use std::collections::BTreeMap; use dhall_syntax::{BinOp, Builtin, ExprF, InterpolatedTextContents, Label, X}; use crate::core::context::NormalizationContext; use crate::core::thunk::{Thunk, TypeThunk}; use crate::core::value::Value; use crate::core::var::Subst; use crate::phase::{NormalizedSubExpr, ResolvedSubExpr, Typed}; pub(crate) type InputSubExpr = ResolvedSubExpr; pub(crate) type OutputSubExpr = NormalizedSubExpr; pub(crate) fn apply_builtin(b: Builtin, args: Vec) -> Value { use dhall_syntax::Builtin::*; use Value::*; // Return Ok((unconsumed args, returned value)), or Err(()) if value could not be produced. let ret = match (b, args.as_slice()) { (OptionalNone, [t, r..]) => { Ok((r, EmptyOptionalLit(TypeThunk::from_thunk(t.clone())))) } (NaturalIsZero, [n, r..]) => match &*n.as_value() { NaturalLit(n) => Ok((r, BoolLit(*n == 0))), _ => Err(()), }, (NaturalEven, [n, r..]) => match &*n.as_value() { NaturalLit(n) => Ok((r, BoolLit(*n % 2 == 0))), _ => Err(()), }, (NaturalOdd, [n, r..]) => match &*n.as_value() { NaturalLit(n) => Ok((r, BoolLit(*n % 2 != 0))), _ => Err(()), }, (NaturalToInteger, [n, r..]) => match &*n.as_value() { NaturalLit(n) => Ok((r, IntegerLit(*n as isize))), _ => Err(()), }, (NaturalShow, [n, r..]) => match &*n.as_value() { NaturalLit(n) => Ok(( r, TextLit(vec![InterpolatedTextContents::Text(n.to_string())]), )), _ => Err(()), }, (ListLength, [_, l, r..]) => match &*l.as_value() { EmptyListLit(_) => Ok((r, NaturalLit(0))), NEListLit(xs) => Ok((r, NaturalLit(xs.len()))), _ => Err(()), }, (ListHead, [_, l, r..]) => match &*l.as_value() { EmptyListLit(n) => Ok((r, EmptyOptionalLit(n.clone()))), NEListLit(xs) => { Ok((r, NEOptionalLit(xs.iter().next().unwrap().clone()))) } _ => Err(()), }, (ListLast, [_, l, r..]) => match &*l.as_value() { EmptyListLit(n) => Ok((r, EmptyOptionalLit(n.clone()))), NEListLit(xs) => { Ok((r, NEOptionalLit(xs.iter().rev().next().unwrap().clone()))) } _ => Err(()), }, (ListReverse, [_, l, r..]) => match &*l.as_value() { EmptyListLit(n) => Ok((r, EmptyListLit(n.clone()))), NEListLit(xs) => { Ok((r, NEListLit(xs.iter().rev().cloned().collect()))) } _ => Err(()), }, (ListIndexed, [_, l, r..]) => match &*l.as_value() { EmptyListLit(t) => { let mut kts = BTreeMap::new(); kts.insert( "index".into(), TypeThunk::from_value(Value::from_builtin(Natural)), ); kts.insert("value".into(), t.clone()); Ok((r, EmptyListLit(TypeThunk::from_value(RecordType(kts))))) } NEListLit(xs) => { let xs = xs .iter() .enumerate() .map(|(i, e)| { let i = NaturalLit(i); let mut kvs = BTreeMap::new(); kvs.insert("index".into(), Thunk::from_value(i)); kvs.insert("value".into(), e.clone()); Thunk::from_value(RecordLit(kvs)) }) .collect(); Ok((r, NEListLit(xs))) } _ => Err(()), }, (ListBuild, [t, f, r..]) => match &*f.as_value() { // fold/build fusion Value::AppliedBuiltin(ListFold, args) => { if args.len() >= 2 { Ok((r, args[1].to_value())) } else { // Do we really need to handle this case ? unimplemented!() } } _ => Ok(( r, f.app_val(Value::from_builtin(List).app_thunk(t.clone())) .app_val(ListConsClosure( TypeThunk::from_thunk(t.clone()), None, )) .app_val(EmptyListLit(TypeThunk::from_thunk(t.clone()))), )), }, (ListFold, [_, l, _, cons, nil, r..]) => match &*l.as_value() { EmptyListLit(_) => Ok((r, nil.to_value())), NEListLit(xs) => { let mut v = nil.clone(); for x in xs.iter().rev() { v = cons .clone() .app_thunk(x.clone()) .app_thunk(v) .into_thunk(); } Ok((r, v.to_value())) } _ => Err(()), }, (OptionalBuild, [t, f, r..]) => match &*f.as_value() { // fold/build fusion Value::AppliedBuiltin(OptionalFold, args) => { if args.len() >= 2 { Ok((r, args[1].to_value())) } else { // Do we really need to handle this case ? unimplemented!() } } _ => Ok(( r, f.app_val(Value::from_builtin(Optional).app_thunk(t.clone())) .app_val(OptionalSomeClosure(TypeThunk::from_thunk( t.clone(), ))) .app_val(EmptyOptionalLit(TypeThunk::from_thunk( t.clone(), ))), )), }, (OptionalFold, [_, v, _, just, nothing, r..]) => match &*v.as_value() { EmptyOptionalLit(_) => Ok((r, nothing.to_value())), NEOptionalLit(x) => Ok((r, just.app_thunk(x.clone()))), _ => Err(()), }, (NaturalBuild, [f, r..]) => match &*f.as_value() { // fold/build fusion Value::AppliedBuiltin(NaturalFold, args) => { if args.len() >= 1 { Ok((r, args[0].to_value())) } else { // Do we really need to handle this case ? unimplemented!