git.delta.rocks / jrsonnet / refs/commits / 9268ff4f09ce

difftreelog

fix use new ArrValue variants

Yaroslav Bolyukin2021-01-24parent: #00b4f05.patch.diff
in: master

2 files changed

modifiedcrates/jrsonnet-evaluator/src/builtin/mod.rsdiffbeforeafterboth
--- a/crates/jrsonnet-evaluator/src/builtin/mod.rs
+++ b/crates/jrsonnet-evaluator/src/builtin/mod.rs
@@ -379,7 +379,7 @@
 		1, to: ty!(number) => Val::Num;
 	], {
 		if to < from {
-			return Ok(Val::Arr(Rc::new(Vec::new())))
+			return Ok(Val::Arr(ArrValue::new_eager()))
 		}
 		let mut out = Vec::with_capacity((1+to as usize-from as usize).max(0));
 		for i in from as usize..=to as usize {
modifiedcrates/jrsonnet-evaluator/src/val.rsdiffbeforeafterboth
before · crates/jrsonnet-evaluator/src/val.rs
1use crate::{2	builtin::{3		call_builtin,4		manifest::{manifest_json_ex, ManifestJsonOptions, ManifestType},5	},6	error::Error::*,7	evaluate,8	function::{parse_function_call, parse_function_call_map, place_args},9	native::NativeCallback,10	throw, with_state, Context, ObjValue, Result,11};12use jrsonnet_interner::IStr;13use jrsonnet_parser::{el, Arg, ArgsDesc, Expr, ExprLocation, LiteralType, LocExpr, ParamsDesc};14use jrsonnet_types::ValType;15use std::{cell::RefCell, collections::HashMap, fmt::Debug, rc::Rc};1617enum LazyValInternals {18	Computed(Val),19	Waiting(Box<dyn Fn() -> Result<Val>>),20}21#[derive(Clone)]22pub struct LazyVal(Rc<RefCell<LazyValInternals>>);23impl LazyVal {24	pub fn new(f: Box<dyn Fn() -> Result<Val>>) -> Self {25		Self(Rc::new(RefCell::new(LazyValInternals::Waiting(f))))26	}27	pub fn new_resolved(val: Val) -> Self {28		Self(Rc::new(RefCell::new(LazyValInternals::Computed(val))))29	}30	pub fn evaluate(&self) -> Result<Val> {31		let new_value = match &*self.0.borrow() {32			LazyValInternals::Computed(v) => return Ok(v.clone()),33			LazyValInternals::Waiting(f) => f()?,34		};35		*self.0.borrow_mut() = LazyValInternals::Computed(new_value.clone());36		Ok(new_value)37	}38}3940#[macro_export]41macro_rules! lazy_val {42	($f: expr) => {43		$crate::LazyVal::new(Box::new($f))44	};45}46#[macro_export]47macro_rules! resolved_lazy_val {48	($f: expr) => {49		$crate::LazyVal::new_resolved($f)50	};51}52impl Debug for LazyVal {53	fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {54		write!(f, "Lazy")55	}56}57impl PartialEq for LazyVal {58	fn eq(&self, other: &Self) -> bool {59		Rc::ptr_eq(&self.0, &other.0)60	}61}6263#[derive(Debug, PartialEq)]64pub struct FuncDesc {65	pub name: IStr,66	pub ctx: Context,67	pub params: ParamsDesc,68	pub body: LocExpr,69}7071#[derive(Debug)]72pub enum FuncVal {73	/// Plain function implemented in jsonnet74	Normal(FuncDesc),75	/// Standard library function76	Intrinsic(IStr),77	/// Library functions implemented in native78	NativeExt(IStr, Rc<NativeCallback>),79}8081impl PartialEq for FuncVal {82	fn eq(&self, other: &Self) -> bool {83		match (self, other) {84			(Self::Normal(a), Self::Normal(b)) => a == b,85			(Self::Intrinsic(an), Self::Intrinsic(bn)) => an == bn,86			(Self::NativeExt(an, _), Self::NativeExt(bn, _)) => an == bn,87			(..) => false,88		}89	}90}91impl FuncVal {92	pub fn is_ident(&self) -> bool {93		matches!(&self, Self::Intrinsic(n) if n as &str == "id")94	}95	pub fn name(&self) -> IStr {96		match self {97			Self::Normal(normal) => normal.name.clone(),98			Self::Intrinsic(name) => format!("std.{}", name).into(),99			Self::NativeExt(n, _) => format!("native.{}", n).into(),100		}101	}102	pub fn evaluate(103		&self,104		call_ctx: Context,105		loc: Option<&ExprLocation>,106		args: &ArgsDesc,107		tailstrict: bool,108	) -> Result<Val> {109		match self {110			Self::Normal(func) => {111				let ctx = parse_function_call(112					call_ctx,113					Some(func.ctx.clone()),114					&func.params,115					args,116					tailstrict,117				)?;118				evaluate(ctx, &func.body)119			}120			Self::Intrinsic(name) => call_builtin(call_ctx, loc, name, args),121			Self::NativeExt(_name, handler) => {122				let args = parse_function_call(call_ctx, None, &handler.params, args, true)?;123				