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-rw-r--r--dhall/src/binary.rs4
-rw-r--r--dhall/src/normalize.rs6
-rw-r--r--dhall/src/typecheck.rs6
-rw-r--r--dhall/tests/common/mod.rs2
-rw-r--r--dhall_core/src/core.rs76
-rw-r--r--dhall_core/src/parser.rs172
-rw-r--r--dhall_core/src/printer.rs8
-rw-r--r--dhall_core/src/text.rs37
-rw-r--r--dhall_generator/src/dhall_expr.rs36
-rw-r--r--dhall_generator/src/dhall_type.rs4
10 files changed, 170 insertions, 181 deletions
diff --git a/dhall/src/binary.rs b/dhall/src/binary.rs
index 988891b..1ba1873 100644
--- a/dhall/src/binary.rs
+++ b/dhall/src/binary.rs
@@ -20,10 +20,10 @@ pub fn decode(data: &[u8]) -> Result<ParsedExpr, DecodeError> {
fn cbor_value_to_dhall(data: &cbor::Value) -> Result<ParsedExpr, DecodeError> {
use cbor::Value::*;
use dhall_core::{BinOp, Builtin, Const};
- use Expr::*;
+ use ExprF::*;
Ok(rc(match data {
String(s) => match Builtin::parse(s) {
- Some(b) => Expr::Builtin(b),
+ Some(b) => ExprF::Builtin(b),
None => match s.as_str() {
"True" => BoolLit(true),
"False" => BoolLit(false),
diff --git a/dhall/src/normalize.rs b/dhall/src/normalize.rs
index 5405e88..c6c294c 100644
--- a/dhall/src/normalize.rs
+++ b/dhall/src/normalize.rs
@@ -12,7 +12,7 @@ where
A: fmt::Debug,
{
use dhall_core::Builtin::*;
- use dhall_core::Expr::*;
+ use dhall_core::ExprF::*;
let f = rc(Builtin(b));
// How many arguments a builtin needs, and which argument
// should be normalized and pattern-matched
@@ -199,7 +199,7 @@ where
// Put the remaining arguments back and eval again. In most cases
// ret will not be of a form that can be applied, so this won't go very deep.
// In lots of cases, there are no remaining args so this cann will just return ret.
- normalize_whnf(&rc(Expr::App(ret, args.split_off(len_consumption))))
+ normalize_whnf(&rc(ExprF::App(ret, args.split_off(len_consumption))))
}
/// Reduce an expression to its weak head normal form, i.e. normalize
@@ -213,7 +213,7 @@ where
A: fmt::Debug,
{
use dhall_core::BinOp::*;
- use dhall_core::Expr::*;
+ use dhall_core::ExprF::*;
match e.as_ref() {
Let(f, _, r, b) => {
let vf0 = &V(f.clone(), 0);
diff --git a/dhall/src/typecheck.rs b/dhall/src/typecheck.rs
index e769c7f..31702db 100644
--- a/dhall/src/typecheck.rs
+++ b/dhall/src/typecheck.rs
@@ -12,7 +12,7 @@ use self::TypeMessage::*;
fn axiom<S>(c: Const) -> Result<Const, TypeError<S>> {
use dhall_core::Const::*;
- use dhall_core::Expr::*;
+ use dhall_core::ExprF::*;
match c {
Type => Ok(Kind),
Kind => Err(TypeError::new(&Context::new(), rc(Const(Kind)), Untyped)),
@@ -53,7 +53,7 @@ where
S: ::std::fmt::Debug,
T: ::std::fmt::Debug,
{
- use dhall_core::Expr::*;
+ use dhall_core::ExprF::*;
fn go<S, T>(
ctx: &mut Vec<(Label, Label)>,
el: &Expr<S, X>,
@@ -192,7 +192,7 @@ where
use dhall_core::BinOp::*;
use dhall_core::Builtin::*;
use dhall_core::Const::*;
- use dhall_core::Expr::*;
+ use dhall_core::ExprF::*;
let mkerr = |msg: TypeMessage<_>| TypeError::new(ctx, e.clone(), msg);
let ensure_const = |x: &SubExpr<_, _>, msg: TypeMessage<_>| match x.as_ref()
{
diff --git a/dhall/tests/common/mod.rs b/dhall/tests/common/mod.rs
index 6b893e0..325b80f 100644
--- a/dhall/tests/common/mod.rs
+++ b/dhall/tests/common/mod.rs
@@ -111,7 +111,7 @@ pub fn run_test(base_path: &str, feature: Feature) {
let expected_file_path = base_path + "B.dhall";
let expr = rc(read_dhall_file(&expr_file_path).unwrap());
let expected = rc(read_dhall_file(&expected_file_path).unwrap());
- typecheck::type_of(rc(Expr::Annot(expr, expected))).unwrap();
+ typecheck::type_of(rc(ExprF::Annot(expr, expected))).unwrap();
}
}
}
diff --git a/dhall_core/src/core.rs b/dhall_core/src/core.rs
index b49515a..2d11068 100644
--- a/dhall_core/src/core.rs
+++ b/dhall_core/src/core.rs
@@ -173,43 +173,39 @@ pub type DhallExpr = ResolvedExpr;
#[derive(Debug, PartialEq, Eq)]
pub struct SubExpr<Note, Embed>(pub Rc<Expr<Note, Embed>>);
+pub type Expr<Note, Embed> = ExprF<SubExpr<Note, Embed>, Note, Embed>;
+
/// Syntax tree for expressions
+// Having the recursion out of the enum definition enables writing
+// much more generic code and improves pattern-matching behind
+// smart pointers.
