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|
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "frontend/DecoratorEmitter.h"
#include "mozilla/Assertions.h"
#include "frontend/BytecodeEmitter.h"
#include "frontend/CallOrNewEmitter.h"
#include "frontend/FunctionEmitter.h"
#include "frontend/IfEmitter.h"
#include "frontend/LexicalScopeEmitter.h"
#include "frontend/NameAnalysisTypes.h"
#include "frontend/ObjectEmitter.h"
#include "frontend/ParseNode.h"
#include "frontend/ParserAtom.h"
#include "frontend/WhileEmitter.h"
#include "vm/ThrowMsgKind.h"
using namespace js;
using namespace js::frontend;
DecoratorEmitter::DecoratorEmitter(BytecodeEmitter* bce) : bce_(bce) {}
// A helper function to read the decorators in reverse order to how they were
// parsed.
bool DecoratorEmitter::reverseDecoratorsToApplicationOrder(
const ListNode* decorators, DecoratorsVector& vec) {
if (!vec.resize(decorators->count())) {
ReportOutOfMemory(bce_->fc);
return false;
}
int end = decorators->count() - 1;
for (ParseNode* decorator : decorators->contents()) {
vec[end--] = decorator;
}
return true;
}
bool DecoratorEmitter::emitApplyDecoratorsToElementDefinition(
DecoratorEmitter::Kind kind, ParseNode* key, ListNode* decorators,
bool isStatic) {
MOZ_ASSERT(kind != Kind::Field && kind != Kind::Accessor);
// The DecoratorEmitter expects the value to be decorated to be at the top
// of the stack prior to this call. It will apply the decorators to this
// value, possibly replacing the value with a value returned by a decorator.
// [stack] ADDINIT VAL
// Decorators Proposal
// https://arai-a.github.io/ecma262-compare/?pr=2417&id=sec-applydecoratorstoelementdefinition.
// Step 1. Let decorators be elementRecord.[[Decorators]].
// Step 2. If decorators is empty, return unused.
// This is checked by the caller.
MOZ_ASSERT(!decorators->empty());
DecoratorsVector dec_vecs;
if (!reverseDecoratorsToApplicationOrder(decorators, dec_vecs)) {
return false;
}
// Step 3. Let key be elementRecord.[[Key]].
// Step 4. Let kind be elementRecord.[[Kind]].
// Step 5. For each element decorator of decorators, do
for (auto decorator : dec_vecs) {
// Step 5.a. Let decorationState be the Record { [[Finished]]: false }.
if (!emitDecorationState()) {
return false;
}
// TODO: See Bug 1869000 to support addInitializer for methods.
if (!bce_->emitDupAt(1)) {
// [stack] ADDINIT VAL ADDINIT
return false;
}
if (!emitCallDecoratorForElement(kind, key, isStatic, decorator)) {
// [stack] ADDINIT RETVAL
return false;
}
// Step 5.i. Set decorationState.[[Finished]] to true.
if (!emitUpdateDecorationState()) {
return false;
}
// We need to check if the decorator returned undefined, a callable value,
// or any other value.
if (!emitCheckIsUndefined()) {
// [stack] ADDINIT VAL RETVAL ISUNDEFINED
return false;
}
InternalIfEmitter ie(bce_);
if (!ie.emitThenElse()) {
// [stack] ADDINIT VAL RETVAL
return false;
}
// Pop the undefined RETVAL from the stack, leaving the original value in
// place.
if (!bce_->emitPopN(1)) {
// [stack] ADDINIT VAL
return false;
}
if (!ie.emitElseIf(mozilla::Nothing())) {
return false;
}
// Step 5.l.i. If IsCallable(newValue) is true, then
if (!bce_->emitCheckIsCallable()) {
// [stack] ADDINIT VAL RETVAL ISCALLABLE_RESULT
return false;
}
if (!ie.emitThenElse()) {
// [stack] ADDINIT VAL RETVAL
return false;
}
// Step 5.l. Else,
// Step 5.l.i.1. Perform MakeMethod(newValue, homeObject).
// MakeMethod occurs in the caller, here we just drop the original method
// which was an argument to the decorator, and leave the new method
// returned by the decorator on the stack.
if (!bce_->emit1(JSOp::Swap)) {
// [stack] ADDINIT RETVAL VAL
return false;
}
if (!bce_->emitPopN(1)) {
// [stack] ADDINIT RETVAL
return false;
}
// Step 5.j.ii. Else if initializer is not undefined, throw a TypeError
// exception.
// Step 5.l.ii. Else if newValue is not undefined, throw a
// TypeError exception.
if (!ie.emitElse()) {
return false;
}
if (!bce_->emitPopN(1)) {
// [stack] ADDINIT RETVAL
return false;
}
if (!bce_->emit2(JSOp::ThrowMsg,
uint8_t(ThrowMsgKind::DecoratorInvalidReturnType))) {
return false;
}
if (!ie.emitEnd()) {
return false;
}
}
return true;
// [stack] ADDINIT RETVAL
}
bool DecoratorEmitter::emitApplyDecoratorsToFieldDefinition(
ParseNode* key, ListNode* decorators, bool isStatic) {
// This method creates a new array to contain initializers added by decorators
// to the stack. start:
// [stack] ADDINIT
// end:
// [stack] ADDINIT ARRAY
// Decorators Proposal
// https://arai-a.github.io/ecma262-compare/?pr=2417&id=sec-applydecoratorstoelementdefinition.
// Step 1. Let decorators be elementRecord.[[Decorators]].
// Step 2. If decorators is empty, return unused.
// This is checked by the caller.
MOZ_ASSERT(!decorators->empty());
// If we're apply decorators to a field, we'll push a new array to the stack
// to hold newly created initializers.
if (!bce_->emitUint32Operand(JSOp::NewArray, 1)) {
// [stack] ADDINIT ARRAY
return false;
}
if (!emitPropertyKey(key)) {
// [stack] ADDINIT ARRAY NAME
return false;
}
if (!bce_->emitUint32Operand(JSOp::InitElemArray, 0)) {
// [stack] ADDINIT ARRAY
return false;
}
if (!bce_->emit1(JSOp::One)) {
// [stack] ADDINIT ARRAY INDEX
return false;
}
DecoratorsVector dec_vecs;
if (!reverseDecoratorsToApplicationOrder(decorators, dec_vecs)) {
return false;
}
// Step 3. Let key be elementRecord.[[Key]].
