diff options
| author | Nadrieril | 2020-04-07 11:53:58 +0100 |
|---|---|---|
| committer | Nadrieril | 2020-04-07 11:53:58 +0100 |
| commit | 08079e08dd9ffaa6b77ea3ce70aa96da7eb1df26 (patch) | |
| tree | 057e6186a9938b697d0939bec2c5ca0d7a7664ef /dhall/src/operations | |
| parent | 5bf1a00fab1bb10b8e8e2b20d9c53b5c75910253 (diff) | |
Split operations module into submodules
Diffstat (limited to 'dhall/src/operations')
| -rw-r--r-- | dhall/src/operations/kind.rs | 97 | ||||
| -rw-r--r-- | dhall/src/operations/mod.rs | 6 | ||||
| -rw-r--r-- | dhall/src/operations/normalization.rs | 306 | ||||
| -rw-r--r-- | dhall/src/operations/typecheck.rs | 510 |
4 files changed, 919 insertions, 0 deletions
diff --git a/dhall/src/operations/kind.rs b/dhall/src/operations/kind.rs new file mode 100644 index 0000000..5415637 --- /dev/null +++ b/dhall/src/operations/kind.rs @@ -0,0 +1,97 @@ +use std::collections::BTreeSet; + +use crate::syntax::{trivial_result, Label}; + +// Definition order must match precedence order for +// pretty-printing to work correctly +#[derive(Debug, Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash)] +pub enum BinOp { + /// `x ? y` + ImportAlt, + /// `x || y` + BoolOr, + /// `x + y` + NaturalPlus, + /// `x ++ y` + TextAppend, + /// `x # y` + ListAppend, + /// `x && y` + BoolAnd, + /// `x ∧ y` + RecursiveRecordMerge, + /// `x ⫽ y` + RightBiasedRecordMerge, + /// `x ⩓ y` + RecursiveRecordTypeMerge, + /// `x * y` + NaturalTimes, + /// `x == y` + BoolEQ, + /// `x != y` + BoolNE, + /// x === y + Equivalence, +} + +/// Operations +#[derive(Debug, Clone, PartialEq, Eq, PartialOrd, Ord, Hash)] +pub enum OpKind<SubExpr> { + /// `f a` + App(SubExpr, SubExpr), + /// Binary operations + BinOp(BinOp, SubExpr, SubExpr), + /// `if x then y else z` + BoolIf(SubExpr, SubExpr, SubExpr), + /// `merge x y : t` + Merge(SubExpr, SubExpr, Option<SubExpr>), + /// `toMap x : t` + ToMap(SubExpr, Option<SubExpr>), + /// `e.x` + Field(SubExpr, Label), + /// `e.{ x, y, z }` + Projection(SubExpr, BTreeSet<Label>), + /// `e.(t)` + ProjectionByExpr(SubExpr, SubExpr), + /// `x::y` + Completion(SubExpr, SubExpr), +} + +impl<SE> OpKind<SE> { + pub fn traverse_ref<'a, SE2, Err>( + &'a self, + mut f: impl FnMut(&'a SE) -> Result<SE2, Err>, + ) -> Result<OpKind<SE2>, Err> { + // Can't use closures because of borrowing rules + macro_rules! expr { + ($e:expr) => { + f($e)? + }; + } + macro_rules! opt { + ($e:expr) => { + $e.as_ref().map(|e| Ok(expr!(e))).transpose()? + }; + } + + use OpKind::*; + Ok(match self { + App(f, a) => App(expr!(f), expr!(a)), + BinOp(o, x, y) => BinOp(*o, expr!(x), expr!(y)), + BoolIf(b, t, f) => BoolIf(expr!(b), expr!(t), expr!(f)), + Merge(x, y, t) => Merge(expr!(x), expr!(y), opt!(t)), + ToMap(x, t) => ToMap(expr!(x), opt!(t)), + Field(e, l) => Field(expr!(e), l.clone()), + Projection(e, ls) => Projection(expr!(e), ls.clone()), + ProjectionByExpr(e, x) => ProjectionByExpr(expr!(e), expr!(x)), + Completion(e, x) => Completion(expr!(e), expr!