1use std::{cmp::Ordering, rc::Rc};23use jrsonnet_gcmodule::{Cc, Trace};4use jrsonnet_interner::IStr;5use jrsonnet_parser::{6 ArgsDesc, AssertStmt, BindSpec, CompSpec, Expr, FieldMember, FieldName, ForSpecData,7 IfSpecData, LiteralType, LocExpr, Member, ObjBody, ParamsDesc,8};9use jrsonnet_types::ValType;1011use self::destructure::destruct;12use crate::{13 arr::ArrValue,14 destructure::evaluate_dest,15 error::ErrorKind::*,16 evaluate::operator::{evaluate_add_op, evaluate_binary_op_special, evaluate_unary_op},17 function::{CallLocation, FuncDesc, FuncVal},18 tb, throw,19 typed::Typed,20 val::{CachedUnbound, IndexableVal, StrValue, Thunk, ThunkValue},21 Context, GcHashMap, ObjValue, ObjValueBuilder, ObjectAssertion, Pending, Result, State,22 Unbound, Val,23};24pub mod destructure;25pub mod operator;2627pub fn evaluate_trivial(expr: &LocExpr) -> Option<Val> {28 fn is_trivial(expr: &LocExpr) -> bool {29 match &*expr.0 {30 Expr::Str(_)31 | Expr::Num(_)32 | Expr::Literal(LiteralType::False | LiteralType::True | LiteralType::Null) => true,33 Expr::Arr(a) => a.iter().all(is_trivial),34 Expr::Parened(e) => is_trivial(e),35 _ => false,36 }37 }38 Some(match &*expr.0 {39 Expr::Str(s) => Val::Str(StrValue::Flat(s.clone())),40 Expr::Num(n) => Val::Num(*n),41 Expr::Literal(LiteralType::False) => Val::Bool(false),42 Expr::Literal(LiteralType::True) => Val::Bool(true),43 Expr::Literal(LiteralType::Null) => Val::Null,44 Expr::Arr(n) => {45 if n.iter().any(|e| !is_trivial(e)) {46 return None;47 }48 Val::Arr(ArrValue::eager(Cc::new(49 n.iter()50 .map(evaluate_trivial)51 .map(|e| e.expect("checked trivial"))52 .collect(),53 )))54 }55 Expr::Parened(e) => evaluate_trivial(e)?,56 _ => return None,57 })58}5960pub fn evaluate_method(ctx: Context, name: IStr, params: ParamsDesc, body: LocExpr) -> Val {61 Val::Func(FuncVal::Normal(Cc::new(FuncDesc {62 name,63 ctx,64 params,65 body,66 })))67}6869pub fn evaluate_field_name(ctx: Context, field_name: &FieldName) -> Result<Option<IStr>> {70 Ok(match field_name {71 FieldName::Fixed(n) => Some(n.clone()),72 FieldName::Dyn(expr) => State::push(73 CallLocation::new(&expr.1),74 || "evaluating field name".to_string(),75 || {76 let value = evaluate(ctx, expr)?;77 if matches!(value, Val::Null) {78 Ok(None)79 } else {80 Ok(Some(IStr::from_untyped(value)?))81 }82 },83 )?,84 })85}8687pub fn evaluate_comp(88 ctx: Context,89 specs: &[CompSpec],90 callback: &mut impl FnMut(Context) -> Result<()>,91) -> Result<()> {92 match specs.get(0) {93 None => callback(ctx)?,94 Some(CompSpec::IfSpec(IfSpecData(cond))) => {95 if bool::from_untyped(evaluate(ctx.clone(), cond)?)? {96 evaluate_comp(ctx, &specs[1..], callback)?;97 }98 }99 Some(CompSpec::ForSpec(ForSpecData(var, expr))) => match evaluate(ctx.clone(), expr)? {100 Val::Arr(list) => {101 for item in list.iter_lazy() {102 let fctx = Pending::new();103 let mut new_bindings = GcHashMap::with_capacity(var.capacity_hint());104 destruct(var, item, fctx.clone(), &mut new_bindings)?;105 let ctx = ctx106 .clone()107 .extend(new_bindings, None, None, None)108 .into_future(fctx);109110 evaluate_comp(ctx, &specs[1..], callback)?;111 }112 }113 #[cfg(feature = "exp-object-iteration")]114 Val::Obj(obj) => {115 for field in obj.fields(116 117 #[cfg(feature = "exp-preserve-order")]118 false,119 ) {120 #[derive(Trace)]121 struct ObjectFieldThunk {122 obj: ObjValue,123 field: IStr,124 }125 impl ThunkValue for ObjectFieldThunk {126 type Output = Val;127128 fn get(self: Box<Self>) -> Result<Self::Output> {129 self.obj.get(self.field).transpose().expect(130 "field exists, as field name was obtained from object.fields()",131 )132 }133 }134135 let fctx = Pending::new();136 let mut new_bindings = GcHashMap::with_capacity(var.capacity_hint());137 let value = Thunk::evaluated(Val::Arr(ArrValue::lazy(Cc::new(vec![138 Thunk::evaluated(Val::Str(StrValue::Flat(field.clone()))),139 Thunk::new(tb!