conlang: Add array and slice type syntax

This commit is contained in:
John 2024-07-20 18:22:50 -05:00
parent b3d62c09aa
commit 3511575669
9 changed files with 135 additions and 3 deletions

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@ -253,12 +253,27 @@ pub enum TyKind {
Never, Never,
Empty, Empty,
Path(Path), Path(Path),
Array(TyArray),
Slice(TySlice),
Tuple(TyTuple), Tuple(TyTuple),
Ref(TyRef), Ref(TyRef),
Fn(TyFn), Fn(TyFn),
// TODO: slice, array types // TODO: slice, array types
} }
/// An array of [`T`](Ty)
#[derive(Clone, Debug, PartialEq, Eq, Hash)]
pub struct TyArray {
pub ty: Box<TyKind>,
pub count: usize,
}
/// A [Ty]pe slice expression: `[T]`
#[derive(Clone, Debug, PartialEq, Eq, Hash)]
pub struct TySlice {
pub ty: Box<TyKind>,
}
/// A tuple of [Ty]pes /// A tuple of [Ty]pes
#[derive(Clone, Debug, PartialEq, Eq, Hash)] #[derive(Clone, Debug, PartialEq, Eq, Hash)]
pub struct TyTuple { pub struct TyTuple {

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@ -307,6 +307,8 @@ mod display {
TyKind::Never => "!".fmt(f), TyKind::Never => "!".fmt(f),
TyKind::Empty => "()".fmt(f), TyKind::Empty => "()".fmt(f),
TyKind::Path(v) => v.fmt(f), TyKind::Path(v) => v.fmt(f),
TyKind::Array(v) => v.fmt(f),
TyKind::Slice(v) => v.fmt(f),
TyKind::Tuple(v) => v.fmt(f), TyKind::Tuple(v) => v.fmt(f),
TyKind::Ref(v) => v.fmt(f), TyKind::Ref(v) => v.fmt(f),
TyKind::Fn(v) => v.fmt(f), TyKind::Fn(v) => v.fmt(f),
@ -314,6 +316,20 @@ mod display {
} }
} }
impl Display for TyArray {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
let Self { ty, count } = self;
write!(f, "[{ty}; {count}]")
}
}
impl Display for TySlice {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
let Self { ty } = self;
write!(f, "[{ty}]")
}
}
impl Display for TyTuple { impl Display for TyTuple {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
separate(&self.types, ", ")(f.delimit(INLINE_PARENS)) separate(&self.types, ", ")(f.delimit(INLINE_PARENS))

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@ -172,6 +172,14 @@ pub trait Fold {
fn fold_ty_kind(&mut self, kind: TyKind) -> TyKind { fn fold_ty_kind(&mut self, kind: TyKind) -> TyKind {
or_fold_ty_kind(self, kind) or_fold_ty_kind(self, kind)
} }
fn fold_ty_array(&mut self, a: TyArray) -> TyArray {
let TyArray { ty, count } = a;
TyArray { ty: Box::new(self.fold_ty_kind(*ty)), count }
}
fn fold_ty_slice(&mut self, s: TySlice) -> TySlice {
let TySlice { ty } = s;
TySlice { ty: Box::new(self.fold_ty_kind(*ty)) }
}
fn fold_ty_tuple(&mut self, t: TyTuple) -> TyTuple { fn fold_ty_tuple(&mut self, t: TyTuple) -> TyTuple {
let TyTuple { types } = t; let TyTuple { types } = t;
TyTuple { TyTuple {
@ -500,6 +508,8 @@ pub fn or_fold_ty_kind<F: Fold + ?Sized>(folder: &mut F, kind: TyKind) -> TyKind
TyKind::Never => TyKind::Never, TyKind::Never => TyKind::Never,
TyKind::Empty => TyKind::Empty, TyKind::Empty => TyKind::Empty,
TyKind::Path(p) => TyKind::Path(folder.fold_path(p)), TyKind::Path(p) => TyKind::Path(folder.fold_path(p)),
TyKind::Array(a) => TyKind::Array(folder.fold_ty_array(a)),
TyKind::Slice(s) => TyKind::Slice(folder.fold_ty_slice(s)),
TyKind::Tuple(t) => TyKind::Tuple(folder.fold_ty_tuple(t)), TyKind::Tuple(t) => TyKind::Tuple(folder.fold_ty_tuple(t)),
TyKind::Ref(t) => TyKind::Ref(folder.fold_ty_ref(t)), TyKind::Ref(t) => TyKind::Ref(folder.fold_ty_ref(t)),
TyKind::Fn(t) => TyKind::Fn(folder.fold_ty_fn(t)), TyKind::Fn(t) => TyKind::Fn(folder.fold_ty_fn(t)),