let mut out_args = Vec::with_capacity(handler.params.len());124				for p in handler.params.0.iter() {125					out_args.push(args.binding(p.0.clone())?.evaluate()?);126				}127				Ok(handler.call(loc.clone().map(|l| l.0.clone()), &out_args)?)128			}129		}130	}131132	pub fn evaluate_map(133		&self,134		call_ctx: Context,135		args: &HashMap<IStr, Val>,136		tailstrict: bool,137	) -> Result<Val> {138		match self {139			Self::Normal(func) => {140				let ctx = parse_function_call_map(141					call_ctx,142					Some(func.ctx.clone()),143					&func.params,144					args,145					tailstrict,146				)?;147				evaluate(ctx, &func.body)148			}149			Self::Intrinsic(_) => todo!(),150			Self::NativeExt(_, _) => todo!(),151		}152	}153154	pub fn evaluate_values(&self, call_ctx: Context, args: &[Val]) -> Result<Val> {155		match self {156			Self::Normal(func) => {157				let ctx = place_args(call_ctx, Some(func.ctx.clone()), &func.params, args)?;158				evaluate(ctx, &func.body)159			}160			Self::Intrinsic(_) => todo!(),161			Self::NativeExt(_, _) => todo!(),162		}163	}164}165166#[derive(Clone)]167pub enum ManifestFormat {168	YamlStream(Box<ManifestFormat>),169	Yaml(usize),170	Json(usize),171	ToString,172	String,173}174175#[derive(Debug, Clone)]176pub enum ArrValue {177	Lazy(Rc<Vec<LazyVal>>),178	Eager(Rc<Vec<Val>>),179	Extended(Box<(Self, Self)>),180}181impl ArrValue {182	pub fn len(&self) -> usize {183		match self {184			Self::Lazy(l) => l.len(),185			Self::Eager(e) => e.len(),186			Self::Extended(v) => v.0.len() + v.1.len(),187		}188	}189190	pub fn is_empty(&self) -> bool {191		self.len() == 0192	}193194	pub fn get(&self, index: usize) -> Result<Option<Val>> {195		match self {196			Self::Lazy(vec) => {197				if let Some(v) = vec.get(index) {198					Ok(Some(v.evaluate()?))199				} else {200					Ok(None)201				}202			}203			Self::Eager(vec) => Ok(vec.get(index).cloned()),204			Self::Extended(v) => {205				let a_len = v.0.len();206				if a_len > index {207					v.0.get(index)208				} else {209					v.1.get(index - a_len)210				}211			}212		}213	}214215	pub fn get_lazy(&self, index: usize) -> Option<LazyVal> {216		match self {217			Self::Lazy(vec) => vec.get(index).cloned(),218			Self::Eager(vec) => vec.get(index).cloned().map(LazyVal::new_resolved),219			Self::Extended(v) => {220				let a_len = v.0.len();221				if a_len > index {222					v.0.get_lazy(index)223				} else {224					v.1.get_lazy(index - a_len)225				}226			}227		}228	}229230	pub fn evaluated(&self) -> Result<Rc<Vec<Val>>> {231		Ok(match self {232			Self::Lazy(vec) => {233				let mut out = Vec::with_capacity(vec.len());234				for item in vec.iter() {235					out.push(item.evaluate()?);236				}237				Rc::new(out)238			}239			Self::Eager(vec) => vec.clone(),240			Self::Extended(_v) => {241				let mut out = Vec::with_capacity(self.len());242				for item in self.iter() {243					out.push(item?);244				}245				Rc::new(out)246			}247		})248	}249250	pub fn iter(&self) -> impl DoubleEndedIterator<Item = Result<Val>> + '_ {251		(0..self.len()).map(move |idx| match self {252			Self::Lazy(l) => l[idx].evaluate(),253			Self::Eager(e) => Ok(e[idx].clone()),254			Self::Extended(_) => self.get(idx).map(|e| e.unwrap()),255		})256	}257258	pub fn iter_lazy(&self) -> impl DoubleEndedIterator<Item = LazyVal> + '_ {259		(0..self.len()).map(move |idx| match self {260			Self::Lazy(l) => l[idx].clone(),261			Self::Eager(e) => LazyVal::new_resolved(e[idx].clone()),262			Self::Extended(_) => self.get_lazy(idx).unwrap(),263		})264	}265266	pub fn reversed(self) -> Self {267		match self {268			Self::Lazy(vec) => {269				let mut out = (&vec as &Vec<_>).clone();270				out.reverse();271				Self::Lazy(Rc::new(out))272			}273			Self::Eager(vec) => {274				let mut out = (&vec as &Vec<_>).clone();275				out.reverse();276				Self::Eager(Rc::new(out))277			}278			Self::Extended(b) => Self::Extended(Box::new((b.1.reversed(), b.0.reversed()))),279		}280	}281282	pub fn ptr_eq(a: &Self, b: &Self) -> bool {283		match (a, b) {284			(Self::Lazy(a), Self::Lazy(b)) => Rc::ptr_eq(a, b),285			(Self::Eager(a), Self::Eager(b)) => Rc::ptr_eq(a, b),286			_ => false,287		}288	}289}290291impl From<Vec<LazyVal>> for ArrValue {292	fn from(v: Vec<LazyVal>) -> Self {293		Self::Lazy(Rc::new(v))294	}295}296297impl From<Vec<Val>> for ArrValue {298	fn from(v: Vec<Val>) -> Self {299		Self::Eager(Rc::new(v))300	}301}302303#[derive(Debug, Clone)]304pub enum Val {305	Bool(bool),306	Null,307	Str(IStr),308	Num(f64),309	Arr(ArrValue),310	Obj(ObjValue),311	Func(Rc<FuncVal>),312}313314macro_rules! matches_unwrap {315	($e: expr, $p: pat, $r: expr) => {316		match $e {317			$p => $r,318			_ => panic!