// Step 4. Let kind be elementRecord.[[Kind]].
// Step 5. For each element decorator of decorators, do
for (auto it = dec_vecs.begin(); it != dec_vecs.end(); it++) {
ParseNode* decorator = *it;
// Step 5.a. Let decorationState be the Record { [[Finished]]: false }.
if (!emitDecorationState()) {
return false;
}
if (!bce_->emitDupAt(2)) {
// [stack] ADDINIT ARRAY INDEX ADDINIT
return false;
}
if (!emitCallDecoratorForElement(Kind::Field, key, isStatic, decorator)) {
// [stack] ADDINIT ARRAY INDEX RETVAL
return false;
}
// Step 5.i. Set decorationState.[[Finished]] to true.
if (!emitUpdateDecorationState()) {
// [stack] ADDINIT ARRAY INDEX RETVAL
return false;
}
// We need to check if the decorator returned undefined, a callable value,
// or any other value.
if (!emitCheckIsUndefined()) {
// [stack] ADDINIT ARRAY INDEX RETVAL ISUNDEFINED
return false;
}
InternalIfEmitter ie(bce_);
if (!ie.emitThenElse()) {
// [stack] ADDINIT ARRAY INDEX RETVAL
return false;
}
// Pop the undefined RETVAL from the stack, leaving the original value in
// place.
if (!bce_->emitPopN(1)) {
// [stack] ADDINIT ARRAY INDEX
return false;
}
if (!ie.emitElseIf(mozilla::Nothing())) {
return false;
}
// Step 5.l.i. If IsCallable(newValue) is true, then
if (!bce_->emitCheckIsCallable()) {
// [stack] ARRAY INDEX RETVAL ISCALLABLE_RESULT
return false;
}
if (!ie.emitThenElse()) {
// [stack] ADDINIT ARRAY INDEX RETVAL
return false;
}
// Step 5.j. If kind is field, then
// Step 5.j.i. If IsCallable(initializer) is true, append initializer to
// elementRecord.[[Initializers]].
if (!bce_->emit1(JSOp::InitElemInc)) {
// [stack] ADDINIT ARRAY INDEX
return false;
}
// Step 5.j.ii. Else if initializer is not undefined, throw a TypeError
// exception.
// Step 5.l.ii. Else if newValue is not undefined, throw a
// TypeError exception.
if (!ie.emitElse()) {
return false;
}
if (!bce_->emitPopN(1)) {
// [stack] ADDINIT ARRAY INDEX
return false;
}
if (!bce_->emit2(JSOp::ThrowMsg,
uint8_t(ThrowMsgKind::DecoratorInvalidReturnType))) {
return false;
}
if (!ie.emitEnd()) {
return false;
}
}
// Pop INDEX
return bce_->emitPopN(1);
// [stack] ADDINIT ARRAY
}
bool DecoratorEmitter::emitApplyDecoratorsToAccessorDefinition(
ParseNode* key, ListNode* decorators, bool isStatic) {
// This method creates a new array to contain initializers added by decorators
// to the stack. start:
// [stack] ADDINIT GETTER SETTER
// end:
// [stack] ADDINIT GETTER SETTER ARRAY
MOZ_ASSERT(key->is<NameNode>());
// Decorators Proposal
// https://arai-a.github.io/ecma262-compare/?pr=2417&id=sec-applydecoratorstoelementdefinition.
// Step 1. Let decorators be elementRecord.[[Decorators]].
// Step 2. If decorators is empty, return unused.
// This is checked by the caller.
MOZ_ASSERT(!decorators->empty());
// If we're applying decorators to a field, we'll push a new array to the
// stack to hold newly created initializers.
if (!bce_->emitUint32Operand(JSOp::NewArray, 1)) {
// [stack] ADDINIT GETTER SETTER ARRAY
return false;
}
if (!bce_->emitGetPrivateName(&key->as<NameNode>())) {
// [stack] ADDINIT GETTER SETTER ARRAY NAME
return false;
}
if (!bce_->emitUint32Operand(JSOp::InitElemArray, 0)) {
// [stack] ADDINIT GETTER SETTER ARRAY
return false;
}
if (!bce_->emit1(JSOp::One)) {
// [stack] ADDINIT GETTER SETTER ARRAY INDEX
return false;
}
DecoratorsVector dec_vecs;
if (!reverseDecoratorsToApplicationOrder(decorators, dec_vecs)) {
return false;
}
// Step 3. Let key be elementRecord.[[Key]].
// Step 4. Let kind be elementRecord.[[Kind]].
// Step 5. For each element decorator of decorators, do
for (auto it = dec_vecs.begin(); it != dec_vecs.end(); it++) {
ParseNode* decorator = *it;
// 5.a. Let decorationState be the Record { [[Finished]]: false }.
if (!emitDecorationState()) {
return false;
}
// Step 5.g.i. Set value to OrdinaryObjectCreate(%Object.prototype%).