() } } _ => Ok(( r, f.app_val(Value::from_builtin(Natural)) .app_val(NaturalSuccClosure) .app_val(NaturalLit(0)), )), }, (NaturalFold, [n, t, succ, zero, r..]) => match &*n.as_value() { NaturalLit(0) => Ok((r, zero.to_value())), NaturalLit(n) => { let fold = Value::from_builtin(NaturalFold) .app(NaturalLit(n - 1)) .app_thunk(t.clone()) .app_thunk(succ.clone()) .app_thunk(zero.clone()); Ok((r, succ.app_val(fold))) } _ => Err(()), }, _ => Err(()), }; match ret { Ok((unconsumed_args, mut v)) => { let n_consumed_args = args.len() - unconsumed_args.len(); for x in args.into_iter().skip(n_consumed_args) { v = v.app_thunk(x); } v } Err(()) => AppliedBuiltin(b, args), } } pub(crate) fn apply_any(f: Thunk, a: Thunk) -> Value { let fallback = |f: Thunk, a: Thunk| Value::PartialExpr(ExprF::App(f, a)); let f_borrow = f.as_value(); match &*f_borrow { Value::Lam(x, _, e) => { let val = Typed::from_thunk_untyped(a); e.subst_shift(&x.into(), &val).to_value() } Value::AppliedBuiltin(b, args) => { use std::iter::once; let args = args.iter().cloned().chain(once(a.clone())).collect(); apply_builtin(*b, args) } Value::OptionalSomeClosure(_) => Value::NEOptionalLit(a), Value::ListConsClosure(t, None) => { Value::ListConsClosure(t.clone(), Some(a)) } Value::ListConsClosure(_, Some(x)) => { let a_borrow = a.as_value(); match &*a_borrow { Value::EmptyListLit(_) => Value::NEListLit(vec![x.clone()]), Value::NEListLit(xs) => { use std::iter::once; let xs = once(x.clone()).chain(xs.iter().cloned()).collect(); Value::NEListLit(xs) } _ => { drop(f_borrow); drop(a_borrow); fallback(f, a) } } } Value::NaturalSuccClosure => { let a_borrow = a.as_value(); match &*a_borrow { Value::NaturalLit(n) => Value::NaturalLit(n + 1), _ => { drop(f_borrow); drop(a_borrow); fallback(f, a) } } } Value::UnionConstructor(l, kts) => { Value::UnionLit(l.clone(), a, kts.clone()) } _ => { drop(f_borrow); fallback(f, a) } } } pub(crate) fn squash_textlit( elts: impl Iterator>, ) -> Vec> { use std::mem::replace; use InterpolatedTextContents::{Expr, Text}; fn inner( elts: impl Iterator>, crnt_str: &mut String, ret: &mut Vec>, ) { for contents in elts { match contents { Text(s) => crnt_str.push_str(&s), Expr(e) => { let e_borrow = e.as_value(); match &*e_borrow { Value::TextLit(elts2) => { inner(elts2.iter().cloned(), crnt_str, ret) } _ => { drop(e_borrow); if !crnt_str.is_empty() { ret.push(Text(replace(crnt_str, String::new()))) } ret.push(Expr(e.clone())) } } } } } } let mut crnt_str = String::new(); let mut ret = Vec::new(); inner(elts, &mut crnt_str, &mut ret); if !crnt_str.is_empty() { ret.push(Text(replace(&mut crnt_str, String::new()))) } ret } /// Reduces the imput expression to a Value. Evaluates as little as possible. pub(crate) fn normalize_whnf( ctx: NormalizationContext, expr: InputSubExpr, ) -> Value { match expr.as_ref() { ExprF::Embed(e) => return e.to_value(), ExprF::Var(v) => return ctx.lookup(v), _ => {} } // Thunk subexpressions let expr: ExprF = expr.as_ref().map_ref_with_special_handling_of_binders( |e| Thunk::new(ctx.clone(), e.clone()), |x, e| Thunk::new(ctx.skip(x), e.clone()), |_| unreachable!(), Label::clone, ); normalize_one_layer(expr) } pub(crate) fn normalize_one_layer(expr: ExprF) -> Value { use Value::{ BoolLit, EmptyListLit, EmptyOptionalLit, IntegerLit, Lam, NEListLit, NEOptionalLit, NaturalLit, Pi, RecordLit, RecordType, TextLit, UnionConstructor, UnionLit, UnionType, }; // Small helper enum to avoid repetition enum Ret<'a> { RetValue(Value), RetThunk(Thunk), RetThunkRef(&'a Thunk), RetExpr(ExprF), } use Ret::{RetExpr, RetThunk, RetThunkRef, RetValue}; let ret = match expr { ExprF::Embed(_) => unreachable!(), ExprF::Var(_) => unreachable!(), ExprF::Annot(x, _) => RetThunk(x), ExprF::Lam(x, t, e) => { RetValue(Lam(x.into(), TypeThunk::from_thunk(t), e)) } ExprF::Pi(x, t, e) => RetValue(Pi( x.into(), TypeThunk::from_thunk(t), TypeThunk::from_thunk(e), )), ExprF::Let(x, _, v, b) => { let v = Typed::from_thunk_untyped(v); RetThunk(b.subst_shift(&x.into(), &v)) } ExprF::App(v, a) => RetValue(v.app_thunk(a)), ExprF::Builtin(b) => RetValue(Value::from_builtin(b)), ExprF::Const(c) => RetValue(Value::Const(c)), ExprF::BoolLit(b) => RetValue(BoolLit(b)), ExprF::NaturalLit(n) => RetValue(NaturalLit(n)), ExprF::IntegerLit(n) => RetValue(IntegerLit(n)), ExprF::DoubleLit(_) => RetExpr(expr), ExprF::OldOptionalLit(None, t) => { RetValue(EmptyOptionalLit(TypeThunk::from_thunk(t))) } ExprF::OldOptionalLit(Some(e), _) => RetValue(NEOptionalLit(e)), ExprF::SomeLit(e) => RetValue(NEOptionalLit(e)), ExprF::EmptyListLit(t) => { RetValue(EmptyListLit(TypeThunk::from_thunk(t))) } ExprF::NEListLit(elts) => { RetValue(NEListLit(elts.into_iter().collect())) } ExprF::RecordLit(kvs) => RetValue(RecordLit(kvs.into_iter().collect())), ExprF::RecordType(kts) => RetValue(RecordType( kts.into_iter() .map(|(k, t)| (k, TypeThunk::from_thunk(t))) .collect(), )), ExprF::UnionLit(l, x, kts) => RetValue(UnionLit( l, x, kts.into_iter() .map(|(k, t)| (k, t.map(|t| TypeThunk::from_thunk(t)))) .collect(), )), ExprF::UnionType(kts) => RetValue(UnionType( kts.into_iter() .map(|(k, t)| (k, t.map(|t| TypeThunk::from_thunk(t)))) .collect(), )), ExprF::TextLit(elts) => { use