(x)), + }) + } + + pub fn map_ref<'a, SE2>( + &'a self, + mut f: impl FnMut(&'a SE) -> SE2, + ) -> OpKind<SE2> { + trivial_result(self.traverse_ref(|x| Ok(f(x)))) + } +} diff --git a/dhall/src/operations/mod.rs b/dhall/src/operations/mod.rs new file mode 100644 index 0000000..1a3b65b --- /dev/null +++ b/dhall/src/operations/mod.rs @@ -0,0 +1,6 @@ +mod kind; +mod normalization; +mod typecheck; +pub use kind::*; +pub use normalization::*; +pub use typecheck::*; diff --git a/dhall/src/operations/normalization.rs b/dhall/src/operations/normalization.rs new file mode 100644 index 0000000..e3a9415 --- /dev/null +++ b/dhall/src/operations/normalization.rs @@ -0,0 +1,306 @@ +use itertools::Itertools; +use std::collections::HashMap; +use std::iter::once; + +use crate::operations::{BinOp, OpKind}; +use crate::semantics::{ + merge_maps, ret_kind, ret_op, ret_ref, Nir, NirKind, Ret, TextLit, +}; +use crate::syntax::{ExprKind, Label, NumKind}; + +fn normalize_binop(o: BinOp, x: &Nir, y: &Nir) -> Ret { + use BinOp::*; + use NirKind::{EmptyListLit, NEListLit, Num, RecordLit, RecordType}; + use NumKind::{Bool, Natural}; + + match (o, x.kind(), y.kind()) { + (BoolAnd, Num(Bool(true)), _) => ret_ref(y), + (BoolAnd, _, Num(Bool(true))) => ret_ref(x), + (BoolAnd, Num(Bool(false)), _) => ret_kind(Num(Bool(false))), + (BoolAnd, _, Num(Bool(false))) => ret_kind(Num(Bool(false))), + (BoolAnd, _, _) if x == y => ret_ref(x), + (BoolOr, Num(Bool(true)), _) => ret_kind(Num(Bool(true))), + (BoolOr, _, Num(Bool(true))) => ret_kind(Num(Bool(true))), + (BoolOr, Num(Bool(false)), _) => ret_ref(y), + (BoolOr, _, Num(Bool(false))) => ret_ref(x), + (BoolOr, _, _) if x == y => ret_ref(x), + (BoolEQ, Num(Bool(true)), _) => ret_ref(y), + (BoolEQ, _, Num(Bool(true))) => ret_ref(x), + (BoolEQ, Num(Bool(x)), Num(Bool(y))) => ret_kind(Num(Bool(x == y))), + (BoolEQ, _, _) if x == y => ret_kind(Num(Bool(true))), + (BoolNE, Num(Bool(false)), _) => ret_ref(y), + (BoolNE, _, Num(Bool(false))) => ret_ref(x), + (BoolNE, Num(Bool(x)), Num(Bool(y))) => ret_kind(Num(Bool(x != y))), + (BoolNE, _, _) if x == y => ret_kind(Num(Bool(false))), + + (NaturalPlus, Num(Natural(0)), _) => ret_ref(y), + (NaturalPlus, _, Num(Natural(0))) => ret_ref(x), + (NaturalPlus, Num(Natural(x)), Num(Natural(y))) => { + ret_kind(Num(Natural(x + y))) + } + (NaturalTimes, Num(Natural(0)), _) => ret_kind(Num(Natural(0))), + (NaturalTimes, _, Num(Natural(0))) => ret_kind(Num(Natural(0))), + (NaturalTimes, Num(Natural(1)), _) => ret_ref(y), + (NaturalTimes, _, Num(Natural(1))) => ret_ref(x), + (NaturalTimes, Num(Natural(x)), Num(Natural(y))) => { + ret_kind(Num(Natural(x * y))) + } + + (ListAppend, EmptyListLit(_), _) => ret_ref(y), + (ListAppend, _, EmptyListLit(_)) => ret_ref(x), + (ListAppend, NEListLit(xs), NEListLit(ys)) => { + ret_kind(NEListLit(xs.iter().chain(ys.iter()).cloned().collect())) + } + + (TextAppend, NirKind::TextLit(x), _) if x.is_empty() => ret_ref(y), + (TextAppend, _, NirKind::TextLit(y)) if y.is_empty() => ret_ref(x), + (TextAppend, NirKind::TextLit(x), NirKind::TextLit(y)) => { + ret_kind(NirKind::TextLit(x.concat(y))) + } + (TextAppend, NirKind::TextLit(x), _) => ret_kind(NirKind::TextLit( + x.concat(&TextLit::interpolate(y.clone())), + )), + (TextAppend, _, NirKind::TextLit(y)) => ret_kind(NirKind::TextLit( + TextLit::interpolate(x.clone()).concat(y), + )), + + (RightBiasedRecordMerge, _, RecordLit(kvs)) if