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-rw-r--r--dhall/src/typecheck.rs34
1 files changed, 17 insertions, 17 deletions
diff --git a/dhall/src/typecheck.rs b/dhall/src/typecheck.rs
index e5b81bd..ff656f8 100644
--- a/dhall/src/typecheck.rs
+++ b/dhall/src/typecheck.rs
@@ -176,12 +176,11 @@ fn type_of_builtin<S>(b: Builtin) -> Expr<S, X> {
}
}
-/// Type-check an expression and return the expression'i type if type-checking
-/// suceeds or an error if type-checking fails
+/// Type-check an expression and return the expression's type if type-checking
+/// succeeds or an error if type-checking fails
///
-/// `type_with` does not necessarily normalize the type since full normalization
-/// is not necessary for just type-checking. If you actually care about the
-/// returned type then you may want to `normalize` it afterwards.
+/// `type_with` normalizes the type since while type-checking. It expects the
+/// context to contain only normalized expressions.
pub fn type_with<S>(
ctx: &Context<Label, SubExpr<S, X>>,
e: SubExpr<S, X>,
@@ -211,18 +210,19 @@ where
Some(e) => Ok(e.unroll()),
None => Err(mkerr(UnboundVariable)),
},
- Lam(x, tA, b) => {
+ Lam(x, t, b) => {
+ let t2 = normalize(SubExpr::clone(t));
let ctx2 = ctx
- .insert(x.clone(), tA.clone())
+ .insert(x.clone(), t2.clone())
.map(|e| shift(1, &V(x.clone(), 0), e));
let tB = type_with(&ctx2, b.clone())?;
- let p = Pi(x.clone(), tA.clone(), tB);
- let _ = type_with(ctx, rc(p.clone()))?;
- Ok(p)
+ let _ = type_with(ctx, rc(Pi(x.clone(), t.clone(), tB.clone())))?;
+ Ok(Pi(x.clone(), t2, tB))
}
Pi(x, tA, tB) => {
- let tA2 = type_with(ctx, tA.clone())?;
- let kA = ensure_const(&tA2, InvalidInputType(tA.clone()))?;
+ let ttA = type_with(ctx, tA.clone())?;
+ let tA = normalize(SubExpr::clone(tA));
+ let kA = ensure_const(&ttA, InvalidInputType(tA.clone()))?;
let ctx2 = ctx
.insert(x.clone(), tA.clone())
@@ -261,7 +261,7 @@ where
let tA2 = type_with(ctx, a.clone())?;
if prop_equal(tA.as_ref(), tA2.as_ref()) {
let vx0 = &V(x.clone(), 0);
- Ok(subst_shift(vx0, &a, &tB).unroll())
+ Ok(normalize(subst_shift(vx0, &a, &tB)).unroll())
} else {
Err(mkerr(TypeMismatch(f.clone(), tA.clone(), a.clone(), tA2)))
}
@@ -296,12 +296,12 @@ where
// This is mainly just to check that `t` is not `Kind`
let _ = type_with(ctx, t.clone())?;
- let t2 = type_with(ctx, x.clone())?;
+ let tx = type_with(ctx, x.clone())?;
let t = normalize(t.clone());
- if prop_equal(t.as_ref(), t2.as_ref()) {
+ if prop_equal(t.as_ref(), tx.as_ref()) {
Ok(t.unroll())
} else {
- Err(mkerr(AnnotMismatch(x.clone(), t, t2)))
+ Err(mkerr(AnnotMismatch(x.clone(), t, tx)))
}
}
BoolIf(x, y, z) => {
@@ -431,7 +431,7 @@ where
Embed(p) => match *p {},
_ => panic!("Unimplemented typecheck case: {:?}", e),
}?;
- Ok(normalize(rc(ret)))
+ Ok(rc(ret))
}
/// `typeOf` is the same as `type_with` with an empty context, meaning that the