diff options
Diffstat (limited to 'dhall/src/syntax')
| -rw-r--r-- | dhall/src/syntax/ast/expr.rs | 58 | ||||
| -rw-r--r-- | dhall/src/syntax/ast/visitor.rs | 30 | ||||
| -rw-r--r-- | dhall/src/syntax/binary/decode.rs | 2 | ||||
| -rw-r--r-- | dhall/src/syntax/binary/encode.rs | 44 | ||||
| -rw-r--r-- | dhall/src/syntax/text/parser.rs | 10 | ||||
| -rw-r--r-- | dhall/src/syntax/text/printer.rs | 17 |
6 files changed, 58 insertions, 103 deletions
diff --git a/dhall/src/syntax/ast/expr.rs b/dhall/src/syntax/ast/expr.rs index 420df5b..722630f 100644 --- a/dhall/src/syntax/ast/expr.rs +++ b/dhall/src/syntax/ast/expr.rs @@ -96,19 +96,19 @@ pub enum Builtin { // Each node carries an annotation. #[derive(Debug, Clone)] -pub struct Expr<Embed> { - kind: Box<ExprKind<Expr<Embed>, Embed>>, +pub struct Expr { + kind: Box<ExprKind<Expr>>, span: Span, } -pub type UnspannedExpr<Embed> = ExprKind<Expr<Embed>, Embed>; +pub type UnspannedExpr = ExprKind<Expr>; /// 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, Hash)] -pub enum ExprKind<SubExpr, Embed> { +pub enum ExprKind<SubExpr> { Const(Const), /// `x` /// `x@n` @@ -169,18 +169,13 @@ pub enum ExprKind<SubExpr, Embed> { Completion(SubExpr, SubExpr), /// `./some/path` Import(Import<SubExpr>), - /// Embeds the result of resolving an import - Embed(Embed), } -impl<SE, E> ExprKind<SE, E> { +impl<SE> ExprKind<SE> { pub fn traverse_ref_maybe_binder<'a, SE2, Err>( &'a self, visit: impl FnMut(Option<&'a Label>, &'a SE) -> Result<SE2, Err>, - ) -> Result<ExprKind<SE2, E>, Err> - where - E: Clone, - { + ) -> Result<ExprKind<SE2>, Err> { visitor::TraverseRefMaybeBinderVisitor(visit).visit(self) } @@ -188,10 +183,7 @@ impl<SE, E> ExprKind<SE, E> { &'a self, mut visit_subexpr: impl FnMut(&'a SE) -> Result<SE2, Err>, mut visit_under_binder: impl FnMut(&'a Label, &'a SE) -> Result<SE2, Err>, - ) -> Result<ExprKind<SE2, E>, Err> - where - E: Clone, - { + ) -> Result<ExprKind<SE2>, Err> { self.traverse_ref_maybe_binder(|l, x| match l { None => visit_subexpr(x), Some(l) => visit_under_binder(l, x), @@ -201,20 +193,14 @@ impl<SE, E> ExprKind<SE, E> { pub(crate) fn traverse_ref<'a, SE2, Err>( &'a self, mut visit_subexpr: impl FnMut(&'a SE) -> Result<SE2, Err>, - ) -> Result<ExprKind<SE2, E>, Err> - where - E: Clone, - { + ) -> Result<ExprKind<SE2>, Err> { self.traverse_ref_maybe_binder(|_, e| visit_subexpr(e)) } pub fn map_ref_maybe_binder<'a, SE2>( &'a self, mut map: impl FnMut(Option<&'a Label>, &'a SE) -> SE2, - ) -> ExprKind<SE2, E> - where - E: Clone, - { + ) -> ExprKind<SE2> { trivial_result(self.traverse_ref_maybe_binder(|l, x| Ok(map(l, x)))) } @@ -222,10 +208,7 @@ impl<SE, E> ExprKind<SE, E> { &'a self, mut map_subexpr: impl FnMut(&'a SE) -> SE2, mut map_under_binder: impl FnMut(&'a Label, &'a SE) -> SE2, - ) -> ExprKind<SE2, E> - where - E: