) -> Result<PipelineData, ShellError> {
let engine_state = engine_state.clone();
let metadata = input.metadata();
let ctrlc = engine_state.ctrlc.clone();
let span = call.head;
let display_as_filesizes = call.has_flag(&engine_state, stack, "prefer-filesizes")?;
// the columns to update
let columns: Option<Value> = call.get_flag(&engine_state, stack, "columns")?;
let columns: Option<HashSet<String>> = match columns {
Some(val) => Some(
val.into_list()?
.into_iter()
.map(Value::coerce_into_string)
.collect::<Result<HashSet<String>, ShellError>>()?,
),
None => None,
};
Ok(UpdateCellIterator {
input: input.into_iter(),
columns,
display_as_filesizes,
span,
}
.into_pipeline_data(ctrlc)
.set_metadata(metadata))
}
}
struct UpdateCellIterator {
input: PipelineIterator,
columns: Option<HashSet<String>>,
display_as_filesizes: bool,
span: Span,
}
impl Iterator for UpdateCellIterator {
type Item = Value;
fn next(&mut self) -> Option<Self::Item> {
match self.input.next() {
Some(val) => {
if let Some(ref cols) = self.columns {
if !val.columns().any(|c| cols.contains(c)) {
return Some(val);
}
}
let span = val.span();
match val {
Value::Record { val, .. } => Some(Value::record(
val.into_iter()
.map(|(col, val)| match &self.columns {
Some(cols) if !cols.contains(&col) => (col, val),
_ => (
col,
match process_cell(val, self.display_as_filesizes, span) {
Ok(val) => val,
Err(err) => Value::error(err, span),
},
),
})
.collect(),
span,
)),
val => match process_cell(val, self.display_as_filesizes, self.span) {
Ok(val) => Some(val),
Err(err) => Some(Value::error(err, self.span)),
},
}
}
None => None,
}
}
}
// This function will check each cell to see if it matches a regular expression
// for a particular datatype. If it does, it will convert the cell to that datatype.
fn process_cell(val: Value, display_as_filesizes: bool, span: Span) -> Result<Value, ShellError> {
// step 1: convert value to string
let val_str = val.coerce_str().unwrap_or_default();
// step 2: bounce string up against regexes
if BOOLEAN_RE.is_match(&val_str) {
let bval = val_str
.parse::<bool>()
.map_err(|_| ShellError::CantConvert {
to_type: "string".to_string(),
from_type: "bool".to_string(),
span,
help: Some(format!(
r#""{val_str}" does not represent a valid boolean value"#
)),
})?;
Ok(Value::bool(bval, span))
} else if FLOAT_RE.is_match(&val_str) {
let fval = val_str
.parse::<f64>()
.map_err(|_| ShellError::CantConvert {
to_type: "string".to_string(),
from_type: "float".to_string(),
span,
help: Some(format!(
r#""{val_str}" does not represent a valid floating point value"#
)),
})?;
Ok(Value::float(fval, span))
} else if INTEGER_RE.is_match(&val_str) {
let ival = val_str
.parse::<i64>()
.map_err(|_| ShellError::CantConvert {
to_type: "string".to_string(),
from_type: "int".to_string(),
span,
help: Some(format!(
r#""{val_str}" does not represent a valid integer value"#
)),
})?;
if display_as_filesizes {
Ok(Value::filesize(ival, span))
} else {
