difftreelog
refactor get rid of LazyBinding variants
in: master
5 files changed
crates/jrsonnet-evaluator/src/ctx.rsdiffbeforeafterboth--- a/crates/jrsonnet-evaluator/src/ctx.rs
+++ b/crates/jrsonnet-evaluator/src/ctx.rs
@@ -1,17 +1,24 @@
use crate::{
- error::Error::*, map::LayeredHashMap, rc_fn_helper, resolved_lazy_val, FutureWrapper,
- LazyBinding, LazyVal, ObjValue, Result, Val,
+ error::Error::*, map::LayeredHashMap, resolved_lazy_val, FutureWrapper, LazyBinding, LazyVal,
+ ObjValue, Result, Val,
};
use jrsonnet_interner::IStr;
use rustc_hash::FxHashMap;
use std::hash::BuildHasherDefault;
-use std::{collections::HashMap, fmt::Debug, rc::Rc};
+use std::{fmt::Debug, rc::Rc};
-rc_fn_helper!(
- ContextCreator,
- context_creator,
- dyn Fn(Option<ObjValue>, Option<ObjValue>) -> Result<Context>
-);
+#[derive(Clone)]
+pub struct ContextCreator(pub Context, pub FutureWrapper<FxHashMap<IStr, LazyBinding>>);
+impl ContextCreator {
+ pub fn create(&self, this: Option<ObjValue>, super_obj: Option<ObjValue>) -> Result<Context> {
+ self.0.clone().extend_unbound(
+ self.1.clone().unwrap(),
+ self.0.dollar().clone().or_else(|| this.clone()),
+ this,
+ super_obj,
+ )
+ }
+}
struct ContextInternals {
dollar: Option<ObjValue>,
@@ -120,9 +127,14 @@
}
}
}
+ pub fn extend_bound(self, new_bindings: FxHashMap<IStr, LazyVal>) -> Self {
+ let new_this = self.0.this.clone();
+ let new_super_obj = self.0.super_obj.clone();
+ self.extend(new_bindings, None, new_this, new_super_obj)
+ }
pub fn extend_unbound(
self,
- new_bindings: HashMap<IStr, LazyBinding>,
+ new_bindings: FxHashMap<IStr, LazyBinding>,
new_dollar: Option<ObjValue>,
new_this: Option<ObjValue>,
new_super_obj: Option<ObjValue>,
crates/jrsonnet-evaluator/src/dynamic.rsdiffbeforeafterboth--- a/crates/jrsonnet-evaluator/src/dynamic.rs
+++ b/crates/jrsonnet-evaluator/src/dynamic.rs
@@ -12,7 +12,7 @@
}
}
impl<T: Clone> FutureWrapper<T> {
- pub fn unwrap(self) -> T {
+ pub fn unwrap(&self) -> T {
self.0.borrow().as_ref().cloned().unwrap()
}
}
@@ -21,30 +21,4 @@
fn default() -> Self {
Self::new()
}
-}
-
-#[macro_export]
-macro_rules! rc_fn_helper {
- ($name: ident, $macro_name: ident, $fn: ty) => {
- #[derive(Clone)]
- #[doc = "Function wrapper"]
- pub struct $name(pub std::rc::Rc<$fn>);
- impl std::fmt::Debug for $name {
- fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
- f.debug_struct(std::stringify!($name)).finish()
- }
- }
- impl std::cmp::PartialEq for $name {
- fn eq(&self, other: &$name) -> bool {
- std::ptr::eq(&self.0, &other.0)
- }
- }
- #[doc = "Macro to ease wrapper creation"]
- #[macro_export]
- macro_rules! $macro_name {
- ($val: expr) => {
- $crate::$name(std::rc::Rc::new($val))
- };
- }
- };
}
crates/jrsonnet-evaluator/src/evaluate.rsdiffbeforeafterboth--- a/crates/jrsonnet-evaluator/src/evaluate.rs
+++ b/crates/jrsonnet-evaluator/src/evaluate.rs
@@ -1,6 +1,6 @@
use crate::{
- context_creator, error::Error::*, lazy_val, push, throw, with_state, Context, ContextCreator,