#[derive(Debug, Clone, PartialEq, Eq)]
-pub enum Expr<Note, Embed> {
+pub enum ExprF<SubExpr, Note, Embed> {
/// `Const c ~ c`
Const(Const),
/// `Var (V x 0) ~ x`<br>
/// `Var (V x n) ~ x@n`
Var(V),
/// `Lam x A b ~ λ(x : A) -> b`
- Lam(Label, SubExpr<Note, Embed>, SubExpr<Note, Embed>),
+ Lam(Label, SubExpr, SubExpr),
/// `Pi "_" A B ~ A -> B`
/// `Pi x A B ~ ∀(x : A) -> B`
- Pi(Label, SubExpr<Note, Embed>, SubExpr<Note, Embed>),
+ Pi(Label, SubExpr, SubExpr),
/// `App f A ~ f A`
- App(SubExpr<Note, Embed>, Vec<SubExpr<Note, Embed>>),
+ App(SubExpr, Vec<SubExpr>),
/// `Let x Nothing r e ~ let x = r in e`
/// `Let x (Just t) r e ~ let x : t = r in e`
- Let(
- Label,
- Option<SubExpr<Note, Embed>>,
- SubExpr<Note, Embed>,
- SubExpr<Note, Embed>,
- ),
+ Let(Label, Option<SubExpr>, SubExpr, SubExpr),
/// `Annot x t ~ x : t`
- Annot(SubExpr<Note, Embed>, SubExpr<Note, Embed>),
+ Annot(SubExpr, SubExpr),
/// Built-in values
Builtin(Builtin),
// Binary operations
- BinOp(BinOp, SubExpr<Note, Embed>, SubExpr<Note, Embed>),
+ BinOp(BinOp, SubExpr, SubExpr),
/// `BoolLit b ~ b`
BoolLit(bool),
/// `BoolIf x y z ~ if x then y else z`
- BoolIf(
- SubExpr<Note, Embed>,
- SubExpr<Note, Embed>,
- SubExpr<Note, Embed>,
- ),
+ BoolIf(SubExpr, SubExpr, SubExpr),
/// `NaturalLit n ~ +n`
NaturalLit(Natural),
/// `IntegerLit n ~ n`
@@ -217,39 +213,31 @@ pub enum Expr<Note, Embed> {
/// `DoubleLit n ~ n`
DoubleLit(Double),
/// `TextLit t ~ t`
- TextLit(InterpolatedText<Note, Embed>),
+ TextLit(InterpolatedText<SubExpr>),
/// [] : List t`
- EmptyListLit(SubExpr<Note, Embed>),
+ EmptyListLit(SubExpr),
/// [x, y, z]
- NEListLit(Vec<SubExpr<Note, Embed>>),
+ NEListLit(Vec<SubExpr>),
/// None t
- EmptyOptionalLit(SubExpr<Note, Embed>),
+ EmptyOptionalLit(SubExpr),
/// Some e
- NEOptionalLit(SubExpr<Note, Embed>),
+ NEOptionalLit(SubExpr),
/// `Record [(k1, t1), (k2, t2)] ~ { k1 : t1, k2 : t1 }`
- RecordType(BTreeMap<Label, SubExpr<Note, Embed>>),
+ RecordType(BTreeMap<Label, SubExpr>),
/// `RecordLit [(k1, v1), (k2, v2)] ~ { k1 = v1, k2 = v2 }`
- RecordLit(BTreeMap<Label, SubExpr<Note, Embed>>),
+ RecordLit(BTreeMap<Label, SubExpr>),
/// `Union [(k1, t1), (k2, t2)] ~ < k1 : t1, k2 : t2 >`
- UnionType(BTreeMap<Label, SubExpr<Note, Embed>>),
+ UnionType(BTreeMap<Label, SubExpr>),
/// `UnionLit (k1, v1) [(k2, t2), (k3, t3)] ~ < k1 = t1, k2 : t2, k3 : t3 >`
- UnionLit(
- Label,
- SubExpr<Note, Embed>,
- BTreeMap<Label, SubExpr<Note, Embed>>,
- ),
+ UnionLit(Label, SubExpr, BTreeMap<Label, SubExpr>),
/// `Merge x y t ~ merge x y : t`
- Merge(
- SubExpr<Note, Embed>,
- SubExpr<Note, Embed>,
- Option<SubExpr<Note, Embed>>,
- ),
+ Merge(SubExpr, SubExpr, Option<SubExpr>),
/// e.x
- Field(SubExpr<Note, Embed>, Label),
+ Field(SubExpr, Label),
/// e.{ x, y, z }
- Projection(SubExpr<Note, Embed>, Vec<Label>),
+ Projection(SubExpr, Vec<Label>),
/// Annotation on the AST. Unused for now but could hold e.g. file location information
- Note(Note, SubExpr<Note, Embed>),
+ Note(Note, SubExpr),
/// Embeds an import or the result of resolving the import
Embed(Embed),
}
@@ -305,7 +293,7 @@ impl<S, A> Expr<S, A> {
impl<S: Clone, A: Clone> Expr<S, Expr<S, A>> {
pub fn squash_embed(&self) -> Expr<S, A> {
match self {
- Expr::Embed(e) => e.clone(),
+ ExprF::Embed(e) => e.clone(),
e => e.map_shallow(
|e| e.squash_embed(),
|x| x.clone(),
@@ -369,7 +357,7 @@ where
F4: Fn(&Label) -> Label,
F5: FnOnce(&Label, &SubExpr<S, A>) -> SubExpr<T, B>,
{
- use crate::Expr::*;
+ use crate::ExprF::*;
let map = &map;
