mirror of
https://github.com/darlinghq/darling-JavaScriptCore.git
synced 2024-11-30 07:30:47 +00:00
487 lines
18 KiB
C++
487 lines
18 KiB
C++
/*
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* Copyright (C) 2012-2019 Apple Inc. All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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*
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* THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY
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* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
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* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR
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* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
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* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
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* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
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* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
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* OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*/
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#include "config.h"
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#include "CallLinkStatus.h"
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#include "BytecodeStructs.h"
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#include "CallLinkInfo.h"
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#include "CodeBlock.h"
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#include "JSCInlines.h"
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#include "LLIntCallLinkInfo.h"
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#include <wtf/CommaPrinter.h>
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#include <wtf/ListDump.h>
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namespace JSC {
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namespace CallLinkStatusInternal {
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static constexpr bool verbose = false;
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}
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CallLinkStatus::CallLinkStatus(JSValue value)
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: m_couldTakeSlowPath(false)
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, m_isProved(false)
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{
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if (!value || !value.isCell()) {
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m_couldTakeSlowPath = true;
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return;
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}
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m_variants.append(CallVariant(value.asCell()));
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}
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CallLinkStatus CallLinkStatus::computeFromLLInt(const ConcurrentJSLocker&, CodeBlock* profiledBlock, BytecodeIndex bytecodeIndex)
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{
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UNUSED_PARAM(profiledBlock);
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UNUSED_PARAM(bytecodeIndex);
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#if ENABLE(DFG_JIT)
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if (profiledBlock->unlinkedCodeBlock()->hasExitSite(DFG::FrequentExitSite(bytecodeIndex, BadConstantValue))) {
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// We could force this to be a closure call, but instead we'll just assume that it
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// takes slow path.
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return takesSlowPath();
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}
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#endif
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auto instruction = profiledBlock->instructions().at(bytecodeIndex.offset());
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OpcodeID op = instruction->opcodeID();
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LLIntCallLinkInfo* callLinkInfo;
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switch (op) {
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case op_call:
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callLinkInfo = &instruction->as<OpCall>().metadata(profiledBlock).m_callLinkInfo;
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break;
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case op_construct:
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callLinkInfo = &instruction->as<OpConstruct>().metadata(profiledBlock).m_callLinkInfo;
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break;
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case op_tail_call:
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callLinkInfo = &instruction->as<OpTailCall>().metadata(profiledBlock).m_callLinkInfo;
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break;
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case op_iterator_open:
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callLinkInfo = &instruction->as<OpIteratorOpen>().metadata(profiledBlock).m_callLinkInfo;
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break;
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case op_iterator_next:
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callLinkInfo = &instruction->as<OpIteratorNext>().metadata(profiledBlock).m_callLinkInfo;
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break;
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default:
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return CallLinkStatus();
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}
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return CallLinkStatus(callLinkInfo->lastSeenCallee());
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}
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CallLinkStatus CallLinkStatus::computeFor(
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CodeBlock* profiledBlock, BytecodeIndex bytecodeIndex, const ICStatusMap& map,
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ExitSiteData exitSiteData)
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{
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ConcurrentJSLocker locker(profiledBlock->m_lock);
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UNUSED_PARAM(profiledBlock);
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UNUSED_PARAM(bytecodeIndex);
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UNUSED_PARAM(map);
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UNUSED_PARAM(exitSiteData);
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#if ENABLE(DFG_JIT)
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CallLinkInfo* callLinkInfo = map.get(CodeOrigin(bytecodeIndex)).callLinkInfo;
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if (!callLinkInfo) {
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if (exitSiteData.takesSlowPath)
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return takesSlowPath();
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return computeFromLLInt(locker, profiledBlock, bytecodeIndex);
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}
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return computeFor(locker, profiledBlock, *callLinkInfo, exitSiteData);
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#else
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return CallLinkStatus();
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#endif
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}
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CallLinkStatus CallLinkStatus::computeFor(
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CodeBlock* profiledBlock, BytecodeIndex bytecodeIndex, const ICStatusMap& map)