- FuncDesc, FuncVal, FutureWrapper, LazyBinding, LazyVal, ObjMember, ObjValue, Result, Val,
+ error::Error::*, lazy_val, push, throw, with_state, Context, ContextCreator, FuncDesc, FuncVal,
+ FutureWrapper, LazyBinding, LazyVal, ObjMember, ObjValue, Result, Val,
};
use closure::closure;
use jrsonnet_interner::IStr;
@@ -10,8 +10,30 @@
Visibility,
};
use jrsonnet_types::ValType;
-use rustc_hash::FxHashMap;
-use std::{collections::HashMap, rc::Rc};
+use rustc_hash::{FxHashMap, FxHasher};
+use std::{collections::HashMap, hash::BuildHasherDefault, rc::Rc};
+
+pub fn evaluate_binding_in_future(
+ b: &BindSpec,
+ context_creator: FutureWrapper<Context>,
+) -> LazyVal {
+ let b = b.clone();
+ if let Some(params) = &b.params {
+ let params = params.clone();
+ LazyVal::new(Box::new(move || {
+ Ok(evaluate_method(
+ context_creator.unwrap(),
+ b.name.clone(),
+ params.clone(),
+ b.value.clone(),
+ ))
+ }))
+ } else {
+ LazyVal::new(Box::new(move || {
+ evaluate_named(context_creator.unwrap(), &b.value, b.name.clone())
+ }))
+ }
+}
pub fn evaluate_binding(b: &BindSpec, context_creator: ContextCreator) -> (IStr, LazyBinding) {
let b = b.clone();
@@ -22,7 +44,7 @@
LazyBinding::Bindable(Rc::new(move |this, super_obj| {
Ok(lazy_val!(
closure!(clone b, clone params, clone context_creator, || Ok(evaluate_method(
- context_creator.0(this.clone(), super_obj.clone())?,
+ context_creator.create(this.clone(), super_obj.clone())?,
b.name.clone(),
params.clone(),
b.value.clone(),
@@ -35,11 +57,11 @@
b.name.clone(),
LazyBinding::Bindable(Rc::new(move |this, super_obj| {
Ok(lazy_val!(closure!(clone context_creator, clone b, ||
- evaluate_named(
- context_creator.0(this.clone(), super_obj.clone())?,
- &b.value,
- b.name.clone()
- )
+ evaluate_named(
+ context_creator.create(this.clone(), super_obj.clone())?,
+ &b.value,
+ b.name.clone()
+ )
)))
})),
)
@@ -217,18 +239,10 @@
pub fn evaluate_member_list_object(context: Context, members: &[Member]) -> Result<ObjValue> {
let new_bindings = FutureWrapper::new();
let future_this = FutureWrapper::new();
- let context_creator = context_creator!(
- closure!(clone context, clone new_bindings, |this: Option<ObjValue>, super_obj: Option<ObjValue>| {
- context.clone().extend_unbound(
- new_bindings.clone().unwrap(),
- context.dollar().clone().or_else(||this.clone()),
- Some(this.unwrap()),
- super_obj
- )
- })
- );
+ let context_creator = ContextCreator(context.clone(), new_bindings.clone());
{
- let mut bindings: HashMap<IStr, LazyBinding> = HashMap::new();
+ let mut bindings: FxHashMap<IStr, LazyBinding> =
+ FxHashMap::with_capacity_and_hasher(members.len(), BuildHasherDefault::default());
for (n, b) in members
.iter()
.filter_map(|m| match m {
@@ -265,7 +279,7 @@
invoke: LazyBinding::Bindable(Rc::new(
closure!(clone name, clone value, clone context_creator, |this, super_obj| {
Ok(LazyVal::new_resolved(evaluate(
- context_creator.0(this, super_obj)?,
+ context_creator.create(this, super_obj)?,
&value,
)?))
