/* -*- 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 "jit/TrialInlining.h" #include "jit/BaselineCacheIRCompiler.h" #include "jit/BaselineFrame.h" #include "jit/BaselineIC.h" #include "jit/CacheIRCloner.h" #include "jit/CacheIRHealth.h" #include "jit/CacheIRWriter.h" #include "jit/Ion.h" // TooManyFormalArguments #include "vm/BytecodeLocation-inl.h" using mozilla::Maybe; namespace js { namespace jit { bool DoTrialInlining(JSContext* cx, BaselineFrame* frame) { RootedScript script(cx, frame->script()); ICScript* icScript = frame->icScript(); bool isRecursive = icScript->depth() > 0; #ifdef JS_CACHEIR_SPEW if (cx->spewer().enabled(cx, script, SpewChannel::CacheIRHealthReport)) { for (uint32_t i = 0; i < icScript->numICEntries(); i++) { ICEntry& entry = icScript->icEntry(i); ICFallbackStub* fallbackStub = icScript->fallbackStub(i); // If the IC is megamorphic or generic, then we have already // spewed the IC report on transition. if (!(uint8_t(fallbackStub->state().mode()) > 0)) { jit::ICStub* stub = entry.firstStub(); bool sawNonZeroCount = false; while (!stub->isFallback()) { uint32_t count = stub->enteredCount(); if (count > 0 && sawNonZeroCount) { CacheIRHealth cih; cih.healthReportForIC(cx, &entry, fallbackStub, script, SpewContext::TrialInlining); break; } if (count > 0 && !sawNonZeroCount) { sawNonZeroCount = true; } stub = stub->toCacheIRStub()->next(); } } } } #endif if (!script->canIonCompile()) { return true; } // Baseline shouldn't attempt trial inlining in scripts that are too large. MOZ_ASSERT_IF(JitOptions.limitScriptSize, script->length() <= JitOptions.ionMaxScriptSize); const uint32_t MAX_INLINING_DEPTH = 4; if (icScript->depth() > MAX_INLINING_DEPTH) { return true; } InliningRoot* root = isRecursive ? icScript->inliningRoot() : script->jitScript()->inliningRoot(); if (JitSpewEnabled(JitSpew_WarpTrialInlining)) { // Eagerly create the inlining root when it's used in the spew output. if (!root) { MOZ_ASSERT(!isRecursive); root = script->jitScript()->getOrCreateInliningRoot(cx, script); if (!root) { return false; } } } JitSpew(JitSpew_WarpTrialInlining, "Trial inlining for %s script %s:%u:%u (%p) (inliningRoot=%p)", (isRecursive ? "inner" : "outer"), script->filename(), script->lineno(), script->column(), frame->script(), root); JitSpewIndent spewIndent(JitSpew_WarpTrialInlining); TrialInliner inliner(cx, script, icScript); return inliner.tryInlining(); } void TrialInliner::cloneSharedPrefix(ICCacheIRStub* stub, const uint8_t* endOfPrefix, CacheIRWriter& writer) { CacheIRReader reader(stub->stubInfo()); CacheIRCloner cloner(stub); while (reader.currentPosition() < endOfPrefix) { CacheOp op = reader.readOp(); cloner.cloneOp(op, reader, writer); } } bool TrialInliner::replaceICStub(ICEntry& entry, ICFallbackStub* fallback, CacheIRWriter& writer, CacheKind kind) { MOZ_ASSERT(fallback->trialInliningState() == TrialInliningState::Candidate); fallback->discardStubs(cx(), &entry); // Note: AttachBaselineCacheIRStub never throws an exception. ICAttachResult result = AttachBaselineCacheIRStub( cx(), writer, kind, script_, icScript_, fallback, "TrialInline"); if (result == ICAttachResult::Attached) { MOZ_ASSERT(fallback->trialInliningState() == TrialInliningState::Inlined); return true; } MOZ_ASSERT(fallback->trialInliningState() == TrialInliningState::Candidate); icScript_->removeInlinedChild(fallback->pcOffset()); if (result == ICAttachResult::OOM) { ReportOutOfMemory(cx()); return false; } // We failed to attach a new IC stub due to CacheIR size limits. Disable trial // inlining for this location and return true. MOZ_ASSERT(result == ICAttachResult::TooLarge); fallback->setTrialInliningState(TrialInliningState::Failure); return true; } ICCacheIRStub* TrialInliner::maybeSingleStub(const ICEntry& entry) { // Look for a single non-fallback stub