let opt = |x: &Option<_>| x.as_ref().map(&map);
let vec = |x: &Vec<_>| x.iter().map(&map).collect();
@@ -422,8 +410,8 @@ where
F2: FnOnce(&Label, &SubExpr<S, A>) -> SubExpr<S, A>,
{
match e.as_ref() {
- Expr::Embed(_) => SubExpr::clone(e),
- Expr::Note(_, e) => {
+ ExprF::Embed(_) => SubExpr::clone(e),
+ ExprF::Note(_, e) => {
map_subexpr_rc_binder(e, map_expr, map_under_binder)
}
_ => rc(map_subexpr(
@@ -523,7 +511,7 @@ pub fn shift<S, A>(
var: &V,
in_expr: &SubExpr<S, A>,
) -> SubExpr<S, A> {
- use crate::Expr::*;
+ use crate::ExprF::*;
let V(x, n) = var;
let under_binder = |y: &Label, e: &SubExpr<_, _>| {
let n = if x == y { n + 1 } else { *n };
@@ -553,7 +541,7 @@ pub fn subst<S, A>(
value: &SubExpr<S, A>,
in_expr: &SubExpr<S, A>,
) -> SubExpr<S, A> {
- use crate::Expr::*;
+ use crate::ExprF::*;
let under_binder = |y: &Label, e: &SubExpr<_, _>| {
let V(x, n) = var;
let n = if x == y { n + 1 } else { *n };
diff --git a/dhall_core/src/parser.rs b/dhall_core/src/parser.rs
index b7ac3f6..343a895 100644
--- a/dhall_core/src/parser.rs
+++ b/dhall_core/src/parser.rs
@@ -13,8 +13,10 @@ use crate::*;
// their own crate because they are quite general and useful. For now they
// are here and hopefully you can figure out how they work.
-type ParsedText = InterpolatedText<X, Import>;
-type ParsedTextContents = InterpolatedTextContents<X, Import>;
+use crate::ExprF::*;
+
+type ParsedText = InterpolatedText<SubExpr<X, Import>>;
+type ParsedTextContents = InterpolatedTextContents<SubExpr<X, Import>>;
pub type ParseError = pest::error::Error<Rule>;
@@ -26,9 +28,9 @@ enum Either<A, B> {
Right(B),
}
-impl Builtin {
+impl crate::Builtin {
pub fn parse(s: &str) -> Option<Self> {
- use self::Builtin::*;
+ use crate::Builtin::*;
match s {
"Bool" => Some(Bool),
"Natural" => Some(Natural),
@@ -267,7 +269,7 @@ make_parser! {
));
rule!(unreserved_label<Label>; children!(
[label(l)] => {
- if Builtin::parse(&String::from(&l)).is_some() {
+ if crate::Builtin::parse(&String::from(&l)).is_some() {
Err(
format!("Builtin names are not allowed as bound variables")
)?
@@ -526,13 +528,13 @@ make_parser! {
rule!(import<ParsedExpr> as expression; children!(
[import_hashed(location_hashed)] => {
- bx(Expr::Embed(Import {
+ bx(Embed(Import {
mode: ImportMode::Code,
location_hashed
}))
},
[import_hashed(location_hashed), Text(_)] => {
- bx(Expr::Embed(Import {
+ bx(Embed(Import {
mode: ImportMode::RawText,
location_hashed
}))
@@ -541,13 +543,13 @@ make_parser! {
rule!(lambda_expression<ParsedExpr> as expression; children!(
[unreserved_label(l), expression(typ), expression(body)] => {
- bx(Expr::Lam(l, typ, body))
+ bx(Lam(l, typ, body))
}
));
rule!(ifthenelse_expression<ParsedExpr> as expression; children!(
[expression(cond), expression(left), expression(right)] => {
- bx(Expr::BoolIf(cond, left, right))
+ bx(BoolIf(cond, left, right))
}
));
@@ -555,7 +557,7 @@ make_parser! {
[let_binding(bindings).., expression(final_expr)] => {
bindings.fold(
final_expr,
- |acc, x| bx(Expr::Let(x.0, x.1, x.2, acc))
+ |acc, x| bx(Let(x.0, x.1, x.2, acc))
)
}
));
@@ -569,21 +571,21 @@ make_parser! {
rule!(forall_expression<ParsedExpr> as expression; children!(
[unreserved_label(l), expression(typ), expression(body)] => {
- bx(Expr::Pi(l, typ, body))
+ bx(Pi(l, typ, body))
}
));
rule!(arrow_expression<ParsedExpr> as expression; children!(
[expression(typ), expression(body)] => {
- bx(Expr::Pi("_".into(), typ, body))
+ bx(Pi("_".into(), typ, body))
}
));
rule!(merge_expression<ParsedExpr> as expression; children!(