kvs.is_empty() => { + ret_ref(x) + } + (RightBiasedRecordMerge, RecordLit(kvs), _) if kvs.is_empty() => { + ret_ref(y) + } + (RightBiasedRecordMerge, RecordLit(kvs1), RecordLit(kvs2)) => { + let mut kvs = kvs2.clone(); + for (x, v) in kvs1 { + // Insert only if key not already present + kvs.entry(x.clone()).or_insert_with(|| v.clone()); + } + ret_kind(RecordLit(kvs)) + } + (RightBiasedRecordMerge, _, _) if x == y => ret_ref(y), + + (RecursiveRecordMerge, _, RecordLit(kvs)) if kvs.is_empty() => { + ret_ref(x) + } + (RecursiveRecordMerge, RecordLit(kvs), _) if kvs.is_empty() => { + ret_ref(y) + } + (RecursiveRecordMerge, RecordLit(kvs1), RecordLit(kvs2)) => { + let kvs = merge_maps(kvs1, kvs2, |_, v1, v2| { + Nir::from_partial_expr(ExprKind::Op(OpKind::BinOp( + RecursiveRecordMerge, + v1.clone(), + v2.clone(), + ))) + }); + ret_kind(RecordLit(kvs)) + } + + (RecursiveRecordTypeMerge, RecordType(kts_x), RecordType(kts_y)) => { + let kts = merge_maps( + kts_x, + kts_y, + // If the Label exists for both records, then we hit the recursive case. + |_, l: &Nir, r: &Nir| { + Nir::from_partial_expr(ExprKind::Op(OpKind::BinOp( + RecursiveRecordTypeMerge, + l.clone(), + r.clone(), + ))) + }, + ); + ret_kind(RecordType(kts)) + } + + (Equivalence, _, _) => { + ret_kind(NirKind::Equivalence(x.clone(), y.clone())) + } + + _ => ret_op(OpKind::BinOp(o, x.clone(), y.clone())), + } +} + +fn normalize_field(v: &Nir, field: &Label) -> Ret { + use self::BinOp::{RecursiveRecordMerge, RightBiasedRecordMerge}; + use NirKind::{Op, RecordLit, UnionConstructor, UnionType}; + use OpKind::{BinOp, Field, Projection}; + let nothing_to_do = || ret_op(Field(v.clone(), field.clone())); + + match v.kind() { + RecordLit(kvs) => match kvs.get(field) { + Some(r) => ret_ref(r), + None => nothing_to_do(), + }, + UnionType(kts) => { + ret_kind(UnionConstructor(field.clone(), kts.clone())) + } + Op(Projection(x, _)) => normalize_field(x, field), + Op(BinOp(RightBiasedRecordMerge, x, y)) => match (x.kind(), y.kind()) { + (_, RecordLit(kvs)) => match kvs.get(field) { + Some(r) => ret_ref(r), + None => normalize_field(x, field), + }, + (RecordLit(kvs), _) => match kvs.get(field) { + Some(r) => ret_op(Field( + Nir::from_kind(Op(BinOp( + RightBiasedRecordMerge, + Nir::from_kind(RecordLit( + once((field.clone(), r.clone())).collect(), + )), + y.clone(), + ))), + field.clone(), + )), + None => normalize_field(y, field), + }, + _ => nothing_to_do(), + }, + Op(BinOp(RecursiveRecordMerge, x, y)) => match (x.kind(), y.kind()) { + (RecordLit(kvs), _) => match kvs.get(field) { + Some(r) => ret_op(Field( + Nir::from_kind(Op(BinOp( + RecursiveRecordMerge, + Nir::from_kind(RecordLit( + once((field.clone(), r.clone())).collect(), + )), + y.clone(), + ))), + field.clone(), + )), + None => normalize_field(y, field), + }, + (_, RecordLit(kvs)) => match