("no match"),319			}320	};321}322impl Val {323	/// Creates `Val::Num` after checking for numeric overflow.324	/// As numbers are `f64`, we can just check for their finity.325	pub fn new_checked_num(num: f64) -> Result<Self> {326		if num.is_finite() {327			Ok(Self::Num(num))328		} else {329			throw!(RuntimeError("overflow".into()))330		}331	}332333	pub fn assert_type(&self, context: &'static str, val_type: ValType) -> Result<()> {334		let this_type = self.value_type();335		if this_type != val_type {336			throw!(TypeMismatch(context, vec![val_type], this_type))337		} else {338			Ok(())339		}340	}341	pub fn unwrap_num(self) -> Result<f64> {342		Ok(matches_unwrap!(self, Self::Num(v), v))343	}344	pub fn unwrap_func(self) -> Result<Rc<FuncVal>> {345		Ok(matches_unwrap!(self, Self::Func(v), v))346	}347	pub fn try_cast_bool(self, context: &'static str) -> Result<bool> {348		self.assert_type(context, ValType::Bool)?;349		Ok(matches_unwrap!(self, Self::Bool(v), v))350	}351	pub fn try_cast_str(self, context: &'static str) -> Result<IStr> {352		self.assert_type(context, ValType::Str)?;353		Ok(matches_unwrap!(self, Self::Str(v), v))354	}355	pub fn try_cast_num(self, context: &'static str) -> Result<f64> {356		self.assert_type(context, ValType::Num)?;357		self.unwrap_num()358	}359	pub const fn value_type(&self) -> ValType {360		match self {361			Self::Str(..) => ValType::Str,362			Self::Num(..) => ValType::Num,363			Self::Arr(..) => ValType::Arr,364			Self::Obj(..) => ValType::Obj,365			Self::Bool(_) => ValType::Bool,366			Self::Null => ValType::Null,367			Self::Func(..) => ValType::Func,368		}369	}370371	pub fn to_string(&self) -> Result<IStr> {372		Ok(match self {373			Self::Bool(true) => "true".into(),374			Self::Bool(false) => "false".into(),375			Self::Null => "null".into(),376			Self::Str(s) => s.clone(),377			v => manifest_json_ex(378				v,379				&ManifestJsonOptions {380					padding: "",381					mtype: ManifestType::ToString,382				},383			)?384			.into(),385		})386	}387388	/// Expects value to be object, outputs (key, manifested value) pairs389	pub fn manifest_multi(&self, ty: &ManifestFormat) -> Result<Vec<(IStr, IStr)>> {390		let obj = match self {391			Self::Obj(obj) => obj,392			_ => throw!(MultiManifestOutputIsNotAObject),393		};394		let keys = obj.visible_fields();395		let mut out = Vec::with_capacity(keys.len());396		for key in keys {397			let value = obj398				.get(key.clone())?399				.expect("item in object")400				.manifest(ty)?;401			out.push((key, value));402		}403		Ok(out)404	}405406	/// Expects value to be array, outputs manifested values407	pub fn manifest_stream(&self, ty: &ManifestFormat) -> Result<Vec<IStr>> {408		let arr = match self {409			Self::Arr(a) => a,410			_ => throw!(StreamManifestOutputIsNotAArray),411		};412		let mut out = Vec::with_capacity(arr.len());413		for i in arr.iter() {414			out.push(i?.manifest(ty)?);415		}416		Ok(out)417	}418419	pub fn manifest(&self, ty: &ManifestFormat) -> Result<IStr> {420		Ok(match ty {421			ManifestFormat::YamlStream(format) => {422				let arr = match self {423					Self::Arr(a) => a,424					_ => throw!(StreamManifestOutputIsNotAArray),425				};426				let mut out = String::new();427428				match format as &ManifestFormat {429					ManifestFormat::YamlStream(_) => throw!(StreamManifestOutputCannotBeRecursed),430					ManifestFormat::String => throw!