Ok(Value::int(ival, span))
}
} else if INTEGER_WITH_DELIMS_RE.is_match(&val_str) {
let mut val_str = val_str.into_owned();
val_str.retain(|x| !['_', ','].contains(&x));
let ival = val_str
.parse::<i64>()
.map_err(|_| ShellError::CantConvert {
to_type: "string".to_string(),
from_type: "int".to_string(),
span,
help: Some(format!(
r#""{val_str}" does not represent a valid integer value"#
)),
})?;
if display_as_filesizes {
Ok(Value::filesize(ival, span))
} else {
Ok(Value::int(ival, span))
}
} else if DATETIME_DMY_RE.is_match(&val_str) {
let dt = parse_date_from_string(&val_str, span).map_err(|_| ShellError::CantConvert {
to_type: "date".to_string(),
from_type: "string".to_string(),
span,
help: Some(format!(
r#""{val_str}" does not represent a valid DATETIME_MDY_RE value"#
)),
})?;
Ok(Value::date(dt, span))
} else if DATETIME_YMD_RE.is_match(&val_str) {
let dt = parse_date_from_string(&val_str, span).map_err(|_| ShellError::CantConvert {
to_type: "date".to_string(),
from_type: "string".to_string(),
span,
help: Some(format!(
r#""{val_str}" does not represent a valid DATETIME_YMD_RE value"#
)),
})?;
Ok(Value::date(dt, span))
} else if DATETIME_YMDZ_RE.is_match(&val_str) {
let dt = parse_date_from_string(&val_str, span).map_err(|_| ShellError::CantConvert {
to_type: "date".to_string(),
from_type: "string".to_string(),
span,
help: Some(format!(
r#""{val_str}" does not represent a valid DATETIME_YMDZ_RE value"#
)),
})?;
Ok(Value::date(dt, span))
} else {
// If we don't know what it is, just return whatever it was passed in as
Ok(val)
}
}
// region: datatype regexes
const DATETIME_DMY_PATTERN: &str = r#"(?x)
^
['"]? # optional quotes
(?:\d{1,2}) # day
[-/] # separator
(?P<month>[01]?\d{1}) # month
[-/] # separator
(?:\d{4,}) # year
(?:
[T\ ] # separator
(?:\d{2}) # hour
:? # separator
(?:\d{2}) # minute
(?:
:? # separator
(?:\d{2}) # second
(?:
\.(?:\d{1,9}) # subsecond
)?
)?
)?
['"]? # optional quotes
$
"#;
static DATETIME_DMY_RE: Lazy<Regex> =
Lazy::new(|| Regex::new(DATETIME_DMY_PATTERN).expect("datetime_dmy_pattern should be valid"));
const DATETIME_YMD_PATTERN: &str = r#"(?x)
^
['"]? # optional quotes
(?:\d{4,}) # year
[-/] # separator
(?P<month>[01]?\d{1}) # month
[-/] # separator
(?:\d{1,2}) # day
(?:
[T\ ] # separator
(?:\d{2}) # hour
:? # separator
(?:\d{2}) # minute
(?:
:? # separator
(?:\d{2}) # seconds
(?:
\.(?:\d{1,9}) # subsecond
)?
)?
)?
['"]? # optional quotes
$
"#;
static DATETIME_YMD_RE: Lazy<Regex> =
Lazy::new(|| Regex::new(DATETIME_YMD_PATTERN).expect("datetime_ymd_pattern should be valid"));
//2023-03-24 16:44:17.865147299 -05:00
const DATETIME_YMDZ_PATTERN: &str = r#"(?x)
^
['"]? # optional quotes
(?:\d{4,}) # year
[-/] # separator
(?P<month>[01]?\d{1}) # month
[-/] # separator
(?:\d{1,2}) # day
[T\ ] # separator
(?:\d{2}) # hour
:? # separator
(?:\d{2}) # minute
(?:
:? # separator
(?:\d{2}) # second
(?:
\.(?:\d{1,9}) # subsecond
)?
)?
\s? # optional space
(?:
# offset (e.g. +01:00)
[+-](?:\d{2})
:?