}),
@@ -294,7 +308,7 @@
closure!(clone value, clone context_creator, clone params, clone name, |this, super_obj| {
// TODO: Assert
Ok(LazyVal::new_resolved(evaluate_method(
- context_creator.0(this, super_obj)?,
+ context_creator.create(this, super_obj)?,
name.clone(),
params.clone(),
value.clone(),
@@ -324,17 +338,8 @@
context.clone(),
&|ctx| {
let new_bindings = FutureWrapper::new();
- let context_creator = context_creator!(
- closure!(clone context, clone new_bindings, |this: Option<ObjValue>, super_obj: Option<ObjValue>| {
- context.clone().extend_unbound(
- new_bindings.clone().unwrap(),
- context.dollar().clone().or_else(||this.clone()),
- None,
- super_obj
- )
- })
- );
- let mut bindings: HashMap<IStr, LazyBinding> = HashMap::new();
+ let context_creator = ContextCreator(context.clone(), new_bindings.clone());
+ let mut bindings: FxHashMap<IStr, LazyBinding> = FxHashMap::with_capacity_and_hasher(obj.pre_locals.len() + obj.post_locals.len(), BuildHasherDefault::default());
for (n, b) in obj
.pre_locals
.iter()
@@ -497,22 +502,19 @@
}
}
LocalExpr(bindings, returned) => {
- let mut new_bindings: HashMap<IStr, LazyBinding> = HashMap::new();
+ let mut new_bindings: FxHashMap<IStr, LazyVal> = HashMap::with_capacity_and_hasher(
+ bindings.len(),
+ BuildHasherDefault::<FxHasher>::default(),
+ );
let future_context = Context::new_future();
-
- let context_creator = context_creator!(
- closure!(clone future_context, |_, _| Ok(future_context.clone().unwrap()))
- );
-
- for (k, v) in bindings
- .iter()
- .map(|b| evaluate_binding(b, context_creator.clone()))
- {
- new_bindings.insert(k, v);
+ for b in bindings {
+ new_bindings.insert(
+ b.name.clone(),
+ evaluate_binding_in_future(b, future_context.clone()),
+ );
}
-
let context = context
- .extend_unbound(new_bindings, None, None, None)?
+ .extend_bound(new_bindings)
.into_future(future_context);
evaluate(context, &returned.clone())?
}
crates/jrsonnet-evaluator/src/lib.rsdiffbeforeafterboth--- a/crates/jrsonnet-evaluator/src/lib.rs
+++ b/crates/jrsonnet-evaluator/src/lib.rs
@@ -27,10 +27,12 @@
use jrsonnet_parser::*;
use native::NativeCallback;
pub use obj::*;
+use rustc_hash::FxHashMap;
use std::{
cell::{Ref, RefCell, RefMut},
collections::HashMap,
fmt::Debug,
+ hash::BuildHasherDefault,
path::PathBuf,
rc::Rc,
};
@@ -230,7 +232,7 @@
}
value.parsed.clone()
};
- let value = evaluate(self.create_default_context()?, &expr)?;
+ let value = evaluate(self.create_default_context(), &expr)?;
{
self.data_mut()
.files
@@ -260,16 +262,14 @@
}
/// Creates context with all passed global variables
- pub fn create_default_context(&self) -> Result<Context> {
+ pub fn create_default_context(&self) -> Context {
let globals = &self.settings().globals;
- let mut new_bindings: HashMap<IStr, LazyBinding> = HashMap::new();
+ let mut new_bindings: FxHashMap<IStr, LazyVal> =
+ FxHashMap::with_capacity_and_hasher(globals.len(), BuildHasherDefault::default());
for (name, value) in globals.iter() {
- new_bindings.insert(
- name.clone(),
- LazyBinding::Bound(resolved_lazy_val!(value.clone())),
- );
+ new_bindings.insert(name.clone(), resolved_lazy_val!(value.clone()));
}
- Context::new().extend_unbound(new_bindings, None, None, None)
