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nushell/crates/nu-protocol/src/syntax_shape.rs
Ian Manske ff6a67d293
Remove Expr::MatchPattern (#11367) 
# Description
Following from #11356, it looks like `Expr::MatchPattern` is no longer
used in any way. This PR removes `Expr::MatchPattern` alongside
`Type::MatchPattern` and `SyntaxShape::MatchPattern`.

# User-Facing Changes
Breaking API change for `nu_protocol`.
2023-12-20 18:52:28 +01:00

253 lines
8.8 KiB
Rust
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use crate::{DeclId, Type};
use serde::{Deserialize, Serialize};
use std::fmt::Display;
/// The syntactic shapes that describe how a sequence should be parsed.
///
/// This extends beyond [`Type`] which describes how [`Value`](crate::Value)s are represented.
/// `SyntaxShape`s can describe the parsing rules for arguments to a command.
/// e.g. [`SyntaxShape::GlobPattern`]/[`SyntaxShape::Filepath`] serve the completer,
/// but don't have an associated [`Value`](crate::Value)
/// There are additional `SyntaxShape`s that only make sense in particular expressions or keywords
#[derive(Debug, Clone, PartialEq, Eq, Serialize, Deserialize)]
pub enum SyntaxShape {
/// Any syntactic form is allowed
Any,
/// A binary literal
Binary,
/// A block is allowed, eg `{start this thing}`
Block,
/// A boolean value, eg `true` or `false`
Boolean,
/// A dotted path to navigate the table
CellPath,
/// A closure is allowed, eg `{|| start this thing}`
Closure(Option<Vec<SyntaxShape>>),
/// A [`SyntaxShape`] with custom completion logic
CompleterWrapper(Box<SyntaxShape>, DeclId),
/// A datetime value, eg `2022-02-02` or `2019-10-12T07:20:50.52+00:00`
DateTime,
/// A directory is allowed
Directory,
/// A duration value is allowed, eg `19day`
Duration,
/// An error value
Error,
/// A general expression, eg `1 + 2` or `foo --bar`
Expression,
/// A filepath is allowed
Filepath,
/// A filesize value is allowed, eg `10kb`
Filesize,
/// A floating point value, eg `1.0`
Float,
/// A dotted path including the variable to access items
///
/// Fully qualified
FullCellPath,
/// A glob pattern is allowed, eg `foo*`
GlobPattern,
/// Only an integer value is allowed
Int,
/// A module path pattern used for imports
ImportPattern,
/// A specific match to a word or symbol
Keyword(Vec<u8>, Box<SyntaxShape>),
/// A list is allowed, eg `[first second]`
List(Box<SyntaxShape>),
/// A general math expression, eg `1 + 2`
MathExpression,
/// A block of matches, used by `match`
MatchBlock,
/// Nothing
Nothing,
/// Only a numeric (integer or float) value is allowed
Number,
/// One of a list of possible items, checked in order
OneOf(Vec<SyntaxShape>),
/// An operator, eg `+`
Operator,
/// A range is allowed (eg, `1..3`)
Range,
/// A record value, eg `{x: 1, y: 2}`
Record(Vec<(String, SyntaxShape)>),
/// A math expression which expands shorthand forms on the lefthand side, eg `foo > 1`
/// The shorthand allows us to more easily reach columns inside of the row being passed in
RowCondition,
/// A signature for a definition, `[x:int, --foo]`
Signature,
/// Strings and string-like bare words are allowed
String,
/// A table is allowed, eg `[[first, second]; [1, 2]]`
Table(Vec<(String, SyntaxShape)>),
/// A variable with optional type, `x` or `x: int`
VarWithOptType,
}
impl SyntaxShape {
/// If possible provide the associated concrete [`Type`]
///
/// Note: Some [`SyntaxShape`]s don't have a corresponding [`Value`](crate::Value)
/// Here we currently return [`Type::Any`]
///
/// ```rust
/// use nu_protocol::{SyntaxShape, Type};
/// let non_value = SyntaxShape::ImportPattern;
/// assert_eq!(non_value.to_type(), Type::Any);
/// ```
pub fn to_type(&self) -> Type {
let mk_ty = |tys: &[(String, SyntaxShape)]| {
tys.iter()
.map(|(key, val)| (key.clone(), val.to_type()))
.collect()
};
match self {
SyntaxShape::Any => Type::Any,