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@ -145,6 +145,14 @@ pub trait Visit<'a>: Sized {
fn visit_ty_kind(&mut self, kind: &'a TyKind) { fn visit_ty_kind(&mut self, kind: &'a TyKind) {
or_visit_ty_kind(self, kind) or_visit_ty_kind(self, kind)
} }
fn visit_ty_array(&mut self, a: &'a TyArray) {
let TyArray { ty, count: _ } = a;
self.visit_ty_kind(ty);
}
fn visit_ty_slice(&mut self, s: &'a TySlice) {
let TySlice { ty } = s;
self.visit_ty_kind(ty)
}
fn visit_ty_tuple(&mut self, t: &'a TyTuple) { fn visit_ty_tuple(&mut self, t: &'a TyTuple) {
let TyTuple { types } = t; let TyTuple { types } = t;
types.iter().for_each(|kind| self.visit_ty_kind(kind)) types.iter().for_each(|kind| self.visit_ty_kind(kind))
@ -424,6 +432,8 @@ pub fn or_visit_ty_kind<'a, V: Visit<'a>>(visitor: &mut V, kind: &'a TyKind) {
TyKind::Never => {} TyKind::Never => {}
TyKind::Empty => {} TyKind::Empty => {}
TyKind::Path(p) => visitor.visit_path(p), TyKind::Path(p) => visitor.visit_path(p),
TyKind::Array(t) => visitor.visit_ty_array(t),
TyKind::Slice(t) => visitor.visit_ty_slice(t),
TyKind::Tuple(t) => visitor.visit_ty_tuple(t), TyKind::Tuple(t) => visitor.visit_ty_tuple(t),
TyKind::Ref(t) => visitor.visit_ty_ref(t), TyKind::Ref(t) => visitor.visit_ty_ref(t),
TyKind::Fn(t) => visitor.visit_ty_fn(t), TyKind::Fn(t) => visitor.visit_ty_fn(t),

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@ -78,6 +78,8 @@ pub enum Parsing {
Ty, Ty,
TyKind, TyKind,
TySlice,
TyArray,
TyTuple, TyTuple,
TyRef, TyRef,
TyFn, TyFn,
@ -181,6 +183,8 @@ impl Display for Parsing {
Parsing::Ty => "a type", Parsing::Ty => "a type",
Parsing::TyKind => "a type", Parsing::TyKind => "a type",
Parsing::TySlice => "a slice type",
Parsing::TyArray => "an array type",
Parsing::TyTuple => "a tuple of types", Parsing::TyTuple => "a tuple of types",
Parsing::TyRef => "a reference type", Parsing::TyRef => "a reference type",
Parsing::TyFn => "a function pointer type", Parsing::TyFn => "a function pointer type",

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@ -673,6 +673,7 @@ impl<'t> Parser<'t> {
TyKind::Never TyKind::Never
} }
TokenKind::Punct(Punct::Amp) | TokenKind::Punct(Punct::AmpAmp) => self.tyref()?.into(), TokenKind::Punct(Punct::Amp) | TokenKind::Punct(Punct::AmpAmp) => self.tyref()?.into(),
TokenKind::Punct(Punct::LBrack) => self.tyslice_or_array()?,
TokenKind::Punct(Punct::LParen) => { TokenKind::Punct(Punct::LParen) => {
let out = self.tytuple()?; let out = self.tytuple()?;
match out.types.is_empty() { match out.types.is_empty() {
@ -687,6 +688,32 @@ impl<'t> Parser<'t> {
Ok(out) Ok(out)
} }
/// [`TySlice`] = `[` [Ty] `]` \
/// [`TyArray`] = `[` [Ty] `;` [usize] `]`
pub fn tyslice_or_array(&mut self) -> PResult<TyKind> {
self.match_op(BRACKETS.0, Parsing::TySlice)?;
let ty = self.tykind()?;
let (out, kind) = match self.match_op(Punct::Semi, Parsing::TyArray).is_ok() {
true => {
let literal = self.match_type(TokenKind::Literal, Parsing::TyArray)?;
let &TokenData::Integer(count) = literal.data() else {
Err(self.error(Unexpected(TokenKind::Literal), Parsing::TyArray))?
};
(
TyKind::Array(TyArray { ty: Box::new(ty), count: count as _ }),
Parsing::TyArray,
)
}
false => (
TyKind::Slice(TySlice { ty: Box::new(ty) }),
Parsing::TySlice,
),
};
self.match_op(BRACKETS.1, kind)?;
Ok(out)
}
/// [TyTuple] = `(` ([Ty] `,`)* [Ty]? `)` /// [TyTuple] = `(` ([Ty] `,`)* [Ty]? `)`
pub fn tytuple(&mut self) -> PResult<TyTuple> { pub fn tytuple(&mut self) -> PResult<TyTuple> {
const PARSING: Parsing = Parsing::TyTuple; const PARSING: Parsing = Parsing::TyTuple;