InterpolatedTextContents::Expr; let elts: Vec<_> = squash_textlit(elts.into_iter()); // Simplify bare interpolation if let [Expr(th)] = elts.as_slice() { RetThunk(th.clone()) } else { RetValue(TextLit(elts)) } } ExprF::BoolIf(ref b, ref e1, ref e2) => { let b_borrow = b.as_value(); match &*b_borrow { BoolLit(true) => RetThunkRef(e1), BoolLit(false) => RetThunkRef(e2), _ => { let e1_borrow = e1.as_value(); let e2_borrow = e2.as_value(); match (&*e1_borrow, &*e2_borrow) { // Simplify `if b then True else False` (BoolLit(true), BoolLit(false)) => RetThunkRef(b), _ if e1 == e2 => RetThunkRef(e1), _ => { drop(b_borrow); drop(e1_borrow); drop(e2_borrow); RetExpr(expr) } } } } } ExprF::BinOp(o, ref x, ref y) => { use BinOp::{ BoolAnd, BoolEQ, BoolNE, BoolOr, ListAppend, NaturalPlus, NaturalTimes, TextAppend, }; let x_borrow = x.as_value(); let y_borrow = y.as_value(); match (o, &*x_borrow, &*y_borrow) { (BoolAnd, BoolLit(true), _) => RetThunkRef(y), (BoolAnd, _, BoolLit(true)) => RetThunkRef(x), (BoolAnd, BoolLit(false), _) => RetValue(BoolLit(false)), (BoolAnd, _, BoolLit(false)) => RetValue(BoolLit(false)), (BoolAnd, _, _) if x == y => RetThunkRef(x), (BoolOr, BoolLit(true), _) => RetValue(BoolLit(true)), (BoolOr, _, BoolLit(true)) => RetValue(BoolLit(true)), (BoolOr, BoolLit(false), _) => RetThunkRef(y), (BoolOr, _, BoolLit(false)) => RetThunkRef(x), (BoolOr, _, _) if x == y => RetThunkRef(x), (BoolEQ, BoolLit(true), _) => RetThunkRef(y), (BoolEQ, _, BoolLit(true)) => RetThunkRef(x), (BoolEQ, BoolLit(x), BoolLit(y)) => RetValue(BoolLit(x == y)), (BoolEQ, _, _) if x == y => RetValue(BoolLit(true)), (BoolNE, BoolLit(false), _) => RetThunkRef(y), (BoolNE, _, BoolLit(false)) => RetThunkRef(x), (BoolNE, BoolLit(x), BoolLit(y)) => RetValue(BoolLit(x != y)), (BoolNE, _, _) if x == y => RetValue(BoolLit(false)), (NaturalPlus, NaturalLit(0), _) => RetThunkRef(y), (NaturalPlus, _, NaturalLit(0)) => RetThunkRef(x), (NaturalPlus, NaturalLit(x), NaturalLit(y)) => { RetValue(NaturalLit(x + y)) } (NaturalTimes, NaturalLit(0), _) => RetValue(NaturalLit(0)), (NaturalTimes, _, NaturalLit(0)) => RetValue(NaturalLit(0)), (NaturalTimes, NaturalLit(1), _) => RetThunkRef(y), (NaturalTimes, _, NaturalLit(1)) => RetThunkRef(x), (NaturalTimes, NaturalLit(x), NaturalLit(y)) => { RetValue(NaturalLit(x * y)) } (ListAppend, EmptyListLit(_), _) => RetThunkRef(y), (ListAppend, _, EmptyListLit(_)) => RetThunkRef(x), (ListAppend, NEListLit(xs), NEListLit(ys)) => RetValue( NEListLit(xs.iter().chain(ys.iter()).cloned().collect()), ), (TextAppend, TextLit(x), _) if x.is_empty() => RetThunkRef(y), (TextAppend, _, TextLit(y)) if y.is_empty() => RetThunkRef(x), (TextAppend, TextLit(x), TextLit(y)) => RetValue(TextLit( squash_textlit(x.iter().chain(y.iter()).cloned()), )), (TextAppend, TextLit(x), _) => { use std::iter::once; let y = InterpolatedTextContents::Expr(y.clone()); RetValue(TextLit(squash_textlit( x.iter().cloned().chain(once(y)), ))) } (TextAppend, _, TextLit(y)) => { use std::iter::once; let x = InterpolatedTextContents::Expr(x.clone()); RetValue(TextLit(squash_textlit( once(x).chain(y.iter().cloned()), ))) } _ => { drop(x_borrow); drop(y_borrow); RetExpr(expr) } } } ExprF::Projection(_, ls) if ls.is_empty() => { RetValue(RecordLit(std::collections::BTreeMap::new())) } ExprF::Projection(ref v, ref ls) => { let v_borrow = v.as_value(); match &*v_borrow { RecordLit(kvs) => RetValue(RecordLit( ls.iter() .filter_map(|l| { kvs.get(l).map(|x| (l.clone(), x.clone())) }) .collect(), )), _ => { drop(v_borrow); RetExpr(expr) } } } ExprF::Field(ref v, ref l) => { let v_borrow = v.as_value(); match &*v_borrow { RecordLit(kvs) => match kvs.get(l) { Some(r) => RetThunk(r.clone()), None => { drop(v_borrow); RetExpr(expr) } }, UnionType(kts) => { RetValue(UnionConstructor(l.clone(), kts.clone())) } _ => { drop(v_borrow); RetExpr(expr) } } } ExprF::Merge(ref handlers, ref variant, _) => { let handlers_borrow = handlers.as_value(); let variant_borrow = variant.as_value(); match (&*handlers_borrow, &*variant_borrow) { (RecordLit(kvs), UnionConstructor(l, _)) => match kvs.get(l) { Some(h) => RetThunk(h.clone()), None => { drop(handlers_borrow); drop(variant_borrow); RetExpr(expr) } }, (RecordLit(kvs), UnionLit(l, v, _)) => match kvs.get(l) { Some(h) => RetValue(h.app_thunk(v.clone())), None => { drop(handlers_borrow); drop(variant_borrow); RetExpr(expr) } }, _ => { drop(handlers_borrow); drop(variant_borrow); RetExpr(expr) } } } }; match ret { RetValue(v) => v, RetThunk(th) => th.to_value(), RetThunkRef(th) => th.to_value(), RetExpr(expr) => Value::PartialExpr(expr), } } #[cfg(test)] mod spec_tests { #![rustfmt::skip] macro_rules! norm { ($name:ident, $path:expr) => { make_spec_test!