(ObjectFieldThunk {140 field: field.clone(),141 obj: obj.clone(),142 })),143 ]))));144 destruct(var, value, fctx.clone(), &mut new_bindings)?;145 let ctx = ctx146 .clone()147 .extend(new_bindings, None, None, None)148 .into_future(fctx);149150 evaluate_comp(ctx, &specs[1..], callback)?;151 }152 }153 _ => throw!(InComprehensionCanOnlyIterateOverArray),154 },155 }156 Ok(())157}158159trait CloneableUnbound<T>: Unbound<Bound = T> + Clone {}160impl<V, T> CloneableUnbound<T> for V where V: Unbound<Bound = T> + Clone {}161162fn evaluate_object_locals(163 fctx: Pending<Context>,164 locals: Rc<Vec<BindSpec>>,165) -> impl CloneableUnbound<Context> {166 #[derive(Trace, Clone)]167 struct UnboundLocals {168 fctx: Pending<Context>,169 locals: Rc<Vec<BindSpec>>,170 }171 impl Unbound for UnboundLocals {172 type Bound = Context;173174 fn bind(&self, sup: Option<ObjValue>, this: Option<ObjValue>) -> Result<Context> {175 let fctx = Context::new_future();176 let mut new_bindings =177 GcHashMap::with_capacity(self.locals.iter().map(BindSpec::capacity_hint).sum());178 for b in self.locals.iter() {179 evaluate_dest(b, fctx.clone(), &mut new_bindings)?;180 }181182 let ctx = self.fctx.unwrap();183 let new_dollar = ctx.dollar().clone().or_else(|| this.clone());184185 let ctx = ctx186 .extend(new_bindings, new_dollar, sup, this)187 .into_future(fctx);188189 Ok(ctx)190 }191 }192193 UnboundLocals { fctx, locals }194}195196pub fn evaluate_field_member<B: Unbound<Bound = Context> + Clone>(197 builder: &mut ObjValueBuilder,198 ctx: Context,199 uctx: B,200 field: &FieldMember,201) -> Result<()> {202 let name = evaluate_field_name(ctx, &field.name)?;203 let Some(name) = name else {204 return Ok(());205 };206207 match field {208 FieldMember {209 plus,210 params: None,211 visibility,212 value,213 ..214 } => {215 #[derive(Trace)]216 struct UnboundValue<B: Trace> {217 uctx: B,218 value: LocExpr,219 name: IStr,220 }221 impl<B: Unbound<Bound = Context>> Unbound for UnboundValue<B> {222 type Bound = Val;223 fn bind(&self, sup: Option<ObjValue>, this: Option<ObjValue>) -> Result<Val> {224 evaluate_named(self.uctx.bind(sup, this)?, &self.value, self.name.clone())225 }226 }227228 builder229 .member(name.clone())230 .with_add(*plus)231 .with_visibility(*visibility)232 .with_location(value.1.clone())233 .bindable(tb!(UnboundValue {234 uctx,235 value: value.clone(),236 name,237 }))?;238 }239 FieldMember {240 params: Some(params),241 visibility,242 value,243 ..244 } => {245 #[derive(Trace)]246 struct UnboundMethod<B: Trace> {247 uctx: B,248 value: LocExpr,249 params: ParamsDesc,250 name: IStr,251 }252 impl<B: Unbound<Bound = Context>> Unbound for UnboundMethod<B> {253 type Bound = Val;254 fn bind(&self, sup: Option<ObjValue>, this: Option<ObjValue>) -> Result<Val> {255 Ok(evaluate_method(256 self.uctx.bind(sup, this)?,257 self.name.clone(),258 self.params.clone(),259 self.value.clone(),260 ))261 }262 }263264 builder265 .member(name.clone())266 .with_visibility(*visibility)267 .with_location(value.1.clone())268 .bindable(tb!