difftreelog
feat array unification
in: master
11 files changed
bindings/jsonnet/src/val_make.rsdiffbeforeafterboth--- a/bindings/jsonnet/src/val_make.rs
+++ b/bindings/jsonnet/src/val_make.rs
@@ -50,7 +50,7 @@
/// Assign elements with [`jsonnet_json_array_append`].
#[no_mangle]
pub extern "C" fn jsonnet_json_make_array(_vm: &VM) -> *mut Val {
- Box::into_raw(Box::new(Val::Arr(ArrValue::eager(Vec::new()))))
+ Box::into_raw(Box::new(Val::arr(())))
}
/// Make a `JsonnetJsonValue` representing an object.
bindings/jsonnet/src/val_modify.rsdiffbeforeafterboth--- a/bindings/jsonnet/src/val_modify.rs
+++ b/bindings/jsonnet/src/val_modify.rs
@@ -24,7 +24,7 @@
}
new.push(Thunk::evaluated(val.clone()));
- *arr = Val::Arr(ArrValue::lazy(new));
+ *arr = Val::arr(new);
}
_ => panic!("should receive array"),
}
crates/jrsonnet-evaluator/src/arr/mod.rsdiffbeforeafterboth--- a/crates/jrsonnet-evaluator/src/arr/mod.rs
+++ b/crates/jrsonnet-evaluator/src/arr/mod.rs
@@ -6,7 +6,6 @@
};
use jrsonnet_gcmodule::{Cc, cc_dyn};
-use jrsonnet_interner::IBytes;
use jrsonnet_ir::Expr;
use crate::{Context, Result, Thunk, Val, function::NativeFn, typed::IntoUntyped};
@@ -35,28 +34,17 @@
impl ArrValue {
pub fn empty() -> Self {
- Self::new(RangeArray::empty())
+ Self::new(())
}
pub fn expr(ctx: Context, exprs: Rc<Vec<Expr>>) -> Self {
Self::new(ExprArray::new(ctx, exprs))
- }
-
- pub fn lazy(thunks: Vec<Thunk<Val>>) -> Self {
- Self::new(LazyArray(thunks))
}
- pub fn eager(values: Vec<Val>) -> Self {
- Self::new(EagerArray(values))
- }
-
pub fn repeated(data: Self, repeats: usize) -> Option<Self> {
Some(Self::new(RepeatedArray::new(data, repeats)?))
}
- pub fn bytes(bytes: IBytes) -> Self {
- Self::new(BytesArray(bytes))
- }
pub fn chars(chars: impl Iterator<Item = char>) -> Self {
Self::new(CharArray(chars.collect()))
}
@@ -83,7 +71,7 @@
out.push(i);
}
}
- return Ok(Self::eager(out));
+ return Ok(Self::new(out));
};
let mut out = Vec::new();
@@ -92,29 +80,16 @@
out.push(i);
}
}
- Ok(Self::lazy(out))
+ Ok(Self::new(out))
}
pub fn extended(a: Self, b: Self) -> Self {
- // TODO: benchmark for an optimal value, currently just a arbitrary choice
- const ARR_EXTEND_THRESHOLD: usize = 1000;
-
if a.is_empty() {
b
} else if b.is_empty() {
a
- } else if a.len() + b.len() > ARR_EXTEND_THRESHOLD {
+ } else {
Self::new(ExtendedArray::new(a, b))
- } else if let (Some(a), Some(b)) = (a.iter_cheap(), b.iter_cheap()) {
- let mut out = Vec::with_capacity(a.len() + b.len());
- out.extend(a);
- out.extend(b);
- Self::eager(out)
- } else {
- let mut out = Vec::with_capacity(a.len() + b.len());
- out.extend(a.iter_lazy());
- out.extend(b.iter_lazy());
- Self::lazy(out)
}
}
@@ -165,19 +140,15 @@
self.0.is_empty()
}
+ pub fn is_cheap(&self) -> bool {
+ self.0.is_cheap()
+ }
+
/// Get array element by index, evaluating it, if it is lazy.
///
/// Returns `None` on out-of-bounds condition.
pub fn get(&self, index: usize) -> Result<Option<Val>> {
self.0.get(index)
- }
-
- /// Returns None if get is either non cheap, or out of bounds
- /// Note that non-cheap access includes errorable values
- ///
- /// Prefer it to `get_lazy`, but use `get` when you can.
- fn get_cheap(&self, index: usize) -> Option<Val> {
- self.0.get_cheap(index)
}
/// Get array element by index, without evaluation.
@@ -196,15 +167,6 @@
(0..self.len()).map(|i| self.get_lazy(i).expect("length checked"))
}
- /// Prefer it over `iter_lazy`, but do not use it where `iter` will do.
- pub fn iter_cheap(&self) -> Option<impl ArrayLikeIter<Val> + '_> {
- if self.is_cheap() {
- Some((0..self.len()).map(|i| self.get_cheap(i).expect("length and is_cheap checked")))
- } else {
- None
- }
- }
-
/// Return a reversed view on current array.