ObjectEmitter oe(bce_);
if (!oe.emitObject(2)) {
// [stack] ADDINIT GETTER SETTER ARRAY INDEX VALUE
return false;
}
// Step 5.g.ii. Perform ! CreateDataPropertyOrThrow(value, "get",
// elementRecord.[[Get]]).
if (!oe.prepareForPropValue(decorator->pn_pos.begin,
PropertyEmitter::Kind::Prototype)) {
return false;
}
if (!bce_->emitDupAt(4)) {
// [stack] ADDINIT GETTER SETTER ARRAY INDEX VALUE GETTER
return false;
}
if (!oe.emitInit(frontend::AccessorType::None,
frontend::TaggedParserAtomIndex::WellKnown::get())) {
// [stack] ADDINIT GETTER SETTER ARRAY INDEX VALUE
return false;
}
// Step 5.g.iii. Perform ! CreateDataPropertyOrThrow(value, "set",
// elementRecord.[[Set]]).
if (!oe.prepareForPropValue(decorator->pn_pos.begin,
PropertyEmitter::Kind::Prototype)) {
return false;
}
if (!bce_->emitDupAt(3)) {
// [stack] ADDINIT GETTER SETTER ARRAY INDEX VALUE SETTER
return false;
}
if (!oe.emitInit(frontend::AccessorType::None,
frontend::TaggedParserAtomIndex::WellKnown::set())) {
// [stack] ADDINIT GETTER SETTER ARRAY INDEX VALUE
return false;
}
if (!oe.emitEnd()) {
// [stack] ADDINIT GETTER SETTER ARRAY INDEX VALUE
return false;
}
if (!bce_->emitDupAt(5)) {
// [stack] ADDINIT GETTER SETTER ARRAY INDEX VALUE ADDINIT
return false;
}
// Step 5.j. Let newValue be ? Call(decorator, decoratorReceiver,
// « value, context »).
if (!emitCallDecoratorForElement(Kind::Accessor, key, isStatic,
decorator)) {
// [stack] ADDINIT GETTER SETTER ARRAY INDEX RETVAL
return false;
}
// Step 5.k. Set decorationState.[[Finished]] to true.
if (!emitUpdateDecorationState()) {
// [stack] ADDINIT GETTER SETTER ARRAY INDEX RETVAL
return false;
}
// We need to check if the decorator returned undefined, a callable value,
// or any other value.
if (!emitCheckIsUndefined()) {
// [stack] ADDINIT GETTER SETTER ARRAY INDEX RETVAL ISUNDEFINED
return false;
}
InternalIfEmitter ie(bce_);
if (!ie.emitThenElse()) {
// [stack] ADDINIT GETTER SETTER ARRAY INDEX RETVAL
return false;
}
// Pop the undefined RETVAL from the stack, leaving the original values in
// place.
if (!bce_->emitPopN(1)) {
// [stack] ADDINIT GETTER SETTER ARRAY INDEX
return false;
}
if (!ie.emitElse()) {
return false;
}
// Step 5.k. Else if kind is accessor, then
// Step 5.k.ii. Else if newValue is not undefined, throw a TypeError
// exception. (Reordered)
if (!bce_->emit2(JSOp::CheckIsObj,
uint8_t(CheckIsObjectKind::DecoratorReturn))) {
// [stack] ADDINIT GETTER SETTER ARRAY INDEX RETVAL
return false;
}
// Step 5.k.i. If newValue is an Object, then
// Step 5.k.i.1. Let newGetter be ? Get(newValue, "get").
// Step 5.k.i.2. If IsCallable(newGetter) is true, set
// elementRecord.[[Get]] to newGetter.
// Step 5.k.i.3. Else if newGetter is not undefined, throw a
// TypeError exception.
if (!emitHandleNewValueField(
frontend::TaggedParserAtomIndex::WellKnown::get(), 5)) {
return false;
}
// Step 5.k.i.4. Let newSetter be ? Get(newValue, "set").
// Step 5.k.i.5. If IsCallable(newSetter) is true, set
// elementRecord.[[Set]] to newSetter.
// Step 5.k.i.6. Else if newSetter is not undefined, throw a
// TypeError exception.
if (!emitHandleNewValueField(
frontend::TaggedParserAtomIndex::WellKnown::set(), 4)) {
return false;
}
// Step 5.k.i.7. Let initializer be ? Get(newValue, "init").
// Step 5.k.i.8. If IsCallable(initializer) is true, append
// initializer to elementRecord.[[Initializers]].
// Step 5.k.i.9. Else if initializer is not undefined, throw a
// TypeError exception.
if (!emitHandleNewValueField(
frontend::TaggedParserAtomIndex::WellKnown::init(), 0)) {
return false;
}
// Pop RETVAL from stack
if (!bce_->emitPopN(1)) {
// [stack] ADDINIT GETTER SETTER ARRAY INDEX
return false;
}
if (!ie.emitEnd()) {
return false;
}
}
// Pop INDEX
return bce_->emitPopN(1);
// [stack] ADDINIT GETTER SETTER ARRAY
}
bool DecoratorEmitter::emitApplyDecoratorsToClassDefinition(
ParseNode* key, ListNode* decorators) {
// This function expects a class constructor to already be on the stack. It
// applies each decorator to the class constructor, possibly replacing it with
// the return value of the decorator.
// [stack] CTOR
DecoratorsVector dec_vecs;
if (!reverseDecoratorsToApplicationOrder(decorators, dec_vecs)) {
return false;
}
// https://arai-a.github.io/ecma262-compare/?pr=2417&id=sec-applydecoratorstoclassdefinition
// Step 1. For each element decoratorRecord of decorators, do
for (auto it = dec_vecs.begin(); it != dec_vecs.end(); it++) {
ParseNode* decorator = *it;
// Step 1.a. Let decorator be decoratorRecord.[[Decorator]].
// Step 1.b. Let decoratorReceiver be decoratorRecord.[[Receiver]].
// Step 1.c. Let decorationState be the Record { [[Finished]]: false }.
if (!emitDecorationState()) {
return false;
}
CallOrNewEmitter cone(bce_, JSOp::Call,
CallOrNewEmitter::ArgumentsKind::Other,
ValueUsage::WantValue);
if (!bce_->emitCalleeAndThis(decorator, nullptr, cone)) {
// [stack] VAL? CALLEE THIS
return false;
}
if (!cone.prepareForNonSpreadArguments()) {
return false;
}
// Duplicate the class definition to pass it as an argument
// to the decorator.
if (!bce_->emitDupAt(2)) {
// [stack] CTOR CALLEE THIS CTOR
return false;
}
// Step 1.d. Let context be CreateDecoratorContextObject(class, className,
// extraInitializers, decorationState).