[expression(x), expression(y), expression(z)] =>
- bx(Expr::Merge(x, y, Some(z))),
+ bx(Merge(x, y, Some(z))),
[expression(x), expression(y)] =>
- bx(Expr::Merge(x, y, None)),
+ bx(Merge(x, y, None)),
));
rule!(List<()>; captured_str!(_) => ());
@@ -591,108 +593,108 @@ make_parser! {
rule!(empty_collection<ParsedExpr> as expression; children!(
[List(_), expression(t)] => {
- bx(Expr::EmptyListLit(t))
+ bx(EmptyListLit(t))
},
[Optional(_), expression(t)] => {
- bx(Expr::EmptyOptionalLit(t))
+ bx(EmptyOptionalLit(t))
},
));
rule!(non_empty_optional<ParsedExpr> as expression; children!(
[expression(x), Optional(_), expression(t)] => {
- rc(Expr::Annot(rc(Expr::NEOptionalLit(x)), t))
+ rc(Annot(rc(NEOptionalLit(x)), t))
}
));
rule!(import_alt_expression<ParsedExpr> as expression; children!(
[expression(e)] => e,
[expression(first), expression(rest)..] => {
- let o = BinOp::ImportAlt;
- rest.fold(first, |acc, e| bx(Expr::BinOp(o, acc, e)))
+ let o = crate::BinOp::ImportAlt;
+ rest.fold(first, |acc, e| bx(BinOp(o, acc, e)))
},
));
rule!(or_expression<ParsedExpr> as expression; children!(
[expression(e)] => e,
[expression(first), expression(rest)..] => {
- let o = BinOp::BoolOr;
- rest.fold(first, |acc, e| bx(Expr::BinOp(o, acc, e)))
+ let o = crate::BinOp::BoolOr;
+ rest.fold(first, |acc, e| bx(BinOp(o, acc, e)))
},
));
rule!(plus_expression<ParsedExpr> as expression; children!(
[expression(e)] => e,
[expression(first), expression(rest)..] => {
- let o = BinOp::NaturalPlus;
- rest.fold(first, |acc, e| bx(Expr::BinOp(o, acc, e)))
+ let o = crate::BinOp::NaturalPlus;
+ rest.fold(first, |acc, e| bx(BinOp(o, acc, e)))
},
));
rule!(text_append_expression<ParsedExpr> as expression; children!(
[expression(e)] => e,
[expression(first), expression(rest)..] => {
- let o = BinOp::TextAppend;
- rest.fold(first, |acc, e| bx(Expr::BinOp(o, acc, e)))
+ let o = crate::BinOp::TextAppend;
+ rest.fold(first, |acc, e| bx(BinOp(o, acc, e)))
},
));
rule!(list_append_expression<ParsedExpr> as expression; children!(
[expression(e)] => e,
[expression(first), expression(rest)..] => {
- let o = BinOp::ListAppend;
- rest.fold(first, |acc, e| bx(Expr::BinOp(o, acc, e)))
+ let o = crate::BinOp::ListAppend;
+ rest.fold(first, |acc, e| bx(BinOp(o, acc, e)))
},
));
rule!(and_expression<ParsedExpr> as expression; children!(
[expression(e)] => e,
[expression(first), expression(rest)..] => {
- let o = BinOp::BoolAnd;
- rest.fold(first, |acc, e| bx(Expr::BinOp(o, acc, e)))
+ let o = crate::BinOp::BoolAnd;
+ rest.fold(first, |acc, e| bx(BinOp(o, acc, e)))
},
));
rule!(combine_expression<ParsedExpr> as expression; children!(
[expression(e)] => e,
[expression(first), expression(rest)..] => {
- let o = BinOp::Combine;
- rest.fold(first, |acc, e| bx(Expr::BinOp(o, acc, e)))
+ let o = crate::BinOp::Combine;
+ rest.fold(first, |acc, e| bx(BinOp(o, acc, e)))
},
));
rule!(prefer_expression<ParsedExpr> as expression; children!(
[expression(e)] => e,
[expression(first), expression(rest)..] => {
- let o = BinOp::Prefer;
- rest.fold(first, |acc, e| bx(Expr::BinOp(o, acc, e)))
+ let o = crate::BinOp::Prefer;
+ rest.fold(first, |acc, e| bx(BinOp(o, acc, e)))
},
));
rule!(combine_types_expression<ParsedExpr> as expression; children!(
[expression(e)] => e,
[expression(first), expression(rest)..] => {
- let o = BinOp::CombineTypes;
- rest.fold(first, |acc, e| bx(Expr::BinOp(o, acc, e)))
+ let o = crate::BinOp::CombineTypes;
+ rest.fold(first, |acc, e| bx(BinOp(o, acc, e)))
},
));
rule!(times_expression<ParsedExpr> as expression; children!(