#[must_use]
pub fn reversed(self) -> Self {
@@ -213,50 +175,25 @@
pub fn ptr_eq(a: &Self, b: &Self) -> bool {
Cc::ptr_eq(&a.0, &b.0)
- }
-
- /// Is this vec supports `.get_cheap()?`
- pub fn is_cheap(&self) -> bool {
- self.0.is_cheap()
}
pub fn as_any(&self) -> &dyn Any {
&self.0
}
}
-impl From<Vec<Val>> for ArrValue {
- fn from(value: Vec<Val>) -> Self {
- Self::eager(value)
- }
-}
-impl From<Vec<Thunk<Val>>> for ArrValue {
- fn from(value: Vec<Thunk<Val>>) -> Self {
- Self::lazy(value)
- }
-}
-impl FromIterator<Val> for ArrValue {
- fn from_iter<T: IntoIterator<Item = Val>>(iter: T) -> Self {
- Self::eager(iter.into_iter().collect())
+impl<T> From<T> for ArrValue
+where
+ T: ArrayLike,
+{
+ fn from(value: T) -> Self {
+ Self::new(value)
}
}
-impl ArrayLike for ArrValue {
- fn len(&self) -> usize {
- self.0.len()
- }
-
- fn get(&self, index: usize) -> Result<Option<Val>> {
- self.0.get(index)
- }
-
- fn get_lazy(&self, index: usize) -> Option<Thunk<Val>> {
- self.0.get_lazy(index)
- }
-
- fn get_cheap(&self, index: usize) -> Option<Val> {
- self.0.get_cheap(index)
- }
-
- fn is_cheap(&self) -> bool {
- self.0.is_cheap()
+impl<I> FromIterator<I> for ArrValue
+where
+ Vec<I>: ArrayLike,
+{
+ fn from_iter<T: IntoIterator<Item = I>>(iter: T) -> Self {
+ Self::new(iter.into_iter().collect::<Vec<_>>())
}
}
crates/jrsonnet-evaluator/src/arr/spec.rsdiffbeforeafterboth--- a/crates/jrsonnet-evaluator/src/arr/spec.rs
+++ b/crates/jrsonnet-evaluator/src/arr/spec.rs
@@ -1,4 +1,10 @@
-use std::{any::Any, cell::RefCell, fmt::Debug, mem::replace, rc::Rc};
+use std::{
+ any::Any,
+ cell::RefCell,
+ fmt::{self, Debug},
+ mem::replace,
+ rc::Rc,
+};
use jrsonnet_gcmodule::{Cc, Trace};
use jrsonnet_interner::{IBytes, IStr};
@@ -21,11 +27,45 @@
}
fn get(&self, index: usize) -> Result<Option<Val>>;
fn get_lazy(&self, index: usize) -> Option<Thunk<Val>>;
- fn get_cheap(&self, index: usize) -> Option<Val>;
- fn is_cheap(&self) -> bool;
+ fn is_cheap(&self) -> bool {
+ false
+ }
+}
+trait ArrayCheap {
+ fn get(&self, index: usize) -> Option<Val>;
+ fn len(&self) -> usize;
}
+impl<T> ArrayLike for T
+where
+ T: Any + Trace + Debug + ArrayCheap,
+{
+ fn len(&self) -> usize {
+ <T as ArrayCheap>::len(self)
+ }
+
+ fn get(&self, index: usize) -> Result<Option<Val>> {
+ Ok(<T as ArrayCheap>::get(self, index))
+ }
+ fn get_lazy(&self, index: usize) -> Option<Thunk<Val>> {
+ <T as ArrayCheap>::get(self, index).map(Thunk::evaluated)
+ }
+
+ fn is_cheap(&self) -> bool {
+ true
+ }
+}
+
+impl ArrayCheap for () {
+ fn len(&self) -> usize {
+ 0
+ }
+ fn get(&self, _index: usize) -> Option<Val> {
+ None
+ }
+}
+
#[derive(Debug, Trace)]
pub struct SliceArray {
pub(crate) inner: ArrValue,
@@ -52,9 +92,6 @@
self.inner.get_lazy(self.map_idx(index))
}
- fn get_cheap(&self, index: usize) -> Option<Val> {
- self.inner.get_cheap(self.map_idx(index))
- }
fn is_cheap(&self) -> bool {
self.inner.is_cheap()
}
@@ -62,47 +99,21 @@
#[derive(Trace, Debug)]
pub struct CharArray(pub Vec<char>);
-impl ArrayLike for CharArray {
+impl ArrayCheap for CharArray {
fn len(&self) -> usize {
- self.0.len()
+ self.0.as_slice().len()
}
-
- fn get(&self, index: usize) -> Result<Option<Val>> {
- Ok(self.get_cheap(index))
- }
-
- fn get_lazy(&self, index: usize) -> Option<Thunk<Val>> {
- self.get_cheap(index).map(Thunk::evaluated)
- }
-
- fn get_cheap(&self, index: usize) -> Option<Val> {
- self.0.get(index).map(|v| Val::string(*v))
- }
- fn is_cheap(&self) -> bool {
- true
+ fn get(&self, index: usize) -> Option<Val> {
+ self.0.as_slice().get(index).map(|v| Val::string(*v))
}
}
-#[derive(Trace, Debug)]
-pub struct BytesArray(pub IBytes);
-impl ArrayLike for BytesArray {
+impl ArrayCheap for IBytes {
fn len(&self) -> usize {
- self.0.len()
- }
-
- fn get(&self, index: usize) -> Result<Option<Val>> {
- Ok(self.get_cheap(index))
- }
-
- fn get_lazy(&self, index: usize) -> Option<Thunk<Val>> {
- self.get_cheap(index).map(Thunk::evaluated)
- }
-
- fn get_cheap(&self, index: usize) -> Option<Val> {
- self.0.get(index).map(|v| Val::Num((*v).into()))
+ self.as_slice().len()
}
- fn is_cheap(&self) -> bool {
- true
+ fn get(&self, index: usize) -> Option<Val> {
+ self.as_slice().get(index).map(|v| Val::Num((*v).into()))
}
}
@@ -190,9 +201,6 @@
expr: self.clone(),
index,
}))
- }
- fn get_cheap(&self, _index: usize) -> Option<Val> {
- None
}
fn is_cheap(&self) -> bool {
false
@@ -275,61 +283,34 @@
self.len
}
- fn get_cheap(&self, index: usize) -> Option<Val> {
- if self.split > index {
- self.a.get_cheap(index)
- } else {
- self.b.get_cheap(index - self.split)
- }
- }
fn is_cheap(&self) -> bool {
self.a.is_cheap() && self.b.is_cheap()
}
}
-#[derive(Trace, Debug)]
-pub struct LazyArray(pub Vec<Thunk<Val>>);
-impl ArrayLike for LazyArray {
+impl<T> ArrayLike for Vec<T>
+where
+ T: IntoUntyped + Trace + fmt::Debug,
+ for<'a> &'a T: IntoUntyped,
+{
fn len(&self) -> usize {
- self.0.len()
+ self.as_slice().len()
}
+
fn get(&self, index: usize) -> Result<Option<Val>> {
- let Some(v) = self.0.get(index) else {
+ let Some(elem) = self.as_slice().get(index) else {
return Ok(None);
};
- v.evaluate().map(Some)
- }
- fn get_cheap(&self, _index: usize) -> Option<Val> {
- None
- }
- fn get_lazy(&self, index: usize) -> Option<Thunk<Val>> {
- self.0.get(index).cloned()
- }
- fn is_cheap(&self) -> bool {
- false
- }
-}
-
-#[derive(Trace, Debug)]
-pub struct EagerArray(pub Vec<Val>);
-impl ArrayLike for EagerArray {
- fn len(&self) -> usize {
- self.0.len()
+ IntoUntyped::into_untyped(elem).map(Some)
}