// TODO: See Bug 1868221 for support for addInitializer for class
// decorators.
if (!bce_->emit1(JSOp::Undefined)) {
// [stack] CTOR CALLEE THIS CTOR ADDINIT
return false;
}
if (!emitCreateDecoratorContextObject(Kind::Class, key, false,
decorator->pn_pos)) {
// [stack] CTOR CALLEE THIS CTOR context
return false;
}
// Step 1.e. Let newDef be ? Call(decorator, decoratorReceiver, « classDef,
// context »).
if (!cone.emitEnd(2, decorator->pn_pos.begin)) {
// [stack] CTOR NEWCTOR
return false;
}
// Step 1.f. Set decorationState.[[Finished]] to true.
if (!emitUpdateDecorationState()) {
return false;
}
if (!emitCheckIsUndefined()) {
// [stack] CTOR NEWCTOR ISUNDEFINED
return false;
}
InternalIfEmitter ie(bce_);
if (!ie.emitThenElse()) {
// [stack] CTOR NEWCTOR
return false;
}
// Pop the undefined NEWDEF from the stack, leaving the original value in
// place.
if (!bce_->emitPopN(1)) {
// [stack] CTOR
return false;
}
if (!ie.emitElseIf(mozilla::Nothing())) {
return false;
}
// Step 1.g. If IsCallable(newDef) is true, then
// Step 1.g.i. Set classDef to newDef.
if (!bce_->emitCheckIsCallable()) {
// [stack] CTOR NEWCTOR ISCALLABLE_RESULT
return false;
}
if (!ie.emitThenElse()) {
// [stack] CTOR NEWCTOR
return false;
}
if (!bce_->emit1(JSOp::Swap)) {
// [stack] NEWCTOR CTOR
return false;
}
if (!bce_->emitPopN(1)) {
// [stack] NEWCTOR
return false;
}
// Step 1.h. Else if newDef is not undefined, then
// Step 1.h.i. Throw a TypeError exception.
if (!ie.emitElse()) {
return false;
}
if (!bce_->emitPopN(1)) {
// [stack] CTOR
return false;
}
if (!bce_->emit2(JSOp::ThrowMsg,
uint8_t(ThrowMsgKind::DecoratorInvalidReturnType))) {
return false;
}
if (!ie.emitEnd()) {
return false;
}
}
// Step 2. Return classDef.
return true;
}
bool DecoratorEmitter::emitInitializeFieldOrAccessor() {
// [stack] THIS INITIALIZERS
// Decorators Proposal
// https://arai-a.github.io/ecma262-compare/?pr=2417&id=sec-applydecoratorstoelementdefinition.
//
// Step 1. Assert: elementRecord.[[Kind]] is field or accessor.
// Step 2. If elementRecord.[[BackingStorageKey]] is present, let fieldName be
// elementRecord.[[BackingStorageKey]].
// Step 3. Else, let fieldName be elementRecord.[[Key]].
// We've stored the fieldname in the first element of the initializers array.
if (!bce_->emit1(JSOp::Dup)) {
// [stack] THIS INITIALIZERS INITIALIZERS
return false;
}
if (!bce_->emit1(JSOp::Zero)) {
// [stack] THIS INITIALIZERS INITIALIZERS INDEX
return false;
}
if (!bce_->emit1(JSOp::GetElem)) {
// [stack] THIS INITIALIZERS FIELDNAME
return false;
}
// Retrieve initial value of the field
if (!bce_->emit1(JSOp::Dup)) {
// [stack] THIS INITIALIZERS FIELDNAME FIELDNAME
return false;
}
if (!bce_->emitDupAt(3)) {
// [stack] THIS INITIALIZERS FIELDNAME FIELDNAME THIS
return false;
}
if (!bce_->emit1(JSOp::Swap)) {
// [stack] THIS INITIALIZERS FIELDNAME THIS FIELDNAME
return false;
}
// Step 4. Let initValue be undefined.
// TODO: (See Bug 1817993) At the moment, we're applying the initialization
// logic in two steps. The pre-decorator initialization code runs, stores
// the initial value, and then we retrieve it here and apply the initializers
// added by decorators. We should unify these two steps.
if (!bce_->emit1(JSOp::GetElem)) {
// [stack] THIS INITIALIZERS FIELDNAME VALUE
return false;
}
if (!bce_->emit2(JSOp::Pick, 2)) {
// [stack] THIS FIELDNAME VALUE INITIALIZERS
return false;
}
// Retrieve the length of the initializers array.
if (!bce_->emit1(JSOp::Dup)) {
// [stack] THIS FIELDNAME VALUE INITIALIZERS INITIALIZERS
return false;
}
if (!bce_->emitAtomOp(JSOp::GetProp,
TaggedParserAtomIndex::WellKnown::length())) {
// [stack] THIS FIELDNAME VALUE INITIALIZERS LENGTH
return false;
}
if (!bce_->emit1(JSOp::One)) {
// [stack] THIS FIELDNAME VALUE INITIALIZERS LENGTH INDEX
return false;
}
// Step 5. For each element initializer of elementRecord.[[Initializers]], do
InternalWhileEmitter wh(bce_);
// At this point, we have no context to determine offsets in the
// code for this while statement. Ideally, it would correspond to
// the field we're initializing.
if (!wh.emitCond()) {
// [stack] THIS FIELDNAME VALUE INITIALIZERS LENGTH INDEX
return false;
}
if (!bce_->emit1(JSOp::Dup)) {
// [stack] THIS FIELDNAME VALUE INITIALIZERS LENGTH INDEX INDEX
return false;
}
if (!bce_->emitDupAt(2)) {
// [stack] THIS FIELDNAME VALUE INITIALIZERS LENGTH INDEX INDEX
// LENGTH
return false;
}
if (!bce_->emit1(JSOp::Lt)) {
// [stack] THIS FIELDNAME VALUE INITIALIZERS LENGTH INDEX BOOL
return false;
}
// Step 5.a. Set initValue to ? Call(initializer, receiver, « initValue»).