(UnboundMethod {269 uctx,270 value: value.clone(),271 params: params.clone(),272 name,273 }))?;274 }275 }276 Ok(())277}278279#[allow(clippy::too_many_lines)]280pub fn evaluate_member_list_object(ctx: Context, members: &[Member]) -> Result<ObjValue> {281 let mut builder = ObjValueBuilder::new();282 let locals = Rc::new(283 members284 .iter()285 .filter_map(|m| match m {286 Member::BindStmt(bind) => Some(bind.clone()),287 _ => None,288 })289 .collect::<Vec<_>>(),290 );291292 let fctx = Context::new_future();293294 295 let uctx = CachedUnbound::new(evaluate_object_locals(fctx.clone(), locals));296297 for member in members.iter() {298 match member {299 Member::Field(field) => {300 evaluate_field_member(&mut builder, ctx.clone(), uctx.clone(), field)?;301 }302 Member::AssertStmt(stmt) => {303 #[derive(Trace)]304 struct ObjectAssert<B: Trace> {305 uctx: B,306 assert: AssertStmt,307 }308 impl<B: Unbound<Bound = Context>> ObjectAssertion for ObjectAssert<B> {309 fn run(&self, sup: Option<ObjValue>, this: Option<ObjValue>) -> Result<()> {310 let ctx = self.uctx.bind(sup, this)?;311 evaluate_assert(ctx, &self.assert)312 }313 }314 builder.assert(tb!(ObjectAssert {315 uctx: uctx.clone(),316 assert: stmt.clone(),317 }));318 }319 Member::BindStmt(_) => {320 321 }322 }323 }324 let this = builder.build();325 fctx.fill(ctx.extend(GcHashMap::new(), None, None, Some(this.clone())));326 Ok(this)327}328329pub fn evaluate_object(ctx: Context, object: &ObjBody) -> Result<ObjValue> {330 Ok(match object {331 ObjBody::MemberList(members) => evaluate_member_list_object(ctx, members)?,332 ObjBody::ObjComp(obj) => {333 let mut builder = ObjValueBuilder::new();334 let locals = Rc::new(335 obj.pre_locals336 .iter()337 .chain(obj.post_locals.iter())338 .cloned()339 .collect::<Vec<_>>(),340 );341 let mut ctxs = vec![];342 evaluate_comp(ctx, &obj.compspecs, &mut |ctx| {343 let fctx = Context::new_future();344 ctxs.push((ctx.clone(), fctx.clone()));345 let uctx = evaluate_object_locals(fctx, locals.clone());346347 evaluate_field_member(&mut builder, ctx, uctx, &obj.field)348 })?;349350 let this = builder.build();351 for (ctx, fctx) in ctxs {352 let _ctx = ctx353 .extend(GcHashMap::new(), None, None, Some(this.clone()))354 .into_future(fctx);355 }356 this357 }358 })359}360361pub fn evaluate_apply(362 ctx: Context,363 value: &LocExpr,364 args: &ArgsDesc,365 loc: CallLocation<'_>,366 tailstrict: bool,367) -> Result<Val> {368 let value = evaluate(ctx.clone(), value)?;369 Ok(match value {370 Val::Func(f) => {371 let body = || f.evaluate(ctx, loc, args, tailstrict);372 if tailstrict {373 body()?374 } else {375 State::push(loc, || format!("function <{}> call", f.name()), body)?376 }377 }378 v => throw!(OnlyFunctionsCanBeCalledGot(v.value_type())),379 })380}381382pub fn evaluate_assert(ctx: Context, assertion: &AssertStmt) -> Result<()> {383 let value = &assertion.0;384 let msg = &assertion.1;385 let assertion_result = State::push(386 CallLocation::new(&value.1),387 || "assertion condition".to_owned(),388 || bool::from_untyped(evaluate(ctx.clone(), value)?),389 )?;390 if !assertion_result {391 State::push(392 CallLocation::new(&value.1),393 || "assertion failure".to_owned(),394 || {395 if let Some(msg) = msg {396 throw!(AssertionFailed(evaluate(ctx, msg)?.to_string()?));397 }398 throw!