diff options
| author | Nadrieril | 2019-04-20 19:29:56 +0200 |
|---|---|---|
| committer | Nadrieril | 2019-04-20 19:30:42 +0200 |
| commit | cad6a315a224f4a5d63d0f49e11285304f18569c (patch) | |
| tree | f1f25130da6837ff962b2743dff33734002404b7 /dhall | |
| parent | a0c28707cbbfe334f3aebc7587a5034a49fc717c (diff) | |
Formatting
Diffstat (limited to 'dhall')
| -rw-r--r-- | dhall/src/normalize.rs | 305 |
1 files changed, 152 insertions, 153 deletions
diff --git a/dhall/src/normalize.rs b/dhall/src/normalize.rs index 71e8de2..192a669 100644 --- a/dhall/src/normalize.rs +++ b/dhall/src/normalize.rs @@ -38,159 +38,158 @@ fn apply_builtin( let now_to_expr = |v: &Now| v.clone().normalize().normalize_to_expr().embed_absurd(); - let ret = - match (b, args) { - (OptionalNone, [t]) => EmptyOptionalLit(Now::from_whnf(t.clone())), - (NaturalIsZero, [NaturalLit(n)]) => BoolLit(*n == 0), - (NaturalEven, [NaturalLit(n)]) => BoolLit(*n % 2 == 0), - (NaturalOdd, [NaturalLit(n)]) => BoolLit(*n % 2 != 0), - (NaturalToInteger, [NaturalLit(n)]) => { - Expr(rc(ExprF::IntegerLit(*n as isize))) - } - (NaturalShow, [NaturalLit(n)]) => { - TextLit(vec![InterpolatedTextContents::Text(n.to_string())]) - } - (ListLength, [_, EmptyListLit(_)]) => NaturalLit(0), - (ListLength, [_, NEListLit(xs)]) => NaturalLit(xs.len()), - (ListHead, [_, EmptyListLit(n)]) => EmptyOptionalLit(n.clone()), - (ListHead, [_, NEListLit(xs)]) => { - NEOptionalLit(xs.first().unwrap().clone()) - } - (ListLast, [_, EmptyListLit(n)]) => EmptyOptionalLit(n.clone()), - (ListLast, [_, NEListLit(xs)]) => { - NEOptionalLit(xs.last().unwrap().clone()) - } - (ListReverse, [_, EmptyListLit(n)]) => EmptyListLit(n.clone()), - (ListReverse, [_, NEListLit(xs)]) => { - let xs = xs.iter().cloned().rev().collect(); - NEListLit(xs) - } - (ListIndexed, [_, EmptyListLit(t)]) => { - // TODO: avoid passing through Exprs - let t = now_to_expr(t); - EmptyListLit(Now::new( - ctx, - dhall::subexpr!({ index : Natural, value : t }), - )) - } - (ListIndexed, [_, NEListLit(xs)]) => { - let xs = xs - .iter() - .cloned() - .enumerate() - .map(|(i, e)| { - let i = NaturalLit(i); - let mut kvs = BTreeMap::new(); - kvs.insert("index".into(), Now::from_whnf(i)); - kvs.insert("value".into(), e); - Now::from_whnf(RecordLit(kvs)) - }) - .collect(); - NEListLit(xs) - } - // fold/build fusion - (ListBuild, [_, WHNF::AppliedBuiltin(_, ListFold, args)]) - if args.len() == 2 => - { - args.get(1).unwrap().clone() - } - (ListFold, [_, WHNF::AppliedBuiltin(_, ListBuild, args)]) - if args.len() == 2 => - { - args.get(1).unwrap().clone() - } - (ListBuild, [a0, g]) => { - // TODO: avoid passing through Exprs - let a0 = whnf_to_expr(a0); - let a1 = shift0(1, &"x".into(), &a0); - let g = whnf_to_expr(g); - normalize_whnf( - ctx, - dhall::subexpr!( - g - (List a0) - (λ(x : a0) -> λ(xs : List a1) -> [ x ] # xs) - ([] : List a0) - ), - ) - } - (ListFold, [_, EmptyListLit(_), _, _, nil]) => nil.clone(), - (ListFold, [_, NEListLit(xs), _, cons, nil]) => { - // TODO: avoid passing through Exprs - let nil = whnf_to_expr(nil); - let cons = whnf_to_expr(cons); - normalize_whnf( - ctx, - xs.iter().rev().fold(nil, |acc, x| { - let x = now_to_expr(x); - let acc = acc.clone(); - dhall::subexpr!