- fn get(&self, index: usize) -> Result<Option<Val>> {
- Ok(self.0.get(index).cloned())
- }
-
fn get_lazy(&self, index: usize) -> Option<Thunk<Val>> {
- self.0.get(index).cloned().map(Thunk::evaluated)
+ let elem = self.as_slice().get(index)?;
+ Some(IntoUntyped::into_lazy_untyped(elem))
}
- fn get_cheap(&self, index: usize) -> Option<Val> {
- self.0.get(index).cloned()
- }
fn is_cheap(&self) -> bool {
- true
+ !T::provides_lazy()
}
}
@@ -363,28 +344,12 @@
WithExactSize(self.start..=self.end, self.size())
}
}
-
-impl ArrayLike for RangeArray {
- fn len(&self) -> usize {
- self.size()
- }
- fn is_empty(&self) -> bool {
- self.size() == 0
- }
-
- fn get(&self, index: usize) -> Result<Option<Val>> {
- Ok(self.get_cheap(index))
- }
-
- fn get_lazy(&self, index: usize) -> Option<Thunk<Val>> {
- self.get_cheap(index).map(Thunk::evaluated)
- }
-
- fn get_cheap(&self, index: usize) -> Option<Val> {
+impl ArrayCheap for RangeArray {
+ fn get(&self, index: usize) -> Option<Val> {
self.range().nth(index).map(|i| Val::Num(i.into()))
}
- fn is_cheap(&self) -> bool {
- true
+ fn len(&self) -> usize {
+ self.size()
}
}
@@ -403,9 +368,6 @@
self.0.get_lazy(self.0.len() - index - 1)
}
- fn get_cheap(&self, index: usize) -> Option<Val> {
- self.0.get_cheap(self.0.len() - index - 1)
- }
fn is_cheap(&self) -> bool {
self.0.is_cheap()
}
@@ -509,13 +471,6 @@
arr: self.clone(),
index,
}))
- }
-
- fn get_cheap(&self, _index: usize) -> Option<Val> {
- None
- }
- fn is_cheap(&self) -> bool {
- false
}
}
@@ -534,6 +489,12 @@
total_len,
})
}
+ fn map_idx(&self, index: usize) -> Option<usize> {
+ if index > self.total_len {
+ return None;
+ }
+ Some(index % self.data.len())
+ }
}
impl ArrayLike for RepeatedArray {
@@ -542,25 +503,17 @@
}
fn get(&self, index: usize) -> Result<Option<Val>> {
- if index > self.total_len {
+ let Some(idx) = self.map_idx(index) else {
return Ok(None);
- }
- self.data.get(index % self.data.len())
+ };
+ self.data.get(idx)
}
fn get_lazy(&self, index: usize) -> Option<Thunk<Val>> {
- if index > self.total_len {
- return None;
- }
- self.data.get_lazy(index % self.data.len())
+ let idx = self.map_idx(index)?;
+ self.data.get_lazy(idx)
}
- fn get_cheap(&self, index: usize) -> Option<Val> {
- if index > self.total_len {
- return None;
- }
- self.data.get_cheap(index % self.data.len())
- }
fn is_cheap(&self) -> bool {
self.data.is_cheap()
}
@@ -584,21 +537,17 @@
}
fn get(&self, index: usize) -> Result<Option<Val>> {
- let Some(key) = self.keys.get(index) else {
+ let Some(key) = self.keys.as_slice().get(index) else {
return Ok(None);
};
Ok(Some(self.obj.get_or_bail(key.clone())?))
}
fn get_lazy(&self, index: usize) -> Option<Thunk<Val>> {
- let key = self.keys.get(index)?;
+ let key = self.keys.as_slice().get(index)?;
Some(self.obj.get_lazy_or_bail(key.clone()))
}
- fn get_cheap(&self, _index: usize) -> Option<Val> {
- None
- }
-
fn is_cheap(&self) -> bool {
false
}
@@ -628,7 +577,7 @@
}
fn get(&self, index: usize) -> Result<Option<Val>> {
- let Some(key) = self.keys.get(index) else {
+ let Some(key) = self.keys.as_slice().get(index) else {
return Ok(None);
};
Ok(Some(
@@ -641,7 +590,7 @@
}
fn get_lazy(&self, index: usize) -> Option<Thunk<Val>> {
- let key = self.keys.get(index)?;
+ let key = self.keys.as_slice().get(index)?;
// Nothing can fail in the key part, yet value is still
// lazy-evaluated
Some(Thunk::evaluated(
@@ -651,10 +600,6 @@
})
.expect("convertible"),
))
- }
-
- fn get_cheap(&self, _index: usize) -> Option<Val> {
- None
}
fn is_cheap(&self) -> bool {
crates/jrsonnet-evaluator/src/evaluate/mod.rsdiffbeforeafterboth--- a/crates/jrsonnet-evaluator/src/evaluate/mod.rs
+++ b/crates/jrsonnet-evaluator/src/evaluate/mod.rs
@@ -70,12 +70,12 @@
if n.iter().any(|e| !is_trivial(e)) {
return None;
}
- Val::Arr(ArrValue::eager(
+ Val::Arr(
n.iter()
.map(evaluate_trivial)
.map(|e| e.expect("checked trivial"))
.collect(),
- ))
+ )
}
_ => return None,
})
@@ -145,12 +145,12 @@
let fctx = Pending::new();
let mut new_bindings = FxHashMap::with_capacity(into.binds_len());
let obj = obj.clone();
- let value = Thunk::evaluated(Val::Arr(ArrValue::lazy(vec![
+ let value = Thunk::evaluated(Val::arr(vec![
Thunk::evaluated(Val::string(field.clone())),
- Thunk!(move || obj.get(field).transpose().expect(
+ obj.get_lazy(field).transpose().expect(
"field exists, as field name was obtained from object.fields()",
- )),
- ])));
+ ),
+ ]));
destruct(into, value, fctx.clone(), &mut new_bindings)?;
let ctx = ctx.clone().extend_bindings(new_bindings).into_future(fctx);
@@ -528,7 +528,7 @@
#[cfg(feature = "exp-null-coaelse")]
None if part.null_coaelse => return Ok(Val::Null),
None => {
- let suggestions = suggest_object_fields(&v, key.clone().into_flat());
+ let suggestions = suggest_object_fields(&v, key.into_flat());
return Err(Error::from(NoSuchField(
key.clone().into_flat(),
@@ -628,7 +628,7 @@
}
Arr(items) => {
if items.is_empty() {
- Val::Arr(ArrValue::empty())
+ Val::arr(())
} else {
Val::Arr(ArrValue::expr(ctx, items.clone()))
}
@@ -640,7 +640,7 @@
out.push(Thunk!(move || evaluate(ctx, &expr)));
Ok(())
})?;
- Val::Arr(ArrValue::lazy(out))
+ Val::arr(out)
}
Obj(body) => Val::Obj(evaluate_object(None, ctx, body)?),
ObjExtend(a, b) => {
@@ -718,9 +718,7 @@
|| s.import_resolved(resolved_path),
)?,
ImportKind::Str => Val::string(s.import_resolved_str(resolved_path)?),
- ImportKind::Bin => {
- Val::Arr(ArrValue::bytes(s.import_resolved_bin(resolved_path)?))
- }
+ ImportKind::Bin => Val::arr(s.import_resolved_bin(resolved_path)?),
}) as Result<Val>
})?