[expression(e)] => e,
[expression(first), expression(rest)..] => {
- let o = BinOp::NaturalTimes;
- rest.fold(first, |acc, e| bx(Expr::BinOp(o, acc, e)))
+ let o = crate::BinOp::NaturalTimes;
+ rest.fold(first, |acc, e| bx(BinOp(o, acc, e)))
},
));
rule!(equal_expression<ParsedExpr> as expression; children!(
[expression(e)] => e,
[expression(first), expression(rest)..] => {
- let o = BinOp::BoolEQ;
- rest.fold(first, |acc, e| bx(Expr::BinOp(o, acc, e)))
+ let o = crate::BinOp::BoolEQ;
+ rest.fold(first, |acc, e| bx(BinOp(o, acc, e)))
},
));
rule!(not_equal_expression<ParsedExpr> as expression; children!(
[expression(e)] => e,
[expression(first), expression(rest)..] => {
- let o = BinOp::BoolNE;
- rest.fold(first, |acc, e| bx(Expr::BinOp(o, acc, e)))
+ let o = crate::BinOp::BoolNE;
+ rest.fold(first, |acc, e| bx(BinOp(o, acc, e)))
},
));
rule!(annotated_expression<ParsedExpr> as expression; children!(
[expression(e)] => e,
[expression(e), expression(annot)] => {
- bx(Expr::Annot(e, annot))
+ bx(Annot(e, annot))
},
));
@@ -700,22 +702,22 @@ make_parser! {
[expression(e)] => e,
[expression(first), expression(second)] => {
match first.as_ref() {
- Expr::Builtin(Builtin::OptionalNone) =>
- bx(Expr::EmptyOptionalLit(second)),
- Expr::Builtin(Builtin::OptionalSome) =>
- bx(Expr::NEOptionalLit(second)),
- _ => bx(Expr::App(first, vec![second])),
+ Builtin(crate::Builtin::OptionalNone) =>
+ bx(EmptyOptionalLit(second)),
+ Builtin(crate::Builtin::OptionalSome) =>
+ bx(NEOptionalLit(second)),
+ _ => bx(App(first, vec![second])),
}
},
[expression(first), expression(second), expression(rest)..] => {
match first.as_ref() {
- Expr::Builtin(Builtin::OptionalNone) =>
- bx(Expr::App(bx(Expr::EmptyOptionalLit(second)),
+ Builtin(crate::Builtin::OptionalNone) =>
+ bx(App(bx(EmptyOptionalLit(second)),
rest.collect())),
- Expr::Builtin(Builtin::OptionalSome) =>
- bx(Expr::App(bx(Expr::NEOptionalLit(second)),
+ Builtin(crate::Builtin::OptionalSome) =>
+ bx(App(bx(NEOptionalLit(second)),
rest.collect())),
- _ => bx(Expr::App(first,
+ _ => bx(App(first,
std::iter::once(second)
.chain(rest)
.collect())),
@@ -727,8 +729,8 @@ make_parser! {
[expression(e)] => e,
[expression(first), selector(rest)..] => {
rest.fold(first, |acc, e| match e {
- Either::Left(l) => bx(Expr::Field(acc, l)),
- Either::Right(ls) => bx(Expr::Projection(acc, ls)),
+ Either::Left(l) => bx(Field(acc, l)),
+ Either::Right(ls) => bx(Projection(acc, ls)),
})
}
));
@@ -743,66 +745,66 @@ make_parser! {
));
rule!(literal_expression<ParsedExpr> as expression; children!(
- [double_literal(n)] => bx(Expr::DoubleLit(n)),
+ [double_literal(n)] => bx(DoubleLit(n)),
[minus_infinity_literal(n)] =>
- bx(Expr::DoubleLit(std::f64::NEG_INFINITY.into())),
+ bx(DoubleLit(std::f64::NEG_INFINITY.into())),
[plus_infinity_literal(n)] =>
- bx(Expr::DoubleLit(std::f64::INFINITY.into())),
- [NaN(n)] => bx(Expr::DoubleLit(std::f64::NAN.into())),
- [natural_literal(n)] => bx(Expr::NaturalLit(n)),
- [integer_literal(n)] => bx(Expr::IntegerLit(n)),
- [double_quote_literal(s)] => bx(Expr::TextLit(s)),
- [single_quote_literal(s)] => bx(Expr::TextLit(s)),
+ bx(DoubleLit(std::f64::INFINITY.into())),
+ [NaN(n)] => bx(DoubleLit(std::f64::NAN.into())),
+ [natural_literal(n)] => bx(NaturalLit(n)),
+ [integer_literal(n)] => bx(IntegerLit(n)),
+ [double_quote_literal(s)] => bx(TextLit(s)),
+ [single_quote_literal(s)] => bx(TextLit(s)),
[expression(e)] => e,
));
rule!(identifier<ParsedExpr> as expression; children!(
[label(l), natural_literal(idx)] => {