(StreamManifestCannotNestString),431					_ => {}432				};433434				if !arr.is_empty() {435					for v in arr.iter() {436						out.push_str("---\n");437						out.push_str(&v?.manifest(format)?);438						out.push('\n');439					}440					out.push_str("...");441				}442443				out.into()444			}445			ManifestFormat::Yaml(padding) => self.to_yaml(*padding)?,446			ManifestFormat::Json(padding) => self.to_json(*padding)?,447			ManifestFormat::ToString => self.to_string()?,448			ManifestFormat::String => match self {449				Self::Str(s) => s.clone(),450				_ => throw!(StringManifestOutputIsNotAString),451			},452		})453	}454455	/// For manifestification456	pub fn to_json(&self, padding: usize) -> Result<IStr> {457		manifest_json_ex(458			self,459			&ManifestJsonOptions {460				padding: &" ".repeat(padding),461				mtype: if padding == 0 {462					ManifestType::Minify463				} else {464					ManifestType::Manifest465				},466			},467		)468		.map(|s| s.into())469	}470471	/// Calls `std.manifestJson`472	#[cfg(feature = "faster")]473	pub fn to_std_json(&self, padding: usize) -> Result<Rc<str>> {474		manifest_json_ex(475			self,476			&ManifestJsonOptions {477				padding: &" ".repeat(padding),478				mtype: ManifestType::Std,479			},480		)481		.map(|s| s.into())482	}483484	/// Calls `std.manifestJson`485	#[cfg(not(feature = "faster"))]486	pub fn to_std_json(&self, padding: usize) -> Result<Rc<str>> {487		with_state(|s| {488			let ctx = s489				.create_default_context()?490				.with_var("__tmp__to_json__".into(), self.clone())?;491			Ok(evaluate(492				ctx,493				&el!(Expr::Apply(494					el!(Expr::Index(495						el!(Expr::Var("std".into())),496						el!(Expr::Str("manifestJsonEx".into()))497					)),498					ArgsDesc(vec![499						Arg(None, el!(Expr::Var("__tmp__to_json__".into()))),500						Arg(None, el!(Expr::Str(" ".repeat(padding).into())))501					]),502					false503				)),504			)?505			.try_cast_str("to json")?)506		})507	}508	pub fn to_yaml(&self, padding: usize) -> Result<IStr> {509		with_state(|s| {510			let ctx = s511				.create_default_context()?512				.with_var("__tmp__to_json__".into(), self.clone());513			Ok(evaluate(514				ctx,515				&el!(Expr::Apply(516					el!(Expr::Index(517						el!(Expr::Var("std".into())),518						el!(Expr::Str("manifestYamlDoc".into()))519					)),520					ArgsDesc(vec![521						Arg(None, el!(Expr::Var("__tmp__to_json__".into()))),522						Arg(523							None,524							el!(Expr::Literal(if padding != 0 {525								LiteralType::True526							} else {527								LiteralType::False528							}))529						)530					]),531					false532				)),533			)?534			.try_cast_str("to json")?)535		})536	}537}538539const fn is_function_like(val: &Val) -> bool {540	matches!(val, Val::Func(_))541}542543/// Native implementation of `std.primitiveEquals`544pub fn primitive_equals(val_a: &Val, val_b: &Val) -> Result<bool> {545	Ok(match (val_a, val_b) {546		(Val::Bool(a), Val::Bool(b)) => a == b,547		(Val::Null, Val::Null) => true,548		(Val::Str(a), Val::Str(b)) => a == b,549		(Val::Num(a), Val::Num(b)) => (a - b).abs() <= f64::EPSILON,550		(Val::Arr(_), Val::Arr(_)) => throw!(RuntimeError(551			"primitiveEquals operates on primitive types, got array".into(),552		)),553		(Val::Obj(_), Val::Obj(_)) => throw!(RuntimeError(554			"primitiveEquals operates on primitive types, got object".into(),555		)),556		(a, b) if is_function_like(a) && is_function_like(b) => {557			throw!(RuntimeError("cannot test equality of functions".into()))558		}559		(_, _) => false,560	})561}562563/// Native implementation of `std.equals`564pub fn equals(val_a: &Val, val_b: &Val) -> Result<bool> {565	if val_a.value_type() != val_b.value_type() {566		return Ok(false);567	}568	match (val_a, val_b) {569		(Val::Arr(a), Val::Arr(b)) => {570			if ArrValue::ptr_eq(a, b) {571				return Ok(true);572			}573			if a.len() != b.len() {574				return Ok(false);575			}576			for (a, b) in a.iter().zip(b.iter()) {577				if !equals(&a?, &b?)? {578					return Ok(false);579				}580			}581			Ok(true)582		}583		(Val::Obj(a), Val::Obj(b)) => {584			if ObjValue::ptr_eq(a, b) {585				return Ok(true);586			}587			let fields = a.visible_fields();588			if fields != b.visible_fields() {589				return Ok(false);590			}591			for field in fields {592				if !equals(&a.get(field.clone())?.unwrap(), &b.get(field)?.unwrap())? {593					return Ok(false);594				}595			}596			Ok(true)597		}598		(a, b) => Ok(primitive_equals(a, b)?),599	}600}