}
crates/jrsonnet-evaluator/src/integrations/serde.rsdiffbeforeafterboth--- a/crates/jrsonnet-evaluator/src/integrations/serde.rs
+++ b/crates/jrsonnet-evaluator/src/integrations/serde.rs
@@ -1,6 +1,6 @@
use std::borrow::Cow;
-use jrsonnet_interner::IStr;
+use jrsonnet_interner::{IBytes, IStr};
use serde::{
Deserialize, Serialize, Serializer,
de::{self, Visitor},
@@ -11,8 +11,8 @@
};
use crate::{
- Error as JrError, ObjValue, ObjValueBuilder, Result, Val, arr::ArrValue, in_description_frame,
- runtime_error, val::NumValue,
+ Error as JrError, ObjValue, ObjValueBuilder, Result, Val, in_description_frame, runtime_error,
+ val::NumValue,
};
impl<'de> Deserialize<'de> for Val {
@@ -90,7 +90,7 @@
where
E: de::Error,
{
- Ok(Val::Arr(ArrValue::bytes(v.into())))
+ Ok(Val::arr(IBytes::from(v)))
}
fn visit_none<E>(self) -> Result<Self::Value, E>
@@ -130,7 +130,7 @@
out.push(val);
}
- Ok(Val::Arr(ArrValue::eager(out)))
+ Ok(Val::arr(out))
}
fn visit_map<A>(self, mut map: A) -> Result<Self::Value, A::Error>
@@ -270,7 +270,7 @@
}
fn end(self) -> Result<Val> {
- let inner = Val::Arr(ArrValue::eager(self.data));
+ let inner = Val::arr(self.data);
if let Some(variant) = self.variant {
let mut out = ObjValue::builder_with_capacity(1);
out.field(variant).value(inner);
@@ -509,7 +509,7 @@
}
fn serialize_bytes(self, v: &[u8]) -> Result<Val> {
- Ok(Val::Arr(ArrValue::bytes(v.into())))
+ Ok(Val::arr(IBytes::from(v)))
}
fn serialize_none(self) -> Result<Val> {
crates/jrsonnet-evaluator/src/typed/conversions.rsdiffbeforeafterboth1use std::{any::TypeId, collections::BTreeMap, marker::PhantomData, mem::transmute, ops::Deref};23use jrsonnet_gcmodule::Trace;4use jrsonnet_interner::{IBytes, IStr};5use jrsonnet_types::{ComplexValType, ValType};67use crate::{8 ObjValue, ObjValueBuilder, Result, ResultExt, Thunk, Val,9 arr::{ArrValue, BytesArray},10 bail,11 function::FuncVal,12 typed::CheckType,13 val::{IndexableVal, NumValue, StrValue, ThunkMapper},14};1516#[doc(hidden)]17pub mod __typed_macro_prelude {18 pub use ::jrsonnet_evaluator::{19 IStr, ObjValue, ObjValueBuilder, State, Val,20 error::{ErrorKind, Result as JrResult},21 typed::{22 CheckType, ComplexValType, FromUntyped, IntoUntyped, ParseTypedObj, SerializeTypedObj,23 Typed,24 },25 };26}27pub use jrsonnet_macros::{FromUntyped, IntoUntyped, Typed};2829#[derive(Trace)]30struct ThunkFromUntyped<K: Trace>(PhantomData<fn() -> K>);31impl<K> ThunkMapper<Val> for ThunkFromUntyped<K>32where33 K: Typed + FromUntyped + Trace,34{35 type Output = K;3637 fn map(self, from: Val) -> Result<Self::Output> {38 K::from_untyped(from)39 }40}41impl<K: Trace> Default for ThunkFromUntyped<K> {42 fn default() -> Self {43 Self(PhantomData)44 }45}46#[derive(Trace)]47struct ThunkIntoUntyped<K: Trace>(PhantomData<fn() -> K>);48impl<K> ThunkMapper<K> for ThunkIntoUntyped<K>49where50 K: Typed + Trace + IntoUntyped,51{52 type Output = Val;5354 fn map(self, from: K) -> Result<Self::Output> {55 K::into_untyped(from)56 }57}58impl<K: Trace> Default for ThunkIntoUntyped<K> {59 fn default() -> Self {60 Self(PhantomData)61 }62}6364#[diagnostic::on_unimplemented(65 note = "don't implement `ParseTypedObj` directly, it is automatically provided by `FromUntyped` derive"66)]67pub trait ParseTypedObj: Typed {68 fn parse(obj: &ObjValue) -> Result<Self>;69}7071#[diagnostic::on_unimplemented(72 note = "don't implement `SerializeTypedObj` directly, it is automatically provided by `IntoUntyped` derive"73)]74pub trait SerializeTypedObj: Typed {75 fn serialize(self, out: &mut ObjValueBuilder) -> Result<()>;76 fn into_object(self) -> Result<ObjValue> {77 let mut builder = ObjValueBuilder::new();78 self.serialize(&mut builder)?;79 Ok(builder.build())80 }81}8283pub trait Typed: Sized {84 const TYPE: &'static ComplexValType;85}86pub trait IntoUntyped: Typed {87 // Whatever caller should use `into_lazy_untyped` instead of `into_untyped`88 fn provides_lazy() -> bool {89 false90 }91 fn into_untyped(typed: Self) -> Result<Val>;92 fn into_lazy_untyped(typed: Self) -> Thunk<Val> {93 Thunk::from(Self::into_untyped(typed))94 }95}96pub trait IntoUntypedResult: Typed {97 /// Hack to make builtins be able to return non-result values, and make macros able to convert those values to result98 /// This method returns identity in impl Typed for Result, and should not be overriden99 #[doc(hidden)]100 fn into_untyped_result(typed: Self) -> Result<Val>;101}102impl<T> IntoUntypedResult for T103where104 T: IntoUntyped,105{106 fn into_untyped_result(typed: Self) -> Result<Val> {107 T::into_untyped(typed)108 }109}110111pub trait FromUntyped: Typed {112 fn from_untyped(untyped: Val) -> Result<Self>;113 fn from_lazy_untyped(lazy: Thunk<Val>) -> Result<Self> {114 Self::from_untyped(lazy.evaluate()?)115 }116117 // Whatever caller should use `from_lazy_untyped` instead of `from_untyped` when possible118 fn wants_lazy() -> bool {119 false120 }121}122123impl<T> Typed for Thunk<T>124where125 T: Typed + Trace + Clone,126{127 const TYPE: &'static ComplexValType = &ComplexValType::Lazy(T::TYPE);128}129130fn try_cast_thunk_val<T: 'static>(typed: Thunk<T>) -> Result<Thunk<Val>, Thunk<T>> {131 if TypeId::of::<T>() == TypeId::of::<Val>() {132 // SAFETY: We know that it is exactly the same type, and we discard the original after that133 // to avoid double-free.134 let transmuted = unsafe { transmute::<Thunk<T>, Thunk<Val>>(typed) };135 Ok(transmuted)136 } else {137 Err(typed)138 }139}140impl<T> IntoUntyped for Thunk<T>141where142 T: IntoUntyped + Trace + Clone,143{144 fn into_untyped(typed: Self) -> Result<Val> {145 T::into_untyped(typed.evaluate()?)146 }147 fn provides_lazy() -> bool {148 true149 }150151 fn into_lazy_untyped(inner: Self) -> Thunk<Val> {152 // Avoid lazy mapping153 let inner = match try_cast_thunk_val(inner) {154 Ok(v) => return v,155 Err(e) => e,156 };157 inner.map(<ThunkIntoUntyped<T>>::default())158 }159}160161fn try_cast_thunk_t<T: 'static>(typed: Thunk<Val>) -> Result<Thunk<T>, Thunk<Val>> {162 