(cons x acc) - }), - ) - } - // fold/build fusion - ( - OptionalBuild, - [_, WHNF::AppliedBuiltin(_, OptionalFold, args)], - ) if args.len() == 2 => args.get(1).unwrap().clone(), - ( - OptionalFold, - [_, WHNF::AppliedBuiltin(_, OptionalBuild, args)], - ) if args.len() == 2 => args.get(1).unwrap().clone(), - (OptionalBuild, [a0, g]) => { - // TODO: avoid passing through Exprs - let a0 = whnf_to_expr(a0); - let g = whnf_to_expr(g); - normalize_whnf( - ctx, - dhall::subexpr!( - g - (Optional a0) - (λ(x: a0) -> Some x) - (None a0) - ), - ) - } - (OptionalFold, [_, EmptyOptionalLit(_), _, _, nothing]) => { - nothing.clone() - } - (OptionalFold, [_, NEOptionalLit(x), _, just, _]) => { - // TODO: avoid passing through Exprs - let just = whnf_to_expr(just); - let x = now_to_expr(x); - normalize_whnf(ctx, dhall::subexpr!(just x)) - } - // fold/build fusion - (NaturalBuild, [WHNF::AppliedBuiltin(_, NaturalFold, args)]) - if args.len() == 1 => - { - args.get(0).unwrap().clone() - } - (NaturalFold, [WHNF::AppliedBuiltin(_, NaturalBuild, args)]) - if args.len() == 1 => - { - args.get(0).unwrap().clone() - } - (NaturalBuild, [g]) => { - // TODO: avoid passing through Exprs - let g = whnf_to_expr(g); - normalize_whnf( - ctx, - dhall::subexpr!(g Natural (λ(x : Natural) -> x + 1) 0), - ) - } - (NaturalFold, [NaturalLit(0), _, _, zero]) => zero.clone(), - (NaturalFold, [NaturalLit(n), t, succ, zero]) => { - // TODO: avoid passing through Exprs - let t = whnf_to_expr(t); - let succ = whnf_to_expr(succ); - let zero = whnf_to_expr(zero); - let fold = rc(ExprF::Builtin(NaturalFold)); - let n = rc(ExprF::NaturalLit(n - 1)); - normalize_whnf(ctx, dhall::subexpr!(succ (fold n t succ zero))) - } - _ => return None, - }; + let ret = match (b, args) { + (OptionalNone, [t]) => EmptyOptionalLit(Now::from_whnf(t.clone())), + (NaturalIsZero, [NaturalLit(n)]) => BoolLit(*n == 0), + (NaturalEven, [NaturalLit(n)]) => BoolLit(*n % 2 == 0), + (NaturalOdd, [NaturalLit(n)]) => BoolLit(*n % 2 != 0), + (NaturalToInteger, [NaturalLit(n)]) => { + Expr(rc(ExprF::IntegerLit(*n as isize))) + } + (NaturalShow, [NaturalLit(n)]) => { + TextLit(vec![InterpolatedTextContents::Text(n.to_string())]) + } + (ListLength, [_, EmptyListLit(_)]) => NaturalLit(0), + (ListLength, [_, NEListLit(xs)]) => NaturalLit(xs.len()), + (ListHead, [_, EmptyListLit(n)]) => EmptyOptionalLit(n.clone()), + (ListHead, [_, NEListLit(xs)]) => { + NEOptionalLit(xs.first().unwrap().clone()) + } + (ListLast, [_, EmptyListLit(n)]) => EmptyOptionalLit(n.clone()), + (ListLast, [_, NEListLit(xs)]) => { + NEOptionalLit(xs.last().unwrap().clone()) + } + (ListReverse, [_, EmptyListLit(n)]) => EmptyListLit(n.clone()), + (ListReverse, [_, NEListLit(xs)]) => { + let xs = xs.iter().cloned().rev().collect(); + NEListLit(xs) + } + (ListIndexed, [_, EmptyListLit(t)]) => { + // TODO: avoid passing through Exprs + let t = now_to_expr(t); + EmptyListLit(Now::new( + ctx, + dhall::subexpr!