after · crates/jrsonnet-evaluator/src/val.rs
1use crate::{2	builtin::{3		call_builtin,4		manifest::{manifest_json_ex, ManifestJsonOptions, ManifestType},5	},6	error::Error::*,7	evaluate,8	function::{parse_function_call, parse_function_call_map, place_args},9	native::NativeCallback,10	throw, with_state, Context, ObjValue, Result,11};12use jrsonnet_interner::IStr;13use jrsonnet_parser::{el, Arg, ArgsDesc, Expr, ExprLocation, LiteralType, LocExpr, ParamsDesc};14use jrsonnet_types::ValType;15use std::{cell::RefCell, collections::HashMap, fmt::Debug, rc::Rc};1617enum LazyValInternals {18	Computed(Val),19	Waiting(Box<dyn Fn() -> Result<Val>>),20}21#[derive(Clone)]22pub struct LazyVal(Rc<RefCell<LazyValInternals>>);23impl LazyVal {24	pub fn new(f: Box<dyn Fn() -> Result<Val>>) -> Self {25		Self(Rc::new(RefCell::new(LazyValInternals::Waiting(f))))26	}27	pub fn new_resolved(val: Val) -> Self {28		Self(Rc::new(RefCell::new(LazyValInternals::Computed(val))))29	}30	pub fn evaluate(&self) -> Result<Val> {31		let new_value = match &*self.0.borrow() {32			LazyValInternals::Computed(v) => return Ok(v.clone()),33			LazyValInternals::Waiting(f) => f()?,34		};35		*self.0.borrow_mut() = LazyValInternals::Computed(new_value.clone());36		Ok(new_value)37	}38}3940#[macro_export]41macro_rules! lazy_val {42	($f: expr) => {43		$crate::LazyVal::new(Box::new($f))44	};45}46#[macro_export]47macro_rules! resolved_lazy_val {48	($f: expr) => {49		$crate::LazyVal::new_resolved($f)50	};51}52impl Debug for LazyVal {53	fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {54		write!(f, "Lazy")55	}56}57impl PartialEq for LazyVal {58	fn eq(&self, other: &Self) -> bool {59		Rc::ptr_eq(&self.0, &other.0)60	}61}6263#[derive(Debug, PartialEq)]64pub struct FuncDesc {65	pub name: IStr,66	pub ctx: Context,67	pub params: ParamsDesc,68	pub body: LocExpr,69}7071#[derive(Debug)]72pub enum FuncVal {73	/// Plain function implemented in jsonnet74	Normal(FuncDesc),75	/// Standard library function76	Intrinsic(IStr),77	/// Library functions implemented in native78	NativeExt(IStr, Rc<NativeCallback>),79}8081impl PartialEq for FuncVal {82	fn eq(&self, other: &Self) -> bool {83		match (self, other) {84			(Self::Normal(a), Self::Normal(b)) => a == b,85			(Self::Intrinsic(an), Self::Intrinsic(bn)) => an == bn,86			(Self::NativeExt(an, _), Self::NativeExt(bn, _)) => an == bn,87			(..) => false,88		}89	}90}91impl FuncVal {92	pub fn is_ident(&self) -> bool {93		matches!(&self, Self::Intrinsic(n) if n as &str == "id")94	}95	pub fn name(&self) -> IStr {96		match self {97			Self::Normal(normal) => normal.name.clone(),98			Self::Intrinsic(name) => format!("std.{}", name).into(),99			Self::NativeExt(n, _) => format!("native.{}", n).into(),100		}101	}102	pub fn evaluate(103		&self,104		call_ctx: Context,105		loc: Option<&ExprLocation>,106		args: &ArgsDesc,107		tailstrict: bool,108	) -> Result<Val> {109		match self {110			Self::Normal(func) => {111				let ctx = parse_function_call(112					call_ctx,113					Some(func.ctx.clone()),114					&func.params,115					args,116					tailstrict,117				)?;118				evaluate(ctx, &func.body)119			}120			Self::Intrinsic(name) => call_builtin(call_ctx, loc, name, args),121			Self::NativeExt(_name, handler) => {122				let args = parse_function_call(call_ctx, None, &handler.params, args, true)?;123				let mut out_args = Vec::with_capacity(handler.params.len());124				for p in handler.params.0.iter() {125					out_args.push(args.binding(p.0.clone())?.evaluate()?);126				}127				Ok(handler.call(loc.clone().map(|l| l.0.clone()), &out_args)?)128			}129		}130	}131132	pub fn evaluate_map(133		&self,134		call_ctx: Context,135		args: &HashMap<IStr, Val>,136		tailstrict: bool,137	) -> Result<Val> {138		match self {139			Self::Normal(func) => {140				let ctx = parse_function_call_map(141					call_ctx,142					Some(func.ctx.clone()),143					&func.params,144					args,145					tailstrict,146				)?;147				evaluate(ctx, &func.body)148			}149			Self::Intrinsic(_) => todo!