let name = String::from(&l);
- match Builtin::parse(name.as_str()) {
- Some(b) => bx(Expr::Builtin(b)),
+ match crate::Builtin::parse(name.as_str()) {
+ Some(b) => bx(Builtin(b)),
None => match name.as_str() {
- "True" => bx(Expr::BoolLit(true)),
- "False" => bx(Expr::BoolLit(false)),
- "Type" => bx(Expr::Const(Const::Type)),
- "Kind" => bx(Expr::Const(Const::Kind)),
- _ => bx(Expr::Var(V(l, idx))),
+ "True" => bx(BoolLit(true)),
+ "False" => bx(BoolLit(false)),
+ "Type" => bx(Const(crate::Const::Type)),
+ "Kind" => bx(Const(crate::Const::Kind)),
+ _ => bx(Var(V(l, idx))),
}
}
},
[label(l)] => {
let name = String::from(&l);
- match Builtin::parse(name.as_str()) {
- Some(b) => bx(Expr::Builtin(b)),
+ match crate::Builtin::parse(name.as_str()) {
+ Some(b) => bx(Builtin(b)),
None => match name.as_str() {
- "True" => bx(Expr::BoolLit(true)),
- "False" => bx(Expr::BoolLit(false)),
- "Type" => bx(Expr::Const(Const::Type)),
- "Kind" => bx(Expr::Const(Const::Kind)),
- _ => bx(Expr::Var(V(l, 0))),
+ "True" => bx(BoolLit(true)),
+ "False" => bx(BoolLit(false)),
+ "Type" => bx(Const(crate::Const::Type)),
+ "Kind" => bx(Const(crate::Const::Kind)),
+ _ => bx(Var(V(l, 0))),
}
}
},
));
rule!(empty_record_literal<ParsedExpr> as expression;
- captured_str!(_) => bx(Expr::RecordLit(BTreeMap::new()))
+ captured_str!(_) => bx(RecordLit(BTreeMap::new()))
);
rule!(empty_record_type<ParsedExpr> as expression;
- captured_str!(_) => bx(Expr::RecordType(BTreeMap::new()))
+ captured_str!(_) => bx(RecordType(BTreeMap::new()))
);
rule!(non_empty_record_type_or_literal<ParsedExpr> as expression; children!(
[label(first_label), non_empty_record_type(rest)] => {
let (first_expr, mut map) = rest;
map.insert(first_label, first_expr);
- bx(Expr::RecordType(map))
+ bx(RecordType(map))
},
[label(first_label), non_empty_record_literal(rest)] => {
let (first_expr, mut map) = rest;
map.insert(first_label, first_expr);
- bx(Expr::RecordLit(map))
+ bx(RecordLit(map))
},
));
@@ -830,13 +832,13 @@ make_parser! {
rule!(union_type_or_literal<ParsedExpr> as expression; children!(
[empty_union_type(_)] => {
- bx(Expr::UnionType(BTreeMap::new()))
+ bx(UnionType(BTreeMap::new()))
},
[non_empty_union_type_or_literal((Some((l, e)), entries))] => {
- bx(Expr::UnionLit(l, e, entries))
+ bx(UnionLit(l, e, entries))
},
[non_empty_union_type_or_literal((None, entries))] => {
- bx(Expr::UnionType(entries))
+ bx(UnionType(entries))
},
));
@@ -869,7 +871,7 @@ make_parser! {
));
rule!(non_empty_list_literal<ParsedExpr> as expression; children!(
- [expression(items)..] => bx(Expr::NEListLit(items.collect()))
+ [expression(items)..] => bx(NEListLit(items.collect()))
));
rule!(final_expression<ParsedExpr> as expression; children!(
@@ -885,7 +887,7 @@ pub fn parse_expr(s: &str) -> ParseResult<ParsedExpr> {
ParsedValue::expression(e) => Ok(e),
_ => unreachable!(),
}
- // Ok(bx(Expr::BoolLit(false)))
+ // Ok(bx(BoolLit(false)))
}
#[test]
diff --git a/dhall_core/src/printer.rs b/dhall_core/src/printer.rs
index b153d1b..b7d7506 100644
--- a/dhall_core/src/printer.rs
+++ b/dhall_core/src/printer.rs
@@ -35,7 +35,7 @@ impl<S, A: Display> Expr<S, A> {
f: &mut fmt::Formatter,
phase: PrintPhase,
) -> Result<(), fmt::Error> {
- use crate::Expr::*;
+ use crate::ExprF::*;
use PrintPhase::*;
match self {
_ if phase == Paren => {
@@ -143,7 +143,7 @@ impl<S, A: Display> Expr<S, A> {
write!(f, " : ")?;
b.fmt(f)?;
}
- Expr::BinOp(op, a, b) => {
+ ExprF::BinOp(op, a, b) => {
// Precedence is magically handled by the ordering of BinOps.