Clone, - { + ) -> ExprKind<SE2> { self.map_ref_maybe_binder(|l, x| match l { None => map_subexpr(x), Some(l) => map_under_binder(l, x), @@ -235,33 +218,30 @@ impl<SE, E> ExprKind<SE, E> { pub fn map_ref<'a, SE2>( &'a self, mut map_subexpr: impl FnMut(&'a SE) -> SE2, - ) -> ExprKind<SE2, E> - where - E: Clone, - { + ) -> ExprKind<SE2> { self.map_ref_maybe_binder(|_, e| map_subexpr(e)) } } -impl<E> Expr<E> { - pub fn as_ref(&self) -> &UnspannedExpr<E> { +impl Expr { + pub fn as_ref(&self) -> &UnspannedExpr { &self.kind } - pub fn kind(&self) -> &UnspannedExpr<E> { + pub fn kind(&self) -> &UnspannedExpr { &self.kind } pub fn span(&self) -> Span { self.span.clone() } - pub fn new(kind: UnspannedExpr<E>, span: Span) -> Self { + pub fn new(kind: UnspannedExpr, span: Span) -> Self { Expr { kind: Box::new(kind), span, } } - pub fn rewrap<E2>(&self, kind: UnspannedExpr<E2>) -> Expr<E2> { + pub fn rewrap(&self, kind: UnspannedExpr) -> Expr { Expr { kind: Box::new(kind), span: self.span.clone(), @@ -317,15 +297,15 @@ impl From<Label> for V { } } -impl<Embed: PartialEq> std::cmp::PartialEq for Expr<Embed> { +impl std::cmp::PartialEq for Expr { fn eq(&self, other: &Self) -> bool { self.kind == other.kind } } -impl<Embed: Eq> std::cmp::Eq for Expr<Embed> {} +impl std::cmp::Eq for Expr {} -impl<Embed: std::hash::Hash> std::hash::Hash for Expr<Embed> { +impl std::hash::Hash for Expr { fn hash<H>(&self, state: &mut H) where H: std::hash::Hasher, diff --git a/dhall/src/syntax/ast/visitor.rs b/dhall/src/syntax/ast/visitor.rs index c09b8d4..fc90efd 100644 --- a/dhall/src/syntax/ast/visitor.rs +++ b/dhall/src/syntax/ast/visitor.rs @@ -10,11 +10,10 @@ use crate::syntax::*; /// preventing exactly this ! So we have to be more clever. The visitor pattern allows us to have /// only one mutable thing the whole time: the visitor itself. The visitor can then carry around /// multiple closures or just one, and Rust is ok with either. See for example TraverseRefVisitor. -pub trait ExprKindVisitor<'a, SE1, SE2, E1, E2>: Sized { +pub trait ExprKindVisitor<'a, SE1, SE2>: Sized { type Error; fn visit_subexpr(&mut self, subexpr: &'a SE1) -> Result<SE2, Self::Error>; - fn visit_embed(self, embed: &'a E1) -> Result<E2, Self::Error>; fn visit_subexpr_under_binder( mut self, @@ -26,18 +25,18 @@ pub trait ExprKindVisitor<'a, SE1, SE2, E1, E2>: Sized { fn visit( self, - input: &'a ExprKind<SE1, E1>, - ) -> Result<ExprKind<SE2, E2>, Self::Error> { + input: &'a ExprKind<SE1>, + ) -> Result<ExprKind<SE2>, Self::Error> { visit_ref(self, input) } } -fn visit_ref<'a, V, SE1, SE2, E1, E2>( +fn visit_ref<'a, V, SE1, SE2>( mut v: V, - input: &'a ExprKind<SE1, E1>, -) -> Result<ExprKind<SE2, E2>, V::Error> + input: &'a ExprKind<SE1>, +) -> Result<ExprKind<SE2>, V::Error> where - V: ExprKindVisitor<'a, SE1, SE2, E1, E2>, + V: ExprKindVisitor<'a, SE1, SE2>, { fn vec<'a, T, U, Err, F: FnMut(&'a T) -> Result<U, Err>>( x: &'a [T], @@ -54,27 +53,27 @@ where None => None, }) } - fn dupmap<'a, V, SE1, SE2, E1, E2, T>( + fn dupmap<'a, V, SE1, SE2, T>( x: impl IntoIterator<Item = (&'a Label, &'a SE1)>, mut v: V, ) -> Result<T, V::Error> where SE1: 'a, T: FromIterator<(Label, SE2)>, - V: ExprKindVisitor<'a, SE1, SE2, E1, E2>, + V: ExprKindVisitor<'a, SE1, SE2>, { x.into_iter() .map(|(k, x)| Ok((k.clone(), v.visit_subexpr(x)?))) .collect() } - fn optdupmap<'a, V, SE1, SE2, E1, E2, T>( + fn optdupmap<'a, V, SE1, SE2, T>( x: impl IntoIterator<Item = (&'a Label, &'a Option<SE1>)>, mut v: V, ) -> Result<T, V::Error> where SE1: 'a, T: FromIterator<(Label, Option<SE2>)>, - V: ExprKindVisitor<'a, SE1, SE2, E1, E2>, + V: ExprKindVisitor<'a, SE1, SE2>, { x.into_iter() .map(|(k, x)| { @@ -147,17 +146,15 @@ where } Assert(e) => Assert(v.visit_subexpr(e)?), Import(i) => Import(i.traverse_ref(|e| v.visit_subexpr(e))?), - Embed(a) => Embed(v.visit_embed(a)?), }) } pub struct TraverseRefMaybeBinderVisitor<F>(pub F); -impl<'a, SE, E, SE2, Err, F> ExprKindVisitor<'a, SE, SE2, E, E> +impl<'a, SE, SE2, Err, F> ExprKindVisitor<'a, SE, SE2> for TraverseRefMaybeBinderVisitor<F> where SE: 'a, - E: 'a + Clone, F: FnMut(Option<&'a Label>, &'a SE) -> Result<SE2, Err>, { type Error = Err; @@ -172,7 +169,4 @@ where ) -> Result<SE2, Self::Error> { (self.0)(Some(label), subexpr) } - fn visit_embed(self, embed: &'a E) -> Result<E, Self::Error> { - Ok(embed.clone()) - } } diff --git a/dhall/src/syntax/binary/decode.rs b/dhall/src/syntax/binary/decode.rs index 52b699c..6fbcc10 100644 --- a/dhall/src/syntax/binary/decode.rs +++ b/dhall/src/syntax/binary/decode.rs @@ -19,7 +19,7 @@ pub(crate) fn decode(data: &[u8]) -> Result<DecodedExpr, DecodeError> { } // Should probably rename this -fn rc<E>(x: UnspannedExpr<E>) -> Expr<E> { +fn rc(x: UnspannedExpr) -> Expr { Expr::new(x, Span::Decoded) } diff --git a/dhall/src/syntax/binary/encode.rs b/dhall/src/syntax/binary/encode.rs index 5e79f2d..686f737 100644 --- a/dhall/src/syntax/binary/encode.rs +++ b/dhall/src/syntax/binary/encode.rs @@ -9,17 +9,16 @@ use crate::syntax::{ Label, Scheme, V, }; -/// Warning: will fail if `expr` contains an `Embed` node. -pub(crate) fn encode<E>(expr: &Expr<E>) -> Result<Vec<u8>, EncodeError> { +pub(crate) fn encode(expr: &Expr) -> Result<Vec<u8>, EncodeError> { serde_cbor::ser::to_vec(&Serialize::Expr(expr)) .map_err(|e| EncodeError::CBORError(e)) } -enum Serialize<'a, E> { - Expr(&'a Expr<E>), +enum Serialize<'a> { + Expr(&'a Expr), CBOR(cbor::Value), - RecordMap(&'a DupTreeMap<Label, Expr<E>>), - UnionMap(&'a DupTreeMap<Label, Option<Expr<E>>>), + RecordMap(&'a DupTreeMap<Label, Expr>), + UnionMap(&'a DupTreeMap<Label, Option<Expr>>), } macro_rules! count { @@ -39,7 +38,7 @@ macro_rules! ser_seq { }}; } -fn serialize_subexpr<S, E>(ser: S, e: &Expr<E>) -> Result<S::Ok, S::Error> +fn serialize_subexpr<S>(ser: S, e: &Expr) -> Result<S::Ok, S::Error> where S: serde::ser::Serializer, { @@ -49,11 +48,11 @@ where use syntax::ExprKind::*; use self::Serialize::{RecordMap, UnionMap}; - fn expr<E>(x: &Expr<E>) -> self::Serialize<'_, E> { + fn expr(x: &Expr) -> self::Serialize<'_> { self::Serialize::Expr(x) } let cbor = - |v: cbor::Value| -> self::Serialize<'_, E> { self::Serialize::CBOR(v) }; + |v: cbor::Value| -> self::Serialize<'_> { self::Serialize::CBOR(v) }; let tag = |x: u64| cbor(U64(x)); let null = || cbor(cbor::Value::Null); let label = |l: &Label| cbor(cbor::Value::String(l.into())); @@ -166,16 +165,10 @@ where } Completion(x, y) => ser_seq!(ser; tag(3), tag(13), expr(x), expr(y)), Import(import) => serialize_import(ser, import), - Embed(_) => unimplemented!( - "An expression with resolved imports cannot be binary-encoded" - ), } } -fn serialize_import<S, E>( - ser: S, - import: &Import<Expr<E>>, -) -> Result<S::Ok, S::Error> +fn serialize_import<S>(ser: S, import: &Import<Expr>) -> Result<S::Ok, S::Error> where S: serde::ser::Serializer, { @@ -256,7 +249,7 @@ where ser_seq.end() } -impl<'a, E> serde::ser::Serialize for Serialize<'a, E> { +impl<'a> serde::ser::Serialize for Serialize<'a> { fn serialize<S>(&self, ser: S) -> Result<S::Ok, S::Error> where S: serde::ser::Serializer, @@ -282,10 +275,8 @@ impl<'a, E> serde::ser::Serialize for Serialize<'a, E> { } } -fn collect_nested_applications<'a, E>( - e: &'a Expr<E>, -) -> (&'a Expr<E>, Vec<&'a Expr<E>>) { - fn go<'a, E>(e: &'a Expr<E>, vec: &mut Vec<&'a Expr<E>>) -> &'a Expr<E> { +fn collect_nested_applications<'a>(e: &'a Expr) -> (&'a Expr, Vec<&'a Expr>) { + fn go<'a>(e: &'a Expr, vec: &mut Vec<&'a Expr>) -> &'a Expr { match e.as_ref() { ExprKind::App(f, a) => { vec.push(a); @@ -299,15 +290,10 @@ fn collect_nested_applications<'a, E>( (e, vec) } -type LetBinding<'a, E> = (&'a Label, &'a Option<Expr<E>>, &'a Expr<E>); +type LetBinding<'a> = (&'a Label, &'a Option<Expr>, &'a Expr); -fn collect_nested_lets<'a, E>( - e: &'a Expr<E>, -) -> (&'a Expr<E>, Vec<LetBinding<'a, E>>) { - fn go<'a, E>( - e: &'a Expr<E>, - vec: &mut Vec<LetBinding<'a, E>>, - ) -> &'a Expr<E> { +fn collect_nested_lets<'a>(e: &'a Expr) -> (&'a Expr, Vec<LetBinding<'a>>) { + fn go<'a>(e: &'a Expr, vec: &mut Vec<LetBinding<'a>>) -> &'a Expr { match e.as_ref() { ExprKind::Let(l, t, v, e) => { vec.push((l, t, v)); diff --git a/dhall/src/syntax/text/parser.rs b/dhall/src/syntax/text/parser.rs index 8d571c0..0ff1363 100644 --- a/dhall/src/syntax/text/parser.rs +++ b/dhall/src/syntax/text/parser.rs @@ -5,23 +5,19 @@ use std::rc::Rc; use pest_consume::{match_nodes, Parser}; -use crate::syntax; use crate::syntax::map::{DupTreeMap, DupTreeSet}; use