(),150			Self::NativeExt(_, _) => todo!(),151		}152	}153154	pub fn evaluate_values(&self, call_ctx: Context, args: &[Val]) -> Result<Val> {155		match self {156			Self::Normal(func) => {157				let ctx = place_args(call_ctx, Some(func.ctx.clone()), &func.params, args)?;158				evaluate(ctx, &func.body)159			}160			Self::Intrinsic(_) => todo!(),161			Self::NativeExt(_, _) => todo!(),162		}163	}164}165166#[derive(Clone)]167pub enum ManifestFormat {168	YamlStream(Box<ManifestFormat>),169	Yaml(usize),170	Json(usize),171	ToString,172	String,173}174175#[derive(Debug, Clone)]176pub enum ArrValue {177	Lazy(Rc<Vec<LazyVal>>),178	Eager(Rc<Vec<Val>>),179	Extended(Box<(Self, Self)>),180}181impl ArrValue {182	pub fn new_eager() -> Self {183		Self::Eager(Rc::new(Vec::new()))184	}185186	pub fn len(&self) -> usize {187		match self {188			Self::Lazy(l) => l.len(),189			Self::Eager(e) => e.len(),190			Self::Extended(v) => v.0.len() + v.1.len(),191		}192	}193194	pub fn is_empty(&self) -> bool {195		self.len() == 0196	}197198	pub fn get(&self, index: usize) -> Result<Option<Val>> {199		match self {200			Self::Lazy(vec) => {201				if let Some(v) = vec.get(index) {202					Ok(Some(v.evaluate()?))203				} else {204					Ok(None)205				}206			}207			Self::Eager(vec) => Ok(vec.get(index).cloned()),208			Self::Extended(v) => {209				let a_len = v.0.len();210				if a_len > index {211					v.0.get(index)212				} else {213					v.1.get(index - a_len)214				}215			}216		}217	}218219	pub fn get_lazy(&self, index: usize) -> Option<LazyVal> {220		match self {221			Self::Lazy(vec) => vec.get(index).cloned(),222			Self::Eager(vec) => vec.get(index).cloned().map(LazyVal::new_resolved),223			Self::Extended(v) => {224				let a_len = v.0.len();225				if a_len > index {226					v.0.get_lazy(index)227				} else {228					v.1.get_lazy(index - a_len)229				}230			}231		}232	}233234	pub fn evaluated(&self) -> Result<Rc<Vec<Val>>> {235		Ok(match self {236			Self::Lazy(vec) => {237				let mut out = Vec::with_capacity(vec.len());238				for item in vec.iter() {239					out.push(item.evaluate()?);240				}241				Rc::new(out)242			}243			Self::Eager(vec) => vec.clone(),244			Self::Extended(_v) => {245				let mut out = Vec::with_capacity(self.len());246				for item in self.iter() {247					out.push(item?);248				}249				Rc::new(out)250			}251		})252	}253254	pub fn iter(&self) -> impl DoubleEndedIterator<Item = Result<Val>> + '_ {255		(0..self.len()).map(move |idx| match self {256			Self::Lazy(l) => l[idx].evaluate(),257			Self::Eager(e) => Ok(e[idx].clone()),258			Self::Extended(_) => self.get(idx).map(|e| e.unwrap()),259		})260	}261262	pub fn iter_lazy(&self) -> impl DoubleEndedIterator<Item = LazyVal> + '_ {263		(0..self.len()).map(move |idx| match self {264			Self::Lazy(l) => l[idx].clone(),265			Self::Eager(e) => LazyVal::new_resolved(e[idx].clone()),266			Self::Extended(_) => self.get_lazy(idx).unwrap(),267		})268	}269270	pub fn reversed(self) -> Self {271		match self {272			Self::Lazy(vec) => {273				let mut out = (&vec as &Vec<_>).clone();274				out.reverse();275				Self::Lazy(Rc::new(out))276			}277			Self::Eager(vec) => {278				let mut out = (&vec as &Vec<_>).clone();279				out.reverse();280				Self::Eager(Rc::new(out))281			}282			Self::Extended(b) => Self::Extended(Box::new((b.1.reversed(), b.0.reversed()))),283		}284	}285286	pub fn ptr_eq(a: &Self, b: &Self) -> bool {287		match (a, b) {288			(Self::Lazy(a), Self::Lazy(b)) => Rc::ptr_eq(a, b),289			(Self::Eager(a), Self::Eager(b)) => Rc::ptr_eq(a, b),290			_ => false,291		}292	}293}294295impl From<Vec<LazyVal>> for ArrValue {296	fn from(v: Vec<LazyVal>) -> Self {297		Self::Lazy(Rc::new(v))298	}299}300301impl From<Vec<Val>> for ArrValue {302	fn from(v: Vec<Val>) -> Self {303		Self::Eager(Rc::new(v))304	}305}306307#[derive(Debug, Clone)]308pub enum Val {309	Bool(bool),310	Null,311	Str(IStr),312	Num(f64),313	Arr(ArrValue),314	Obj(ObjValue),315	Func(Rc<FuncVal>),316}317318macro_rules! matches_unwrap {319	($e: expr, $p: pat, $r: expr) => {320		match $e {321			$p => $r,322			_ => panic!