if (!wh.emitBody()) {
// [stack] THIS FIELDNAME VALUE INITIALIZERS LENGTH INDEX
return false;
}
if (!bce_->emitDupAt(2)) {
// [stack] THIS FIELDNAME VALUE INITIALIZERS LENGTH INDEX
// INITIALIZERS
return false;
}
if (!bce_->emitDupAt(1)) {
// [stack] THIS FIELDNAME VALUE INITIALIZERS LENGTH INDEX
// INITIALIZERS INDEX
return false;
}
if (!bce_->emit1(JSOp::GetElem)) {
// [stack] THIS FIELDNAME VALUE INITIALIZERS LENGTH INDEX FUNC
return false;
}
if (!bce_->emitDupAt(6)) {
// [stack] THIS FIELDNAME VALUE INITIALIZERS LENGTH INDEX FUNC THIS
return false;
}
// Pass value in as argument to the initializer
if (!bce_->emit2(JSOp::Pick, 5)) {
// [stack] THIS FIELDNAME INITIALIZERS LENGTH INDEX FUNC THIS VALUE
return false;
}
// Callee is always internal function.
if (!bce_->emitCall(JSOp::Call, 1)) {
// [stack] THIS FIELDNAME INITIALIZERS LENGTH INDEX RVAL
return false;
}
// Store returned value for next iteration
if (!bce_->emit2(JSOp::Unpick, 3)) {
// [stack] THIS FIELDNAME VALUE INITIALIZERS LENGTH INDEX
return false;
}
if (!bce_->emit1(JSOp::Inc)) {
// [stack] THIS FIELDNAME VALUE INITIALIZERS LENGTH INDEX
return false;
}
if (!wh.emitEnd()) {
// [stack] THIS FIELDNAME VALUE INITIALIZERS LENGTH INDEX
return false;
}
// Step 6. If fieldName is a Private Name, then
// Step 6.a. Perform ? PrivateFieldAdd(receiver, fieldName, initValue).
// Step 7. Else,
// Step 7.a. Assert: IsPropertyKey(fieldName) is true.
// Step 7.b. Perform ? CreateDataPropertyOrThrow(receiver, fieldName,
// initValue).
// TODO: (See Bug 1817993) Because the field already exists, we just store the
// updated value here.
if (!bce_->emitPopN(3)) {
// [stack] THIS FIELDNAME VALUE
return false;
}
if (!bce_->emit1(JSOp::InitElem)) {
// [stack] THIS
return false;
}
// Step 8. Return unused.
return bce_->emitPopN(1);
// [stack]
}
bool DecoratorEmitter::emitCallExtraInitializers(
TaggedParserAtomIndex extraInitializers) {
// Support for static and class extra initializers will be added in
// bug 1868220 and bug 1868221.
MOZ_ASSERT(
extraInitializers ==
TaggedParserAtomIndex::WellKnown::dot_instanceExtraInitializers_());
if (!bce_->emitGetName(extraInitializers)) {
// [stack] ARRAY
return false;
}
if (!bce_->emit1(JSOp::Dup)) {
// [stack] ARRAY ARRAY
return false;
}
if (!bce_->emitAtomOp(JSOp::GetProp,
TaggedParserAtomIndex::WellKnown::length())) {
// [stack] ARRAY LENGTH
return false;
}
if (!bce_->emit1(JSOp::Zero)) {
// [stack] ARRAY LENGTH INDEX
return false;
}
InternalWhileEmitter wh(bce_);
if (!wh.emitCond()) {
// [stack] ARRAY LENGTH INDEX
return false;
}
if (!bce_->emit1(JSOp::Dup)) {
// [stack] ARRAY LENGTH INDEX INDEX
return false;
}
if (!bce_->emitDupAt(2)) {
// [stack] ARRAY LENGTH INDEX INDEX LENGTH
return false;
}
if (!bce_->emit1(JSOp::Lt)) {
// [stack] ARRAY LENGTH INDEX BOOL
return false;
}
if (!wh.emitBody()) {
// [stack] ARRAY LENGTH INDEX
return false;
}
if (!bce_->emitDupAt(2)) {
// [stack] ARRAY LENGTH INDEX ARRAY
return false;
}
if (!bce_->emitDupAt(1)) {
// [stack] ARRAY LENGTH INDEX ARRAY INDEX
return false;
}
// Retrieve initializer
if (!bce_->emit1(JSOp::GetElem)) {
// [stack] ARRAY LENGTH INDEX INITIALIZER
return false;
}
// This is guaranteed to run after super(), so we don't need TDZ checks.
if (!bce_->emitGetName(TaggedParserAtomIndex::WellKnown::dot_this_())) {
// [stack] ARRAY LENGTH INDEX INITIALIZER THIS
return false;
}
// Callee is always internal function.
if (!bce_->emitCall(JSOp::CallIgnoresRv, 0)) {
// [stack] ARRAY LENGTH INDEX RVAL
return false;
}
if (!bce_->emit1(JSOp::Pop)) {
// [stack] ARRAY LENGTH INDEX
return false;
}
if (!bce_->emit1(JSOp::Inc)) {
// [stack] ARRAY LENGTH INDEX
return false;
}
if (!wh.emitEnd()) {
// [stack] ARRAY LENGTH INDEX
return false;
}
return bce_->emitPopN(3);
// [stack]
}
bool DecoratorEmitter::emitPropertyKey(ParseNode* key) {
if (key->is<NameNode>()) {
NameNode* keyAsNameNode = &key->as<NameNode>();
if (keyAsNameNode->privateNameKind() == PrivateNameKind::None) {
if (!bce_->emitStringOp(JSOp::String, keyAsNameNode->atom())) {
// [stack] NAME
return false;
}
} else {
MOZ_ASSERT(keyAsNameNode->privateNameKind() == PrivateNameKind::Field);
if (!bce_->emitGetPrivateName(keyAsNameNode)) {
// [stack] NAME
return false;
}
}
} else if (key->isKind(ParseNodeKind::NumberExpr)) {
if (!bce_->emitNumberOp(key->as<NumericLiteral>().value())) {
// [stack] NAME
return false;
}
} else {
// Otherwise this is a computed property name. BigInt keys are parsed
// as (synthetic) computed property names, too.