if TypeId::of::<T>() == TypeId::of::<Val>() {163 // SAFETY: We know that it is exactly the same type, and we discard the original after that164 // to avoid double-free.165 let transmuted = unsafe { transmute::<Thunk<Val>, Thunk<T>>(typed) };166 Ok(transmuted)167 } else {168 Err(typed)169 }170}171impl<T> FromUntyped for Thunk<T>172where173 T: Typed + FromUntyped + Trace + Clone,174{175 fn from_untyped(untyped: Val) -> Result<Self> {176 Self::from_lazy_untyped(Thunk::evaluated(untyped))177 }178179 fn wants_lazy() -> bool {180 true181 }182183 fn from_lazy_untyped(inner: Thunk<Val>) -> Result<Self> {184 // Avoid lazy mapping185 let inner = match try_cast_thunk_t(inner) {186 Ok(v) => return Ok(v),187 Err(e) => e,188 };189 Ok(inner.map(<ThunkFromUntyped<T>>::default()))190 }191}192193#[expect(clippy::cast_precision_loss, reason = "checked to not overflow")]194pub const MAX_SAFE_INTEGER: f64 = ((1u64 << (f64::MANTISSA_DIGITS)) - 1) as f64;195#[expect(clippy::cast_precision_loss, reason = "checked to not overflow")]196pub const MIN_SAFE_INTEGER: f64 = (-((1i64 << (f64::MANTISSA_DIGITS)) - 1)) as f64;197198macro_rules! impl_int {199 ($($ty:ty)*) => {$(200 impl Typed for $ty {201 const TYPE: &'static ComplexValType =202 &ComplexValType::BoundedNumber(Some(Self::MIN as f64), Some(Self::MAX as f64));203 }204 impl FromUntyped for $ty {205 fn from_untyped(value: Val) -> Result<Self> {206 <Self as Typed>::TYPE.check(&value)?;207 match value {208 Val::Num(n) => {209 let n = n.get();210 #[allow(clippy::float_cmp)]211 if n.trunc() != n {212 bail!(213 "cannot convert number with fractional part to {}",214 stringify!($ty)215 )216 }217 #[allow(clippy::cast_sign_loss, clippy::cast_possible_truncation, reason = "checked by TYPE")]218 Ok(n as Self)219 }220 _ => unreachable!(),221 }222 }223 }224 impl IntoUntyped for $ty {225 fn into_untyped(value: Self) -> Result<Val> {226 Ok(Val::Num(value.into()))227 }228 }229 )*};230}231232impl_int!(i8 u8 i16 u16 i32 u32);233234macro_rules! impl_bounded_int {235 ($($name:ident = $ty:ty)*) => {$(236 #[derive(Clone, Copy)]237 #[allow(clippy::cast_possible_truncation, reason = "overflow is api misuse")]238 pub struct $name<const MIN: $ty, const MAX: $ty>($ty);239 impl<const MIN: $ty, const MAX: $ty> $name<MIN, MAX> {240 pub const fn new(value: $ty) -> Option<$name<MIN, MAX>> {241 if value >= MIN && value <= MAX {242 Some(Self(value))243 } else {244 None245 }246 }247 pub const fn value(self) -> $ty {248 self.0249 }250 }251 impl<const MIN: $ty, const MAX: $ty> Deref for $name<MIN, MAX> {252 type Target = $ty;253 fn deref(&self) -> &Self::Target {254 &self.0255 }256 }257258 impl<const MIN: $ty, const MAX: $ty> Typed for $name<MIN, MAX> {259 #[allow(clippy::cast_possible_truncation, clippy::cast_precision_loss, reason = "overflow is api misuse")]260 const TYPE: &'static ComplexValType =261 &ComplexValType::BoundedNumber(262 Some(MIN as f64),263 Some(MAX as f64),264 );265 }266267 impl<const MIN: $ty, const MAX: $ty> FromUntyped for $name<MIN, MAX> {268 fn from_untyped(value: Val) -> Result<Self> {269 <Self as Typed>::TYPE.check(&value)?;270 match value {271 Val::Num(n) => {272 let n = n.get();273 #[allow(clippy::float_cmp)]274 if n.trunc() != n {275 bail!(276 "cannot convert number with fractional part to {}",277 stringify!($ty)278 )279 }280 #[allow(clippy::cast_possible_truncation, clippy::cast_sign_loss, reason = "overflow is api misuse, the range is checked by TYPE")]281 Ok(Self(n as $ty))282 }283 _ => unreachable!(),284 }285 }286 }287288 impl<const MIN: $ty, const MAX: $ty> IntoUntyped for $name<MIN, MAX> {289 #[allow(clippy::cast_lossless)]290 fn into_untyped(value: Self) -> Result<Val> {291 Ok(Val::try_num(value.0)?)292 }293 }294 )*};295}296297impl_bounded_int!(298 BoundedI8 = i8299 BoundedI16 = i16300 BoundedI32 = i32301 BoundedI64 = i64302 BoundedUsize = usize303);304305impl Typed for f64 {306 const TYPE: &'static ComplexValType = &ComplexValType::Simple(ValType::Num);307}308impl IntoUntyped for f64 {309 fn into_untyped(value: Self) -> Result<Val> {310 Ok(Val::try_num(value)?)311 }312}313impl FromUntyped for f64 {314 fn from_untyped(value: Val) -> Result<Self> {315 <Self as Typed>::TYPE.check(&value)?;316 match value {317 Val::Num(n) => Ok(n.get()),318 _ => unreachable!(),319 }320 }321}322323pub struct PositiveF64(pub f64);324impl Typed for PositiveF64 {325 const TYPE: &'static ComplexValType = &ComplexValType::BoundedNumber(Some(0.0), None);326}327impl IntoUntyped for PositiveF64 {328 fn into_untyped(value: Self) -> Result<Val> {329 Ok(Val::try_num(value.0)?)330 }331}332impl FromUntyped for PositiveF64 {333 fn from_untyped(value: Val) -> Result<Self> {334 <Self as Typed>::TYPE.check(&value)?;335 match value {336 Val::Num(n) => Ok(Self(n.get())),337 _ => unreachable!(),338 }339 }340}341impl Typed for usize {342 const TYPE: &'static ComplexValType =343 &ComplexValType::BoundedNumber(Some(0.0), Some(MAX_SAFE_INTEGER));344}345impl IntoUntyped for usize {346 fn into_untyped(value: Self) -> Result<Val> {347 Ok(Val::try_num(value)?)348 }349}350impl FromUntyped for usize {351 fn from_untyped(value: Val) -> Result<Self> {352 <Self as Typed>::TYPE.check(&value)?;353 match value {354 Val::Num(n) => {355 let n = n.get();356 #[allow(clippy::float_cmp)]357 if n.trunc() != n {358 bail!("cannot convert number with fractional part to usize")359 }360 #[allow(361 clippy::cast_possible_truncation,362 clippy::cast_sign_loss,363 reason = "the range is checked by TYPE"364 )]365 Ok(n as Self)366 }367 _ => unreachable!(),368 }369 }370}371372impl Typed for IStr {373 const TYPE: &'static ComplexValType = &ComplexValType::Simple(ValType::Str);374}375impl IntoUntyped for IStr {376 fn into_untyped(value: Self) -> Result<Val> {377 Ok(Val::string(value))378 }379}380impl FromUntyped for IStr {381 fn from_untyped(value: Val) -> Result<Self> {382 <Self as Typed>::TYPE.check(&value)?;383 match value {384 Val::Str(s) => Ok(s.into_flat()),385 _ => unreachable!