({ index : Natural, value : t }), + )) + } + (ListIndexed, [_, NEListLit(xs)]) => { + let xs = xs + .iter() + .cloned() + .enumerate() + .map(|(i, e)| { + let i = NaturalLit(i); + let mut kvs = BTreeMap::new(); + kvs.insert("index".into(), Now::from_whnf(i)); + kvs.insert("value".into(), e); + Now::from_whnf(RecordLit(kvs)) + }) + .collect(); + NEListLit(xs) + } + // fold/build fusion + (ListBuild, [_, WHNF::AppliedBuiltin(_, ListFold, args)]) + if args.len() == 2 => + { + args.get(1).unwrap().clone() + } + (ListFold, [_, WHNF::AppliedBuiltin(_, ListBuild, args)]) + if args.len() == 2 => + { + args.get(1).unwrap().clone() + } + (ListBuild, [a0, g]) => { + // TODO: avoid passing through Exprs + let a0 = whnf_to_expr(a0); + let a1 = shift0(1, &"x".into(), &a0); + let g = whnf_to_expr(g); + normalize_whnf( + ctx, + dhall::subexpr!( + g + (List a0) + (λ(x : a0) -> λ(xs : List a1) -> [ x ] # xs) + ([] : List a0) + ), + ) + } + (ListFold, [_, EmptyListLit(_), _, _, nil]) => nil.clone(), + (ListFold, [_, NEListLit(xs), _, cons, nil]) => { + // TODO: avoid passing through Exprs + let nil = whnf_to_expr(nil); + let cons = whnf_to_expr(cons); + normalize_whnf( + ctx, + xs.iter().rev().fold(nil, |acc, x| { + let x = now_to_expr(x); + let acc = acc.clone(); + dhall::subexpr!(cons x acc) + }), + ) + } + // fold/build fusion + ( + OptionalBuild, + [_, WHNF::AppliedBuiltin(_, OptionalFold, args)], + ) if args.len() == 2 => args.get(1).unwrap().clone(), + ( + OptionalFold, + [_, WHNF::AppliedBuiltin(_, OptionalBuild, args)], + ) if args.len() == 2 => args.get(1).unwrap().clone(), + (OptionalBuild, [a0, g]) => { + // TODO: avoid passing through Exprs + let a0 = whnf_to_expr(a0); + let g = whnf_to_expr(g); + normalize_whnf( + ctx, + dhall::subexpr!( + g + (Optional a0) + (λ(x: a0) -> Some x) + (None a0) + ), + ) + } + (OptionalFold, [_, EmptyOptionalLit(_), _, _, nothing]) => { + nothing.clone() + } + (OptionalFold, [_, NEOptionalLit(x), _, just, _]) => { + // TODO: avoid passing through Exprs + let just = whnf_to_expr(just); + let x = now_to_expr(x); + normalize_whnf(ctx, dhall::subexpr!(just x)) + } + // fold/build fusion + (NaturalBuild, [WHNF::AppliedBuiltin(_, NaturalFold, args)]) + if args.len() == 1 => + { + args.get(0).unwrap().clone() + } + (NaturalFold, [WHNF::AppliedBuiltin(_, NaturalBuild, args)]) + if args.len() == 1 => + { + args.get(0).unwrap().clone() + } + (NaturalBuild, [g]) => { + // TODO: avoid passing through Exprs + let g = whnf_to_expr(g); + normalize_whnf( + ctx, + dhall::subexpr!(g Natural (λ(x : Natural) -> x + 1) 0), + ) + } + (NaturalFold, [NaturalLit(0), _, _, zero]) => zero.clone(), + (NaturalFold, [NaturalLit(n), t, succ, zero]) => { + // TODO: avoid passing through Exprs + let t = whnf_to_expr(t); + let succ = whnf_to_expr(succ); + let zero = whnf_to_expr(zero); + let fold = rc(ExprF::Builtin(NaturalFold)); + let n = rc(ExprF::NaturalLit(n - 1)); + normalize_whnf(ctx, dhall::subexpr!(succ (fold n t succ zero))) + } + _ => return None, + }; Some(ret) } |