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{
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return computeFor(profiledBlock, bytecodeIndex, map, computeExitSiteData(profiledBlock, bytecodeIndex));
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}
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CallLinkStatus::ExitSiteData CallLinkStatus::computeExitSiteData(CodeBlock* profiledBlock, BytecodeIndex bytecodeIndex)
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{
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ExitSiteData exitSiteData;
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#if ENABLE(DFG_JIT)
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UnlinkedCodeBlock* codeBlock = profiledBlock->unlinkedCodeBlock();
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ConcurrentJSLocker locker(codeBlock->m_lock);
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auto takesSlowPath = [&] (ExitingInlineKind inlineKind) -> ExitFlag {
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return ExitFlag(
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codeBlock->hasExitSite(locker, DFG::FrequentExitSite(bytecodeIndex, BadType, ExitFromAnything, inlineKind))
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|| codeBlock->hasExitSite(locker, DFG::FrequentExitSite(bytecodeIndex, BadExecutable, ExitFromAnything, inlineKind)),
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inlineKind);
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};
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auto badFunction = [&] (ExitingInlineKind inlineKind) -> ExitFlag {
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return ExitFlag(codeBlock->hasExitSite(locker, DFG::FrequentExitSite(bytecodeIndex, BadConstantValue, ExitFromAnything, inlineKind)), inlineKind);
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};
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exitSiteData.takesSlowPath |= takesSlowPath(ExitFromNotInlined);
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exitSiteData.takesSlowPath |= takesSlowPath(ExitFromInlined);
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exitSiteData.badFunction |= badFunction(ExitFromNotInlined);
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exitSiteData.badFunction |= badFunction(ExitFromInlined);
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#else
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UNUSED_PARAM(profiledBlock);
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UNUSED_PARAM(bytecodeIndex);
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#endif
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return exitSiteData;
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}
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#if ENABLE(JIT)
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CallLinkStatus CallLinkStatus::computeFor(
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const ConcurrentJSLocker& locker, CodeBlock* profiledBlock, CallLinkInfo& callLinkInfo)
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{
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// We don't really need this, but anytime we have to debug this code, it becomes indispensable.
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UNUSED_PARAM(profiledBlock);
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CallLinkStatus result = computeFromCallLinkInfo(locker, callLinkInfo);
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result.m_maxArgumentCountIncludingThis = callLinkInfo.maxArgumentCountIncludingThis();
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return result;
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}
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CallLinkStatus CallLinkStatus::computeFromCallLinkInfo(
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const ConcurrentJSLocker&, CallLinkInfo& callLinkInfo)
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{
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// We cannot tell you anything about direct calls.
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if (callLinkInfo.isDirect())
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return CallLinkStatus();
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if (callLinkInfo.clearedByGC() || callLinkInfo.clearedByVirtual())
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return takesSlowPath();
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// Note that despite requiring that the locker is held, this code is racy with respect
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// to the CallLinkInfo: it may get cleared while this code runs! This is because
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// CallLinkInfo::unlink() may be called from a different CodeBlock than the one that owns
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// the CallLinkInfo and currently we save space by not having CallLinkInfos know who owns
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// them. So, there is no way for either the caller of CallLinkInfo::unlock() or unlock()
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// itself to figure out which lock to lock.
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//
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// Fortunately, that doesn't matter. The only things we ask of CallLinkInfo - the slow
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// path count, the stub, and the target - can all be asked racily. Stubs and targets can
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// only be deleted at next GC, so if we load a non-null one, then it must contain data
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// that is still marginally valid (i.e. the pointers ain't stale). This kind of raciness
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// is probably OK for now.
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// PolymorphicCallStubRoutine is a GCAwareJITStubRoutine, so if non-null, it will stay alive
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// until next GC even if the CallLinkInfo is concurrently cleared. Also, the variants list is
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// never mutated after the PolymorphicCallStubRoutine is instantiated. We have some conservative
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// fencing in place to make sure that we see the variants list after construction.
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if (PolymorphicCallStubRoutine* stub = callLinkInfo.stub()) {
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WTF::loadLoadFence();
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if (!stub->hasEdges()) {
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// This means we have an FTL profile, which has incomplete information.
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//
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// It's not clear if takesSlowPath() or CallLinkStatus() are appropriate here, but I
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// think that takesSlowPath() is a narrow winner.
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//
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// Either way, this is telling us that the FTL had been led to believe that it's
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// profitable not to inline anything.
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return takesSlowPath();
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}
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CallEdgeList edges = stub->edges();
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// Now that we've loaded the edges list, there are no further concurrency concerns. We will
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// just manipulate and prune this list to our liking - mostly removing entries that are too
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// infrequent and ensuring that it's sorted in descending order of frequency.