("no match"),323			}324	};325}326impl Val {327	/// Creates `Val::Num` after checking for numeric overflow.328	/// As numbers are `f64`, we can just check for their finity.329	pub fn new_checked_num(num: f64) -> Result<Self> {330		if num.is_finite() {331			Ok(Self::Num(num))332		} else {333			throw!(RuntimeError("overflow".into()))334		}335	}336337	pub fn assert_type(&self, context: &'static str, val_type: ValType) -> Result<()> {338		let this_type = self.value_type();339		if this_type != val_type {340			throw!(TypeMismatch(context, vec![val_type], this_type))341		} else {342			Ok(())343		}344	}345	pub fn unwrap_num(self) -> Result<f64> {346		Ok(matches_unwrap!(self, Self::Num(v), v))347	}348	pub fn unwrap_func(self) -> Result<Rc<FuncVal>> {349		Ok(matches_unwrap!(self, Self::Func(v), v))350	}351	pub fn try_cast_bool(self, context: &'static str) -> Result<bool> {352		self.assert_type(context, ValType::Bool)?;353		Ok(matches_unwrap!(self, Self::Bool(v), v))354	}355	pub fn try_cast_str(self, context: &'static str) -> Result<IStr> {356		self.assert_type(context, ValType::Str)?;357		Ok(matches_unwrap!(self, Self::Str(v), v))358	}359	pub fn try_cast_num(self, context: &'static str) -> Result<f64> {360		self.assert_type(context, ValType::Num)?;361		self.unwrap_num()362	}363	pub const fn value_type(&self) -> ValType {364		match self {365			Self::Str(..) => ValType::Str,366			Self::Num(..) => ValType::Num,367			Self::Arr(..) => ValType::Arr,368			Self::Obj(..) => ValType::Obj,369			Self::Bool(_) => ValType::Bool,370			Self::Null => ValType::Null,371			Self::Func(..) => ValType::Func,372		}373	}374375	pub fn to_string(&self) -> Result<IStr> {376		Ok(match self {377			Self::Bool(true) => "true".into(),378			Self::Bool(false) => "false".into(),379			Self::Null => "null".into(),380			Self::Str(s) => s.clone(),381			v => manifest_json_ex(382				v,383				&ManifestJsonOptions {384					padding: "",385					mtype: ManifestType::ToString,386				},387			)?388			.into(),389		})390	}391392	/// Expects value to be object, outputs (key, manifested value) pairs393	pub fn manifest_multi(&self, ty: &ManifestFormat) -> Result<Vec<(IStr, IStr)>> {394		let obj = match self {395			Self::Obj(obj) => obj,396			_ => throw!(MultiManifestOutputIsNotAObject),397		};398		let keys = obj.visible_fields();399		let mut out = Vec::with_capacity(keys.len());400		for key in keys {401			let value = obj402				.get(key.clone())?403				.expect("item in object")404				.manifest(ty)?;405			out.push((key, value));406		}407		Ok(out)408	}409410	/// Expects value to be array, outputs manifested values411	pub fn manifest_stream(&self, ty: &ManifestFormat) -> Result<Vec<IStr>> {412		let arr = match self {413			Self::Arr(a) => a,414			_ => throw!(StreamManifestOutputIsNotAArray),415		};416		let mut out = Vec::with_capacity(arr.len());417		for i in arr.iter() {418			out.push(i?.manifest(ty)?);419		}420		Ok(out)421	}422423	pub fn manifest(&self, ty: &ManifestFormat) -> Result<IStr> {424		Ok(match ty {425			ManifestFormat::YamlStream(format) => {426				let arr = match self {427					Self::Arr(a) => a,428					_ => throw!(StreamManifestOutputIsNotAArray),429				};430				let mut out = String::new();431432				match format as &ManifestFormat {433					ManifestFormat::YamlStream(_) => throw!(StreamManifestOutputCannotBeRecursed),434					ManifestFormat::String => throw!(StreamManifestCannotNestString),435					_ => {}436				};437438				if !arr.is_empty() {439					for v in arr.iter() {440						out.push_str("---\n");441						out.push_str(&v?.manifest(format)?);442						out.push('\n');443					}444					out.push_str("...");445				}446447				out.into()448			}449			ManifestFormat::Yaml(padding) => self.to_yaml(*padding)?,450			ManifestFormat::Json(padding) => self.to_json(*padding)?,451			ManifestFormat::ToString => self.to_string()?,452			ManifestFormat::String => match self {453				Self::Str(s) => s.clone(),454				_ => throw!