MOZ_ASSERT(key->isKind(ParseNodeKind::ComputedName));
if (!bce_->emitComputedPropertyName(&key->as<UnaryNode>())) {
// [stack] NAME
return false;
}
}
return true;
}
bool DecoratorEmitter::emitDecorationState() {
// TODO: See https://bugzilla.mozilla.org/show_bug.cgi?id=1868841
return true;
}
bool DecoratorEmitter::emitUpdateDecorationState() {
// TODO: See https://bugzilla.mozilla.org/show_bug.cgi?id=1868841.
return true;
}
bool DecoratorEmitter::emitCallDecoratorForElement(Kind kind, ParseNode* key,
bool isStatic,
ParseNode* decorator) {
MOZ_ASSERT(kind != Kind::Class);
// Except for fields, this method expects the value to be passed
// to the decorator to be on top of the stack. For methods, getters and
// setters this is the method itself. For accessors it is an object
// containing the getter and setter associated with the accessor.
// This method also expects the addInitializerFunction to be present on
// the top of the stack.
// [stack] VAL? ADDINIT
// Prepare to call decorator
CallOrNewEmitter cone(bce_, JSOp::Call,
CallOrNewEmitter::ArgumentsKind::Other,
ValueUsage::WantValue);
if (!bce_->emitCalleeAndThis(decorator, nullptr, cone)) {
// [stack] VAL? ADDINIT CALLEE THIS
return false;
}
if (!cone.prepareForNonSpreadArguments()) {
return false;
}
if (kind == Kind::Field) {
// Step 5.c. Let value be undefined.
if (!bce_->emit1(JSOp::Undefined)) {
// [stack] ADDINIT CALLEE THIS undefined
return false;
}
} else if (kind == Kind::Getter || kind == Kind::Method ||
kind == Kind::Setter) {
// Step 5.d. If kind is method, set value to elementRecord.[[Value]].
// Step 5.e. Else if kind is getter, set value to elementRecord.[[Get]].
// Step 5.f. Else if kind is setter, set value to elementRecord.[[Set]].
// The DecoratorEmitter expects the method to already be on the stack.
// We dup the value here so we can use it as an argument to the decorator.
if (!bce_->emitDupAt(3)) {
// [stack] VAL ADDINIT CALLEE THIS VAL
return false;
}
} else {
// Step 5.g. Else if kind is accessor, then
// Step 5.g.i. Set value to OrdinaryObjectCreate(%Object.prototype%).
// For accessor decorators, we've already created the value object prior
// to calling this method.
MOZ_ASSERT(kind == Kind::Accessor);
if (!bce_->emitPickN(3)) {
// [stack] ADDINIT CALLEE THIS VAL
return false;
}
}
// Step 5.b. Let context be CreateDecoratorContextObject(kind, key,
// extraInitializers, decorationState, isStatic).
if (!bce_->emitPickN(3)) {
// [stack] VAL? CALLEE THIS VAL ADDINIT
return false;
}
if (!emitCreateDecoratorContextObject(kind, key, isStatic,
decorator->pn_pos)) {
// [stack] VAL? CALLEE THIS VAL context
return false;
}
// Step 5.h. Let newValue be ? Call(decorator, undefined, « value, context»).
return cone.emitEnd(2, decorator->pn_pos.begin);
// [stack] VAL? RETVAL
}
bool DecoratorEmitter::emitCreateDecoratorAccessObject() {
// TODO: See https://bugzilla.mozilla.org/show_bug.cgi?id=1800725.
ObjectEmitter oe(bce_);
if (!oe.emitObject(0)) {
return false;
}
return oe.emitEnd();
}
bool DecoratorEmitter::emitCheckIsUndefined() {
// This emits code to check if the value at the top of the stack is
// undefined. The value is left on the stack.
// [stack] VAL
if (!bce_->emit1(JSOp::Dup)) {
// [stack] VAL VAL
return false;
}
if (!bce_->emit1(JSOp::Undefined)) {
// [stack] VAL VAL undefined
return false;
}
return bce_->emit1(JSOp::Eq);
// [stack] VAL ISUNDEFINED
}
bool DecoratorEmitter::emitCreateAddInitializerFunction(
FunctionNode* addInitializerFunction, TaggedParserAtomIndex initializers) {
// This synthesizes a function corresponding to this JavaScript code:
// function(initializer) {
// if (IsCallable(initializer)) {
// initializers[initializers.length++] = initializer;
// } else {
// throw DecoratorInvalidReturnType;
// }
// }
MOZ_ASSERT(addInitializerFunction);
// TODO: Add support for static and class extra initializers, see bug 1868220
// and bug 1868221.
