Exemplo n.º 1
0
Geometry *
LengthIndexedLine::extractLine(double startIndex, double endIndex) const
{
  const LocationIndexedLine lil(linearGeom);
  const double startIndex2 = clampIndex(startIndex);
  const double endIndex2 = clampIndex(endIndex);
  // if extracted line is zero-length, resolve start lower as well to
  // ensure they are equal
  const bool resolveStartLower = ( startIndex2 == endIndex2 );
  const LinearLocation startLoc = locationOf(startIndex2, resolveStartLower);
  const LinearLocation endLoc = locationOf(endIndex2);
//    LinearLocation endLoc = locationOf(endIndex2, true);
//    LinearLocation startLoc = locationOf(startIndex2);
  return ExtractLineByLocation::extract(linearGeom, startLoc, endLoc);
}
Exemplo n.º 2
0
 void XmlUtils::assertTagNameEquals(const TiXmlElement* element, const std::string& name)
 {
     assertNotNull(element);
     if (element->ValueStr() != name) {
         B3D_LOGE(locationOf(element) << "Invalid tag name (expected \"" << name
             << "\" but found \"" << element->ValueStr() << "\").");
         throw ParseError();
     }
 }
Exemplo n.º 3
0
    float XmlUtils::getFloatAttribute(const TiXmlElement* element, const char* name, float def)
    {
        TiXmlAttribute* attribute = element->GetAttribute(name);
        if (attribute == nullptr)
            return def;

        const std::string& string = attribute->ValueStr();
        try {
            size_t pos = 0;
            float value = std::stof(string, &pos);
            if (pos == string.length())
                return value;
        } catch (const std::exception& e) {
            B3D_LOGE(locationOf(element) << "Value of attribute \"" << name
                << "\" is not a valid floating-point number (" << e.what() << ").");
            throw ParseError();
        }

         B3D_LOGE(locationOf(element) << "Value of attribute \"" << name << "\" is not a valid floating-point number.");
         throw ParseError();
    }
Exemplo n.º 4
0
    const TiXmlAttribute* XmlUtils::getAttribute(const TiXmlElement* element, const char* name)
    {
        assertNotNull(element);

        TiXmlAttribute* attribute = element->GetAttribute(name);
        if (attribute == nullptr) {
            B3D_LOGE(locationOf(element) << "Attribute \"" << name << "\" is missing in tag \""
                << element->ValueStr() << "\".");
            throw ParseError();
        }

        return attribute;
    }
Exemplo n.º 5
0
    int XmlUtils::getIntAttribute(const TiXmlElement* element, const char* name)
    {
        TiXmlAttribute* attribute = element->GetAttribute(name);
        if (attribute == nullptr) {
            B3D_LOGE(locationOf(element) << "Attribute \"" << name << "\" is missing in tag \""
                << element->ValueStr() << "\".");
            throw ParseError();
        }

        const std::string& string = attribute->ValueStr();
        try {
            size_t pos = 0;
            int value = std::stoi(string, &pos);
            if (pos == string.length())
                return value;
        } catch (const std::exception& e) {
            B3D_LOGE(locationOf(element) << "Value of attribute \"" << name
                << "\" is not a valid integer (" << e.what() << ").");
            throw ParseError();
        }

        B3D_LOGE(locationOf(element) << "Value of attribute \"" << name << "\" is not a valid integer.");
        throw ParseError();
    }
Exemplo n.º 6
0
static void fixFunctionBasedOnStackMaps(
    State& state, CodeBlock* codeBlock, JITCode* jitCode, GeneratedFunction generatedFunction,
    StackMaps::RecordMap& recordMap, bool didSeeUnwindInfo)
{
    Graph& graph = state.graph;
    VM& vm = graph.m_vm;
    StackMaps stackmaps = jitCode->stackmaps;
    
    int localsOffset =
        offsetOfStackRegion(recordMap, state.capturedStackmapID) + graph.m_nextMachineLocal;
    
    int varargsSpillSlotsOffset;
    if (state.varargsSpillSlotsStackmapID != UINT_MAX)
        varargsSpillSlotsOffset = offsetOfStackRegion(recordMap, state.varargsSpillSlotsStackmapID);
    else
        varargsSpillSlotsOffset = 0;
    
    for (unsigned i = graph.m_inlineVariableData.size(); i--;) {
        InlineCallFrame* inlineCallFrame = graph.m_inlineVariableData[i].inlineCallFrame;
        
        if (inlineCallFrame->argumentsRegister.isValid())
            inlineCallFrame->argumentsRegister += localsOffset;
        
        if (inlineCallFrame->argumentCountRegister.isValid())
            inlineCallFrame->argumentCountRegister += localsOffset;
        
        for (unsigned argument = inlineCallFrame->arguments.size(); argument-- > 1;) {
            inlineCallFrame->arguments[argument] =
                inlineCallFrame->arguments[argument].withLocalsOffset(localsOffset);
        }
        
        if (inlineCallFrame->isClosureCall) {
            inlineCallFrame->calleeRecovery =
                inlineCallFrame->calleeRecovery.withLocalsOffset(localsOffset);
        }
    }
    
    if (codeBlock->usesArguments()) {
        codeBlock->setArgumentsRegister(
            VirtualRegister(codeBlock->argumentsRegister().offset() + localsOffset));
    }