(Normalization, Success, $name, $path); }; } macro_rules! alpha_norm { ($name:ident, $path:expr) => { make_spec_test!(AlphaNormalization, Success, $name, $path); }; } norm!(success_haskell_tutorial_access_0, "haskell-tutorial/access/0"); norm!(success_haskell_tutorial_access_1, "haskell-tutorial/access/1"); // norm!(success_haskell_tutorial_combineTypes_0, "haskell-tutorial/combineTypes/0"); // norm!(success_haskell_tutorial_combineTypes_1, "haskell-tutorial/combineTypes/1"); // norm!(success_haskell_tutorial_prefer_0, "haskell-tutorial/prefer/0"); norm!(success_haskell_tutorial_projection_0, "haskell-tutorial/projection/0"); norm!(success_prelude_Bool_and_0, "prelude/Bool/and/0"); norm!(success_prelude_Bool_and_1, "prelude/Bool/and/1"); norm!(success_prelude_Bool_build_0, "prelude/Bool/build/0"); norm!(success_prelude_Bool_build_1, "prelude/Bool/build/1"); norm!(success_prelude_Bool_even_0, "prelude/Bool/even/0"); norm!(success_prelude_Bool_even_1, "prelude/Bool/even/1"); norm!(success_prelude_Bool_even_2, "prelude/Bool/even/2"); norm!(success_prelude_Bool_even_3, "prelude/Bool/even/3"); norm!(success_prelude_Bool_fold_0, "prelude/Bool/fold/0"); norm!(success_prelude_Bool_fold_1, "prelude/Bool/fold/1"); norm!(success_prelude_Bool_not_0, "prelude/Bool/not/0"); norm!(success_prelude_Bool_not_1, "prelude/Bool/not/1"); norm!(success_prelude_Bool_odd_0, "prelude/Bool/odd/0"); norm!(success_prelude_Bool_odd_1, "prelude/Bool/odd/1"); norm!(success_prelude_Bool_odd_2, "prelude/Bool/odd/2"); norm!(success_prelude_Bool_odd_3, "prelude/Bool/odd/3"); norm!(success_prelude_Bool_or_0, "prelude/Bool/or/0"); norm!(success_prelude_Bool_or_1, "prelude/Bool/or/1"); norm!(success_prelude_Bool_show_0, "prelude/Bool/show/0"); norm!(success_prelude_Bool_show_1, "prelude/Bool/show/1"); // norm!(success_prelude_Double_show_0, "prelude/Double/show/0"); // norm!(success_prelude_Double_show_1, "prelude/Double/show/1"); // norm!(success_prelude_Integer_show_0, "prelude/Integer/show/0"); // norm!(success_prelude_Integer_show_1, "prelude/Integer/show/1"); // norm!(success_prelude_Integer_toDouble_0, "prelude/Integer/toDouble/0"); // norm!(success_prelude_Integer_toDouble_1, "prelude/Integer/toDouble/1"); norm!(success_prelude_List_all_0, "prelude/List/all/0"); norm!(success_prelude_List_all_1, "prelude/List/all/1"); norm!(success_prelude_List_any_0, "prelude/List/any/0"); norm!(success_prelude_List_any_1, "prelude/List/any/1"); norm!(success_prelude_List_build_0, "prelude/List/build/0"); norm!(success_prelude_List_build_1, "prelude/List/build/1"); norm!(success_prelude_List_concat_0, "prelude/List/concat/0"); norm!(success_prelude_List_concat_1, "prelude/List/concat/1"); norm!(success_prelude_List_concatMap_0, "prelude/List/concatMap/0"); norm!(success_prelude_List_concatMap_1, "prelude/List/concatMap/1"); norm!(success_prelude_List_filter_0, "prelude/List/filter/0"); norm!(success_prelude_List_filter_1, "prelude/List/filter/1"); norm!(success_prelude_List_fold_0, "prelude/List/fold/0"); norm!(success_prelude_List_fold_1, "prelude/List/fold/1"); norm!(success_prelude_List_fold_2, "prelude/List/fold/2"); norm!(success_prelude_List_generate_0, "prelude/List/generate/0"); norm!(success_prelude_List_generate_1, "prelude/List/generate/1"); norm!(success_prelude_List_head_0, "prelude/List/head/0"); norm!(success_prelude_List_head_1, "prelude/List/head/1"); norm!(success_prelude_List_indexed_0, "prelude/List/indexed/0"); norm!(success_prelude_List_indexed_1, "prelude/List/indexed/1"); norm!(success_prelude_List_iterate_0, "prelude/List/iterate/0"); norm!(success_prelude_List_iterate_1, "prelude/List/iterate/1"); norm!(success_prelude_List_last_0, "prelude/List/last/0"); norm!(success_prelude_List_last_1, "prelude/List/last/1"); norm!(success_prelude_List_length_0, "prelude/List/length/0"); norm!(success_prelude_List_length_1, "prelude/List/length/1"); norm!(success_prelude_List_map_0, "prelude/List/map/0"); norm!(success_prelude_List_map_1, "prelude/List/map/1"); norm!