MOZ_ASSERT(
initializers ==
TaggedParserAtomIndex::WellKnown::dot_instanceExtraInitializers_());
FunctionEmitter fe(bce_, addInitializerFunction->funbox(),
FunctionSyntaxKind::Statement,
FunctionEmitter::IsHoisted::No);
if (!fe.prepareForNonLazy()) {
return false;
}
BytecodeEmitter bce2(bce_, addInitializerFunction->funbox());
if (!bce2.init()) {
return false;
}
FunctionScriptEmitter fse(&bce2, addInitializerFunction->funbox(),
mozilla::Nothing(), mozilla::Nothing());
if (!fse.prepareForParameters()) {
return false;
}
if (!bce2.emitFunctionFormalParameters(addInitializerFunction->body())) {
return false;
}
if (!fse.prepareForBody()) {
return false;
}
LexicalScopeNode* lexicalScope = addInitializerFunction->body()->body();
LexicalScopeEmitter lse(&bce2);
if (lexicalScope->isEmptyScope()) {
if (!lse.emitEmptyScope()) {
return false;
}
} else {
if (!lse.emitScope(lexicalScope->kind(), lexicalScope->scopeBindings())) {
return false;
}
}
NameLocation loc =
bce2.lookupName(TaggedParserAtomIndex::WellKnown::initializer());
MOZ_ASSERT(loc.kind() == NameLocation::Kind::ArgumentSlot);
if (!bce2.emitArgOp(JSOp::GetArg, loc.argumentSlot())) {
// [stack] INITIALIZER
return false;
}
if (!bce2.emitCheckIsCallable()) {
// [stack] INITIALIZER ISCALLABLE
return false;
}
InternalIfEmitter ifCallable(&bce2);
if (!ifCallable.emitThenElse()) {
// [stack] INITIALIZER
return false;
}
loc = bce2.lookupName(initializers);
MOZ_ASSERT(loc.kind() == NameLocation::Kind::EnvironmentCoordinate);
if (!bce2.emitEnvCoordOp(JSOp::GetAliasedVar, loc.environmentCoordinate())) {
// [stack] INITIALIZER ARRAY
return false;
}
if (!bce2.emitEnvCoordOp(JSOp::CheckAliasedLexical,
loc.environmentCoordinate())) {
// [stack] INITIALIZER ARRAY
return false;
}
if (!bce2.emit1(JSOp::Dup)) {
// [stack] INITIALIZER ARRAY ARRAY
return false;
}
if (!bce2.emitAtomOp(JSOp::GetProp,
TaggedParserAtomIndex::WellKnown::length())) {
// [stack] INITIALIZER ARRAY LENGTH
return false;
}
if (!bce2.emitPickN(2)) {
// [stack] ARRAY LENGTH INITIALIZER
return false;
}
if (!bce2.emit1(JSOp::InitElemInc)) {
// [stack] ARRAY LENGTH
return false;
}
if (!bce2.emitPopN(2)) {
// [stack]
return false;
}
if (!ifCallable.emitElse()) {
// [stack] INITIALIZER
return false;
}
if (!bce2.emitPopN(1)) {
// [stack]
return false;
}
if (!bce2.emit2(JSOp::ThrowMsg,
uint8_t(ThrowMsgKind::DecoratorInvalidReturnType))) {
return false;
}
if (!ifCallable.emitEnd()) {
return false;
}
if (!lse.emitEnd()) {
return false;
}
if (!fse.emitEndBody()) {
return false;
}
if (!fse.intoStencil()) {
return false;
}
return fe.emitNonLazyEnd();
// [stack] ADDINIT
}
bool DecoratorEmitter::emitCreateDecoratorContextObject(Kind kind,
ParseNode* key,
bool isStatic,
TokenPos pos) {
// We expect the addInitializerFunction to already be on the stack.
// [stack] ADDINIT
// Step 1. Let contextObj be OrdinaryObjectCreate(%Object.prototype%).
ObjectEmitter oe(bce_);
size_t propertyCount = kind == Kind::Class ? 3 : 6;
if (!oe.emitObject(propertyCount)) {
// [stack] ADDINIT context
return false;
}
if (!oe.prepareForPropValue(pos.begin, PropertyEmitter::Kind::Prototype)) {
return false;
}
TaggedParserAtomIndex kindStr;
switch (kind) {
case Kind::Method:
// Step 2. If kind is method, let kindStr be "method".
kindStr = frontend::TaggedParserAtomIndex::WellKnown::method();
break;
case Kind::Getter:
// Step 3. Else if kind is getter, let kindStr be "getter".
kindStr = frontend::TaggedParserAtomIndex::WellKnown::getter();
break;
case Kind::Setter:
// Step 4. Else if kind is setter, let kindStr be "setter".
kindStr = frontend::TaggedParserAtomIndex::WellKnown::setter();
break;
case Kind::Accessor:
// Step 5. Else if kind is accessor, let kindStr be "accessor".
kindStr = frontend::TaggedParserAtomIndex::WellKnown::accessor();
break;
case Kind::Field:
// Step 6. Else if kind is field, let kindStr be "field".
kindStr = frontend::TaggedParserAtomIndex::WellKnown::field();
break;
case Kind::Class:
// Step 7. Else,
// Step 7.a. Assert: kind is class.
// Step 7.b. Let kindStr be "class".
kindStr = frontend::TaggedParserAtomIndex::WellKnown::class_();
break;
default:
MOZ_ASSERT_UNREACHABLE("Unknown kind");
break;
}
if (!bce_->emitStringOp(JSOp::String, kindStr)) {
// [stack] ADDINIT context kindStr
return false;
}
// Step 8. Perform ! CreateDataPropertyOrThrow(contextObj, "kind", kindStr).
if (!oe.emitInit(frontend::AccessorType::None,
frontend::TaggedParserAtomIndex::WellKnown::kind())) {
// [stack] ADDINIT context
return false;
}
// Step 9. If kind is not class, then
if (kind != Kind::Class) {
MOZ_ASSERT(key != nullptr, "Expect key to be present except for classes");
// Step 9.a. Perform ! CreateDataPropertyOrThrow(contextObj, "access",
// CreateDecoratorAccessObject(kind, name)).
if (!oe.prepareForPropValue(pos.begin, PropertyEmitter::Kind::Prototype)) {
return false;
}
if (!emitCreateDecoratorAccessObject()) {
return false;
}
if (!oe.emitInit(frontend::AccessorType::None,
frontend::TaggedParserAtomIndex::WellKnown::access())) {
// [stack] ADDINIT context
return false;
}
// Step 9.b. If isStatic is present, perform
// ! CreateDataPropertyOrThrow(contextObj, "static", isStatic).
if (!oe.prepareForPropValue(pos.begin, PropertyEmitter::Kind::Prototype)) {
return false;
}
if (!bce_->emit1(isStatic ? JSOp::True : JSOp::False)) {
// [stack] ADDINIT context isStatic
return false;
}
if (!oe.emitInit(frontend::AccessorType::None,
frontend::TaggedParserAtomIndex::WellKnown::static_())) {
// [stack] ADDINIT context
return false;
}
// Step 9.c. If name is a Private Name, then
// Step 9.c.i. Perform ! CreateDataPropertyOrThrow(contextObj, "private",
// true).