(),386 }387 }388}389390impl Typed for String {391 const TYPE: &'static ComplexValType = &ComplexValType::Simple(ValType::Str);392}393impl IntoUntyped for String {394 fn into_untyped(value: Self) -> Result<Val> {395 Ok(Val::string(value))396 }397}398impl FromUntyped for String {399 fn from_untyped(value: Val) -> Result<Self> {400 <Self as Typed>::TYPE.check(&value)?;401 match value {402 Val::Str(s) => Ok(s.to_string()),403 _ => unreachable!(),404 }405 }406}407408impl Typed for StrValue {409 const TYPE: &'static ComplexValType = &ComplexValType::Simple(ValType::Str);410}411impl IntoUntyped for StrValue {412 fn into_untyped(value: Self) -> Result<Val> {413 Ok(Val::Str(value))414 }415}416impl FromUntyped for StrValue {417 fn from_untyped(value: Val) -> Result<Self> {418 <Self as Typed>::TYPE.check(&value)?;419 match value {420 Val::Str(s) => Ok(s),421 _ => unreachable!(),422 }423 }424}425426impl Typed for char {427 const TYPE: &'static ComplexValType = &ComplexValType::Char;428}429impl IntoUntyped for char {430 fn into_untyped(value: Self) -> Result<Val> {431 Ok(Val::string(value))432 }433}434impl FromUntyped for char {435 fn from_untyped(value: Val) -> Result<Self> {436 <Self as Typed>::TYPE.check(&value)?;437 match value {438 Val::Str(s) => Ok(s.into_flat().chars().next().unwrap()),439 _ => unreachable!(),440 }441 }442}443444// TODO: View into vec using ArrayLike?445impl<T> Typed for Vec<T>446where447 T: Typed,448{449 const TYPE: &'static ComplexValType = &ComplexValType::ArrayRef(T::TYPE);450}451impl<T: Typed + IntoUntyped> IntoUntyped for Vec<T> {452 fn into_untyped(value: Self) -> Result<Val> {453 Ok(Val::Arr(454 value455 .into_iter()456 .map(T::into_untyped)457 .collect::<Result<ArrValue>>()?,458 ))459 }460}461impl<T: Typed + FromUntyped> FromUntyped for Vec<T> {462 fn from_untyped(value: Val) -> Result<Self> {463 let Val::Arr(a) = value else {464 <Self as Typed>::TYPE.check(&value)?;465 unreachable!("typecheck should fail")466 };467 a.iter()468 .enumerate()469 .map(|(i, r)| {470 r.and_then(|t| {471 T::from_untyped(t).with_description(|| format!("parsing elem <{i}>"))472 })473 })474 .collect::<Result<Self>>()475 }476}477478// TODO: View into BTreeMap using ObjectCore?479impl<K, V> Typed for BTreeMap<K, V>480where481 K: Typed + Ord,482 V: Typed,483{484 const TYPE: &'static ComplexValType = &ComplexValType::AttrsOf(V::TYPE);485}486impl<K, V> IntoUntyped for BTreeMap<K, V>487where488 K: Typed + Ord + IntoUntyped,489 V: Typed + IntoUntyped,490{491 fn into_untyped(typed: Self) -> Result<Val> {492 let mut out = ObjValueBuilder::with_capacity(typed.len());493 for (k, v) in typed {494 let Some(key) = K::into_untyped(k)?.as_str() else {495 bail!("map key should serialize to string");496 };497 let value = V::into_untyped(v)?;498 out.field(key).value(value);499 }500 Ok(Val::Obj(out.build()))501 }502}503impl<K, V> FromUntyped for BTreeMap<K, V>504where505 K: FromUntyped + Ord,506 V: FromUntyped,507{508 fn from_untyped(value: Val) -> Result<Self> {509 Self::TYPE.check(&value)?;510 let obj = value.as_obj().expect("typecheck should fail");511512 let mut out = Self::new();513 if V::wants_lazy() {514 for key in obj.fields_ex(515 false,516 #[cfg(feature = "exp-preserve-order")]517 false,518 ) {519 let value = obj.get_lazy(key.clone()).expect("field exists");520 let value = V::from_lazy_untyped(value)?;521 let key = K::from_untyped(Val::Str(key.into()))?;522 let _ = out.insert(key, value);523 }524 } else {525 for (key, value) in obj.iter(526 #[cfg(feature = "exp-preserve-order")]527 false,528 ) {529 let key = K::from_untyped(Val::Str(key.into()))?;530 let value = V::from_untyped(value?)?;531 let _ = out.insert(key, value);532 }533 }534 Ok(out)535 }536}537538impl Typed for Val {539 const TYPE: &'static ComplexValType = &ComplexValType::Any;540}541impl IntoUntyped for Val {542 fn into_untyped(typed: Self) -> Result<Val> {543 Ok(typed)544 }545}546impl FromUntyped for Val {547 fn from_untyped(untyped: Val) -> Result<Self> {548 Ok(untyped)549 }550}551552#[doc(hidden)]553impl<T> Typed for Result<T>554where555 T: Typed,556{557 const TYPE: &'static ComplexValType = &ComplexValType::Any;558}559impl<T: IntoUntyped> IntoUntypedResult for Result<T> {560 fn into_untyped_result(typed: Self) -> Result<Val> {561 typed.map(T::into_untyped)?562 }563}564565/// Specialization566impl Typed for IBytes {567 const TYPE: &'static ComplexValType =568 &ComplexValType::ArrayRef(&ComplexValType::BoundedNumber(Some(0.0), Some(255.0)));569}570impl IntoUntyped for IBytes {571 fn into_untyped(value: Self) -> Result<Val> {572 Ok(Val::Arr(ArrValue::bytes(value)))573 }574}575impl FromUntyped for IBytes {576 fn from_untyped(value: Val) -> Result<Self> {577 let Val::Arr(a) = &value else {578 <Self as Typed>::TYPE.check(&value)?;579 unreachable!()580 };581 if let Some(bytes) = a.as_any().downcast_ref::<BytesArray>() {582 return Ok(bytes.0.as_slice().into());583 }584 <Self as Typed>::TYPE.check(&value)?;585 // Any::downcast_ref::<ByteArray>(&a);586 let mut out = Vec::with_capacity(a.len());587 for e in a.iter() {588 let r = e?;589 out.push(u8::from_untyped(r)?);590 }591 Ok(out.as_slice().into())592 }593}594595pub struct M1;596impl Typed for M1 {597 const TYPE: &'static ComplexValType = &ComplexValType::BoundedNumber(Some(-1.0), Some(-1.0));598}599impl IntoUntyped for M1 {600 fn into_untyped(_: Self) -> Result<Val> {601 Ok(Val::Num(NumValue::new(-1.0).expect("finite")))602 }603}604impl FromUntyped for M1 {605 fn from_untyped(value: Val) -> Result<Self> {606 <Self as Typed>::TYPE.check(&value)?;607 Ok(Self)608 }609}610611macro_rules! decl_either {612 ($($name: ident, $($id: ident)*);*) => {$(613 #[derive(Clone)]614 pub enum $name<$($id),*> {615 $($id($id)),*616 }617 impl<$($id),*> Typed for $name<$($id),*>618 where619 $($id: Typed,)*620 {621 const TYPE: &'static ComplexValType = &ComplexValType::UnionRef(&[$($id::TYPE),*]);622 }623 impl<$($id),*> IntoUntyped for $name<$($id),*>624 where625 $($id: Typed + IntoUntyped,)*626 {627 fn into_untyped(value: Self) -> Result<Val> {628 match value {$(629 $name::$id(v) => $id::into_untyped(v)630 ),*}631 }632 }633634 impl<$($id),*> FromUntyped for $name<$($id),*>635 where636 $($id: Typed + FromUntyped,)*637 {638 fn from_untyped(value: Val) -> Result<Self> {639 $(640 if $id::TYPE.check(&value).is_ok() {641 $id::from_untyped(value).map(Self::$id)642 } else643 )* {644 <Self as Typed>::TYPE.check(&value)?;645 unreachable!