(StringManifestOutputIsNotAString),455			},456		})457	}458459	/// For manifestification460	pub fn to_json(&self, padding: usize) -> Result<IStr> {461		manifest_json_ex(462			self,463			&ManifestJsonOptions {464				padding: &" ".repeat(padding),465				mtype: if padding == 0 {466					ManifestType::Minify467				} else {468					ManifestType::Manifest469				},470			},471		)472		.map(|s| s.into())473	}474475	/// Calls `std.manifestJson`476	#[cfg(feature = "faster")]477	pub fn to_std_json(&self, padding: usize) -> Result<Rc<str>> {478		manifest_json_ex(479			self,480			&ManifestJsonOptions {481				padding: &" ".repeat(padding),482				mtype: ManifestType::Std,483			},484		)485		.map(|s| s.into())486	}487488	/// Calls `std.manifestJson`489	#[cfg(not(feature = "faster"))]490	pub fn to_std_json(&self, padding: usize) -> Result<Rc<str>> {491		with_state(|s| {492			let ctx = s493				.create_default_context()?494				.with_var("__tmp__to_json__".into(), self.clone())?;495			Ok(evaluate(496				ctx,497				&el!(Expr::Apply(498					el!(Expr::Index(499						el!(Expr::Var("std".into())),500						el!(Expr::Str("manifestJsonEx".into()))501					)),502					ArgsDesc(vec![503						Arg(None, el!(Expr::Var("__tmp__to_json__".into()))),504						Arg(None, el!(Expr::Str(" ".repeat(padding).into())))505					]),506					false507				)),508			)?509			.try_cast_str("to json")?)510		})511	}512	pub fn to_yaml(&self, padding: usize) -> Result<IStr> {513		with_state(|s| {514			let ctx = s515				.create_default_context()?516				.with_var("__tmp__to_json__".into(), self.clone());517			Ok(evaluate(518				ctx,519				&el!(Expr::Apply(520					el!(Expr::Index(521						el!(Expr::Var("std".into())),522						el!(Expr::Str("manifestYamlDoc".into()))523					)),524					ArgsDesc(vec![525						Arg(None, el!(Expr::Var("__tmp__to_json__".into()))),526						Arg(527							None,528							el!(Expr::Literal(if padding != 0 {529								LiteralType::True530							} else {531								LiteralType::False532							}))533						)534					]),535					false536				)),537			)?538			.try_cast_str("to json")?)539		})540	}541}542543const fn is_function_like(val: &Val) -> bool {544	matches!(val, Val::Func(_))545}546547/// Native implementation of `std.primitiveEquals`548pub fn primitive_equals(val_a: &Val, val_b: &Val) -> Result<bool> {549	Ok(match (val_a, val_b) {550		(Val::Bool(a), Val::Bool(b)) => a == b,551		(Val::Null, Val::Null) => true,552		(Val::Str(a), Val::Str(b)) => a == b,553		(Val::Num(a), Val::Num(b)) => (a - b).abs() <= f64::EPSILON,554		(Val::Arr(_), Val::Arr(_)) => throw!(RuntimeError(555			"primitiveEquals operates on primitive types, got array".into(),556		)),557		(Val::Obj(_), Val::Obj(_)) => throw!(RuntimeError(558			"primitiveEquals operates on primitive types, got object".into(),559		)),560		(a, b) if is_function_like(a) && is_function_like(b) => {561			throw!(RuntimeError("cannot test equality of functions".into()))562		}563		(_, _) => false,564	})565}566567/// Native implementation of `std.equals`568pub fn equals(val_a: &Val, val_b: &Val) -> Result<bool> {569	if val_a.value_type() != val_b.value_type() {570		return Ok(false);571	}572	match (val_a, val_b) {573		(Val::Arr(a), Val::Arr(b)) => {574			if ArrValue::ptr_eq(a, b) {575				return Ok(true);576			}577			if a.len() != b.len() {578				return Ok(false);579			}580			for (a, b) in a.iter().zip(b.iter()) {581				if !equals(&a?, &b?)? {582					return Ok(false);583				}584			}585			Ok(true)586		}587		(Val::Obj(a), Val::Obj(b)) => {588			if ObjValue::ptr_eq(a, b) {589				return Ok(true);590			}591			let fields = a.visible_fields();592			if fields != b.visible_fields() {593				return Ok(false);594			}595			for field in fields {596				if !equals(&a.get(field.clone())?.unwrap(), &b.get(field)?.unwrap())? {597					return Ok(false);598				}599			}600			Ok(true)601		}602		(a, b) => Ok(primitive_equals(a, b)?),603	}604}