// Step 9.d. Else, Step 9.d.i. Perform
// ! CreateDataPropertyOrThrow(contextObj, "private", false).
if (!oe.prepareForPropValue(pos.begin, PropertyEmitter::Kind::Prototype)) {
return false;
}
if (!bce_->emit1(key->isKind(ParseNodeKind::PrivateName) ? JSOp::True
: JSOp::False)) {
// [stack] ADDINIT context private
return false;
}
if (!oe.emitInit(frontend::AccessorType::None,
frontend::TaggedParserAtomIndex::WellKnown::private_())) {
// [stack] ADDINIT context
return false;
}
// Step 9.c.ii. Perform ! CreateDataPropertyOrThrow(contextObj,
// "name", name.[[Description]]).
//
// Step 9.d.ii. Perform ! CreateDataPropertyOrThrow(contextObj,
// "name", name.[[Description]]).)
if (!oe.prepareForPropValue(pos.begin, PropertyEmitter::Kind::Prototype)) {
return false;
}
if (key->is<NameNode>()) {
if (!bce_->emitStringOp(JSOp::String, key->as<NameNode>().atom())) {
return false;
}
} else {
if (!emitPropertyKey(key)) {
return false;
}
}
if (!oe.emitInit(frontend::AccessorType::None,
frontend::TaggedParserAtomIndex::WellKnown::name())) {
// [stack] ADDINIT context
return false;
}
} else {
// Step 10. Else,
// Step 10.a. Perform ! CreateDataPropertyOrThrow(contextObj, "name", name).
if (!oe.prepareForPropValue(pos.begin, PropertyEmitter::Kind::Prototype)) {
return false;
}
if (key != nullptr) {
if (!bce_->emitStringOp(JSOp::String, key->as<NameNode>().atom())) {
return false;
}
} else {
if (!bce_->emit1(JSOp::Undefined)) {
return false;
}
}
if (!oe.emitInit(frontend::AccessorType::None,
frontend::TaggedParserAtomIndex::WellKnown::name())) {
// [stack] ADDINIT context
return false;
}
}
// Step 11. Let addInitializer be CreateAddInitializerFunction(initializers,
// decorationState).
if (!oe.prepareForPropValue(pos.begin, PropertyEmitter::Kind::Prototype)) {
return false;
}
if (!bce_->emitPickN(1)) {
// [stack] context ADDINIT
return false;
}
// Step 12. Perform ! CreateDataPropertyOrThrow(contextObj, "addInitializer",
// addInitializer).
if (!oe.emitInit(
frontend::AccessorType::None,
frontend::TaggedParserAtomIndex::WellKnown::addInitializer())) {
// [stack] context
return false;
}
// Step 13. Return contextObj.
return oe.emitEnd();
}
bool DecoratorEmitter::emitHandleNewValueField(TaggedParserAtomIndex atom,
int8_t offset) {
// This function handles retrieving the new value from a field in the RETVAL
// object returned by the decorator. The `atom` is the atom of the field to be
// examined. The offset is the offset of the existing value on the stack,
// which will be replaced by the new value. If the offset is zero, we're
// handling the initializer which will be added to the array of initializers
// already on the stack.
// [stack] GETTER SETTER ARRAY INDEX RETVAL
if (!bce_->emit1(JSOp::Dup)) {
// [stack] GETTER SETTER ARRAY INDEX RETVAL RETVAL
return false;
}
if (!bce_->emitStringOp(JSOp::String, atom)) {
// [stack] GETTER SETTER ARRAY INDEX RETVAL RETVAL ATOM
return false;
}
if (!bce_->emit1(JSOp::GetElem)) {
// [stack] GETTER SETTER ARRAY INDEX RETVAL
// NEW_VALUE
return false;
}
if (!emitCheckIsUndefined()) {
// [stack] GETTER SETTER ARRAY INDEX RETVAL
// NEW_VALUE ISUNDEFINED
return false;
}
InternalIfEmitter ifCallable(bce_);
if (!ifCallable.emitThenElse()) {
// [stack] GETTER SETTER ARRAY INDEX RETVAL
// NEW_VALUE
return false;
}
// Pop the undefined getter or setter from the stack, leaving the original
// values in place.
if (!bce_->emitPopN(1)) {
// [stack] GETTER SETTER ARRAY INDEX RETVAL
return false;
}
if (!ifCallable.emitElseIf(mozilla::Nothing())) {
return false;
}
if (!bce_->emitCheckIsCallable()) {
// [stack] GETTER SETTER ARRAY INDEX RETVAL
// NEW_VALUE ISCALLABLE_RESULT
return false;
}
if (!ifCallable.emitThenElse()) {
// [stack] GETTER SETTER ARRAY INDEX RETVAL
// NEW_VALUE
return false;
}
if (offset != 0) {
if (!bce_->emitPickN(offset)) {
// [stack] GETTER? SETTER? ARRAY INDEX RETVAL
// NEW_VALUE GETTER_OR_SETTER
return false;
}
if (!bce_->emitPopN(1)) {
// [stack] GETTER? SETTER? ARRAY INDEX RETVAL
// NEW_VALUE
return false;
}
if (!bce_->emitUnpickN(offset - 1)) {
// [stack] GETTER SETTER ARRAY INDEX RETVAL
return false;
}
} else {
// Offset == 0 means we're retrieving the initializer, this is
// stored in the initializer array on the stack.
if (!bce_->emit1(JSOp::Swap)) {
// [stack] GETTER SETTER ARRAY INDEX NEW_VALUE RETVAL
return false;
}
if (!bce_->emitUnpickN(3)) {
// [stack] GETTER SETTER RETVAL ARRAY INDEX NEW_VALUE
return false;
}
if (!bce_->emit1(JSOp::InitElemInc)) {
// [stack] GETTER SETTER RETVAL ARRAY INDEX
return false;
}
if (!bce_->emitPickN(2)) {
// [stack] GETTER SETTER ARRAY INDEX RETVAL
return false;
}
}
if (!ifCallable.emitElse()) {
return false;
}
if (!bce_->emitPopN(1)) {
// [stack] GETTER SETTER ARRAY INDEX
return false;
}
if (!bce_->emit2(JSOp::ThrowMsg,
uint8_t(ThrowMsgKind::DecoratorInvalidReturnType))) {
return false;
}
return ifCallable.emitEnd();
}
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