(AssertionFailed(Val::Null.to_string()?));399 },400 )?;401 }402 Ok(())403}404405pub fn evaluate_named(ctx: Context, expr: &LocExpr, name: IStr) -> Result<Val> {406 use Expr::*;407 let LocExpr(raw_expr, _loc) = expr;408 Ok(match &**raw_expr {409 Function(params, body) => evaluate_method(ctx, name, params.clone(), body.clone()),410 _ => evaluate(ctx, expr)?,411 })412}413414#[allow(clippy::too_many_lines)]415pub fn evaluate(ctx: Context, expr: &LocExpr) -> Result<Val> {416 use Expr::*;417 if let Some(trivial) = evaluate_trivial(&expr) {418 return Ok(trivial);419 }420 let LocExpr(expr, loc) = expr;421 Ok(match &**expr {422 Literal(LiteralType::This) => {423 Val::Obj(ctx.this().clone().ok_or(CantUseSelfOutsideOfObject)?)424 }425 Literal(LiteralType::Super) => Val::Obj(426 ctx.super_obj().clone().ok_or(NoSuperFound)?.with_this(427 ctx.this()428 .clone()429 .expect("if super exists - then this should too"),430 ),431 ),432 Literal(LiteralType::Dollar) => {433 Val::Obj(ctx.dollar().clone().ok_or(NoTopLevelObjectFound)?)434 }435 Literal(LiteralType::True) => Val::Bool(true),436 Literal(LiteralType::False) => Val::Bool(false),437 Literal(LiteralType::Null) => Val::Null,438 Parened(e) => evaluate(ctx, e)?,439 Str(v) => Val::Str(StrValue::Flat(v.clone())),440 Num(v) => Val::new_checked_num(*v)?,441 BinaryOp(v1, o, v2) => evaluate_binary_op_special(ctx, v1, *o, v2)?,442 UnaryOp(o, v) => evaluate_unary_op(*o, &evaluate(ctx, v)?)?,443 Var(name) => State::push(444 CallLocation::new(loc),445 || format!("variable <{name}> access"),446 || ctx.binding(name.clone())?.evaluate(),447 )?,448 Index(LocExpr(v, _), index) if matches!(&**v, Expr::Literal(LiteralType::Super)) => {449 let name = evaluate(ctx.clone(), index)?;450 let Val::Str(name) = name else {451 throw!(ValueIndexMustBeTypeGot(452 ValType::Obj,453 ValType::Str,454 name.value_type(),455 ))456 };457 ctx.super_obj()458 .clone()459 .expect("no super found")460 .get_for(name.into_flat(), ctx.this().clone().expect("no this found"))?461 .expect("value not found")462 }463 Index(value, index) => match (evaluate(ctx.clone(), value)?, evaluate(ctx, index)?) {464 (Val::Obj(v), Val::Str(key)) => State::push(465 CallLocation::new(loc),466 || format!("field <{key}> access"),467 || match v.get(key.clone().into_flat()) {468 Ok(Some(v)) => Ok(v),469 #[cfg(not(feature = "friendly-errors"))]470 Ok(None) => throw!(NoSuchField(key.clone(), vec![])),471 #[cfg(feature = "friendly-errors")]472 Ok(None) => {473 let mut heap = Vec::new();474 for field in v.fields_ex(475 true,476 #[cfg(feature = "exp-preserve-order")]477 false,478 ) {479 let conf = strsim::jaro_winkler(480 &field as &str,481 &key.clone().into_flat() as &str,482 );483 if conf < 0.8 {484 continue;485 }486 heap.push((conf, field));487 }488 heap.sort_by(|a, b| b.0.partial_cmp(&a.0).unwrap_or(Ordering::Equal));489490 throw!(NoSuchField(491 key.clone().into_flat(),492 heap.into_iter().map(|(_, v)| v).collect()493 ))494 }495 Err(e) => Err(e),496 },497 )?,498 (Val::Obj(_), n) => throw!(ValueIndexMustBeTypeGot(499 ValType::Obj,500 ValType::Str,501 n.value_type(),502 )),503504 (Val::Arr(v), Val::Num(n)) => {505 if n.fract() > f64::EPSILON {506 throw!(FractionalIndex)507 }508 v.get(n as usize)?509 .ok_or_else(|| ArrayBoundsError(n as usize, v.len()))?510 }511 (Val::Arr(_), Val::Str(n)) => throw!(AttemptedIndexAnArrayWithString(n.into_flat())),512 (Val::Arr(_), n) => throw!(ValueIndexMustBeTypeGot(513 ValType::Arr,514 ValType::Num,515 n.value_type(),516 )),517518 (Val::Str(s), Val::Num(n)) => Val::Str({519 let v: IStr = s520 .clone()521 .into_flat()522 .chars()523 .skip(n as usize)524 .take(1)525 .collect::<String>()526 .into();527 if v.is_empty() {528 let size = s.into_flat().chars().count();529 throw!(StringBoundsError(n as usize, size))530 }531 StrValue::Flat(v)532 }),533 (Val::Str(_), n) => throw!(ValueIndexMustBeTypeGot(534 ValType::Str,535 ValType::Num,536 n.value_type(),537 )),538539 (v, _) => throw!