+ Context::new().extend_bound(new_bindings)
}
/// Executes code creating a new stack frame
@@ -345,7 +345,7 @@
|| "during TLA call".to_owned(),
|| {
func.evaluate_map(
- self.create_default_context()?,
+ self.create_default_context(),
&self.settings().tla_vars,
true,
)
@@ -396,7 +396,7 @@
}
/// Evaluates the parsed expression
pub fn evaluate_expr_raw(&self, code: LocExpr) -> Result<Val> {
- self.run_in_state(|| evaluate(self.create_default_context()?, &code))
+ self.run_in_state(|| evaluate(self.create_default_context(), &code))
}
}
@@ -950,6 +950,23 @@
Ok(())
}
+ #[test]
+ fn comp_self() -> crate::error::Result<()> {
+ assert_eval!(
+ r#"
+ std.objectFields({
+ a:{
+ [name]: name for name in std.objectFields(self)
+ },
+ b: 2,
+ c: 3,
+ }.a) == ['a', 'b', 'c']
+ "#
+ );
+
+ Ok(())
+ }
+
struct TestImportResolver(IStr);
impl crate::import::ImportResolver for TestImportResolver {
fn resolve_file(&self, _: &PathBuf, _: &PathBuf) -> crate::error::Result<Rc<PathBuf>> {
crates/jrsonnet-evaluator/src/val.rsdiffbeforeafterboth1use 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 map(self, mapper: impl Fn(Val) -> Result<Val>) -> Result<Self> {287 let mut out = Vec::with_capacity(self.len());288289 for value in self.iter() {290 out.push(mapper(value?)?);291 }292293 Ok(Self::Eager(Rc::new(out)))294 }295296 pub fn filter(self, filter: impl Fn(&Val) -> Result<bool>) -> Result<Self> {297 let mut out = Vec::with_capacity(self.len());298299 for value in self.iter() {300 let value = value?;301 if filter(&value)? {302 out.push(value);303 }304 }305306 Ok(Self::Eager(Rc::new(out)))307 }308309 pub fn ptr_eq(a: &Self, b: &Self) -> bool {310 match (a, b) {311 (Self::Lazy(a), Self::Lazy(b)) => Rc::ptr_eq(a, b),312 (Self::Eager(a), Self::Eager(b)) => Rc::ptr_eq(a, b),313 _ => false,314 }315 }316}317318impl From<Vec<LazyVal>> for ArrValue {319 fn from(v: Vec<LazyVal>) -> Self {320 Self::Lazy(Rc::new(v))321 }322}323324impl From<Vec<Val>> for ArrValue {325 fn from(v: Vec<Val>) -> Self {326 Self::Eager(Rc::new(v))327 }328}329330#[derive(Debug, Clone)]331pub enum Val {332 Bool(bool),333 Null,334 Str(IStr),335 Num(f64),336 Arr(ArrValue),337 Obj(ObjValue),338 Func(Rc<FuncVal>),339}340341macro_rules! matches_unwrap {342 ($e: expr, $p: pat, $r: expr) => {343 match $e {344 $p => $r,345 _ => panic!("no match"),346 }347 };348}349impl Val {350 /// Creates `Val::Num` after checking for numeric overflow.351 /// As numbers are `f64`, we can just check for their finity.352 pub fn new_checked_num(num: f64) -> Result<Self> {353 if num.is_finite() {354 Ok(Self::Num(num))355 } else {356 throw!(RuntimeError("overflow".into()))357 }358 }359360 pub fn assert_type(&self, context: &'static str, val_type: ValType) -> Result<()> {361 let this_type = self.value_type();362 if this_type != val_type {363 throw!(TypeMismatch(context, vec![val_type], this_type))364 } else {365 Ok(())366 }367 }368 pub fn unwrap_num(self) -> Result<f64> {369 Ok(matches_unwrap!(self, Self::Num(v), v))370 }371 pub fn unwrap_func(self) -> Result<Rc<FuncVal>> {372 Ok(matches_unwrap!(self, Self::Func(v), v))373 }374 pub fn try_cast_bool(self, context: &'static str) -> Result<bool> {375 self.assert_type(context, ValType::Bool)?;376 Ok(matches_unwrap!