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RELEASE_ASSERT(edges.size());
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std::sort(
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edges.begin(), edges.end(),
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[] (CallEdge a, CallEdge b) {
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return a.count() > b.count();
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});
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RELEASE_ASSERT(edges.first().count() >= edges.last().count());
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double totalCallsToKnown = 0;
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double totalCallsToUnknown = callLinkInfo.slowPathCount();
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CallVariantList variants;
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for (size_t i = 0; i < edges.size(); ++i) {
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CallEdge edge = edges[i];
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// If the call is at the tail of the distribution, then we don't optimize it and we
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// treat it as if it was a call to something unknown. We define the tail as being either
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// a call that doesn't belong to the N most frequent callees (N =
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// maxPolymorphicCallVariantsForInlining) or that has a total call count that is too
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// small.
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if (i >= Options::maxPolymorphicCallVariantsForInlining()
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|| edge.count() < Options::frequentCallThreshold())
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totalCallsToUnknown += edge.count();
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else {
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totalCallsToKnown += edge.count();
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variants.append(edge.callee());
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}
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}
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// Bail if we didn't find any calls that qualified.
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RELEASE_ASSERT(!!totalCallsToKnown == !!variants.size());
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if (variants.isEmpty())
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return takesSlowPath();
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// We require that the distribution of callees is skewed towards a handful of common ones.
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if (totalCallsToKnown / totalCallsToUnknown < Options::minimumCallToKnownRate())
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return takesSlowPath();
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RELEASE_ASSERT(totalCallsToKnown);
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RELEASE_ASSERT(variants.size());
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CallLinkStatus result;
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result.m_variants = variants;
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result.m_couldTakeSlowPath = !!totalCallsToUnknown;
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result.m_isBasedOnStub = true;
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return result;
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}
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CallLinkStatus result;
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if (JSObject* target = callLinkInfo.lastSeenCallee()) {
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CallVariant variant(target);
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if (callLinkInfo.hasSeenClosure())
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variant = variant.despecifiedClosure();
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result.m_variants.append(variant);
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}
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result.m_couldTakeSlowPath = !!callLinkInfo.slowPathCount();
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return result;
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}
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CallLinkStatus CallLinkStatus::computeFor(
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const ConcurrentJSLocker& locker, CodeBlock* profiledBlock, CallLinkInfo& callLinkInfo,
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ExitSiteData exitSiteData, ExitingInlineKind inlineKind)
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{
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CallLinkStatus result = computeFor(locker, profiledBlock, callLinkInfo);
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result.accountForExits(exitSiteData, inlineKind);
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return result;
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}
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void CallLinkStatus::accountForExits(ExitSiteData exitSiteData, ExitingInlineKind inlineKind)
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{
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if (exitSiteData.badFunction.isSet(inlineKind)) {
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if (isBasedOnStub()) {
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// If we have a polymorphic stub, then having an exit site is not quite so useful. In
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// most cases, the information in the stub has higher fidelity.
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makeClosureCall();
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} else {
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// We might not have a polymorphic stub for any number of reasons. When this happens, we
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// are in less certain territory, so exit sites mean a lot.
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m_couldTakeSlowPath = true;
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}
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}
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if (exitSiteData.takesSlowPath.isSet(inlineKind))
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m_couldTakeSlowPath = true;
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}
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CallLinkStatus CallLinkStatus::computeFor(
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CodeBlock* profiledBlock, CodeOrigin codeOrigin,
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const ICStatusMap& baselineMap, const ICStatusContextStack& optimizedStack)
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{
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if (CallLinkStatusInternal::verbose)
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dataLog("Figuring out call profiling for ", codeOrigin, "\n");
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ExitSiteData exitSiteData = computeExitSiteData(profiledBlock, codeOrigin.bytecodeIndex());
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if (CallLinkStatusInternal::verbose) {
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dataLog("takesSlowPath = ", exitSiteData.takesSlowPath, "\n");
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dataLog("badFunction = ", exitSiteData.badFunction, "\n");
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}
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for (const ICStatusContext* context : optimizedStack) {
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if (CallLinkStatusInternal::verbose)
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dataLog("Examining status in ", pointerDump(context->optimizedCodeBlock), "\n");
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ICStatus status = context->get(codeOrigin);
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// If we have both a CallLinkStatus and a callLinkInfo for the same origin, then it means
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// one of two things:
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//
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// 1) We initially thought that we'd be able to inline this call so we recorded a status
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// but then we realized that it was pointless and gave up and emitted a normal call
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// anyway.
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//
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// 2) We did a polymorphic call inline that had a slow path case.
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//
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// In the first case, it's essential that we use the callLinkInfo, since the status may
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// be polymorphic but the link info benefits from polyvariant profiling.
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//
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// In the second case, it's essential that we use the status, since the callLinkInfo
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// corresponds to the slow case.