kvs.get(field) { + Some(r) => ret_op(Field( + Nir::from_kind(Op(BinOp( + RecursiveRecordMerge, + x.clone(), + Nir::from_kind(RecordLit( + once((field.clone(), r.clone())).collect(), + )), + ))), + field.clone(), + )), + None => normalize_field(x, field), + }, + _ => nothing_to_do(), + }, + _ => nothing_to_do(), + } +} + +pub fn normalize_operation(opkind: &OpKind<Nir>) -> Ret { + use self::BinOp::RightBiasedRecordMerge; + use NirKind::{ + EmptyListLit, EmptyOptionalLit, NEListLit, NEOptionalLit, Num, Op, + RecordLit, RecordType, UnionConstructor, UnionLit, + }; + use NumKind::Bool; + use OpKind::*; + let nothing_to_do = || ret_op(opkind.clone()); + + match opkind { + App(v, a) => ret_kind(v.app_to_kind(a.clone())), + BinOp(o, x, y) => normalize_binop(*o, x, y), + BoolIf(b, e1, e2) => { + match b.kind() { + Num(Bool(true)) => ret_ref(e1), + Num(Bool(false)) => ret_ref(e2), + _ => { + match (e1.kind(), e2.kind()) { + // Simplify `if b then True else False` + (Num(Bool(true)), Num(Bool(false))) => ret_ref(b), + _ if e1 == e2 => ret_ref(e1), + _ => nothing_to_do(), + } + } + } + } + Merge(handlers, variant, _) => match handlers.kind() { + RecordLit(kvs) => match variant.kind() { + UnionConstructor(l, _) => match kvs.get(l) { + Some(h) => ret_ref(h), + None => nothing_to_do(), + }, + UnionLit(l, v, _) => match kvs.get(l) { + Some(h) => ret_kind(h.app_to_kind(v.clone())), + None => nothing_to_do(), + }, + EmptyOptionalLit(_) => match kvs.get(&"None".into()) { + Some(h) => ret_ref(h), + None => nothing_to_do(), + }, + NEOptionalLit(v) => match kvs.get(&"Some".into()) { + Some(h) => ret_kind(h.app_to_kind(v.clone())), + None => nothing_to_do(), + }, + _ => nothing_to_do(), + }, + _ => nothing_to_do(), + }, + ToMap(v, annot) => match v.kind() { + RecordLit(kvs) if kvs.is_empty() => { + match annot.as_ref().map(|v| v.kind()) { + Some(NirKind::ListType(t)) => { + ret_kind(EmptyListLit(t.clone())) + } + _ => nothing_to_do(), + } + } + RecordLit(kvs) => ret_kind(NEListLit( + kvs.iter() + .sorted_by_key(|(k, _)| *k) + .map(|(k, v)| { + let mut rec = HashMap::new(); + rec.insert("mapKey".into(), Nir::from_text(k)); + rec.insert("mapValue".into(), v.clone()); + Nir::from_kind(NirKind::RecordLit(rec)) + }) + .collect(), + )), + _ => nothing_to_do(), + }, + Field(v, field) => normalize_field(v, field), + Projection(_, ls) if ls.is_empty() => { + ret_kind(RecordLit(HashMap::new())) + } + Projection(v, ls) => match v.kind() { + RecordLit(kvs) => ret_kind(RecordLit( + ls.iter() + .filter_map(|l| kvs.get(l).map(|x| (l.clone(), x.clone()))) + .collect(), + )), + Op(Projection(v2, _)) => { + normalize_operation(&Projection(v2.clone(), ls.clone())) + } + Op(BinOp(RightBiasedRecordMerge, l, r)) => match r.kind() { + RecordLit(kvs) => { + let r_keys = kvs.keys().cloned().collect(); + normalize_operation(&BinOp( + RightBiasedRecordMerge, + Nir::from_partial_expr(ExprKind::Op(Projection( + l.clone(), + ls.difference(&r_keys).cloned().collect(), + ))), + Nir::from_partial_expr(ExprKind::Op(Projection( + r.clone(), + ls.intersection(&r_keys).cloned().collect(), + ))), + )) + } + _ => nothing_to_do(), + }, + _ => nothing_to_do(), + }, + ProjectionByExpr(v, t) => match t.kind() { + RecordType(kts) => normalize_operation(&Projection( + v.clone(), + kts.keys().cloned().collect(), + )), + _ => nothing_to_do(), + }, + Completion(..) => { + unreachable!