(success_prelude_List_null_0, "prelude/List/null/0"); norm!(success_prelude_List_null_1, "prelude/List/null/1"); norm!(success_prelude_List_replicate_0, "prelude/List/replicate/0"); norm!(success_prelude_List_replicate_1, "prelude/List/replicate/1"); norm!(success_prelude_List_reverse_0, "prelude/List/reverse/0"); norm!(success_prelude_List_reverse_1, "prelude/List/reverse/1"); norm!(success_prelude_List_shifted_0, "prelude/List/shifted/0"); norm!(success_prelude_List_shifted_1, "prelude/List/shifted/1"); norm!(success_prelude_List_unzip_0, "prelude/List/unzip/0"); norm!(success_prelude_List_unzip_1, "prelude/List/unzip/1"); norm!(success_prelude_Natural_build_0, "prelude/Natural/build/0"); norm!(success_prelude_Natural_build_1, "prelude/Natural/build/1"); norm!(success_prelude_Natural_enumerate_0, "prelude/Natural/enumerate/0"); norm!(success_prelude_Natural_enumerate_1, "prelude/Natural/enumerate/1"); norm!(success_prelude_Natural_even_0, "prelude/Natural/even/0"); norm!(success_prelude_Natural_even_1, "prelude/Natural/even/1"); norm!(success_prelude_Natural_fold_0, "prelude/Natural/fold/0"); norm!(success_prelude_Natural_fold_1, "prelude/Natural/fold/1"); norm!(success_prelude_Natural_fold_2, "prelude/Natural/fold/2"); norm!(success_prelude_Natural_isZero_0, "prelude/Natural/isZero/0"); norm!(success_prelude_Natural_isZero_1, "prelude/Natural/isZero/1"); norm!(success_prelude_Natural_odd_0, "prelude/Natural/odd/0"); norm!(success_prelude_Natural_odd_1, "prelude/Natural/odd/1"); norm!(success_prelude_Natural_product_0, "prelude/Natural/product/0"); norm!(success_prelude_Natural_product_1, "prelude/Natural/product/1"); norm!(success_prelude_Natural_show_0, "prelude/Natural/show/0"); norm!(success_prelude_Natural_show_1, "prelude/Natural/show/1"); norm!(success_prelude_Natural_sum_0, "prelude/Natural/sum/0"); norm!(success_prelude_Natural_sum_1, "prelude/Natural/sum/1"); // norm!(success_prelude_Natural_toDouble_0, "prelude/Natural/toDouble/0"); // norm!(success_prelude_Natural_toDouble_1, "prelude/Natural/toDouble/1"); norm!(success_prelude_Natural_toInteger_0, "prelude/Natural/toInteger/0"); norm!(success_prelude_Natural_toInteger_1, "prelude/Natural/toInteger/1"); norm!(success_prelude_Optional_all_0, "prelude/Optional/all/0"); norm!(success_prelude_Optional_all_1, "prelude/Optional/all/1"); norm!(success_prelude_Optional_any_0, "prelude/Optional/any/0"); norm!(success_prelude_Optional_any_1, "prelude/Optional/any/1"); norm!(success_prelude_Optional_build_0, "prelude/Optional/build/0"); norm!(success_prelude_Optional_build_1, "prelude/Optional/build/1"); norm!(success_prelude_Optional_concat_0, "prelude/Optional/concat/0"); norm!(success_prelude_Optional_concat_1, "prelude/Optional/concat/1"); norm!(success_prelude_Optional_concat_2, "prelude/Optional/concat/2"); norm!(success_prelude_Optional_filter_0, "prelude/Optional/filter/0"); norm!(success_prelude_Optional_filter_1, "prelude/Optional/filter/1"); norm!(success_prelude_Optional_fold_0, "prelude/Optional/fold/0"); norm!(success_prelude_Optional_fold_1, "prelude/Optional/fold/1"); norm!(success_prelude_Optional_head_0, "prelude/Optional/head/0"); norm!(success_prelude_Optional_head_1, "prelude/Optional/head/1"); norm!(success_prelude_Optional_head_2, "prelude/Optional/head/2"); norm!(success_prelude_Optional_last_0, "prelude/Optional/last/0"); norm!(success_prelude_Optional_last_1, "prelude/Optional/last/1"); norm!(success_prelude_Optional_last_2, "prelude/Optional/last/2"); norm!(success_prelude_Optional_length_0, "prelude/Optional/length/0"); norm!(success_prelude_Optional_length_1, "prelude/Optional/length/1"); norm!(success_prelude_Optional_map_0, "prelude/Optional/map/0"); norm!(success_prelude_Optional_map_1, "prelude/Optional/map/1"); norm!(success_prelude_Optional_null_0, "prelude/Optional/null/0"); norm!(success_prelude_Optional_null_1, "prelude/Optional/null/1"); norm!(success_prelude_Optional_toList_0, "prelude/Optional/toList/0"); norm!(success_prelude_Optional_toList_1, "prelude/Optional/toList/1"); norm!(success_prelude_Optional_unzip_0, "prelude/Optional/unzip/0"); norm!(success_prelude_Optional_unzip_1, "prelude/Optional/unzip/1"); norm!(success_prelude_Text_concat_0, "prelude/Text/concat/0"); norm!(success_prelude_Text_concat_1, "prelude/Text/concat/1"); norm!(success_prelude_Text_concatMap_0, "prelude/Text/concatMap/0"); norm!(success_prelude_Text_concatMap_1, "prelude/Text/concatMap/1"); // norm!(success_prelude_Text_concatMapSep_0, "prelude/Text/concatMapSep/0"); // norm!(success_prelude_Text_concatMapSep_1, "prelude/Text/concatMapSep/1"); // norm!