()646 }647 }648 }649 )*}650}651decl_either!(652 Either1, A;653 Either2, A B;654 Either3, A B C;655 Either4, A B C D;656 Either5, A B C D E;657 Either6, A B C D E F;658 Either7, A B C D E F G659);660#[macro_export]661macro_rules! Either {662 ($a:ty) => {$crate::typed::Either1<$a>};663 ($a:ty, $b:ty) => {$crate::typed::Either2<$a, $b>};664 ($a:ty, $b:ty, $c:ty) => {$crate::typed::Either3<$a, $b, $c>};665 ($a:ty, $b:ty, $c:ty, $d:ty) => {$crate::typed::Either4<$a, $b, $c, $d>};666 ($a:ty, $b:ty, $c:ty, $d:ty, $e:ty) => {$crate::typed::Either5<$a, $b, $c, $d, $e>};667 ($a:ty, $b:ty, $c:ty, $d:ty, $e:ty, $f:ty) => {$crate::typed::Either6<$a, $b, $c, $d, $e, $f>};668 ($a:ty, $b:ty, $c:ty, $d:ty, $e:ty, $f:ty, $g:ty) => {$crate::typed::Either7<$a, $b, $c, $d, $e, $f, $g>};669}670pub use Either;671672pub type MyType = Either![u32, f64, String];673674impl Typed for ArrValue {675 const TYPE: &'static ComplexValType = &ComplexValType::Simple(ValType::Arr);676}677impl IntoUntyped for ArrValue {678 fn into_untyped(value: Self) -> Result<Val> {679 Ok(Val::Arr(value))680 }681}682impl FromUntyped for ArrValue {683 fn from_untyped(value: Val) -> Result<Self> {684 <Self as Typed>::TYPE.check(&value)?;685 match value {686 Val::Arr(a) => Ok(a),687 _ => unreachable!(),688 }689 }690}691692impl Typed for FuncVal {693 const TYPE: &'static ComplexValType = &ComplexValType::Simple(ValType::Func);694}695impl IntoUntyped for FuncVal {696 fn into_untyped(value: Self) -> Result<Val> {697 Ok(Val::Func(value))698 }699}700impl FromUntyped for FuncVal {701 fn from_untyped(value: Val) -> Result<Self> {702 <Self as Typed>::TYPE.check(&value)?;703 match value {704 Val::Func(a) => Ok(a),705 _ => unreachable!(),706 }707 }708}709710impl Typed for ObjValue {711 const TYPE: &'static ComplexValType = &ComplexValType::Simple(ValType::Obj);712}713impl IntoUntyped for ObjValue {714 fn into_untyped(value: Self) -> Result<Val> {715 Ok(Val::Obj(value))716 }717}718impl FromUntyped for ObjValue {719 fn from_untyped(value: Val) -> Result<Self> {720 <Self as Typed>::TYPE.check(&value)?;721 match value {722 Val::Obj(a) => Ok(a),723 _ => unreachable!(),724 }725 }726}727728impl Typed for bool {729 const TYPE: &'static ComplexValType = &ComplexValType::Simple(ValType::Bool);730}731impl IntoUntyped for bool {732 fn into_untyped(value: Self) -> Result<Val> {733 Ok(Val::Bool(value))734 }735}736impl FromUntyped for bool {737 fn from_untyped(value: Val) -> Result<Self> {738 <Self as Typed>::TYPE.check(&value)?;739 match value {740 Val::Bool(a) => Ok(a),741 _ => unreachable!(),742 }743 }744}745746impl Typed for IndexableVal {747 const TYPE: &'static ComplexValType = &ComplexValType::UnionRef(&[748 &ComplexValType::Simple(ValType::Arr),749 &ComplexValType::Simple(ValType::Str),750 ]);751}752impl IntoUntyped for IndexableVal {753 fn into_untyped(value: Self) -> Result<Val> {754 match value {755 Self::Str(s) => Ok(Val::string(s)),756 Self::Arr(a) => Ok(Val::Arr(a)),757 }758 }759}760impl FromUntyped for IndexableVal {761 fn from_untyped(value: Val) -> Result<Self> {762 <Self as Typed>::TYPE.check(&value)?;763 value.into_indexable()764 }765}766767pub struct Null;768impl Typed for Null {769 const TYPE: &'static ComplexValType = &ComplexValType::Simple(ValType::Null);770}771impl IntoUntyped for Null {772 fn into_untyped(_: Self) -> Result<Val> {773 Ok(Val::Null)774 }775}776impl FromUntyped for Null {777 fn from_untyped(value: Val) -> Result<Self> {778 <Self as Typed>::TYPE.check(&value)?;779 Ok(Self)780 }781}782783impl<T> Typed for Option<T>784where785 T: Typed,786{787 const TYPE: &'static ComplexValType =788 &ComplexValType::UnionRef(&[&ComplexValType::Simple(ValType::Null), T::TYPE]);789}790impl<T> IntoUntyped for Option<T>791where792 T: Typed + IntoUntyped,793{794 fn into_untyped(typed: Self) -> Result<Val> {795 typed.map_or_else(|| Ok(Val::Null), |v| T::into_untyped(v))796 }797}798impl<T> FromUntyped for Option<T>799where800 T: Typed + FromUntyped,801{802 fn from_untyped(untyped: Val) -> Result<Self> {803 if matches!(untyped, Val::Null) {804 Ok(None)805 } else {806 T::from_untyped(untyped).map(Some)807 }808 }809}810811impl Typed for NumValue {812 const TYPE: &'static ComplexValType = &ComplexValType::Simple(ValType::Num);813}814impl IntoUntyped for NumValue {815 fn into_untyped(typed: Self) -> Result<Val> {816 Ok(Val::Num(typed))817 }818}819impl FromUntyped for NumValue {820 fn from_untyped(untyped: Val) -> Result<Self> {821 Self::TYPE.check(&untyped)?;822 match untyped {823 Val::Num(v) => Ok(v),824 _ => unreachable!(),825 }826 }827}crates/jrsonnet-evaluator/src/val.rsdiffbeforeafterboth--- a/crates/jrsonnet-evaluator/src/val.rs
+++ b/crates/jrsonnet-evaluator/src/val.rs
@@ -137,7 +137,7 @@
impl<T> Thunk<T>
where
- T: Clone + Trace,
+ T: Trace,
{
pub fn force(&self) -> Result<()> {
self.evaluate()?;
@@ -161,7 +161,7 @@
}
impl<Input> Thunk<Input>
where
- Input: Trace + Clone,
+ Input: Trace,
{
pub fn map<M>(self, mapper: M) -> Thunk<M::Output>
where
@@ -355,7 +355,7 @@
Self::Tree(Rc::new((a, b, len)))
}
}
- pub fn into_flat(self) -> IStr {
+ pub fn into_flat(&self) -> IStr {
#[cold]
fn write_buf(s: &StrValue, out: &mut String) {
match s {
@@ -367,10 +367,10 @@
}
}
match self {
- Self::Flat(f) => f,
+ Self::Flat(f) => f.clone(),
Self::Tree(_) => {
let mut buf = String::with_capacity(self.len());
- write_buf(&self, &mut buf);
+ write_buf(self, &mut buf);
buf.into()
}
}
@@ -701,6 +701,9 @@
{
Ok(Self::Num(num.try_into()?))