crate::syntax::ExprKind::*; use crate::syntax::{ - Double, FilePath, FilePrefix, Hash, ImportLocation, ImportMode, Integer, - InterpolatedText, InterpolatedTextContents, Label, NaiveDouble, Natural, - Scheme, Span, URL, V, + Double, Expr, FilePath, FilePrefix, Hash, ImportLocation, ImportMode, + Integer, InterpolatedText, InterpolatedTextContents, Label, NaiveDouble, + Natural, Scheme, Span, UnspannedExpr, URL, V, }; -use crate::Normalized; // This file consumes the parse tree generated by pest and turns it into // our own AST. All those custom macros should eventually moved into // 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 Expr = syntax::Expr<Normalized>; -type UnspannedExpr = syntax::UnspannedExpr<Normalized>; type ParsedText = InterpolatedText<Expr>; type ParsedTextContents = InterpolatedTextContents<Expr>; type ParseInput<'input> = pest_consume::Node<'input, Rule, Rc<str>>; diff --git a/dhall/src/syntax/text/printer.rs b/dhall/src/syntax/text/printer.rs index 06dd70f..d1c9588 100644 --- a/dhall/src/syntax/text/printer.rs +++ b/dhall/src/syntax/text/printer.rs @@ -19,17 +19,17 @@ enum PrintPhase { // Wraps an Expr with a phase, so that phase selection can be done separate from the actual // printing. #[derive(Clone)] -struct PhasedExpr<'a, E>(&'a Expr<E>, PrintPhase); +struct PhasedExpr<'a>(&'a Expr, PrintPhase); -impl<'a, E: Display + Clone> PhasedExpr<'a, E> { - fn phase(self, phase: PrintPhase) -> PhasedExpr<'a, E> { +impl<'a> PhasedExpr<'a> { + fn phase(self, phase: PrintPhase) -> PhasedExpr<'a> { PhasedExpr(self.0, phase) } } -impl<E: Display + Clone> UnspannedExpr<E> { +impl UnspannedExpr { // Annotate subexpressions with the appropriate phase, defaulting to Base - fn annotate_with_phases<'a>(&'a self) -> ExprKind<PhasedExpr<'a, E>, E> { + fn annotate_with_phases<'a>(&'a self) -> ExprKind<PhasedExpr<'a>> { use crate::syntax::ExprKind::*; use PrintPhase::*; let with_base = self.map_ref(|e| PhasedExpr(e, Base)); @@ -134,7 +134,7 @@ where } /// Generic instance that delegates to subexpressions -impl<SE: Display + Clone, E: Display> Display for ExprKind<SE, E> { +impl<SE: Display + Clone> Display for ExprKind<SE> { fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> { use crate::syntax::ExprKind::*; match self { @@ -232,19 +232,18 @@ impl<SE: Display + Clone, E: Display> Display for ExprKind<SE, E> { write!(f, "{}::{}", a, b)?; } Import(a) => a.fmt(f)?, - Embed(a) => a.fmt(f)?, } Ok(()) } } -impl<E: Display + Clone> Display for Expr<E> { +impl Display for Expr { fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> { self.as_ref().fmt_phase(f, PrintPhase::Base) } } -impl<'a, E: Display + Clone> Display for PhasedExpr<'a, E> { +impl<'a> Display for PhasedExpr<'a> { fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> { self.0.as_ref().fmt_phase(f, self.1) } |