(success_prelude_Text_concatSep_0, "prelude/Text/concatSep/0"); // norm!(success_prelude_Text_concatSep_1, "prelude/Text/concatSep/1"); // norm!(success_prelude_Text_show_0, "prelude/Text/show/0"); // norm!(success_prelude_Text_show_1, "prelude/Text/show/1"); // norm!(success_remoteSystems, "remoteSystems"); // norm!(success_simple_doubleShow, "simple/doubleShow"); norm!(success_simple_enum, "simple/enum"); // norm!(success_simple_integerShow, "simple/integerShow"); // norm!(success_simple_integerToDouble, "simple/integerToDouble"); norm!(success_simple_letlet, "simple/letlet"); norm!(success_simple_listBuild, "simple/listBuild"); norm!(success_simple_multiLine, "simple/multiLine"); norm!(success_simple_naturalBuild, "simple/naturalBuild"); norm!(success_simple_naturalPlus, "simple/naturalPlus"); norm!(success_simple_naturalShow, "simple/naturalShow"); norm!(success_simple_naturalToInteger, "simple/naturalToInteger"); norm!(success_simple_optionalBuild, "simple/optionalBuild"); norm!(success_simple_optionalBuildFold, "simple/optionalBuildFold"); norm!(success_simple_optionalFold, "simple/optionalFold"); // norm!(success_simple_sortOperator, "simple/sortOperator"); norm!(success_simplifications_and, "simplifications/and"); norm!(success_simplifications_eq, "simplifications/eq"); norm!(success_simplifications_ifThenElse, "simplifications/ifThenElse"); norm!(success_simplifications_ne, "simplifications/ne"); norm!(success_simplifications_or, "simplifications/or"); norm!(success_unit_Bool, "unit/Bool"); norm!(success_unit_Double, "unit/Double"); norm!(success_unit_DoubleLiteral, "unit/DoubleLiteral"); norm!(success_unit_DoubleShow, "unit/DoubleShow"); // norm!(success_unit_DoubleShowValue, "unit/DoubleShowValue"); norm!(success_unit_EmptyAlternative, "unit/EmptyAlternative"); norm!(success_unit_FunctionApplicationCapture, "unit/FunctionApplicationCapture"); norm!(success_unit_FunctionApplicationNoSubstitute, "unit/FunctionApplicationNoSubstitute"); norm!(success_unit_FunctionApplicationNormalizeArguments, "unit/FunctionApplicationNormalizeArguments"); norm!(success_unit_FunctionApplicationSubstitute, "unit/FunctionApplicationSubstitute"); norm!(success_unit_FunctionNormalizeArguments, "unit/FunctionNormalizeArguments"); norm!(success_unit_FunctionTypeNormalizeArguments, "unit/FunctionTypeNormalizeArguments"); norm!(success_unit_IfAlternativesIdentical, "unit/IfAlternativesIdentical"); norm!(success_unit_IfFalse, "unit/IfFalse"); norm!(success_unit_IfNormalizePredicateAndBranches, "unit/IfNormalizePredicateAndBranches"); norm!(success_unit_IfTrivial, "unit/IfTrivial"); norm!(success_unit_IfTrue, "unit/IfTrue"); norm!(success_unit_Integer, "unit/Integer"); norm!(success_unit_IntegerNegative, "unit/IntegerNegative"); norm!(success_unit_IntegerPositive, "unit/IntegerPositive"); // norm!(success_unit_IntegerShow_12, "unit/IntegerShow-12"); // norm!(success_unit_IntegerShow12, "unit/IntegerShow12"); norm!(success_unit_IntegerShow, "unit/IntegerShow"); // norm!(success_unit_IntegerToDouble_12, "unit/IntegerToDouble-12"); // norm!(success_unit_IntegerToDouble12, "unit/IntegerToDouble12"); norm!(success_unit_IntegerToDouble, "unit/IntegerToDouble"); norm!(success_unit_Kind, "unit/Kind"); norm!(success_unit_Let, "unit/Let"); norm!(success_unit_LetWithType, "unit/LetWithType"); norm!(success_unit_List, "unit/List"); norm!(success_unit_ListBuild, "unit/ListBuild"); norm!(success_unit_ListBuildFoldFusion, "unit/ListBuildFoldFusion"); norm!(success_unit_ListBuildImplementation, "unit/ListBuildImplementation"); norm!(success_unit_ListFold, "unit/ListFold"); norm!(success_unit_ListFoldEmpty, "unit/ListFoldEmpty"); norm!(success_unit_ListFoldOne, "unit/ListFoldOne"); norm!(success_unit_ListHead, "unit/ListHead"); norm!(success_unit_ListHeadEmpty, "unit/ListHeadEmpty"); norm!(success_unit_ListHeadOne, "unit/ListHeadOne"); norm!(success_unit_ListIndexed, "unit/ListIndexed"); norm!(success_unit_ListIndexedEmpty, "unit/ListIndexedEmpty"); norm!(success_unit_ListIndexedOne, "unit/ListIndexedOne"); norm!(success_unit_ListLast, "unit/ListLast"); norm!(success_unit_ListLastEmpty, "unit/ListLastEmpty"); norm!(success_unit_ListLastOne, "unit/ListLastOne"); norm!(success_unit_ListLength, "unit/ListLength"); norm!(success_unit_ListLengthEmpty, "unit/ListLengthEmpty"); norm!(success_unit_ListLengthOne, "unit/ListLengthOne"); norm!(success_unit_ListNormalizeElements, "unit/ListNormalizeElements"); norm!(success_unit_ListNormalizeTypeAnnotation, "unit/ListNormalizeTypeAnnotation"); norm!(success_unit_ListReverse, "unit/ListReverse"); norm!