("This case should have been handled in resolution") + } + } +} diff --git a/dhall/src/operations/typecheck.rs b/dhall/src/operations/typecheck.rs new file mode 100644 index 0000000..91d5059 --- /dev/null +++ b/dhall/src/operations/typecheck.rs @@ -0,0 +1,510 @@ +use std::borrow::Cow; +use std::cmp::max; +use std::collections::HashMap; + +use crate::builtins::Builtin; +use crate::error::{ErrorBuilder, TypeError}; +use crate::operations::{BinOp, OpKind}; +use crate::semantics::{ + merge_maps, mk_span_err, mkerr, Binder, Closure, Hir, HirKind, Nir, + NirKind, Tir, TyEnv, Type, +}; +use crate::syntax::{Const, ExprKind, Span}; + +fn check_rectymerge( + span: &Span, + env: &TyEnv, + x: Nir, + y: Nir, +) -> Result<(), TypeError> { + let kts_x = match x.kind() { + NirKind::RecordType(kts) => kts, + _ => { + return mk_span_err( + span.clone(), + "RecordTypeMergeRequiresRecordType", + ) + } + }; + let kts_y = match y.kind() { + NirKind::RecordType(kts) => kts, + _ => { + return mk_span_err( + span.clone(), + "RecordTypeMergeRequiresRecordType", + ) + } + }; + for (k, tx) in kts_x { + if let Some(ty) = kts_y.get(k) { + // TODO: store Type in RecordType ? + check_rectymerge(span, env, tx.clone(), ty.clone())?; + } + } + Ok(()) +} + +fn typecheck_binop( + env: &TyEnv, + span: Span, + op: BinOp, + l: &Tir<'_>, + r: &Tir<'_>, +) -> Result<Type, TypeError> { + let span_err = |msg: &str| mk_span_err(span.clone(), msg); + use BinOp::*; + use NirKind::{ListType, RecordType}; + + Ok(match op { + RightBiasedRecordMerge => { + let x_type = l.ty(); + let y_type = r.ty(); + + // Extract the LHS record type + let kts_x = match x_type.kind() { + RecordType(kts) => kts, + _ => return span_err("MustCombineRecord"), + }; + // Extract the RHS record type + let kts_y = match y_type.kind() { + RecordType(kts) => kts, + _ => return span_err("MustCombineRecord"), + }; + + // Union the two records, prefering + // the values found in the RHS. + let kts = merge_maps(kts_x, kts_y, |_, _, r_t| r_t.clone()); + + let u = max(l.ty().ty(), r.ty().ty()); + Nir::from_kind(RecordType(kts)).to_type(u) + } + RecursiveRecordMerge => { + check_rectymerge(&span, env, l.ty().to_nir(), r.ty().to_nir())?; + + let hir = Hir::new( + HirKind::Expr(ExprKind::Op(OpKind::BinOp( + RecursiveRecordTypeMerge, + l.ty().to_hir(env.as_varenv()), + r.ty().to_hir(env.as_varenv()), + ))), + span.clone(), + ); + let x_u = l.ty().ty(); + let y_u = r.ty().ty(); + Type::new(hir.eval(env), max(x_u, y_u)) + } + RecursiveRecordTypeMerge => { + check_rectymerge(&span, env, l.eval(env), r.eval(env))?; + + // A RecordType's type is always a const + let xk = l.ty().as_const().unwrap(); + let yk = r.ty().as_const().unwrap(); + Type::from_const(max(xk, yk)) + } + ListAppend => { + match l.ty().kind() { + ListType(..) => {} + _ => return span_err("BinOpTypeMismatch"), + } + + if l.ty() != r.ty() { + return span_err("BinOpTypeMismatch"); + } + + l.ty().clone() + } + Equivalence => { + if l.ty() != r.ty() { + return span_err("EquivalenceTypeMismatch"); + } + if l.ty().ty().as_const() != Some(Const::Type) { + return span_err("EquivalenceArgumentsMustBeTerms"); + } + + Type::from_const(Const::Type) + } + op => { + let t = Type::from_builtin(match op { + BoolAnd | BoolOr | BoolEQ | BoolNE => Builtin::Bool, + NaturalPlus | NaturalTimes => Builtin::Natural, + TextAppend => Builtin::Text, + ListAppend + | RightBiasedRecordMerge + | RecursiveRecordMerge + | RecursiveRecordTypeMerge + | Equivalence => unreachable!(), + ImportAlt => unreachable!("ImportAlt leftover in tck"), + }); + + if *l.ty() != t { + return span_err("BinOpTypeMismatch"); + } + + if *r.ty() != t { + return span_err("BinOpTypeMismatch"); + } + + t + } + }) +} + +fn typecheck_merge( + env: &TyEnv, + span: Span, + record: &Tir<'_>, + scrut: &Tir<'_>, + type_annot: Option<&Tir<'_>>, +) -> Result<Type, TypeError> { + let span_err = |msg: &str| mk_span_err(span.clone(), msg); + use NirKind::{OptionalType, PiClosure, RecordType, UnionType}; + + let record_type = record.ty(); + let handlers = match record_type.kind() { + RecordType(kts) => kts, + _ => return span_err("Merge1ArgMustBeRecord"), + }; + + let scrut_type = scrut.ty(); + let variants = match scrut_type.kind() { + UnionType(kts) => Cow::Borrowed(kts), + OptionalType(ty) => { + let mut kts = HashMap::new(); + kts.insert("None".into(), None); + kts.insert("Some".into(), Some(ty.clone())); + Cow::Owned(kts) + } + _ => return span_err("Merge2ArgMustBeUnionOrOptional"), + }; + + let mut inferred_type = None; + for (x, handler_type) in handlers { + let handler_return_type: Type = match variants.get(x) { + // Union alternative with type + Some(Some(variant_type)) => match handler_type.kind() { + PiClosure { closure, annot, .. } => { + if variant_type != annot { + return mkerr( + ErrorBuilder::new(format!( + "Wrong handler input type" + )) + .span_err( + span, + format!("in this merge expression",), + ) + .span_err( + record.span(), + format!( + "the handler for `{}` expects a value of \ + type: `{}`", + x, + annot.to_expr_tyenv(env) + ), + ) + .span_err( + scrut.span(), + format!( + "but the corresponding variant has type: \ + `{}`", + variant_type.to_expr_tyenv(env) + ), + ) + .format(), + ); + } + + // TODO: this actually doesn't check anything yet + match closure.remove_binder() { + Ok(v) => Type::new_infer_universe(env, v.clone())?, + Err(()) => { + return span_err("MergeReturnTypeIsDependent") + } + } + } + _ => { + return mkerr( + ErrorBuilder::new(format!( + "merge handler is not a function" + )) + .span_err(span, format!("in this merge expression")) + .span_err( + record.span(), + format!( + "the handler for `{}` has type: `{}`", + x, + handler_type.to_expr_tyenv(env) + ), + ) + .span_help( + scrut.span(), + format!( + "the corresponding variant has type: `{}`", + variant_type.to_expr_tyenv(env) + ), + ) + .help(format!