diff options
Diffstat (limited to 'dhall/src')
-rw-r--r-- | dhall/src/normalize.rs | 295 |
1 files changed, 150 insertions, 145 deletions
diff --git a/dhall/src/normalize.rs b/dhall/src/normalize.rs index 8438670..90ba993 100644 --- a/dhall/src/normalize.rs +++ b/dhall/src/normalize.rs @@ -17,214 +17,219 @@ where use dhall_core::BinOp::*; use dhall_core::Builtin::*; use dhall_core::Expr::*; - rc(match e.as_ref() { + match e.as_ref() { Let(f, _, r, b) => { let vf0 = &V(f.clone(), 0); let r2 = shift(1, vf0, r); let b2 = subst(vf0, &r2, b); let b3 = shift(-1, vf0, &b2); - return normalize_whnf(&b3); + normalize_whnf(&b3) } - Annot(x, _) => return normalize_whnf(x), - Note(_, e) => return normalize_whnf(e), + Annot(x, _) => normalize_whnf(x), + Note(_, e) => normalize_whnf(e), App(f, args) => { let f = normalize_whnf(f); match (f.as_ref(), args.as_slice()) { - (_, []) => return f, - (App(f, args1), args2) => { - return normalize_whnf(&rc(App( - f.clone(), - args1.iter().chain(args2.iter()).cloned().collect(), - ))) - } + (_, []) => f, + (App(f, args1), args2) => normalize_whnf(&rc(App( + f.clone(), + args1.iter().chain(args2.iter()).cloned().collect(), + ))), (Lam(ref x, _, ref b), [a, rest..]) => { // Beta reduce let vx0 = &V(x.clone(), 0); let a2 = shift(1, vx0, a); let b2 = subst(vx0, &a2, &b); let b3 = shift(-1, vx0, &b2); - return normalize_whnf(&rc(App(b3, rest.to_vec()))); + normalize_whnf(&rc(App(b3, rest.to_vec()))) } - // TODO: this is more normalization than needed - (Builtin(b), args) => { - let args = args - .iter() - .map(|x| normalize_whnf(x)) - .collect::<Vec<Rc<Expr<_, _>>>>(); + (Builtin(b), _) => { + // How many arguments for each builtin, and which argument + // is the important one for pattern-matching + let (len_consumption, arg_to_eval) = match b { + OptionalSome => (1, None), + OptionalNone => (1, None), + NaturalIsZero => (1, Some(0)), + NaturalEven => (1, Some(0)), + NaturalOdd => (1, Some(0)), + NaturalToInteger => (1, Some(0)), + NaturalShow => (1, Some(0)), + ListLength => (2, Some(1)), + ListHead => (2, Some(1)), + ListLast => (2, Some(1)), + ListReverse => (2, Some(1)), + ListBuild => (2, Some(1)), + OptionalBuild => (2, Some(1)), + ListFold => (5, Some(1)), + OptionalFold => (5, Some(1)), + NaturalBuild => (1, Some(0)), + NaturalFold => (1, Some(0)), + _ => (0, None), + }; + let mut args = args.to_vec(); + if len_consumption > args.len() { + return rc(App(f, args)); + } + if let Some(i) = arg_to_eval { + args[i] = Rc::clone(&normalize_whnf(&args[i])); + } + let evaled_arg = arg_to_eval.map(|i| args[i].as_ref()); - match ( - b, - args.iter() - .map(Rc::as_ref) - .collect::<Vec<_>>() - .as_slice(), - ) { - (OptionalSome, [_]) => { - OptionalLit(None, Some(Rc::clone(&args[0]))) + let ret = match (b, evaled_arg, args.as_slice()) { + (OptionalSome, _, [x, ..]) => { + rc(OptionalLit(None, Some(Rc::clone(x)))) } - (OptionalNone, [_]) => { - OptionalLit(Some(Rc::clone(&args[0])), None) + (OptionalNone, _, [t, ..]) => { + rc(OptionalLit(Some(Rc::clone(t)), None)) } - (NaturalIsZero, [NaturalLit(n)]) => BoolLit(*n == 0), - (NaturalEven, [NaturalLit(n)]) => BoolLit(*n % 2 == 0), - (NaturalOdd, [NaturalLit(n)]) => BoolLit(*n % 2 != 0), - (NaturalToInteger, [NaturalLit(n)]) => { - IntegerLit(*n as isize) + (NaturalIsZero, Some(NaturalLit(n)), _) => { + rc(BoolLit(*n == 0)) } - (NaturalShow, [NaturalLit(n)]) => { - TextLit(n.to_string().into()) + (NaturalEven, Some(NaturalLit(n)), _) => { + rc(BoolLit(*n % 2 == 0)) } - (ListLength, [_, ListLit(_, ys)]) => { - NaturalLit(ys.len()) + (NaturalOdd, Some(NaturalLit(n)), _) => { + rc(BoolLit(*n % 2 != 0)) } - (ListHead, [_, ListLit(t, ys)]) => { - OptionalLit(t.clone(), ys.iter().cloned().next()) + (NaturalToInteger, Some(NaturalLit(n)), _) => { + rc(IntegerLit(*n as isize)) } - (ListLast, [_, ListLit(t, ys)]) => { - OptionalLit(t.clone(), ys.iter().cloned().last()) + (NaturalShow, Some(NaturalLit(n)), _) => { + rc(TextLit(n.to_string().into())) } - (ListReverse, [_, ListLit(t, ys)]) => { + (ListLength, Some(ListLit(_, ys)), _) => { + rc(NaturalLit(ys.len())) + } + (ListHead, Some(ListLit(t, ys)), _) => rc(OptionalLit( + t.clone(), + ys.iter().cloned().next(), + )), + (ListLast, Some(ListLit(t, ys)), _) => rc(OptionalLit( + t.clone(), + ys.iter().cloned().last(), + )), + (ListReverse, Some(ListLit(t, ys)), _) => { let xs = ys.iter().rev().cloned().collect(); - ListLit(t.clone(), xs) + rc(ListLit(t.clone(), xs)) } - (ListBuild, [_, _]) => { - // fold/build fusion - let g = Rc::clone(&args[1]); - let g = match g.as_ref() { - App(f, args) => { - match (f.as_ref(), args.as_slice()) { - (Builtin(ListFold), [_, x, rest..]) => { - return normalize_whnf(&rc(App( - x.clone(), - rest.to_vec(), - ))) - } - (_, args) => { - rc(App(f.clone(), args.to_vec())) - } + (ListBuild, _, [a0, g, ..]) => { + loop { + if let App(f2, args2) = g.as_ref() { + if let ( + Builtin(ListFold), + [_, x, rest..], + ) = (f2.as_ref(), args2.as_slice()) + { + // fold/build fusion + break rc(App( + x.clone(), + rest.to_vec(), + )); } - } - _ => g, - }; - let a0 = Rc::clone(&args[0]); - let a1 = shift(1, &V("a".into(), 0), &a0); - return normalize_whnf( - &dhall_expr!(g (List a0) (λ(a : a0) -> λ(as : List a1) -> [ a ] # as) ([] : List a0)), - ); + }; + let a0 = Rc::clone(a0); + let a1 = shift(1, &V("a".into(), 0), &a0); + break dhall_expr!(g (List a0) (λ(a : a0) -> λ(as : List a1) -> [ a ] # as) ([] : List a0)); + } } - (OptionalBuild, [_, _]) => { - // fold/build fusion - let g = Rc::clone(&args[1]); - let g = match g.as_ref() { - App(f, args) => { - match (f.as_ref(), args.as_slice()) { - ( - Builtin(OptionalFold), - [_, x, rest..], - ) => { - return normalize_whnf(&rc(App( - x.clone(), - rest.to_vec(), - ))) - } - (_, args) => { - rc(App(f.clone(), args.to_vec())) - } + (OptionalBuild, _, [a0, g, ..]) => { + loop { + if let App(f2, args2) = g.as_ref() { + if let ( + Builtin(OptionalFold), + [_, x, rest..], + ) = (f2.as_ref(), args2.as_slice()) + { + // fold/build fusion + break rc(App( + x.clone(), + rest.to_vec(), + )); } - } - _ => g, - }; - let a0 = Rc::clone(&args[0]); - return normalize_whnf( - &dhall_expr!((g (Optional a0)) (λ(x: a0) -> [x] : Optional a0) ([] : Optional a0)), - ); - } - (ListFold, [_, ListLit(_, xs), _, _, _]) => { - let e2: Rc<Expr<_, _>> = xs.iter().rev().fold( - Rc::clone(&args[4]), - |acc, x| { - let x = x.clone(); - let acc = acc.clone(); - let cons = Rc::clone(&args[3]); - dhall_expr!(cons x acc) - }, - ); - return normalize_whnf(&e2); + }; + let a0 = Rc::clone(a0); + break dhall_expr!((g (Optional a0)) (λ(x: a0) -> [x] : Optional a0) ([] : Optional a0)); + } } + ( + ListFold, + Some(ListLit(_, xs)), + [_, _, _, cons, nil, ..], + ) => xs.iter().rev().fold(Rc::clone(nil), |acc, x| { + let x = x.clone(); + let acc = acc.clone(); + let cons = Rc::clone(cons); + dhall_expr!