(self, Self::Bool(v), v))377 }378 pub fn try_cast_str(self, context: &'static str) -> Result<IStr> {379 self.assert_type(context, ValType::Str)?;380 Ok(matches_unwrap!(self, Self::Str(v), v))381 }382 pub fn try_cast_num(self, context: &'static str) -> Result<f64> {383 self.assert_type(context, ValType::Num)?;384 self.unwrap_num()385 }386 pub const fn value_type(&self) -> ValType {387 match self {388 Self::Str(..) => ValType::Str,389 Self::Num(..) => ValType::Num,390 Self::Arr(..) => ValType::Arr,391 Self::Obj(..) => ValType::Obj,392 Self::Bool(_) => ValType::Bool,393 Self::Null => ValType::Null,394 Self::Func(..) => ValType::Func,395 }396 }397398 pub fn to_string(&self) -> Result<IStr> {399 Ok(match self {400 Self::Bool(true) => "true".into(),401 Self::Bool(false) => "false".into(),402 Self::Null => "null".into(),403 Self::Str(s) => s.clone(),404 v => manifest_json_ex(405 v,406 &ManifestJsonOptions {407 padding: "",408 mtype: ManifestType::ToString,409 },410 )?411 .into(),412 })413 }414415 /// Expects value to be object, outputs (key, manifested value) pairs416 pub fn manifest_multi(&self, ty: &ManifestFormat) -> Result<Vec<(IStr, IStr)>> {417 let obj = match self {418 Self::Obj(obj) => obj,419 _ => throw!(MultiManifestOutputIsNotAObject),420 };421 let keys = obj.fields();422 let mut out = Vec::with_capacity(keys.len());423 for key in keys {424 let value = obj425 .get(key.clone())?426 .expect("item in object")427 .manifest(ty)?;428 out.push((key, value));429 }430 Ok(out)431 }432433 /// Expects value to be array, outputs manifested values434 pub fn manifest_stream(&self, ty: &ManifestFormat) -> Result<Vec<IStr>> {435 let arr = match self {436 Self::Arr(a) => a,437 _ => throw!(StreamManifestOutputIsNotAArray),438 };439 let mut out = Vec::with_capacity(arr.len());440 for i in arr.iter() {441 out.push(i?.manifest(ty)?);442 }443 Ok(out)444 }445446 pub fn manifest(&self, ty: &ManifestFormat) -> Result<IStr> {447 Ok(match ty {448 ManifestFormat::YamlStream(format) => {449 let arr = match self {450 Self::Arr(a) => a,451 _ => throw!(StreamManifestOutputIsNotAArray),452 };453 let mut out = String::new();454455 match format as &ManifestFormat {456 ManifestFormat::YamlStream(_) => throw!(StreamManifestOutputCannotBeRecursed),457 ManifestFormat::String => throw!(StreamManifestCannotNestString),458 _ => {}459 };460461 if !arr.is_empty() {462 for v in arr.iter() {463 out.push_str("---\n");464 out.push_str(&v?.manifest(format)?);465 out.push('\n');466 }467 out.push_str("...");468 }469470 out.into()471 }472 ManifestFormat::Yaml(padding) => self.to_yaml(*padding)?,473 ManifestFormat::Json(padding) => self.to_json(*padding)?,474 ManifestFormat::ToString => self.to_string()?,475 ManifestFormat::String => match self {476 Self::Str(s) => s.clone(),477 _ => throw!