    MacroAssembler::Label stackOverflowException;

    {
        CCallHelpers checkJIT(&vm, codeBlock);
        
        // At this point it's perfectly fair to just blow away all state and restore the
        // JS JIT view of the universe.
        checkJIT.move(MacroAssembler::TrustedImmPtr(&vm), GPRInfo::argumentGPR0);
        checkJIT.move(GPRInfo::callFrameRegister, GPRInfo::argumentGPR1);
        MacroAssembler::Call callLookupExceptionHandler = checkJIT.call();
        checkJIT.jumpToExceptionHandler();

        stackOverflowException = checkJIT.label();
        checkJIT.move(MacroAssembler::TrustedImmPtr(&vm), GPRInfo::argumentGPR0);
        checkJIT.move(GPRInfo::callFrameRegister, GPRInfo::argumentGPR1);
        MacroAssembler::Call callLookupExceptionHandlerFromCallerFrame = checkJIT.call();
        checkJIT.jumpToExceptionHandler();

        auto linkBuffer = std::make_unique<LinkBuffer>(
            vm, checkJIT, codeBlock, JITCompilationMustSucceed);
        linkBuffer->link(callLookupExceptionHandler, FunctionPtr(lookupExceptionHandler));
        linkBuffer->link(callLookupExceptionHandlerFromCallerFrame, FunctionPtr(lookupExceptionHandlerFromCallerFrame));

        state.finalizer->handleExceptionsLinkBuffer = WTF::move(linkBuffer);
    }

    ExitThunkGenerator exitThunkGenerator(state);
    exitThunkGenerator.emitThunks();
    if (exitThunkGenerator.didThings()) {
        RELEASE_ASSERT(state.finalizer->osrExit.size());
        RELEASE_ASSERT(didSeeUnwindInfo);
        
        auto linkBuffer = std::make_unique<LinkBuffer>(
            vm, exitThunkGenerator, codeBlock, JITCompilationMustSucceed);
        
        RELEASE_ASSERT(state.finalizer->osrExit.size() == state.jitCode->osrExit.size());
        
        for (unsigned i = 0; i < state.jitCode->osrExit.size(); ++i) {
            OSRExitCompilationInfo& info = state.finalizer->osrExit[i];
            OSRExit& exit = jitCode->osrExit[i];
            
            if (verboseCompilationEnabled())
                dataLog("Handling OSR stackmap #", exit.m_stackmapID, " for ", exit.m_codeOrigin, "\n");

            auto iter = recordMap.find(exit.m_stackmapID);
            if (iter == recordMap.end()) {
                // It was optimized out.
                continue;
            }
            
            info.m_thunkAddress = linkBuffer->locationOf(info.m_thunkLabel);
            exit.m_patchableCodeOffset = linkBuffer->offsetOf(info.m_thunkJump);
            
            for (unsigned j = exit.m_values.size(); j--;) {
                ExitValue value = exit.m_values[j];
                if (!value.isInJSStackSomehow())
                    continue;
                if (!value.virtualRegister().isLocal())
                    continue;
                exit.m_values[j] = value.withVirtualRegister(
                    VirtualRegister(value.virtualRegister().offset() + localsOffset));
            }
            
            if (verboseCompilationEnabled()) {
                DumpContext context;
                dataLog("    Exit values: ", inContext(exit.m_values, &context), "\n");
            }
        }
        
        state.finalizer->exitThunksLinkBuffer = WTF::move(linkBuffer);
    }

    if (!state.getByIds.isEmpty() || !state.putByIds.isEmpty() || !state.checkIns.isEmpty()) {
        CCallHelpers slowPathJIT(&vm, codeBlock);
        
        CCallHelpers::JumpList exceptionTarget;
        
        for (unsigned i = state.getByIds.size(); i--;) {
            GetByIdDescriptor& getById = state.getByIds[i];
            
            if (verboseCompilationEnabled())
                dataLog("Handling GetById stackmap #", getById.stackmapID(), "\n");
            
            auto iter = recordMap.find(getById.stackmapID());
            if (iter == recordMap.end()) {
                // It was optimized out.
                continue;
            }
            
            for (unsigned i = 0; i < iter->value.size(); ++i) {
                StackMaps::Record& record = iter->value[i];
            