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@ -614,6 +614,8 @@ pub mod yamlify {
TyKind::Tuple(t) => y.yaml(t), TyKind::Tuple(t) => y.yaml(t),
TyKind::Ref(t) => y.yaml(t), TyKind::Ref(t) => y.yaml(t),
TyKind::Fn(t) => y.yaml(t), TyKind::Fn(t) => y.yaml(t),
TyKind::Slice(_) => todo!(),
TyKind::Array(_) => todo!(),
}; };
} }
} }
@ -639,6 +641,18 @@ pub mod yamlify {
}; };
} }
} }
impl Yamlify for TyArray {
fn yaml(&self, y: &mut Yamler) {
let Self { ty, count } = self;
y.key("TyArray").pair("ty", ty).pair("count", count);
}
}
impl Yamlify for TySlice {
fn yaml(&self, y: &mut Yamler) {
let Self { ty } = self;
y.key("TyArray").pair("ty", ty);
}
}
impl Yamlify for TyTuple { impl Yamlify for TyTuple {
fn yaml(&self, y: &mut Yamler) { fn yaml(&self, y: &mut Yamler) {
let Self { types } = self; let Self { types } = self;

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@ -172,7 +172,7 @@ pub mod evaluate {
use super::*; use super::*;
use crate::module; use crate::module;
use cl_ast::{Sym, Ty, TyFn, TyKind, TyRef, TyTuple}; use cl_ast::{Sym, Ty, TyArray, TyFn, TyKind, TyRef, TySlice, TyTuple};
/// Things that can be evaluated as a type expression /// Things that can be evaluated as a type expression
pub trait EvaluableTypeExpression { pub trait EvaluableTypeExpression {
@ -197,6 +197,8 @@ pub mod evaluate {
TyKind::Empty => prj.anon_types[&TypeKind::Empty], TyKind::Empty => prj.anon_types[&TypeKind::Empty],
// TyKind::Path must be looked up explicitly // TyKind::Path must be looked up explicitly
TyKind::Path(path) => path.evaluate(prj, parent)?, TyKind::Path(path) => path.evaluate(prj, parent)?,
TyKind::Slice(slice) => slice.evaluate(prj, parent)?,
TyKind::Array(array) => array.evaluate(prj, parent)?,
TyKind::Tuple(tup) => tup.evaluate(prj, parent)?, TyKind::Tuple(tup) => tup.evaluate(prj, parent)?,
TyKind::Ref(tyref) => tyref.evaluate(prj, parent)?, TyKind::Ref(tyref) => tyref.evaluate(prj, parent)?,
TyKind::Fn(tyfn) => tyfn.evaluate(prj, parent)?, TyKind::Fn(tyfn) => tyfn.evaluate(prj, parent)?,
@ -220,6 +222,38 @@ pub mod evaluate {
} }
} }
impl EvaluableTypeExpression for TySlice {
type Out = DefID;
fn evaluate(&self, prj: &mut Project, parent: DefID) -> Result<Self::Out, String> {
let ty = self.ty.evaluate(prj, parent)?;
let root = prj.root;
let id = prj.insert_anonymous_type(TypeKind::Slice(ty), move || Def {
module: module::Module::new(root),
node: Node::new(Default::default(), None),
kind: DefKind::Type(TypeKind::Slice(ty)),
});
Ok(id)
}
}
impl EvaluableTypeExpression for TyArray {
type Out = DefID;
fn evaluate(&self, prj: &mut Project, parent: DefID) -> Result<Self::Out, String> {
let kind = TypeKind::Array(self.ty.evaluate(prj, parent)?, self.count);
let root = prj.root;
let id = prj.insert_anonymous_type(kind.clone(), move || Def {
module: module::Module::new(root),
node: Node::new(Default::default(), None),
kind: DefKind::Type(kind),
});
Ok(id)
}
}
impl EvaluableTypeExpression for TyTuple { impl EvaluableTypeExpression for TyTuple {
type Out = DefID; type Out = DefID;
fn evaluate(&self, prj: &mut Project, parent: DefID) -> Result<DefID, String> { fn evaluate(&self, prj: &mut Project, parent: DefID) -> Result<DefID, String> {

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@ -50,10 +50,12 @@ UseTree = '*' | '{' (UseTree ',')* UseTree? '}'
| PathPart ('::' UseTree | "as" Identifier)? ; | PathPart ('::' UseTree | "as" Identifier)? ;
(* type *) (* type *)
Ty = Never | Empty | Path | TyTuple | TyRef | TyFn ; Ty = Never | Empty | Path | TyArray | TySlice | TyTuple | TyRef | TyFn ;
Never = '!' ; Never = '!' ;
Empty = '(' ')' ; Empty = '(' ')' ;
TyTuple = '(' (Ty ',')* Ty? ')' ; TyTuple = '(' (Ty ',')* Ty? ')' ;
TyArray = '[' Ty ';' INTEGER ']' ;
TySlice = '[' Ty ']' ;
TyRef = Amps* Path ; TyRef = Amps* Path ;
Amps = '&' | '&&' ; Amps = '&' | '&&' ;
TyFn = "fn" TyTuple ('->' Ty)? ; TyFn = "fn" TyTuple ('->' Ty)? ;