}
+ pub fn arr(a: impl ArrayLike) -> Self {
+ Self::Arr(ArrValue::new(a))
+ }
}
impl From<IStr> for Val {
crates/jrsonnet-stdlib/src/arrays.rsdiffbeforeafterboth--- a/crates/jrsonnet-stdlib/src/arrays.rs
+++ b/crates/jrsonnet-stdlib/src/arrays.rs
@@ -34,7 +34,7 @@
for _ in 0..*sz {
out.push(trivial.clone());
}
- Ok(ArrValue::eager(out))
+ Ok(ArrValue::new(out))
},
)
}
@@ -256,7 +256,7 @@
pub fn builtin_lines(arr: ArrValue) -> Result<IndexableVal> {
builtin_join(
IndexableVal::Str("\n".into()),
- ArrValue::extended(arr, ArrValue::eager(vec![Val::string("")])),
+ ArrValue::extended(arr, ArrValue::new(vec![Val::string("")])),
)
}
@@ -468,7 +468,7 @@
out.push(ele);
}
}
- Val::Arr(ArrValue::eager(out))
+ Val::arr(out)
}
Val::Obj(o) => {
let mut out = ObjValueBuilder::new();
crates/jrsonnet-stdlib/src/sets.rsdiffbeforeafterboth--- a/crates/jrsonnet-stdlib/src/sets.rs
+++ b/crates/jrsonnet-stdlib/src/sets.rs
@@ -29,7 +29,11 @@
#[builtin]
#[allow(non_snake_case, clippy::redundant_closure)]
-pub fn builtin_set_inter(a: ArrValue, b: ArrValue, #[default] keyF: KeyF) -> Result<ArrValue> {
+pub fn builtin_set_inter(
+ a: ArrValue,
+ b: ArrValue,
+ #[default] keyF: KeyF,
+) -> Result<Vec<Thunk<Val>>> {
let mut a = a.iter_lazy();
let mut b = b.iter_lazy();
@@ -60,12 +64,16 @@
}
}
}
- Ok(ArrValue::lazy(out))
+ Ok(out)
}
#[builtin]
#[allow(non_snake_case, clippy::redundant_closure)]
-pub fn builtin_set_diff(a: ArrValue, b: ArrValue, #[default] keyF: KeyF) -> Result<ArrValue> {
+pub fn builtin_set_diff(
+ a: ArrValue,
+ b: ArrValue,
+ #[default] keyF: KeyF,
+) -> Result<Vec<Thunk<Val>>> {
let mut a = a.iter_lazy();
let mut b = b.iter_lazy();
@@ -103,12 +111,16 @@
av = a.next();
ak = av.clone().map(keyF).transpose()?;
}
- Ok(ArrValue::lazy(out))
+ Ok(out)
}
#[builtin]
#[allow(non_snake_case, clippy::redundant_closure)]
-pub fn builtin_set_union(a: ArrValue, b: ArrValue, #[default] keyF: KeyF) -> Result<ArrValue> {
+pub fn builtin_set_union(
+ a: ArrValue,
+ b: ArrValue,
+ #[default] keyF: KeyF,
+) -> Result<Vec<Thunk<Val>>> {
let mut a = a.iter_lazy();
let mut b = b.iter_lazy();
@@ -154,5 +166,5 @@
bv = b.next();
bk = bv.clone().map(keyF).transpose()?;
}
- Ok(ArrValue::lazy(out))
+ Ok(out)
}
crates/jrsonnet-stdlib/src/sort.rsdiffbeforeafterboth--- a/crates/jrsonnet-stdlib/src/sort.rs
+++ b/crates/jrsonnet-stdlib/src/sort.rs
@@ -113,11 +113,11 @@
return Ok(values);
}
if key_getter.is_identity() {
- Ok(ArrValue::eager(sort_identity(
+ Ok(ArrValue::new(sort_identity(
values.iter().collect::<Result<Vec<Val>>>()?,
)?))
} else {
- Ok(ArrValue::lazy(sort_keyf(values, key_getter)?))
+ Ok(ArrValue::new(sort_keyf(values, key_getter)?))
}
}
@@ -162,11 +162,11 @@
return Ok(arr);
}
if keyF.is_identity() {
- Ok(ArrValue::eager(uniq_identity(
+ Ok(ArrValue::new(uniq_identity(
arr.iter().collect::<Result<Vec<Val>>>()?,
)?))
} else {
- Ok(ArrValue::lazy(uniq_keyf(arr, keyF)?))
+ Ok(ArrValue::new(uniq_keyf(arr, keyF)?))
}
}
@@ -180,11 +180,11 @@
let arr = arr.iter().collect::<Result<Vec<Val>>>()?;
let arr = sort_identity(arr)?;
let arr = uniq_identity(arr)?;
- Ok(ArrValue::eager(arr))
+ Ok(ArrValue::new(arr))
} else {
let arr = sort_keyf(arr, keyF.clone())?;
- let arr = uniq_keyf(ArrValue::lazy(arr), keyF)?;
- Ok(ArrValue::lazy(arr))
+ let arr = uniq_keyf(ArrValue::new(arr), keyF)?;
+ Ok(ArrValue::new(arr))
}
}