(success_unit_ListReverseEmpty, "unit/ListReverseEmpty"); norm!(success_unit_ListReverseTwo, "unit/ListReverseTwo"); norm!(success_unit_Merge, "unit/Merge"); norm!(success_unit_MergeEmptyAlternative, "unit/MergeEmptyAlternative"); norm!(success_unit_MergeNormalizeArguments, "unit/MergeNormalizeArguments"); norm!(success_unit_MergeWithType, "unit/MergeWithType"); norm!(success_unit_MergeWithTypeNormalizeArguments, "unit/MergeWithTypeNormalizeArguments"); norm!(success_unit_Natural, "unit/Natural"); norm!(success_unit_NaturalBuild, "unit/NaturalBuild"); norm!(success_unit_NaturalBuildFoldFusion, "unit/NaturalBuildFoldFusion"); norm!(success_unit_NaturalBuildImplementation, "unit/NaturalBuildImplementation"); norm!(success_unit_NaturalEven, "unit/NaturalEven"); norm!(success_unit_NaturalEvenOne, "unit/NaturalEvenOne"); norm!(success_unit_NaturalEvenZero, "unit/NaturalEvenZero"); norm!(success_unit_NaturalFold, "unit/NaturalFold"); norm!(success_unit_NaturalFoldOne, "unit/NaturalFoldOne"); norm!(success_unit_NaturalFoldZero, "unit/NaturalFoldZero"); norm!(success_unit_NaturalIsZero, "unit/NaturalIsZero"); norm!(success_unit_NaturalIsZeroOne, "unit/NaturalIsZeroOne"); norm!(success_unit_NaturalIsZeroZero, "unit/NaturalIsZeroZero"); norm!(success_unit_NaturalLiteral, "unit/NaturalLiteral"); norm!(success_unit_NaturalOdd, "unit/NaturalOdd"); norm!(success_unit_NaturalOddOne, "unit/NaturalOddOne"); norm!(success_unit_NaturalOddZero, "unit/NaturalOddZero"); norm!(success_unit_NaturalShow, "unit/NaturalShow"); norm!(success_unit_NaturalShowOne, "unit/NaturalShowOne"); norm!(success_unit_NaturalToInteger, "unit/NaturalToInteger"); norm!(success_unit_NaturalToIntegerOne, "unit/NaturalToIntegerOne"); norm!(success_unit_None, "unit/None"); norm!(success_unit_NoneNatural, "unit/NoneNatural"); norm!(success_unit_OperatorAndEquivalentArguments, "unit/OperatorAndEquivalentArguments"); norm!(success_unit_OperatorAndLhsFalse, "unit/OperatorAndLhsFalse"); norm!(success_unit_OperatorAndLhsTrue, "unit/OperatorAndLhsTrue"); norm!(success_unit_OperatorAndNormalizeArguments, "unit/OperatorAndNormalizeArguments"); norm!(success_unit_OperatorAndRhsFalse, "unit/OperatorAndRhsFalse"); norm!(success_unit_OperatorAndRhsTrue, "unit/OperatorAndRhsTrue"); norm!(success_unit_OperatorEqualEquivalentArguments, "unit/OperatorEqualEquivalentArguments"); norm!(success_unit_OperatorEqualLhsTrue, "unit/OperatorEqualLhsTrue"); norm!(success_unit_OperatorEqualNormalizeArguments, "unit/OperatorEqualNormalizeArguments"); norm!(success_unit_OperatorEqualRhsTrue, "unit/OperatorEqualRhsTrue"); norm!(success_unit_OperatorListConcatenateLhsEmpty, "unit/OperatorListConcatenateLhsEmpty"); norm!(success_unit_OperatorListConcatenateListList, "unit/OperatorListConcatenateListList"); norm!(success_unit_OperatorListConcatenateNormalizeArguments, "unit/OperatorListConcatenateNormalizeArguments"); norm!(success_unit_OperatorListConcatenateRhsEmpty, "unit/OperatorListConcatenateRhsEmpty"); norm!(success_unit_OperatorNotEqualEquivalentArguments, "unit/OperatorNotEqualEquivalentArguments"); norm!(success_unit_OperatorNotEqualLhsFalse, "unit/OperatorNotEqualLhsFalse"); norm!(success_unit_OperatorNotEqualNormalizeArguments, "unit/OperatorNotEqualNormalizeArguments"); norm!(success_unit_OperatorNotEqualRhsFalse, "unit/OperatorNotEqualRhsFalse"); norm!(success_unit_OperatorOrEquivalentArguments, "unit/OperatorOrEquivalentArguments"); norm!(success_unit_OperatorOrLhsFalse, "unit/OperatorOrLhsFalse"); norm!(success_unit_OperatorOrLhsTrue, "unit/OperatorOrLhsTrue"); norm!(success_unit_OperatorOrNormalizeArguments, "unit/OperatorOrNormalizeArguments"); norm!(success_unit_OperatorOrRhsFalse, "unit/OperatorOrRhsFalse"); norm!(success_unit_OperatorOrRhsTrue, "unit/OperatorOrRhsTrue"); norm!(success_unit_OperatorPlusLhsZero, "unit/OperatorPlusLhsZero"); norm!(success_unit_OperatorPlusNormalizeArguments, "unit/OperatorPlusNormalizeArguments"); norm!(success_unit_OperatorPlusOneAndOne, "unit/OperatorPlusOneAndOne"); norm!(success_unit_OperatorPlusRhsZero, "unit/OperatorPlusRhsZero"); norm!(success_unit_OperatorTextConcatenateLhsEmpty, "unit/OperatorTextConcatenateLhsEmpty"); norm!(success_unit_OperatorTextConcatenateLhsNonEmpty, "unit/OperatorTextConcatenateLhsNonEmpty"); norm!(success_unit_OperatorTextConcatenateTextText, "unit/OperatorTextConcatenateTextText"); norm!(success_unit_OperatorTimesLhsOne, "unit/OperatorTimesLhsOne"); norm!(success_unit_OperatorTimesLhsZero, "unit/OperatorTimesLhsZero"); norm!(success_unit_OperatorTimesNormalizeArguments, "unit/OperatorTimesNormalizeArguments"); norm!