(?:\d{2})
# or Zulu suffix
|Z
)
['"]? # optional quotes
$
"#;
static DATETIME_YMDZ_RE: Lazy<Regex> =
Lazy::new(|| Regex::new(DATETIME_YMDZ_PATTERN).expect("datetime_ymdz_pattern should be valid"));
static FLOAT_RE: Lazy<Regex> = Lazy::new(|| {
Regex::new(r"^\s*[-+]?((\d*\.\d+)([eE][-+]?\d+)?|inf|NaN|(\d+)[eE][-+]?\d+|\d+\.)$")
.expect("float pattern should be valid")
});
static INTEGER_RE: Lazy<Regex> =
Lazy::new(|| Regex::new(r"^\s*-?(\d+)$").expect("integer pattern should be valid"));
static INTEGER_WITH_DELIMS_RE: Lazy<Regex> = Lazy::new(|| {
Regex::new(r"^\s*-?(\d{1,3}([,_]\d{3})+)$")
.expect("integer with delimiters pattern should be valid")
});
static BOOLEAN_RE: Lazy<Regex> = Lazy::new(|| {
RegexBuilder::new(r"^\s*(true)$|^(false)$")
.case_insensitive(true)
.build()
.expect("boolean pattern should be valid")
});
// endregion:
#[cfg(test)]
mod test {
use super::*;
#[test]
fn test_examples() {
use crate::test_examples;
test_examples(IntoValue {})
}
#[test]
fn test_float_parse() {
// The regex should work on all these but nushell's float parser is more strict
assert!(FLOAT_RE.is_match("0.1"));
assert!(FLOAT_RE.is_match("3.0"));
assert!(FLOAT_RE.is_match("3.00001"));
assert!(FLOAT_RE.is_match("-9.9990e-003"));
assert!(FLOAT_RE.is_match("9.9990e+003"));
assert!(FLOAT_RE.is_match("9.9990E+003"));
assert!(FLOAT_RE.is_match("9.9990E+003"));
assert!(FLOAT_RE.is_match(".5"));
assert!(FLOAT_RE.is_match("2.5E-10"));
assert!(FLOAT_RE.is_match("2.5e10"));
assert!(FLOAT_RE.is_match("NaN"));
assert!(FLOAT_RE.is_match("-NaN"));
assert!(FLOAT_RE.is_match("-inf"));
assert!(FLOAT_RE.is_match("inf"));
assert!(FLOAT_RE.is_match("-7e-05"));
assert!(FLOAT_RE.is_match("7e-05"));
assert!(FLOAT_RE.is_match("+7e+05"));
}
#[test]
fn test_int_parse() {
assert!(INTEGER_RE.is_match("0"));
assert!(INTEGER_RE.is_match("1"));
assert!(INTEGER_RE.is_match("10"));
assert!(INTEGER_RE.is_match("100"));
assert!(INTEGER_RE.is_match("1000"));
assert!(INTEGER_RE.is_match("10000"));
assert!(INTEGER_RE.is_match("100000"));
assert!(INTEGER_RE.is_match("1000000"));
assert!(INTEGER_RE.is_match("10000000"));
assert!(INTEGER_RE.is_match("100000000"));
assert!(INTEGER_RE.is_match("1000000000"));
assert!(INTEGER_RE.is_match("10000000000"));
assert!(INTEGER_RE.is_match("100000000000"));
assert!(INTEGER_WITH_DELIMS_RE.is_match("1_000"));
assert!(INTEGER_WITH_DELIMS_RE.is_match("10_000"));
assert!(INTEGER_WITH_DELIMS_RE.is_match("100_000"));
assert!(INTEGER_WITH_DELIMS_RE.is_match("1_000_000"));
assert!(INTEGER_WITH_DELIMS_RE.is_match("10_000_000"));
assert!(INTEGER_WITH_DELIMS_RE.is_match("100_000_000"));
assert!(INTEGER_WITH_DELIMS_RE.is_match("1_000_000_000"));
assert!(INTEGER_WITH_DELIMS_RE.is_match("10_000_000_000"));
assert!(INTEGER_WITH_DELIMS_RE.is_match("100_000_000_000"));
assert!(INTEGER_WITH_DELIMS_RE.is_match("1,000"));
assert!(INTEGER_WITH_DELIMS_RE.is_match("10,000"));
assert!(INTEGER_WITH_DELIMS_RE.is_match("100,000"));
assert!(INTEGER_WITH_DELIMS_RE.is_match("1,000,000"));
assert!(INTEGER_WITH_DELIMS_RE.is_match("10,000,000"));