followed by stubs with entered-count 0. // Allow one optimized stub before the fallback stub to support the // CallIRGenerator::emitCalleeGuard optimization where we first try a // GuardSpecificFunction guard before falling back to GuardFunctionHasScript. ICStub* stub = entry.firstStub(); if (stub->isFallback()) { return nullptr; } ICStub* next = stub->toCacheIRStub()->next(); if (next->enteredCount() != 0) { return nullptr; } ICFallbackStub* fallback = nullptr; if (next->isFallback()) { fallback = next->toFallbackStub(); } else { ICStub* nextNext = next->toCacheIRStub()->next(); if (!nextNext->isFallback() || nextNext->enteredCount() != 0) { return nullptr; } fallback = nextNext->toFallbackStub(); } if (fallback->trialInliningState() != TrialInliningState::Candidate) { return nullptr; } return stub->toCacheIRStub(); } Maybe FindInlinableOpData(ICCacheIRStub* stub, BytecodeLocation loc) { if (loc.isInvokeOp()) { Maybe call = FindInlinableCallData(stub); if (call.isSome()) { return call; } } if (loc.isGetPropOp() || loc.isGetElemOp()) { Maybe getter = FindInlinableGetterData(stub); if (getter.isSome()) { return getter; } } if (loc.isSetPropOp()) { Maybe setter = FindInlinableSetterData(stub); if (setter.isSome()) { return setter; } } return mozilla::Nothing(); } Maybe FindInlinableCallData(ICCacheIRStub* stub) { Maybe data; const CacheIRStubInfo* stubInfo = stub->stubInfo(); const uint8_t* stubData = stub->stubDataStart(); ObjOperandId calleeGuardOperand; CallFlags flags; JSFunction* target = nullptr; CacheIRReader reader(stubInfo); while (reader.more()) { const uint8_t* opStart = reader.currentPosition(); CacheOp op = reader.readOp(); CacheIROpInfo opInfo = CacheIROpInfos[size_t(op)]; uint32_t argLength = opInfo.argLength; mozilla::DebugOnly argStart = reader.currentPosition(); switch (op) { case CacheOp::GuardSpecificFunction: { // If we see a guard, remember which operand we are guarding. MOZ_ASSERT(data.isNothing()); calleeGuardOperand = reader.objOperandId(); uint32_t targetOffset = reader.stubOffset(); (void)reader.stubOffset(); // nargsAndFlags uintptr_t rawTarget = stubInfo->getStubRawWord(stubData, targetOffset); target = reinterpret_cast(rawTarget); break; } case CacheOp::GuardFunctionScript: { MOZ_ASSERT(data.isNothing()); calleeGuardOperand = reader.objOperandId(); uint32_t targetOffset = reader.stubOffset(); uintptr_t rawTarget = stubInfo->getStubRawWord(stubData, targetOffset); target = reinterpret_cast(rawTarget)->function(); (void)reader.stubOffset(); // nargsAndFlags break; } case CacheOp::CallScriptedFunction: { // If we see a call, check if `callee` is the previously guarded // operand. If it is, we know the target and can inline. ObjOperandId calleeOperand = reader.objOperandId(); mozilla::DebugOnly argcId = reader.int32OperandId(); flags = reader.callFlags(); mozilla::DebugOnly argcFixed = reader.uint32Immediate(); MOZ_ASSERT(argcFixed <= MaxUnrolledArgCopy); if (calleeOperand == calleeGuardOperand) { MOZ_ASSERT(static_cast(argcId).id() == 0); MOZ_ASSERT(data.isNothing()); data.emplace(); data->endOfSharedPrefix = opStart; } break; } case CacheOp::CallInlinedFunction: { ObjOperandId calleeOperand = reader.objOperandId(); mozilla::DebugOnly argcId = reader.int32OperandId(); uint32_t icScriptOffset = reader.stubOffset(); flags = reader.callFlags(); mozilla::DebugOnly argcFixed = reader.uint32Immediate(); MOZ_ASSERT(argcFixed <= MaxUnrolledArgCopy); if (calleeOperand == calleeGuardOperand) { MOZ_ASSERT(static_cast(argcId).id() == 0); MOZ_ASSERT(data.isNothing()); data.emplace(); data->endOfSharedPrefix = opStart; uintptr_t rawICScript = stubInfo->getStubRawWord(stubData, icScriptOffset); data->icScript = reinterpret_cast(rawICScript); } break; } default: if (!opInfo.transpile) { return mozilla::Nothing(); } if (data.isSome()) { MOZ_ASSERT(op == CacheOp::ReturnFromIC); } reader.skip(argLength); break; } MOZ_ASSERT(argStart + argLength == reader.currentPosition()); } if (data.isSome()) { // Warp only supports inlining Standard and FunCall calls. if (flags.getArgFormat() != CallFlags::Standard && flags.getArgFormat() != CallFlags::FunCall) { return mozilla::Nothing(); } data->calleeOperand = calleeGuardOperand; data->callFlags = flags; data->target = target; } return data; } Maybe FindInlinableGetterData(ICCacheIRStub* stub) { Maybe data; const CacheIRStubInfo* stubInfo = stub->stubInfo(); const uint8_t* stubData = stub->stubDataStart(); CacheIRReader reader(stubInfo); while (reader.more()) { const uint8_t* opStart = reader.currentPosition(); CacheOp op = reader.readOp(); CacheIROpInfo opInfo = CacheIROpInfos[size_t(op)]; uint32_t argLength = opInfo.argLength; mozilla::DebugOnly argStart = reader.currentPosition(); switch (op) { case CacheOp::CallScriptedGetterResult: { data.emplace(); data->receiverOperand = reader.valOperandId(); uint32_t getterOffset = reader.stubOffset(); uintptr_t rawTarget = stubInfo->getStubRawWord(stubData, getterOffset); data->target = reinterpret_cast(rawTarget); data->sameRealm = reader.readBool(); (void)reader.stubOffset(); // nargsAndFlags data->endOfSharedPrefix = opStart; break; } case CacheOp::CallInlinedGetterResult: { data.emplace(); data->receiverOperand = reader.valOperandId(); uint32_t getterOffset = reader.stubOffset(); uintptr_t rawTarget = stubInfo->getStubRawWord(stubData, getterOffset); data->target = reinterpret_cast(rawTarget); uint32_t icScriptOffset = reader.stubOffset(); uintptr_t rawICScript = stubInfo->getStubRawWord(stubData, icScriptOffset); data->icScript = reinterpret_cast(rawICScript); data->sameRealm = reader.readBool(); (void)reader.stubOffset(); // nargsAndFlags data->endOfSharedPrefix = opStart; break; } default: if (!opInfo.transpile) { return mozilla::Nothing(); } if (data.isSome()) { MOZ_ASSERT(op == CacheOp::ReturnFromIC); } reader.skip(argLength); break; } MOZ_ASSERT(argStart + argLength == reader.currentPosition()); } return data; } Maybe FindInlinableSetterData(ICCacheIRStub* stub) { Maybe data; const CacheIRStubInfo* stubInfo = stub->stubInfo(); const uint8_t* stubData = stub->stubDataStart(); CacheIRReader reader(stubInfo); while (reader.more()) { const uint8_t* opStart = reader.currentPosition(); CacheOp op = reader.readOp(); CacheIROpInfo opInfo = CacheIROpInfos[size_t(op)]; uint32_t argLength = opInfo.argLength; mozilla::DebugOnly argStart = reader.currentPosition(); switch (op) { case CacheOp::CallScriptedSetter: { data.emplace(); data->receiverOperand = reader.objOperandId(); uint32_t setterOffset = reader.stubOffset(); uintptr_t rawTarget = stubInfo->getStubRawWord(stubData, setterOffset); data->target = reinterpret_cast(rawTarget); data->rhsOperand = reader.valOperandId(); data->sameRealm = reader.readBool(); (void)reader.stubOffset(); // nargsAndFlags data->endOfSharedPrefix = opStart; break; } case CacheOp::CallInlinedSetter: { data.emplace(); data->receiverOperand = reader.objOperandId(); uint32_t setterOffset = reader.stubOffset(); uintptr_t rawTarget = stubInfo->getStubRawWord(stubData, setterOffset); data->target = reinterpret_cast(rawTarget); data->rhsOperand = reader.valOperandId(); uint32_t icScriptOffset = reader.stubOffset(); uintptr_t rawICScript = stubInfo->getStubRawWord(stubData, icScriptOffset); data->icScript = reinterpret_cast(rawICScript); data->sameRealm = reader.readBool(); (void)reader.stubOffset(); // nargsAndFlags data->endOfSharedPrefix = opStart; break; } default: if (!opInfo.transpile) { return mozilla::Nothing(); } if (data.isSome()) { MOZ_ASSERT(op == CacheOp::ReturnFromIC); } reader.skip(argLength); break; } MOZ_ASSERT(argStart + argLength == reader.currentPosition()); } return