(success_unit_OperatorTimesRhsOne, "unit/OperatorTimesRhsOne"); norm!(success_unit_OperatorTimesRhsZero, "unit/OperatorTimesRhsZero"); norm!(success_unit_OperatorTimesTwoAndTwo, "unit/OperatorTimesTwoAndTwo"); norm!(success_unit_Optional, "unit/Optional"); norm!(success_unit_OptionalBuild, "unit/OptionalBuild"); norm!(success_unit_OptionalBuildFoldFusion, "unit/OptionalBuildFoldFusion"); norm!(success_unit_OptionalBuildImplementation, "unit/OptionalBuildImplementation"); norm!(success_unit_OptionalFold, "unit/OptionalFold"); norm!(success_unit_OptionalFoldNone, "unit/OptionalFoldNone"); norm!(success_unit_OptionalFoldSome, "unit/OptionalFoldSome"); norm!(success_unit_Record, "unit/Record"); norm!(success_unit_RecordEmpty, "unit/RecordEmpty"); norm!(success_unit_RecordProjection, "unit/RecordProjection"); norm!(success_unit_RecordProjectionEmpty, "unit/RecordProjectionEmpty"); norm!(success_unit_RecordProjectionNormalizeArguments, "unit/RecordProjectionNormalizeArguments"); norm!(success_unit_RecordSelection, "unit/RecordSelection"); norm!(success_unit_RecordSelectionNormalizeArguments, "unit/RecordSelectionNormalizeArguments"); norm!(success_unit_RecordType, "unit/RecordType"); norm!(success_unit_RecordTypeEmpty, "unit/RecordTypeEmpty"); // norm!(success_unit_RecursiveRecordMergeCollision, "unit/RecursiveRecordMergeCollision"); // norm!(success_unit_RecursiveRecordMergeLhsEmpty, "unit/RecursiveRecordMergeLhsEmpty"); // norm!(success_unit_RecursiveRecordMergeNoCollision, "unit/RecursiveRecordMergeNoCollision"); // norm!(success_unit_RecursiveRecordMergeNormalizeArguments, "unit/RecursiveRecordMergeNormalizeArguments"); // norm!(success_unit_RecursiveRecordMergeRhsEmpty, "unit/RecursiveRecordMergeRhsEmpty"); // norm!(success_unit_RecursiveRecordTypeMergeCollision, "unit/RecursiveRecordTypeMergeCollision"); // norm!(success_unit_RecursiveRecordTypeMergeLhsEmpty, "unit/RecursiveRecordTypeMergeLhsEmpty"); // norm!(success_unit_RecursiveRecordTypeMergeNoCollision, "unit/RecursiveRecordTypeMergeNoCollision"); // norm!(success_unit_RecursiveRecordTypeMergeNormalizeArguments, "unit/RecursiveRecordTypeMergeNormalizeArguments"); // norm!(success_unit_RecursiveRecordTypeMergeRhsEmpty, "unit/RecursiveRecordTypeMergeRhsEmpty"); // norm!(success_unit_RecursiveRecordTypeMergeSorts, "unit/RecursiveRecordTypeMergeSorts"); // norm!(success_unit_RightBiasedRecordMergeCollision, "unit/RightBiasedRecordMergeCollision"); // norm!(success_unit_RightBiasedRecordMergeLhsEmpty, "unit/RightBiasedRecordMergeLhsEmpty"); // norm!(success_unit_RightBiasedRecordMergeNoCollision, "unit/RightBiasedRecordMergeNoCollision"); // norm!(success_unit_RightBiasedRecordMergeNormalizeArguments, "unit/RightBiasedRecordMergeNormalizeArguments"); // norm!(success_unit_RightBiasedRecordMergeRhsEmpty, "unit/RightBiasedRecordMergeRhsEmpty"); norm!(success_unit_SomeNormalizeArguments, "unit/SomeNormalizeArguments"); norm!(success_unit_Sort, "unit/Sort"); norm!(success_unit_Text, "unit/Text"); norm!(success_unit_TextInterpolate, "unit/TextInterpolate"); norm!(success_unit_TextLiteral, "unit/TextLiteral"); norm!(success_unit_TextNormalizeInterpolations, "unit/TextNormalizeInterpolations"); norm!(success_unit_TextShow, "unit/TextShow"); // norm!(success_unit_TextShowAllEscapes, "unit/TextShowAllEscapes"); norm!(success_unit_True, "unit/True"); norm!(success_unit_Type, "unit/Type"); norm!(success_unit_TypeAnnotation, "unit/TypeAnnotation"); norm!(success_unit_UnionNormalizeAlternatives, "unit/UnionNormalizeAlternatives"); norm!(success_unit_UnionNormalizeArguments, "unit/UnionNormalizeArguments"); norm!(success_unit_UnionProjectConstructor, "unit/UnionProjectConstructor"); norm!(success_unit_UnionSortAlternatives, "unit/UnionSortAlternatives"); norm!(success_unit_UnionType, "unit/UnionType"); norm!(success_unit_UnionTypeEmpty, "unit/UnionTypeEmpty"); norm!(success_unit_UnionTypeNormalizeArguments, "unit/UnionTypeNormalizeArguments"); norm!(success_unit_Variable, "unit/Variable"); alpha_norm!(alpha_success_unit_FunctionBindingUnderscore, "unit/FunctionBindingUnderscore"); alpha_norm!(alpha_success_unit_FunctionBindingX, "unit/FunctionBindingX"); alpha_norm!(alpha_success_unit_FunctionNestedBindingX, "unit/FunctionNestedBindingX"); alpha_norm!(alpha_success_unit_FunctionTypeBindingUnderscore, "unit/FunctionTypeBindingUnderscore"); alpha_norm!(alpha_success_unit_FunctionTypeBindingX, "unit/FunctionTypeBindingX"); alpha_norm!(alpha_success_unit_FunctionTypeNestedBindingX, "unit/FunctionTypeNestedBindingX"); }