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//
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// It would be annoying to distinguish those two cases. However, we know that:
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//
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// If the first case happens in the FTL, then it means that even with polyvariant
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// profiling, we failed to do anything useful. That suggests that in the FTL, it's OK to
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// prioritize the status. That status will again tell us to not do anything useful.
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//
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// The second case only happens in the FTL.
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//
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// Therefore, we prefer the status in the FTL and the info in the DFG.
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//
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// Luckily, this case doesn't matter for the other ICStatuses, since they never do the
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// fast-path-slow-path control-flow-diamond style of IC inlining. It's either all fast
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// path or it's a full IC. So, for them, if there is an IC status then it means case (1).
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bool checkStatusFirst = context->optimizedCodeBlock->jitType() == JITType::FTLJIT;
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auto bless = [&] (CallLinkStatus& result) {
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if (!context->isInlined(codeOrigin))
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result.merge(computeFor(profiledBlock, codeOrigin.bytecodeIndex(), baselineMap, exitSiteData));
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};
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auto checkInfo = [&] () -> CallLinkStatus {
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if (!status.callLinkInfo)
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return CallLinkStatus();
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if (CallLinkStatusInternal::verbose)
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dataLog("Have CallLinkInfo with CodeOrigin = ", status.callLinkInfo->codeOrigin(), "\n");
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CallLinkStatus result;
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{
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ConcurrentJSLocker locker(context->optimizedCodeBlock->m_lock);
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result = computeFor(
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locker, context->optimizedCodeBlock, *status.callLinkInfo, exitSiteData,
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context->inlineKind(codeOrigin));
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if (CallLinkStatusInternal::verbose)
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dataLog("Got result: ", result, "\n");
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}
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bless(result);
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return result;
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};
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auto checkStatus = [&] () -> CallLinkStatus {
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if (!status.callStatus)
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return CallLinkStatus();
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CallLinkStatus result = *status.callStatus;
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if (CallLinkStatusInternal::verbose)
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dataLog("Have callStatus: ", result, "\n");
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result.accountForExits(exitSiteData, context->inlineKind(codeOrigin));
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bless(result);
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return result;
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};
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if (checkStatusFirst) {
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if (CallLinkStatus result = checkStatus())
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return result;
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if (CallLinkStatus result = checkInfo())
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return result;
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continue;
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}
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if (CallLinkStatus result = checkInfo())
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return result;
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if (CallLinkStatus result = checkStatus())
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return result;
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}
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return computeFor(profiledBlock, codeOrigin.bytecodeIndex(), baselineMap, exitSiteData);
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}
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#endif
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void CallLinkStatus::setProvenConstantCallee(CallVariant variant)
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{
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m_variants = CallVariantList{ variant };
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m_couldTakeSlowPath = false;
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m_isProved = true;
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}
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bool CallLinkStatus::isClosureCall() const
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{
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for (unsigned i = m_variants.size(); i--;) {
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if (m_variants[i].isClosureCall())
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return true;
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}
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return false;
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}
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void CallLinkStatus::makeClosureCall()
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{
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m_variants = despecifiedVariantList(m_variants);
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}
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bool CallLinkStatus::finalize(VM& vm)
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{
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for (CallVariant& variant : m_variants) {
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if (!variant.finalize(vm))
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return false;
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}
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return true;
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}
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void CallLinkStatus::merge(const CallLinkStatus& other)
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{
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m_couldTakeSlowPath |= other.m_couldTakeSlowPath;
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for (const CallVariant& otherVariant : other.m_variants) {
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bool found = false;
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for (CallVariant& thisVariant : m_variants) {
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if (thisVariant.merge(otherVariant)) {
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found = true;
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break;
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}
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}
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if (!found)
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m_variants.append(otherVariant);
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}
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}
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void CallLinkStatus::filter(VM& vm, JSValue value)
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{
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m_variants.removeAllMatching(
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[&] (CallVariant& variant) -> bool {
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variant.filter(vm, value);
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return !variant;
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});
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}
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void CallLinkStatus::dump(PrintStream& out) const
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{
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if (!isSet()) {
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out.print("Not Set");
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return;
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}
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CommaPrinter comma;
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if (m_isProved)
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out.print(comma, "Statically Proved");
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if (m_couldTakeSlowPath)
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out.print(comma, "Could Take Slow Path");
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if (m_isBasedOnStub)
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out.print(comma, "Based On Stub");
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if (!m_variants.isEmpty())
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out.print(comma, listDump(m_variants));
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if (m_maxArgumentCountIncludingThis)
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out.print(comma, "maxArgumentCountIncludingThis = ", m_maxArgumentCountIncludingThis);
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}
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} // namespace JSC
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