if phase > PrintPhase::BinOp(*op) {
return self.fmt_phase(f, Paren);
@@ -152,7 +152,7 @@ impl<S, A: Display> Expr<S, A> {
write!(f, " {} ", op)?;
b.fmt_phase(f, PrintPhase::BinOp(*op))?;
}
- Expr::App(a, args) => {
+ ExprF::App(a, args) => {
if phase > PrintPhase::App {
return self.fmt_phase(f, Paren);
}
@@ -239,7 +239,7 @@ where
f.write_str(close)
}
-impl<S, A: Display> Display for InterpolatedText<S, A> {
+impl<SubExpr: Display + Clone> Display for InterpolatedText<SubExpr> {
fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> {
f.write_str("\"")?;
for x in self.iter() {
diff --git a/dhall_core/src/text.rs b/dhall_core/src/text.rs
index eef0797..d915553 100644
--- a/dhall_core/src/text.rs
+++ b/dhall_core/src/text.rs
@@ -1,17 +1,16 @@
-use crate::*;
use std::iter::FromIterator;
use std::ops::Add;
#[derive(Debug, Clone, PartialEq, Eq)]
-pub struct InterpolatedText<Note, Embed> {
+pub struct InterpolatedText<SubExpr> {
head: String,
- tail: Vec<(SubExpr<Note, Embed>, String)>,
+ tail: Vec<(SubExpr, String)>,
}
-impl<N, E> From<(String, Vec<(SubExpr<N, E>, String)>)>
- for InterpolatedText<N, E>
+impl<SubExpr> From<(String, Vec<(SubExpr, String)>)>
+ for InterpolatedText<SubExpr>
{
- fn from(x: (String, Vec<(SubExpr<N, E>, String)>)) -> Self {
+ fn from(x: (String, Vec<(SubExpr, String)>)) -> Self {
InterpolatedText {
head: x.0,
tail: x.1,
@@ -19,7 +18,7 @@ impl<N, E> From<(String, Vec<(SubExpr<N, E>, String)>)>
}
}
-impl<N, E> From<String> for InterpolatedText<N, E> {
+impl<SubExpr> From<String> for InterpolatedText<SubExpr> {
fn from(s: String) -> Self {
InterpolatedText {
head: s,
@@ -29,15 +28,15 @@ impl<N, E> From<String> for InterpolatedText<N, E> {
}
#[derive(Debug, Clone, PartialEq, Eq)]
-pub enum InterpolatedTextContents<Note, Embed> {
+pub enum InterpolatedTextContents<SubExpr> {
Text(String),
- Expr(SubExpr<Note, Embed>),
+ Expr(SubExpr),
}
-impl<N, E> InterpolatedText<N, E> {
- pub fn map<N2, E2, F>(&self, mut f: F) -> InterpolatedText<N2, E2>
+impl<SubExpr: Clone> InterpolatedText<SubExpr> {
+ pub fn map<SubExpr2, F>(&self, mut f: F) -> InterpolatedText<SubExpr2>
where
- F: FnMut(&SubExpr<N, E>) -> SubExpr<N2, E2>,
+ F: FnMut(&SubExpr) -> SubExpr2,
{
InterpolatedText {
head: self.head.clone(),
@@ -47,7 +46,7 @@ impl<N, E> InterpolatedText<N, E> {
pub fn iter<'a>(
&'a self,
- ) -> impl Iterator<Item = InterpolatedTextContents<N, E>> + 'a {
+ ) -> impl Iterator<Item = InterpolatedTextContents<SubExpr>> + 'a {
use std::iter::once;
once(InterpolatedTextContents::Text(self.head.clone())).chain(
self.tail.iter().flat_map(|(e, s)| {
@@ -58,12 +57,12 @@ impl<N, E> InterpolatedText<N, E> {
}
}
-impl<'a, N: 'a, E: 'a> FromIterator<InterpolatedTextContents<N, E>>
- for InterpolatedText<N, E>
+impl<'a, SubExpr: Clone + 'a> FromIterator<InterpolatedTextContents<SubExpr>>
+ for InterpolatedText<SubExpr>
{
fn from_iter<T>(iter: T) -> Self
where
- T: IntoIterator<Item = InterpolatedTextContents<N, E>>,
+ T: IntoIterator<Item = InterpolatedTextContents<SubExpr>>,
{
let mut res = InterpolatedText {
head: "".to_owned(),
@@ -83,9 +82,9 @@ impl<'a, N: 'a, E: 'a> FromIterator<InterpolatedTextContents<N, E>>
}
}
-impl<N, E> Add for &InterpolatedText<N, E> {
- type Output = InterpolatedText<N, E>;
- fn add(self, rhs: &InterpolatedText<N, E>) -> Self::Output {
+impl<SubExpr: Clone> Add for &InterpolatedText<SubExpr> {
+ type Output = InterpolatedText<SubExpr>;
+ fn add(self, rhs: &InterpolatedText<SubExpr>) -> Self::Output {
self.iter().chain(rhs.iter()).collect()
}
}
diff --git a/dhall_generator/src/dhall_expr.rs b/dhall_generator/src/dhall_expr.rs
index e2187d6..c4b15e8 100644
--- a/dhall_generator/src/dhall_expr.rs
+++ b/dhall_generator/src/dhall_expr.rs
@@ -21,7 +21,7 @@ fn dhall_to_tokenstream(
expr: &DhallExpr,
ctx: &Context<Label, ()>,
) -> TokenStream {
- use dhall_core::Expr::*;
+ use dhall_core::ExprF::*;
