/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- * vim: set ts=8 sts=2 et sw=2 tw=80: * 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/ForOfEmitter.h" #include "frontend/BytecodeEmitter.h" #include "frontend/EmitterScope.h" #include "frontend/ParserAtom.h" // TaggedParserAtomIndex #include "vm/Opcodes.h" #include "vm/StencilEnums.h" // TryNoteKind using namespace js; using namespace js::frontend; using mozilla::Nothing; ForOfEmitter::ForOfEmitter(BytecodeEmitter* bce, const EmitterScope* headLexicalEmitterScope, SelfHostedIter selfHostedIter, IteratorKind iterKind) : bce_(bce), selfHostedIter_(selfHostedIter), iterKind_(iterKind), headLexicalEmitterScope_(headLexicalEmitterScope) {} bool ForOfEmitter::emitIterated() { MOZ_ASSERT(state_ == State::Start); // Evaluate the expression being iterated. The forHeadExpr should use a // distinct TDZCheckCache to evaluate since (abstractly) it runs in its // own LexicalEnvironment. tdzCacheForIteratedValue_.emplace(bce_); #ifdef DEBUG state_ = State::Iterated; #endif return true; } bool ForOfEmitter::emitInitialize(uint32_t forPos, bool isIteratorMethodOnStack) { MOZ_ASSERT(state_ == State::Iterated); tdzCacheForIteratedValue_.reset(); // [stack] # if isIteratorMethodOnStack // [stack] ITERABLE ITERFN SYNC_ITERFN? // [stack] # else isIteratorMethodOnStack // [stack] ITERABLE if (iterKind_ == IteratorKind::Async) { if (!bce_->emitAsyncIterator(selfHostedIter_, isIteratorMethodOnStack)) { // [stack] NEXT ITER return false; } } else { if (!bce_->emitIterator(selfHostedIter_, isIteratorMethodOnStack)) { // [stack] NEXT ITER return false; } } // For-of loops have the iterator next method and the iterator itself on the // stack. int32_t iterDepth = bce_->bytecodeSection().stackDepth(); loopInfo_.emplace(bce_, iterDepth, selfHostedIter_, iterKind_); if (!loopInfo_->emitLoopHead(bce_, Nothing())) { // [stack] NEXT ITER return false; } // If the loop had an escaping lexical declaration, replace the current // environment with an dead zoned one to implement TDZ semantics. if (headLexicalEmitterScope_) { // The environment chain only includes an environment for the for-of // loop head *if* a scope binding is captured, thereby requiring // recreation each iteration. If a lexical scope exists for the head, // it must be the innermost one. If that scope has closed-over // bindings inducing an environment, recreate the current environment. MOZ_ASSERT(headLexicalEmitterScope_ == bce_->innermostEmitterScope()); MOZ_ASSERT(headLexicalEmitterScope_->scope(bce_).kind() == ScopeKind::Lexical); if (headLexicalEmitterScope_->hasEnvironment()) { if (!bce_->emitInternedScopeOp(headLexicalEmitterScope_->index(), JSOp::RecreateLexicalEnv)) { // [stack] NEXT ITER return false; } } // For uncaptured bindings, put them back in TDZ. if (!headLexicalEmitterScope_->deadZoneFrameSlots(bce_)) { return false; } } #ifdef DEBUG loopDepth_ = bce_->bytecodeSection().stackDepth(); #endif // Make sure this code is attributed to the "for". if (!bce_->updateSourceCoordNotes(forPos)) { return false; } if (!bce_->emit1(JSOp::Dup2)) { // [stack] NEXT ITER NEXT ITER return false; } if (!bce_->emitIteratorNext(mozilla::Some(forPos), iterKind_, selfHostedIter_)) { // [stack] NEXT ITER RESULT return false; } if (!bce_->emit1(JSOp::Dup)) { // [stack] NEXT ITER RESULT RESULT return false; } if (!bce_->emitAtomOp(JSOp::GetProp, TaggedParserAtomIndex::WellKnown::done())) { // [stack] NEXT ITER RESULT DONE return false; } // if (done) break; MOZ_ASSERT(bce_->innermostNestableControl == loopInfo_.ptr(), "must be at the top-level of the loop"); if (!bce_->emitJump(JSOp::JumpIfTrue, &loopInfo_->breaks)) { // [stack] NEXT ITER RESULT return false; } // Emit code to assign result.value to the iteration variable. // // Note that ES 13.7.5.13, step 5.c says getting result.value does not // call IteratorClose, so start TryNoteKind::ForOfIterClose after the GetProp. if (!bce_->emitAtomOp(JSOp::GetProp, TaggedParserAtomIndex::WellKnown::value())) { // [stack] NEXT ITER VALUE return false; } if (!loopInfo_->emitBeginCodeNeedingIteratorClose(bce_)) { return false; } #ifdef DEBUG state_ = State::Initialize; #endif return true; } bool ForOfEmitter::emitBody() { MOZ_ASSERT(state_ == State::Initialize); MOZ_ASSERT(bce_->bytecodeSection().stackDepth() == loopDepth_ + 1, "the stack must be balanced around the initializing " "operation"); #ifdef DEBUG state_ = State::Body; #endif return true; } bool ForOfEmitter::emitEnd(uint32_t iteratedPos) { MOZ_ASSERT(state_ == State::Body); MOZ_ASSERT(bce_->bytecodeSection().stackDepth() == loopDepth_ + 1, "the stack must be balanced around the for-of body"); if (!loopInfo_->emitEndCodeNeedingIteratorClose(bce_)) { // [stack] NEXT ITER VALUE return false; } if (!loopInfo_->emitContinueTarget(bce_)) { // [stack] NEXT ITER VALUE return false; } // We use the iterated value's position to attribute the backedge, // which corresponds to the iteration protocol. // This is a bit misleading for 2nd and later iterations and might need // some fix (bug 1482003). if (!bce_->updateSourceCoordNotes(iteratedPos)) { return false; } if (!bce_->emit1(JSOp::Pop)) { // [stack] NEXT ITER return false; } if (!loopInfo_->emitLoopEnd(bce_, JSOp::Goto, TryNoteKind::ForOf)) { // [stack] NEXT ITER return false; } // All jumps/breaks to this point still have an extra value on the stack. MOZ_ASSERT(bce_->bytecodeSection().stackDepth() == loopDepth_); bce_->bytecodeSection().setStackDepth(bce_->bytecodeSection().stackDepth() + 1); if (!bce_->emitPopN(3)) { // [stack] return false; } loopInfo_.reset(); #ifdef DEBUG state_ = State::End; #endif return true; }