(CantIndexInto(v.value_type())),540 },541 LocalExpr(bindings, returned) => {542 let mut new_bindings: GcHashMap<IStr, Thunk<Val>> =543 GcHashMap::with_capacity(bindings.iter().map(BindSpec::capacity_hint).sum());544 let fctx = Context::new_future();545 for b in bindings {546 evaluate_dest(b, fctx.clone(), &mut new_bindings)?;547 }548 let ctx = ctx.extend(new_bindings, None, None, None).into_future(fctx);549 evaluate(ctx, &returned.clone())?550 }551 Arr(items) => {552 if items.is_empty() {553 Val::Arr(ArrValue::empty())554 } else if items.len() == 1 {555 #[derive(Trace)]556 struct ArrayElement {557 ctx: Context,558 item: LocExpr,559 }560 impl ThunkValue for ArrayElement {561 type Output = Val;562 fn get(self: Box<Self>) -> Result<Val> {563 evaluate(self.ctx, &self.item)564 }565 }566 Val::Arr(ArrValue::lazy(Cc::new(vec![Thunk::new(tb!(567 ArrayElement {568 ctx,569 item: items[0].clone(),570 }571 ))])))572 } else {573 Val::Arr(ArrValue::expr(ctx, items.iter().cloned()))574 }575 }576 ArrComp(expr, comp_specs) => {577 let mut out = Vec::new();578 evaluate_comp(ctx, comp_specs, &mut |ctx| {579 out.push(evaluate(ctx, expr)?);580 Ok(())581 })?;582 Val::Arr(ArrValue::eager(Cc::new(out)))583 }584 Obj(body) => Val::Obj(evaluate_object(ctx, body)?),585 ObjExtend(a, b) => evaluate_add_op(586 &evaluate(ctx.clone(), a)?,587 &Val::Obj(evaluate_object(ctx, b)?),588 )?,589 Apply(value, args, tailstrict) => {590 evaluate_apply(ctx, value, args, CallLocation::new(loc), *tailstrict)?591 }592 Function(params, body) => {593 evaluate_method(ctx, "anonymous".into(), params.clone(), body.clone())594 }595 AssertExpr(assert, returned) => {596 evaluate_assert(ctx.clone(), assert)?;597 evaluate(ctx, returned)?598 }599 ErrorStmt(e) => State::push(600 CallLocation::new(loc),601 || "error statement".to_owned(),602 || throw!(RuntimeError(evaluate(ctx, e)?.to_string()?,)),603 )?,604 IfElse {605 cond,606 cond_then,607 cond_else,608 } => {609 if State::push(610 CallLocation::new(loc),611 || "if condition".to_owned(),612 || bool::from_untyped(evaluate(ctx.clone(), &cond.0)?),613 )? {614 evaluate(ctx, cond_then)?615 } else {616 match cond_else {617 Some(v) => evaluate(ctx, v)?,618 None => Val::Null,619 }620 }621 }622 Slice(value, desc) => {623 fn parse_idx<T: Typed>(624 loc: CallLocation<'_>,625 ctx: &Context,626 expr: &Option<LocExpr>,627 desc: &'static str,628 ) -> Result<Option<T>> {629 if let Some(value) = expr {630 Ok(Some(State::push(631 loc,632 || format!("slice {desc}"),633 || T::from_untyped(evaluate(ctx.clone(), value)?),634 )?))635 } else {636 Ok(None)637 }638 }639640 let indexable = evaluate(ctx.clone(), value)?;641 let loc = CallLocation::new(loc);642643 let start = parse_idx(loc, &ctx, &desc.start, "start")?;644 let end = parse_idx(loc, &ctx, &desc.end, "end")?;645 let step = parse_idx(loc, &ctx, &desc.step, "step")?;646647 IndexableVal::into_untyped(indexable.into_indexable()?.slice(start, end, step)?)?648 }649 i @ (Import(path) | ImportStr(path) | ImportBin(path)) => {650 let Expr::Str(path) = &*path.0 else {651 throw!("computed imports are not supported")652 };653 let tmp = loc.clone().0;654 let s = ctx.state();655 let resolved_path = s.resolve_from(tmp.source_path(), path as &str)?;656 match i {657 Import(_) => State::push(658 CallLocation::new(loc),659 || format!("import {:?}", path.clone()),660 || s.import_resolved(resolved_path),661 )?,662 ImportStr(_) => Val::Str(StrValue::Flat(s.import_resolved_str(resolved_path)?)),663 ImportBin(_) => Val::Arr(ArrValue::bytes(s.import_resolved_bin(resolved_path)?)),664 _ => unreachable!(),665 }666 }667 })668}