data; } // Return the maximum number of actual arguments that will be passed to the // target function. This may be an overapproximation, for example when inlining // js::fun_call we may omit an argument. static uint32_t GetMaxCalleeNumActuals(BytecodeLocation loc) { switch (loc.getOp()) { case JSOp::GetProp: case JSOp::GetElem: // Getters do not pass arguments. return 0; case JSOp::SetProp: case JSOp::StrictSetProp: // Setters pass 1 argument. return 1; case JSOp::Call: case JSOp::CallContent: case JSOp::CallIgnoresRv: case JSOp::CallIter: case JSOp::CallContentIter: case JSOp::New: case JSOp::NewContent: case JSOp::SuperCall: return loc.getCallArgc(); default: MOZ_CRASH("Unsupported op"); } } /*static*/ bool TrialInliner::canInline(JSFunction* target, HandleScript caller, BytecodeLocation loc) { if (!target->hasJitScript()) { JitSpew(JitSpew_WarpTrialInlining, "SKIP: no JIT script"); return false; } JSScript* script = target->nonLazyScript(); if (!script->jitScript()->hasBaselineScript()) { JitSpew(JitSpew_WarpTrialInlining, "SKIP: no BaselineScript"); return false; } if (script->uninlineable()) { JitSpew(JitSpew_WarpTrialInlining, "SKIP: uninlineable flag"); return false; } if (!script->canIonCompile()) { JitSpew(JitSpew_WarpTrialInlining, "SKIP: can't ion-compile"); return false; } if (script->isDebuggee()) { JitSpew(JitSpew_WarpTrialInlining, "SKIP: is debuggee"); return false; } // Don't inline cross-realm calls. if (target->realm() != caller->realm()) { JitSpew(JitSpew_WarpTrialInlining, "SKIP: cross-realm call"); return false; } uint32_t maxCalleeNumActuals = GetMaxCalleeNumActuals(loc); if (script->needsArgsObj() && maxCalleeNumActuals > ArgumentsObject::MaxInlinedArgs) { JitSpew(JitSpew_WarpTrialInlining, "SKIP: needs arguments object with %u actual args (maximum %u)", maxCalleeNumActuals, ArgumentsObject::MaxInlinedArgs); return false; } if (TooManyFormalArguments(target->nargs())) { JitSpew(JitSpew_WarpTrialInlining, "SKIP: Too many formal arguments: %u", unsigned(target->nargs())); return false; } if (TooManyFormalArguments(maxCalleeNumActuals)) { JitSpew(JitSpew_WarpTrialInlining, "SKIP: argc too large: %u", unsigned(loc.getCallArgc())); return false; } return true; } bool TrialInliner::shouldInline(JSFunction* target, ICCacheIRStub* stub, BytecodeLocation loc) { #ifdef JS_JITSPEW BaseScript* baseScript = target->hasBaseScript() ? target->baseScript() : nullptr; JitSpew(JitSpew_WarpTrialInlining, "Inlining candidate JSOp::%s (offset=%u): callee script %s:%u:%u", CodeName(loc.getOp()), loc.bytecodeToOffset(script_), baseScript ? baseScript->filename() : "", baseScript ? baseScript->lineno() : 0, baseScript ? baseScript->column() : 0); JitSpewIndent spewIndent(JitSpew_WarpTrialInlining); #endif if (!canInline(target, script_, loc)) { return false; } // Don't inline (direct) recursive calls. This still allows recursion if // called through another function (f => g => f). JSScript* targetScript = target->nonLazyScript(); if (script_ == targetScript) { JitSpew(JitSpew_WarpTrialInlining, "SKIP: recursion"); return false; } // Don't inline if the callee has a loop that was hot enough to enter Warp // via OSR. This helps prevent getting stuck in Baseline code for a long time. if (targetScript->jitScript()->hadIonOSR()) { JitSpew(JitSpew_WarpTrialInlining, "SKIP: had OSR"); return false; } // Ensure the total bytecode size does not exceed ionMaxScriptSize. size_t newTotalSize = inliningRootTotalBytecodeSize() + targetScript->length(); if (newTotalSize > JitOptions.ionMaxScriptSize) { JitSpew(JitSpew_WarpTrialInlining, "SKIP: total size too big"); return false; } uint32_t entryCount = stub->enteredCount(); if (entryCount < JitOptions.inliningEntryThreshold) { JitSpew(JitSpew_WarpTrialInlining, "SKIP: Entry count is %u (minimum %u)", unsigned(entryCount), unsigned(JitOptions.inliningEntryThreshold)); return false; } if (!JitOptions.isSmallFunction(targetScript)) { if (!targetScript->isInlinableLargeFunction()) { JitSpew(JitSpew_WarpTrialInlining, "SKIP: Length is %u (maximum %u)", unsigned(targetScript->length()), unsigned(JitOptions.smallFunctionMaxBytecodeLength)); return false; } JitSpew(JitSpew_WarpTrialInlining, "INFO: Ignored length (%u) of InlinableLargeFunction", unsigned(targetScript->length())); } return true; } ICScript* TrialInliner::createInlinedICScript(JSFunction* target, BytecodeLocation loc) { MOZ_ASSERT(target->hasJitEntry()); MOZ_ASSERT(target->hasJitScript()); InliningRoot* root = getOrCreateInliningRoot(); if (!root) { return nullptr; } JSScript* targetScript = target->baseScript()->asJSScript(); // We don't have to check for overflow here because we have already // successfully allocated an ICScript with this number of entries // when creating the JitScript for the target function, and we // checked for overflow then. uint32_t fallbackStubsOffset = sizeof(ICScript) + targetScript->numICEntries() * sizeof(ICEntry); uint32_t allocSize = fallbackStubsOffset + targetScript->numICEntries() * sizeof(ICFallbackStub); void* raw = cx()->pod_malloc(allocSize); MOZ_ASSERT(uintptr_t(raw) % alignof(ICScript) == 0); if (!raw) { return nullptr; } uint32_t initialWarmUpCount = JitOptions.trialInliningInitialWarmUpCount; uint32_t depth = icScript_->depth() + 1; UniquePtr inlinedICScript(new (raw) ICScript( initialWarmUpCount, fallbackStubsOffset, allocSize, depth, root)); inlinedICScript->initICEntries(cx(), targetScript); uint32_t pcOffset = loc.bytecodeToOffset(script_); ICScript* result = inlinedICScript.get(); if (!icScript_->addInlinedChild(cx(), std::move(inlinedICScript), pcOffset)) { return nullptr; } MOZ_ASSERT(result->numICEntries() == targetScript->numICEntries()); root->addToTotalBytecodeSize(targetScript->length()); JitSpewIndent spewIndent(JitSpew_WarpTrialInlining); JitSpew(JitSpew_WarpTrialInlining, "SUCCESS: Outer ICScript: %p Inner ICScript: %p", icScript_, result); return result; } bool TrialInliner::maybeInlineCall(ICEntry& entry, ICFallbackStub* fallback, BytecodeLocation loc) { ICCacheIRStub* stub = maybeSingleStub(entry); if (!stub) { #ifdef JS_JITSPEW if (fallback->numOptimizedStubs() > 1) { JitSpew(JitSpew_WarpTrialInlining, "Inlining candidate JSOp::%s (offset=%u):", CodeName(loc.getOp()), fallback->pcOffset()); JitSpewIndent spewIndent(JitSpew_WarpTrialInlining); JitSpew(JitSpew_WarpTrialInlining, "SKIP: Polymorphic (%u stubs)", (unsigned)fallback->numOptimizedStubs()); } #endif return true; } MOZ_ASSERT(!icScript_->hasInlinedChild(fallback->pcOffset())); // Look for a CallScriptedFunction with a known target. Maybe data = FindInlinableCallData(stub); if (data.isNothing()) { return true; } MOZ_ASSERT(!data->icScript); // Decide whether to inline the target. if (!shouldInline(data->target, stub, loc)) { return true; } ICScript* newICScript = createInlinedICScript(data->target, loc); if (!newICScript) { return false; } CacheIRWriter writer(cx()); Int32OperandId argcId(writer.setInputOperandId(0)); cloneSharedPrefix(stub, data->endOfSharedPrefix, writer); writer.callInlinedFunction(data->calleeOperand, argcId, newICScript, data->callFlags, ClampFixedArgc(loc.getCallArgc())); writer.returnFromIC(); return replaceICStub(entry, fallback, writer, CacheKind::Call); } bool TrialInliner::maybeInlineGetter(ICEntry& entry, ICFallbackStub* fallback, BytecodeLocation loc, CacheKind kind) { ICCacheIRStub* stub = maybeSingleStub(entry); if (!stub) { return true; } MOZ_ASSERT(!icScript_->hasInlinedChild(fallback->pcOffset())); Maybe data = FindInlinableGetterData(stub); if (data.isNothing()) { return true; } MOZ_ASSERT(!data->icScript); // Decide whether to inline the target. if (!shouldInline(data->target, stub, loc)) { return true; } ICScript* newICScript = createInlinedICScript(data->target, loc); if (!newICScript) { return false; } CacheIRWriter writer(cx()); ValOperandId valId(writer.setInputOperandId(0)); if (kind == CacheKind::GetElem) { // Register the key operand. writer.setInputOperandId(1); } cloneSharedPrefix(stub, data->endOfSharedPrefix, writer); writer.callInlinedGetterResult(data->receiverOperand, data->target, newICScript, data->sameRealm); writer.returnFromIC(); return replaceICStub(entry, fallback, writer, kind); } bool TrialInliner::maybeInlineSetter(ICEntry& entry, ICFallbackStub* fallback, BytecodeLocation loc, CacheKind kind) { ICCacheIRStub* stub = maybeSingleStub(entry); if (!stub) { return true; } MOZ_ASSERT(!icScript_->hasInlinedChild(fallback->pcOffset())); Maybe data = FindInlinableSetterData(stub); if (data.isNothing()) { return true; } MOZ_ASSERT(!data->icScript); // Decide whether to inline the target. if (!shouldInline(data->target, stub, loc)) { return true; } ICScript* newICScript = createInlinedICScript(data->target, loc); if (!newICScript) { return false; } CacheIRWriter writer(cx()); ValOperandId objValId(writer.setInputOperandId(0)); ValOperandId rhsValId(writer.setInputOperandId(1)); cloneSharedPrefix(stub, data->endOfSharedPrefix, writer); writer.callInlinedSetter(data->receiverOperand, data->target, data->rhsOperand, newICScript, data->sameRealm); writer.returnFromIC(); return replaceICStub(entry, fallback, writer, kind); } bool TrialInliner::tryInlining() { uint32_t numICEntries = icScript_->numICEntries(); BytecodeLocation startLoc = script_->location(); for (uint32_t icIndex = 0; icIndex < numICEntries; icIndex++) { ICEntry& entry = icScript_->icEntry(icIndex); ICFallbackStub* fallback = icScript_->fallbackStub(icIndex); if (!TryFoldingStubs(cx(), fallback, script_, icScript_)) { return false; } BytecodeLocation loc = startLoc + BytecodeLocationOffset(fallback->pcOffset()); JSOp op = loc.getOp(); switch (op) { case JSOp::Call: case JSOp::CallContent: case JSOp::CallIgnoresRv: case JSOp::CallIter: case JSOp::CallContentIter: case JSOp::New: case JSOp::NewContent: case JSOp::SuperCall: if (!maybeInlineCall(entry, fallback, loc)) { return false; } break; case JSOp::GetProp: if (!maybeInlineGetter(entry, fallback, loc, CacheKind::GetProp)) { return false; } break; case JSOp::GetElem: if (!maybeInlineGetter(entry, fallback, loc, CacheKind::GetElem)) { return false; } break; case JSOp::SetProp: case JSOp::StrictSetProp: if (!maybeInlineSetter(entry, fallback, loc, CacheKind::SetProp)) { return false; } break; default: break; } } return true; } InliningRoot* TrialInliner::maybeGetInliningRoot() const { if (auto* root = icScript_->inliningRoot()) { return root; } MOZ_ASSERT(!icScript_->isInlined()); return script_->jitScript()->inliningRoot(); } InliningRoot* TrialInliner::getOrCreateInliningRoot() { if (auto* root = maybeGetInliningRoot()) { return root; } return script_->jitScript()->getOrCreateInliningRoot(cx(), script_); } size_t TrialInliner::inliningRootTotalBytecodeSize() const { if (auto* root = maybeGetInliningRoot()) { return root->totalBytecodeSize(); } return script_->length(); } bool InliningRoot::addInlinedScript(UniquePtr icScript) { return inlinedScripts_.append(std::move(icScript)); } void InliningRoot::trace(JSTracer* trc) { TraceEdge(trc, &owningScript_, "inlining-root-owning-script"); for (auto& inlinedScript : inlinedScripts_) { inlinedScript->trace(trc); } } void InliningRoot::purgeOptimizedStubs(Zone* zone) { for (auto& inlinedScript : inlinedScripts_) { inlinedScript->purgeOptimizedStubs(zone); } } void InliningRoot::resetWarmUpCounts(uint32_t count) { for (auto& inlinedScript : inlinedScripts_) { inlinedScript->resetWarmUpCount(count); } } } // namespace jit } // namespace js