match expr.as_ref() {
Var(_) => {
let v = dhall_to_tokenstream_bx(expr, ctx);
@@ -31,66 +31,66 @@ fn dhall_to_tokenstream(
let t = dhall_to_tokenstream_bx(t, ctx);
let b = dhall_to_tokenstream_bx(b, &ctx.insert(x.clone(), ()));
let x = label_to_tokenstream(x);
- quote! { dhall_core::Expr::Pi(#x, #t, #b) }
+ quote! { dhall_core::ExprF::Pi(#x, #t, #b) }
}
Lam(x, t, b) => {
let t = dhall_to_tokenstream_bx(t, ctx);
let b = dhall_to_tokenstream_bx(b, &ctx.insert(x.clone(), ()));
let x = label_to_tokenstream(x);
- quote! { dhall_core::Expr::Lam(#x, #t, #b) }
+ quote! { dhall_core::ExprF::Lam(#x, #t, #b) }
}
App(f, a) => {
let f = dhall_to_tokenstream_bx(f, ctx);
let a = vec_to_tokenstream(a, ctx);
- quote! { dhall_core::Expr::App(#f, #a) }
+ quote! { dhall_core::ExprF::App(#f, #a) }
}
Const(c) => {
let c = const_to_tokenstream(*c);
- quote! { dhall_core::Expr::Const(#c) }
+ quote! { dhall_core::ExprF::Const(#c) }
}
Builtin(b) => {
let b = builtin_to_tokenstream(*b);
- quote! { dhall_core::Expr::Builtin(#b) }
+ quote! { dhall_core::ExprF::Builtin(#b) }
}
BinOp(o, a, b) => {
let o = binop_to_tokenstream(*o);
let a = dhall_to_tokenstream_bx(a, ctx);
let b = dhall_to_tokenstream_bx(b, ctx);
- quote! { dhall_core::Expr::BinOp(#o, #a, #b) }
+ quote! { dhall_core::ExprF::BinOp(#o, #a, #b) }
}
NaturalLit(n) => {
- quote! { dhall_core::Expr::NaturalLit(#n) }
+ quote! { dhall_core::ExprF::NaturalLit(#n) }
}
BoolLit(b) => {
- quote! { dhall_core::Expr::BoolLit(#b) }
+ quote! { dhall_core::ExprF::BoolLit(#b) }
}
EmptyOptionalLit(x) => {
let x = dhall_to_tokenstream_bx(x, ctx);
- quote! { dhall_core::Expr::EmptyOptionalLit(#x) }
+ quote! { dhall_core::ExprF::EmptyOptionalLit(#x) }
}
NEOptionalLit(x) => {
let x = dhall_to_tokenstream_bx(x, ctx);
- quote! { dhall_core::Expr::NEOptionalLit(#x) }
+ quote! { dhall_core::ExprF::NEOptionalLit(#x) }
}
EmptyListLit(t) => {
let t = dhall_to_tokenstream_bx(t, ctx);
- quote! { dhall_core::Expr::EmptyListLit(#t) }
+ quote! { dhall_core::ExprF::EmptyListLit(#t) }
}
NEListLit(es) => {
let es = vec_to_tokenstream(es, ctx);
- quote! { dhall_core::Expr::NEListLit(#es) }
+ quote! { dhall_core::ExprF::NEListLit(#es) }
}
RecordType(m) => {
let m = map_to_tokenstream(m, ctx);
- quote! { dhall_core::Expr::RecordType(#m) }
+ quote! { dhall_core::ExprF::RecordType(#m) }
}
RecordLit(m) => {
let m = map_to_tokenstream(m, ctx);
- quote! { dhall_core::Expr::RecordLit(#m) }
+ quote! { dhall_core::ExprF::RecordLit(#m) }
}
UnionType(m) => {
let m = map_to_tokenstream(m, ctx);
- quote! { dhall_core::Expr::UnionType(#m) }
+ quote! { dhall_core::ExprF::UnionType(#m) }
}
e => unimplemented!("{:?}", e),
}
@@ -101,7 +101,7 @@ fn dhall_to_tokenstream_bx(
expr: &DhallExpr,
ctx: &Context<Label, ()>,
) -> TokenStream {
- use dhall_core::Expr::*;
+ use dhall_core::ExprF::*;
match expr.as_ref() {
Var(V(s, n)) => {
match ctx.lookup(&s, *n) {
@@ -109,7 +109,7 @@ fn dhall_to_tokenstream_bx(
Some(()) => {
let s: String = s.into();
let var = quote! { dhall_core::V(#s.into(), #n) };
- bx(quote! { dhall_core::Expr::Var(#var) })
+ bx(quote! { dhall_core::ExprF::Var(#var) })
}
// Free variable; interpolates as a rust variable
None => {
diff --git a/dhall_generator/src/dhall_type.rs b/dhall_generator/src/dhall_type.rs
index 270c27c..876d261 100644
--- a/dhall_generator/src/dhall_type.rs
+++ b/dhall_generator/src/dhall_type.rs
@@ -48,7 +48,7 @@ pub fn derive_for_struct(
);
}
});
- Ok(quote! { dhall_core::rc(dhall_core::Expr::RecordType({
+ Ok(quote! { dhall_core::rc(dhall_core::ExprF::RecordType({
use std::collections::BTreeMap;
let mut m = BTreeMap::new();
#(#fields)*
@@ -101,7 +101,7 @@ pub fn derive_for_enum(
})
.collect::<Result<Vec<_>, Error>>()?;
- Ok(quote! { dhall_core::rc(dhall_core::Expr::UnionType({
+ Ok(quote! { dhall_core::rc(dhall_core::ExprF::UnionType({
use std::collections::BTreeMap;
let mut m = BTreeMap::new();
#(#variants)*