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use itertools::Itertools;
use std::collections::HashMap;
use std::iter::once;
use crate::operations::{BinOp, OpKind};
use crate::semantics::{
merge_maps, ret_kind, ret_nir, 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_nir(y),
(BoolAnd, _, Num(Bool(true))) => ret_nir(x),
(BoolAnd, Num(Bool(false)), _) => ret_kind(Num(Bool(false))),
(BoolAnd, _, Num(Bool(false))) => ret_kind(Num(Bool(false))),
(BoolAnd, _, _) if x == y => ret_nir(x),
(BoolOr, Num(Bool(true)), _) => ret_kind(Num(Bool(true))),
(BoolOr, _, Num(Bool(true))) => ret_kind(Num(Bool(true))),
(BoolOr, Num(Bool(false)), _) => ret_nir(y),
(BoolOr, _, Num(Bool(false))) => ret_nir(x),
(BoolOr, _, _) if x == y => ret_nir(x),
(BoolEQ, Num(Bool(true)), _) => ret_nir(y),
(BoolEQ, _, Num(Bool(true))) => ret_nir(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_nir(y),
(BoolNE, _, Num(Bool(false))) => ret_nir(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_nir(y),
(NaturalPlus, _, Num(Natural(0))) => ret_nir(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_nir(y),
(NaturalTimes, _, Num(Natural(1))) => ret_nir(x),
(NaturalTimes, Num(Natural(x)), Num(Natural(y))) => {
ret_kind(Num(Natural(x * y)))
}
(ListAppend, EmptyListLit(_), _) => ret_nir(y),
(ListAppend, _, EmptyListLit(_)) => ret_nir(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_nir(y),
(TextAppend, _, NirKind::TextLit(y)) if y.is_empty() => ret_nir(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_nir(x)
}
(RightBiasedRecordMerge, RecordLit(kvs), _) if kvs.is_empty() => {
ret_nir(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_nir(y),
(RecursiveRecordMerge, _, RecordLit(kvs)) if kvs.is_empty() => {
ret_nir(x)
}
(RecursiveRecordMerge, RecordLit(kvs), _) if kvs.is_empty() => {
ret_nir(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, y)),
_ => ret_op(OpKind::BinOp(o, x, y)),
}
}
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::*;
match opkind {
App(v, a) => ret_kind(v.app_to_kind(a)),
BinOp(o, x, y) => normalize_binop(o, x, y),
BoolIf(b, e1, e2) => {
match b.kind() {
Num(Bool(true)) => ret_nir(e1),
Num(Bool(false)) => ret_nir(e2),
_ => {
match (e1.kind(), e2.kind()) {
// Simplify `if b then True else False`
(Num(Bool(true)), Num(Bool(false))) => ret_nir(b),
_ if e1 == e2 => ret_nir(e1),
_ => ret_op(BoolIf(b, e1, e2)),
}
}
}
}
Merge(handlers, variant, ty) => match handlers.kind() {
RecordLit(kvs) => match variant.kind() {
UnionConstructor(l, _) => match kvs.get(l) {
Some(h) => ret_ref(h),
None => ret_op(Merge(handlers, variant, ty)),
},
UnionLit(l, v, _) => match kvs.get(l) {
Some(h) => ret_kind(h.app_to_kind(v.clone())),
None => ret_op(Merge(handlers, variant, ty)),
},
EmptyOptionalLit(_) => match kvs.get("None") {
Some(h) => ret_ref(h),
None => ret_op(Merge(handlers, variant, ty)),
},
NEOptionalLit(v) => match kvs.get("Some") {
Some(h) => ret_kind(h.app_to_kind(v.clone())),
None => ret_op(Merge(handlers, variant, ty)),
},
_ => ret_op(Merge(handlers, variant, ty)),
},
_ => ret_op(Merge(handlers, variant, ty)),
},
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()))
}
_ => ret_op(ToMap(v, annot)),
}
}
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(),
)),
_ => ret_op(ToMap(v, annot)),
},
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))
}
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(),
))),
))
}
_ => ret_op(Projection(v, ls)),
},
_ => ret_op(Projection(v, ls)),
},
ProjectionByExpr(v, t) => match t.kind() {
RecordType(kts) => normalize_operation(Projection(
v,
kts.keys().cloned().collect(),
)),
_ => ret_op(ProjectionByExpr(v, t)),
},
With(mut record, labels, expr) => {
let mut labels = labels.into_iter();
let mut current = &mut record;
// We dig through the current record with the provided labels.
while let RecordLit(kvs) = current.kind_mut() {
if let Some(label) = labels.next() {
// Get existing entry or insert empty record into it.
let nir = kvs.entry(label).or_insert_with(|| {
Nir::from_kind(RecordLit(HashMap::new()))
});
// Disgusting, but the normal assignment works with -Zpolonius, so this
// is safe. See https://github.com/rust-lang/rust/issues/70255 .
current = unsafe { &mut *(nir as *mut _) };
} else {
break;
}
}
// If there are still some fields to dig through, we need to create a `with` expression
// with the remaining fields.
let labels: Vec<_> = labels.collect();
*current = if labels.is_empty() {
expr
} else {
Nir::from_kind(Op(OpKind::With(current.clone(), labels, expr)))
};
ret_nir(record)
}
Completion(..) => {
unreachable!("This case should have been handled in resolution")
}
}
}
|