( + "a handler for this variant must be a function \ + that takes an input of type: `{}`", + variant_type.to_expr_tyenv(env) + )) + .format(), + ) + } + }, + // Union alternative without type + Some(None) => Type::new_infer_universe(env, handler_type.clone())?, + None => return span_err("MergeHandlerMissingVariant"), + }; + match &inferred_type { + None => inferred_type = Some(handler_return_type), + Some(t) => { + if t != &handler_return_type { + return span_err("MergeHandlerTypeMismatch"); + } + } + } + } + for x in variants.keys() { + if !handlers.contains_key(x) { + return span_err("MergeVariantMissingHandler"); + } + } + + let type_annot = type_annot + .as_ref() + .map(|t| t.eval_to_type(env)) + .transpose()?; + Ok(match (inferred_type, type_annot) { + (Some(t1), Some(t2)) => { + if t1 != t2 { + return span_err("MergeAnnotMismatch"); + } + t1 + } + (Some(t), None) => t, + (None, Some(t)) => t, + (None, None) => return span_err("MergeEmptyNeedsAnnotation"), + }) +} + +pub fn typecheck_operation( + env: &TyEnv, + span: Span, + opkind: &OpKind<Tir<'_>>, +) -> Result<Type, TypeError> { + let span_err = |msg: &str| mk_span_err(span.clone(), msg); + use NirKind::{ListType, PiClosure, RecordType, UnionType}; + use OpKind::*; + + Ok(match opkind { + App(f, arg) => { + match f.ty().kind() { + // TODO: store Type in closure + PiClosure { annot, closure, .. } => { + if arg.ty().as_nir() != annot { + return mkerr( + ErrorBuilder::new(format!( + "wrong type of function argument" + )) + .span_err( + f.span(), + format!( + "this expects an argument of type: {}", + annot.to_expr_tyenv(env), + ), + ) + .span_err( + arg.span(), + format!( + "but this has type: {}", + arg.ty().to_expr_tyenv(env), + ), + ) + .note(format!( + "expected type `{}`\n found type `{}`", + annot.to_expr_tyenv(env), + arg.ty().to_expr_tyenv(env), + )) + .format(), + ); + } + + let arg_nf = arg.eval(env); + Type::new_infer_universe(env, closure.apply(arg_nf))? + } + _ => return mkerr( + ErrorBuilder::new(format!( + "expected function, found `{}`", + f.ty().to_expr_tyenv(env) + )) + .span_err( + f.span(), + format!("function application requires a function",), + ) + .format(), + ), + } + } + BinOp(o, l, r) => typecheck_binop(env, span, *o, l, r)?, + BoolIf(x, y, z) => { + if *x.ty().kind() != NirKind::from_builtin(Builtin::Bool) { + return span_err("InvalidPredicate"); + } + if y.ty().ty().as_const() != Some(Const::Type) { + return span_err("IfBranchMustBeTerm"); + } + if y.ty() != z.ty() { + return span_err("IfBranchMismatch"); + } + + y.ty().clone() + } + Merge(record, scrut, type_annot) => { + typecheck_merge(env, span, record, scrut, type_annot.as_ref())? + } + ToMap(record, annot) => { + if record.ty().ty().as_const() != Some(Const::Type) { + return span_err("`toMap` only accepts records of type `Type`"); + } + let record_t = record.ty(); + let kts = match record_t.kind() { + RecordType(kts) => kts, + _ => { + return span_err("The argument to `toMap` must be a record") + } + }; + + if kts.is_empty() { + let annot = if let Some(annot) = annot { + annot + } else { + return span_err( + "`toMap` applied to an empty record requires a type \ + annotation", + ); + }; + let annot_val = annot.eval_to_type(env)?; + + let err_msg = "The type of `toMap x` must be