SyntaxShape::Block => Type::Block,
SyntaxShape::Closure(_) => Type::Closure,
SyntaxShape::Binary => Type::Binary,
SyntaxShape::CellPath => Type::Any,
SyntaxShape::CompleterWrapper(inner, _) => inner.to_type(),
SyntaxShape::DateTime => Type::Date,
SyntaxShape::Duration => Type::Duration,
SyntaxShape::Expression => Type::Any,
SyntaxShape::Filepath => Type::String,
SyntaxShape::Directory => Type::String,
SyntaxShape::Float => Type::Float,
SyntaxShape::Filesize => Type::Filesize,
SyntaxShape::FullCellPath => Type::Any,
SyntaxShape::GlobPattern => Type::String,
SyntaxShape::Error => Type::Error,
SyntaxShape::ImportPattern => Type::Any,
SyntaxShape::Int => Type::Int,
SyntaxShape::List(x) => {
let contents = x.to_type();
Type::List(Box::new(contents))
}
SyntaxShape::Keyword(_, expr) => expr.to_type(),
SyntaxShape::MatchBlock => Type::Any,
SyntaxShape::MathExpression => Type::Any,
SyntaxShape::Nothing => Type::Nothing,
SyntaxShape::Number => Type::Number,
SyntaxShape::OneOf(_) => Type::Any,
SyntaxShape::Operator => Type::Any,
SyntaxShape::Range => Type::Range,
SyntaxShape::Record(entries) => Type::Record(mk_ty(entries)),
SyntaxShape::RowCondition => Type::Bool,
SyntaxShape::Boolean => Type::Bool,
SyntaxShape::Signature => Type::Signature,
SyntaxShape::String => Type::String,
SyntaxShape::Table(columns) => Type::Table(mk_ty(columns)),
SyntaxShape::VarWithOptType => Type::Any,
}
}
}
impl Display for SyntaxShape {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
let mk_fmt = |tys: &[(String, SyntaxShape)]| -> String {
tys.iter()
.map(|(x, y)| format!("{x}: {y}"))
.collect::<Vec<String>>()
.join(", ")
};
match self {
SyntaxShape::Keyword(kw, shape) => {
write!(f, "\"{}\" {}", String::from_utf8_lossy(kw), shape)
}
SyntaxShape::Any => write!(f, "any"),
SyntaxShape::String => write!(f, "string"),
SyntaxShape::CellPath => write!(f, "cell-path"),
SyntaxShape::FullCellPath => write!(f, "cell-path"),
SyntaxShape::Number => write!(f, "number"),
SyntaxShape::Range => write!(f, "range"),
SyntaxShape::Int => write!(f, "int"),
SyntaxShape::Float => write!(f, "float"),
SyntaxShape::Filepath => write!(f, "path"),
SyntaxShape::Directory => write!(f, "directory"),
SyntaxShape::GlobPattern => write!(f, "glob"),
SyntaxShape::ImportPattern => write!(f, "import"),
SyntaxShape::Block => write!(f, "block"),
SyntaxShape::Closure(args) => {
if let Some(args) = args {
let arg_vec: Vec<_> = args.iter().map(|x| x.to_string()).collect();
let arg_string = arg_vec.join(", ");
write!(f, "closure({arg_string})")
} else {
write!(f, "closure()")
}
}
SyntaxShape::Binary => write!(f, "binary"),
SyntaxShape::List(x) => write!(f, "list<{x}>"),
SyntaxShape::Table(columns) => {
if columns.is_empty() {
write!(f, "table")
} else {
write!(f, "table<{}>", mk_fmt(columns))
}
}
SyntaxShape::Record(entries) => {
if entries.is_empty() {
write!(f, "record")
} else {
write!(f, "record<{}>", mk_fmt(entries))
}
}
SyntaxShape::Filesize => write!(f, "filesize"),
SyntaxShape::Duration => write!(f, "duration"),
SyntaxShape::DateTime => write!(f, "datetime"),
SyntaxShape::Operator => write!(f, "operator"),
SyntaxShape::RowCondition => write!(f, "condition"),
SyntaxShape::MathExpression => write!(f, "variable"),
SyntaxShape::VarWithOptType => write!(f, "vardecl"),
SyntaxShape::Signature => write!(f, "signature"),
SyntaxShape::MatchBlock => write!(f, "match-block"),
SyntaxShape::Expression => write!(f, "expression"),
SyntaxShape::Boolean => write!(f, "bool"),
SyntaxShape::Error => write!(f, "error"),
SyntaxShape::CompleterWrapper(x, _) => write!(f, "completable<{x}>"),
SyntaxShape::OneOf(list) => {
let arg_vec: Vec<_> = list.iter().map(|x| x.to_string()).collect();
let arg_string = arg_vec.join(", ");
write!(f, "one_of({arg_string})")
}
SyntaxShape::Nothing => write!(f, "nothing"),
}
}
}
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