just/src/thunk.rs
2024-05-18 00:21:47 +00:00

197 lines
5.6 KiB
Rust

use super::*;
#[derive(Derivative)]
#[derivative(Debug, Clone, PartialEq = "feature_allow_slow_enum")]
pub(crate) enum Thunk<'src> {
Nullary {
name: Name<'src>,
#[derivative(Debug = "ignore", PartialEq = "ignore")]
function: fn(&Evaluator) -> Result<String, String>,
},
Unary {
name: Name<'src>,
#[derivative(Debug = "ignore", PartialEq = "ignore")]
function: fn(&Evaluator, &str) -> Result<String, String>,
arg: Box<Expression<'src>>,
},
UnaryOpt {
name: Name<'src>,
#[derivative(Debug = "ignore", PartialEq = "ignore")]
function: fn(&Evaluator, &str, Option<&str>) -> Result<String, String>,
args: (Box<Expression<'src>>, Box<Option<Expression<'src>>>),
},
Binary {
name: Name<'src>,
#[derivative(Debug = "ignore", PartialEq = "ignore")]
function: fn(&Evaluator, &str, &str) -> Result<String, String>,
args: [Box<Expression<'src>>; 2],
},
BinaryPlus {
name: Name<'src>,
#[derivative(Debug = "ignore", PartialEq = "ignore")]
function: fn(&Evaluator, &str, &str, &[String]) -> Result<String, String>,
args: ([Box<Expression<'src>>; 2], Vec<Expression<'src>>),
},
Ternary {
name: Name<'src>,
#[derivative(Debug = "ignore", PartialEq = "ignore")]
function: fn(&Evaluator, &str, &str, &str) -> Result<String, String>,
args: [Box<Expression<'src>>; 3],
},
}
impl<'src> Thunk<'src> {
fn name(&self) -> &Name<'src> {
match self {
Self::Nullary { name, .. }
| Self::Unary { name, .. }
| Self::UnaryOpt { name, .. }
| Self::Binary { name, .. }
| Self::BinaryPlus { name, .. }
| Self::Ternary { name, .. } => name,
}
}
pub(crate) fn resolve(
name: Name<'src>,
mut arguments: Vec<Expression<'src>>,
) -> CompileResult<'src, Thunk<'src>> {
function::get(name.lexeme()).map_or(
Err(name.error(CompileErrorKind::UnknownFunction {
function: name.lexeme(),
})),
|function| match (function, arguments.len()) {
(Function::Nullary(function), 0) => Ok(Thunk::Nullary { function, name }),
(Function::Unary(function), 1) => Ok(Thunk::Unary {
function,
arg: arguments.pop().unwrap().into(),
name,
}),
(Function::UnaryOpt(function), 1..=2) => {
let a = arguments.remove(0).into();
let b = match arguments.pop() {
Some(value) => Some(value).into(),
None => None.into(),
};
Ok(Thunk::UnaryOpt {
function,
args: (a, b),
name,
})
}
(Function::Binary(function), 2) => {
let b = arguments.pop().unwrap().into();
let a = arguments.pop().unwrap().into();
Ok(Thunk::Binary {
function,
args: [a, b],
name,
})
}
(Function::BinaryPlus(function), 2..=usize::MAX) => {
let rest = arguments.drain(2..).collect();
let b = arguments.pop().unwrap().into();
let a = arguments.pop().unwrap().into();
Ok(Thunk::BinaryPlus {
function,
args: ([a, b], rest),
name,
})
}
(Function::Ternary(function), 3) => {
let c = arguments.pop().unwrap().into();
let b = arguments.pop().unwrap().into();
let a = arguments.pop().unwrap().into();
Ok(Thunk::Ternary {
function,
args: [a, b, c],
name,
})
}
(function, _) => Err(name.error(CompileErrorKind::FunctionArgumentCountMismatch {
function: name.lexeme(),
found: arguments.len(),
expected: function.argc(),
})),
},
)
}
}
impl Display for Thunk<'_> {
fn fmt(&self, f: &mut Formatter) -> fmt::Result {
use Thunk::*;
match self {
Nullary { name, .. } => write!(f, "{}()", name.lexeme()),
Unary { name, arg, .. } => write!(f, "{}({arg})", name.lexeme()),
UnaryOpt {
name, args: (a, b), ..
} => {
if let Some(b) = b.as_ref() {
write!(f, "{}({a}, {b})", name.lexeme())
} else {
write!(f, "{}({a})", name.lexeme())
}
}
Binary {
name, args: [a, b], ..
} => write!(f, "{}({a}, {b})", name.lexeme()),
BinaryPlus {
name,
args: ([a, b], rest),
..
} => {
write!(f, "{}({a}, {b}", name.lexeme())?;
for arg in rest {
write!(f, ", {arg}")?;
}
write!(f, ")")
}
Ternary {
name,
args: [a, b, c],
..
} => write!(f, "{}({a}, {b}, {c})", name.lexeme()),
}
}
}
impl<'src> Serialize for Thunk<'src> {
fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
where
S: Serializer,
{
let mut seq = serializer.serialize_seq(None)?;
seq.serialize_element("call")?;
seq.serialize_element(self.name())?;
match self {
Self::Nullary { .. } => {}
Self::Unary { arg, .. } => seq.serialize_element(&arg)?,
Self::UnaryOpt {
args: (a, opt_b), ..
} => {
seq.serialize_element(a)?;
if let Some(b) = opt_b.as_ref() {
seq.serialize_element(b)?;
}
}
Self::Binary { args, .. } => {
for arg in args {
seq.serialize_element(arg)?;
}
}
Self::BinaryPlus { args, .. } => {
for arg in args.0.iter().map(Box::as_ref).chain(&args.1) {
seq.serialize_element(arg)?;
}
}
Self::Ternary { args, .. } => {
for arg in args {
seq.serialize_element(arg)?;
}
}
}
seq.end()
}
}