of the form \ + `List { mapKey : Text, mapValue : T }`"; + let arg = match annot_val.kind() { + ListType(t) => t, + _ => return span_err(err_msg), + }; + let kts = match arg.kind() { + RecordType(kts) => kts, + _ => return span_err(err_msg), + }; + if kts.len() != 2 { + return span_err(err_msg); + } + match kts.get(&"mapKey".into()) { + Some(t) if *t == Nir::from_builtin(Builtin::Text) => {} + _ => return span_err(err_msg), + } + match kts.get(&"mapValue".into()) { + Some(_) => {} + None => return span_err(err_msg), + } + annot_val + } else { + let entry_type = kts.iter().next().unwrap().1.clone(); + for (_, t) in kts.iter() { + if *t != entry_type { + return span_err( + "Every field of the record must have the same type", + ); + } + } + + let mut kts = HashMap::new(); + kts.insert("mapKey".into(), Nir::from_builtin(Builtin::Text)); + kts.insert("mapValue".into(), entry_type); + let output_type: Type = Nir::from_builtin(Builtin::List) + .app(Nir::from_kind(RecordType(kts))) + .to_type(Const::Type); + if let Some(annot) = annot { + let annot_val = annot.eval_to_type(env)?; + if output_type != annot_val { + return span_err("Annotation mismatch"); + } + } + output_type + } + } + Field(scrut, x) => { + match scrut.ty().kind() { + RecordType(kts) => match kts.get(&x) { + Some(val) => Type::new_infer_universe(env, val.clone())?, + None => return span_err("MissingRecordField"), + }, + NirKind::Const(_) => { + let scrut = scrut.eval_to_type(env)?; + match scrut.kind() { + UnionType(kts) => match kts.get(x) { + // Constructor has type T -> < x: T, ... > + Some(Some(ty)) => Nir::from_kind(PiClosure { + binder: Binder::new(x.clone()), + annot: ty.clone(), + closure: Closure::new_constant(scrut.to_nir()), + }) + .to_type(scrut.ty()), + Some(None) => scrut, + None => return span_err("MissingUnionField"), + }, + _ => return span_err("NotARecord"), + } + } + _ => return span_err("NotARecord"), + } + } + Projection(record, labels) => { + let record_type = record.ty(); + let kts = match record_type.kind() { + RecordType(kts) => kts, + _ => return span_err("ProjectionMustBeRecord"), + }; + + let mut new_kts = HashMap::new(); + for l in labels { + match kts.get(l) { + None => return span_err("ProjectionMissingEntry"), + Some(t) => { + new_kts.insert(l.clone(), t.clone()); + } + }; + } + + Type::new_infer_universe(env, Nir::from_kind(RecordType(new_kts)))? + } + ProjectionByExpr(record, selection) => { + let record_type = record.ty(); + let rec_kts = match record_type.kind() { + RecordType(kts) => kts, + _ => return span_err("ProjectionMustBeRecord"), + }; + + let selection_val = selection.eval_to_type(env)?; + let sel_kts = match selection_val.kind() { + RecordType(kts) => kts, + _ => return span_err("ProjectionByExprTakesRecordType"), + }; + + for (l, sel_ty) in sel_kts { + match rec_kts.get(l) { + Some(rec_ty) => { + if rec_ty != sel_ty { + return span_err("ProjectionWrongType"); + } + } + None => return span_err("ProjectionMissingEntry"), + } + } + + selection_val + } + Completion(..) => { + unreachable!("This case should have been handled in resolution") + } + }) +} |