(StringManifestOutputIsNotAString),478 },479 })480 }481482 /// For manifestification483 pub fn to_json(&self, padding: usize) -> Result<IStr> {484 manifest_json_ex(485 self,486 &ManifestJsonOptions {487 padding: &" ".repeat(padding),488 mtype: if padding == 0 {489 ManifestType::Minify490 } else {491 ManifestType::Manifest492 },493 },494 )495 .map(|s| s.into())496 }497498 /// Calls `std.manifestJson`499 #[cfg(feature = "faster")]500 pub fn to_std_json(&self, padding: usize) -> Result<Rc<str>> {501 manifest_json_ex(502 self,503 &ManifestJsonOptions {504 padding: &" ".repeat(padding),505 mtype: ManifestType::Std,506 },507 )508 .map(|s| s.into())509 }510511 /// Calls `std.manifestJson`512 #[cfg(not(feature = "faster"))]513 pub fn to_std_json(&self, padding: usize) -> Result<Rc<str>> {514 with_state(|s| {515 let ctx = s516 .create_default_context()?517 .with_var("__tmp__to_json__".into(), self.clone())?;518 Ok(evaluate(519 ctx,520 &el!(Expr::Apply(521 el!(Expr::Index(522 el!(Expr::Var("std".into())),523 el!(Expr::Str("manifestJsonEx".into()))524 )),525 ArgsDesc(vec![526 Arg(None, el!(Expr::Var("__tmp__to_json__".into()))),527 Arg(None, el!(Expr::Str(" ".repeat(padding).into())))528 ]),529 false530 )),531 )?532 .try_cast_str("to json")?)533 })534 }535 pub fn to_yaml(&self, padding: usize) -> Result<IStr> {536 with_state(|s| {537 let ctx = s538 .create_default_context()?539 .with_var("__tmp__to_json__".into(), self.clone());540 evaluate(541 ctx,542 &el!(Expr::Apply(543 el!(Expr::Index(544 el!(Expr::Var("std".into())),545 el!(Expr::Str("manifestYamlDoc".into()))546 )),547 ArgsDesc(vec![548 Arg(None, el!(Expr::Var("__tmp__to_json__".into()))),549 Arg(550 None,551 el!(Expr::Literal(if padding != 0 {552 LiteralType::True553 } else {554 LiteralType::False555 }))556 )557 ]),558 false559 )),560 )?561 .try_cast_str("to json")562 })563 }564}565566const fn is_function_like(val: &Val) -> bool {567 matches!(val, Val::Func(_))568}569570/// Native implementation of `std.primitiveEquals`571pub fn primitive_equals(val_a: &Val, val_b: &Val) -> Result<bool> {572 Ok(match (val_a, val_b) {573 (Val::Bool(a), Val::Bool(b)) => a == b,574 (Val::Null, Val::Null) => true,575 (Val::Str(a), Val::Str(b)) => a == b,576 (Val::Num(a), Val::Num(b)) => (a - b).abs() <= f64::EPSILON,577 (Val::Arr(_), Val::Arr(_)) => throw!(RuntimeError(578 "primitiveEquals operates on primitive types, got array".into(),579 )),580 (Val::Obj(_), Val::Obj(_)) => throw!(RuntimeError(581 "primitiveEquals operates on primitive types, got object".into(),582 )),583 (a, b) if is_function_like(a) && is_function_like(b) => {584 throw!(RuntimeError("cannot test equality of functions".into()))585 }586 (_, _) => false,587 })588}589590/// Native implementation of `std.equals`591pub fn equals(val_a: &Val, val_b: &Val) -> Result<bool> {592 if val_a.value_type() != val_b.value_type() {593 return Ok(false);594 }595 match (val_a, val_b) {596 (Val::Arr(a), Val::Arr(b)) => {597 if ArrValue::ptr_eq(a, b) {598 return Ok(true);599 }600 if a.len() != b.len() {601 return Ok(false);602 }603 for (a, b) in a.iter().zip(b.iter()) {604 if !equals(&a?, &b?)? {605 return Ok(false);606 }607 }608 Ok(true)609 }610 (Val::Obj(a), Val::Obj(b)) => {611 if ObjValue::ptr_eq(a, b) {612 return Ok(true);613 }614 let fields = a.fields();615 if fields != b.fields() {616 return Ok(false);617 }618 for field in fields {619 if !equals(&a.get(field.clone())?.unwrap(), &b.get(field)?.unwrap())? {620 return Ok(false);621 }622 }623 Ok(true)624 }625 (a, b) => Ok(primitive_equals(a, b)?),626 }627}