assert!(INTEGER_WITH_DELIMS_RE.is_match("100,000,000"));
assert!(INTEGER_WITH_DELIMS_RE.is_match("1,000,000,000"));
assert!(INTEGER_WITH_DELIMS_RE.is_match("10,000,000,000"));
}
#[test]
fn test_bool_parse() {
assert!(BOOLEAN_RE.is_match("true"));
assert!(BOOLEAN_RE.is_match("false"));
assert!(!BOOLEAN_RE.is_match("1"));
assert!(!BOOLEAN_RE.is_match("0"));
}
#[test]
fn test_datetime_ymdz_pattern() {
assert!(DATETIME_YMDZ_RE.is_match("2022-01-01T00:00:00Z"));
assert!(DATETIME_YMDZ_RE.is_match("2022-01-01T00:00:00.123456789Z"));
assert!(DATETIME_YMDZ_RE.is_match("2022-01-01T00:00:00+01:00"));
assert!(DATETIME_YMDZ_RE.is_match("2022-01-01T00:00:00.123456789+01:00"));
assert!(DATETIME_YMDZ_RE.is_match("2022-01-01T00:00:00-01:00"));
assert!(DATETIME_YMDZ_RE.is_match("2022-01-01T00:00:00.123456789-01:00"));
assert!(DATETIME_YMDZ_RE.is_match("'2022-01-01T00:00:00Z'"));
assert!(!DATETIME_YMDZ_RE.is_match("2022-01-01T00:00:00"));
assert!(!DATETIME_YMDZ_RE.is_match("2022-01-01T00:00:00."));
assert!(!DATETIME_YMDZ_RE.is_match("2022-01-01T00:00:00.123456789"));
assert!(!DATETIME_YMDZ_RE.is_match("2022-01-01T00:00:00+01"));
assert!(!DATETIME_YMDZ_RE.is_match("2022-01-01T00:00:00+01:0"));
assert!(!DATETIME_YMDZ_RE.is_match("2022-01-01T00:00:00+1:00"));
assert!(!DATETIME_YMDZ_RE.is_match("2022-01-01T00:00:00.123456789+01"));
assert!(!DATETIME_YMDZ_RE.is_match("2022-01-01T00:00:00.123456789+01:0"));
assert!(!DATETIME_YMDZ_RE.is_match("2022-01-01T00:00:00.123456789+1:00"));
assert!(!DATETIME_YMDZ_RE.is_match("2022-01-01T00:00:00-01"));
assert!(!DATETIME_YMDZ_RE.is_match("2022-01-01T00:00:00-01:0"));
assert!(!DATETIME_YMDZ_RE.is_match("2022-01-01T00:00:00-1:00"));
assert!(!DATETIME_YMDZ_RE.is_match("2022-01-01T00:00:00.123456789-01"));
assert!(!DATETIME_YMDZ_RE.is_match("2022-01-01T00:00:00.123456789-01:0"));
assert!(!DATETIME_YMDZ_RE.is_match("2022-01-01T00:00:00.123456789-1:00"));
}
#[test]
fn test_datetime_ymd_pattern() {
assert!(DATETIME_YMD_RE.is_match("2022-01-01"));
assert!(DATETIME_YMD_RE.is_match("2022/01/01"));
assert!(DATETIME_YMD_RE.is_match("2022-01-01T00:00:00"));
assert!(DATETIME_YMD_RE.is_match("2022-01-01T00:00:00.000000000"));
assert!(DATETIME_YMD_RE.is_match("'2022-01-01'"));
// The regex isn't this specific, but it would be nice if it were
// assert!(!DATETIME_YMD_RE.is_match("2022-13-01"));
// assert!(!DATETIME_YMD_RE.is_match("2022-01-32"));
// assert!(!DATETIME_YMD_RE.is_match("2022-01-01T24:00:00"));
// assert!(!DATETIME_YMD_RE.is_match("2022-01-01T00:60:00"));
// assert!(!DATETIME_YMD_RE.is_match("2022-01-01T00:00:60"));
assert!(!DATETIME_YMD_RE.is_match("2022-01-01T00:00:00.0000000000"));
}
#[test]
fn test_datetime_dmy_pattern() {
assert!(DATETIME_DMY_RE.is_match("31-12-2021"));
assert!(DATETIME_DMY_RE.is_match("01/01/2022"));
assert!(DATETIME_DMY_RE.is_match("15-06-2023 12:30"));
assert!(!DATETIME_DMY_RE.is_match("2022-13-01"));
assert!(!DATETIME_DMY_RE.is_match("2022-01-32"));
assert!(!DATETIME_DMY_RE.is_match("2022-01-01 24:00"));
}
}