(cons x acc) + }), // // fold/build fusion // (ListFold, [_, App(box Builtin(ListBuild), [_, x, rest..]), rest..]) => { // normalize_whnf(&App(bx(x.clone()), rest.to_vec())) // } ( OptionalFold, - [_, OptionalLit(_, Some(x)), _, _, _], + Some(OptionalLit(_, Some(x))), + [_, _, _, just, _, ..], ) => { let x = x.clone(); - let just = Rc::clone(&args[3]); - return normalize_whnf(&dhall_expr!(just x)); - } - (OptionalFold, [_, OptionalLit(_, None), _, _, _]) => { - return Rc::clone(&args[4]) + let just = Rc::clone(just); + dhall_expr!(just x) } + ( + OptionalFold, + Some(OptionalLit(_, None)), + [_, _, _, _, nothing, ..], + ) => Rc::clone(nothing), // // fold/build fusion // (OptionalFold, [_, App(box Builtin(OptionalBuild), [_, x, rest..]), rest..]) => { // normalize_whnf(&App(bx(x.clone()), rest.to_vec())) // } - (NaturalBuild, [App(f, args)]) => { - match (f.as_ref(), args.as_slice()) { + (NaturalBuild, Some(App(f2, args2)), _) => { + match (f2.as_ref(), args2.as_slice()) { // fold/build fusion (Builtin(NaturalFold), [x, rest..]) => { - return normalize_whnf(&rc(App( - x.clone(), - rest.to_vec(), - ))) + rc(App(x.clone(), rest.to_vec())) } - (_, args) => app( - Builtin(NaturalBuild), - vec![bx(App(f.clone(), args.to_vec()))], - ), + _ => return rc(App(f, args)), } } - (NaturalFold, [App(f, args)]) => { - match (f.as_ref(), args.as_slice()) { + (NaturalFold, Some(App(f2, args2)), _) => { + match (f2.as_ref(), args2.as_slice()) { // fold/build fusion (Builtin(NaturalBuild), [x, rest..]) => { - return normalize_whnf(&rc(App( - x.clone(), - rest.to_vec(), - ))) + rc(App(x.clone(), rest.to_vec())) } - (_, args) => app( - Builtin(NaturalFold), - vec![bx(App(f.clone(), args.to_vec()))], - ), + _ => return rc(App(f, args)), } } - (b, _) => App(rc(Builtin(*b)), args), - } + (b, _, _) => return rc(App(rc(Builtin(*b)), args)), + }; + normalize_whnf(&rc(Expr::App( + ret, + args.split_off(len_consumption), + ))) } - (_, args) => App(f, args.to_vec()), + (_, args) => rc(App(f, args.to_vec())), } } BoolIf(b, t, f) => { let b = normalize_whnf(b); match b.as_ref() { - BoolLit(true) => return normalize_whnf(t), - BoolLit(false) => return normalize_whnf(f), - _ => BoolIf(b, t.clone(), f.clone()), + BoolLit(true) => normalize_whnf(t), + BoolLit(false) => normalize_whnf(f), + _ => rc(BoolIf(b, t.clone(), f.clone())), } } OptionalLit(t, es) => { if !es.is_none() { - OptionalLit(None, es.clone()) + rc(OptionalLit(None, es.clone())) } else { - OptionalLit(t.clone(), es.clone()) + rc(OptionalLit(t.clone(), es.clone())) } } BinOp(o, x, y) => { let x = normalize_whnf(x); let y = normalize_whnf(y); - match (o, x.as_ref(), y.as_ref()) { + rc(match (o, x.as_ref(), y.as_ref()) { (BoolAnd, BoolLit(x), BoolLit(y)) => BoolLit(*x && *y), (BoolOr, BoolLit(x), BoolLit(y)) => BoolLit(*x || *y), (BoolEQ, BoolLit(x), BoolLit(y)) => BoolLit(x == y), @@ -251,20 +256,20 @@ where ListLit(t, xs.chain(ys).collect()) } (o, _, _) => BinOp(*o, x, y), - } + }) } Field(e, x) => { let e = normalize_whnf(e); match (e.as_ref(), x) { (RecordLit(kvs), x) => match kvs.get(&x) { - Some(r) => return normalize_whnf(r), - None => Field(e, x.clone()), + Some(r) => normalize_whnf(r), + None => rc(Field(e, x.clone())), }, - (_, x) => Field(e, x.clone()), + (_, x) => rc(Field(e, x.clone())), } } - _ => return Rc::clone(e), - }) + _ => Rc::clone(e), + } } /// Reduce an expression to its normal form, performing beta reduction |