                RegisterSet usedRegisters = usedRegistersFor(record);
                
                GPRReg result = record.locations[0].directGPR();
                GPRReg base = record.locations[1].directGPR();
                
                JITGetByIdGenerator gen(
                    codeBlock, getById.codeOrigin(), usedRegisters, JSValueRegs(base),
                    JSValueRegs(result), NeedToSpill);
                
                MacroAssembler::Label begin = slowPathJIT.label();

                MacroAssembler::Call call = callOperation(
                    state, usedRegisters, slowPathJIT, getById.codeOrigin(), &exceptionTarget,
                    operationGetByIdOptimize, result, gen.stubInfo(), base, getById.uid());

                gen.reportSlowPathCall(begin, call);

                getById.m_slowPathDone.append(slowPathJIT.jump());
                getById.m_generators.append(gen);
            }
        }
        
        for (unsigned i = state.putByIds.size(); i--;) {
            PutByIdDescriptor& putById = state.putByIds[i];
            
            if (verboseCompilationEnabled())
                dataLog("Handling PutById stackmap #", putById.stackmapID(), "\n");
            
            auto iter = recordMap.find(putById.stackmapID());
            if (iter == recordMap.end()) {
                // It was optimized out.
                continue;
            }
            
            for (unsigned i = 0; i < iter->value.size(); ++i) {
                StackMaps::Record& record = iter->value[i];
                
                RegisterSet usedRegisters = usedRegistersFor(record);
                
                GPRReg base = record.locations[0].directGPR();
                GPRReg value = record.locations[1].directGPR();
                
                JITPutByIdGenerator gen(
                    codeBlock, putById.codeOrigin(), usedRegisters, JSValueRegs(base),
                    JSValueRegs(value), GPRInfo::patchpointScratchRegister, NeedToSpill,
                    putById.ecmaMode(), putById.putKind());
                
                MacroAssembler::Label begin = slowPathJIT.label();
                
                MacroAssembler::Call call = callOperation(
                    state, usedRegisters, slowPathJIT, putById.codeOrigin(), &exceptionTarget,
                    gen.slowPathFunction(), gen.stubInfo(), value, base, putById.uid());
                
                gen.reportSlowPathCall(begin, call);
                
                putById.m_slowPathDone.append(slowPathJIT.jump());
                putById.m_generators.append(gen);
            }
        }

        for (unsigned i = state.checkIns.size(); i--;) {
            CheckInDescriptor& checkIn = state.checkIns[i];
            
            if (verboseCompilationEnabled())
                dataLog("Handling checkIn stackmap #", checkIn.stackmapID(), "\n");
            
            auto iter = recordMap.find(checkIn.stackmapID());
            if (iter == recordMap.end()) {
                // It was optimized out.
                continue;
            }
            
            for (unsigned i = 0; i < iter->value.size(); ++i) {
                StackMaps::Record& record = iter->value[i];
                RegisterSet usedRegisters = usedRegistersFor(record);
                GPRReg result = record.locations[0].directGPR();
                GPRReg obj = record.locations[1].directGPR();
                StructureStubInfo* stubInfo = codeBlock->addStubInfo(); 
                stubInfo->codeOrigin = checkIn.codeOrigin();
                stubInfo->patch.baseGPR = static_cast<int8_t>(obj);
                stubInfo->patch.valueGPR = static_cast<int8_t>(result);
                stubInfo->patch.usedRegisters = usedRegisters;
                stubInfo->patch.spillMode = NeedToSpill;

                MacroAssembler::Label begin = slowPathJIT.label();

                MacroAssembler::Call slowCall = callOperation(
                    state, usedRegisters, slowPathJIT, checkIn.codeOrigin(), &exceptionTarget,
                    operationInOptimize, result, stubInfo, obj, checkIn.m_id);

                checkIn.m_slowPathDone.append(slowPathJIT.jump());
                
                checkIn.m_generators.append(CheckInGenerator(stubInfo, slowCall, begin));
            }
        }
        
        exceptionTarget.link(&slowPathJIT);
        MacroAssembler::Jump exceptionJump = slowPathJIT.jump();
        
        state.finalizer->sideCodeLinkBuffer = std::make_unique<LinkBuffer>(vm, slowPathJIT, codeBlock, JITCompilationMustSucceed);
        state.finalizer->sideCodeLinkBuffer->link(
            exceptionJump, state.finalizer->handleExceptionsLinkBuffer->entrypoint());
        
        for (unsigned i = state.getByIds.size(); i--;) {
            generateICFastPath(
                state, codeBlock, generatedFunction, recordMap, state.getByIds[i],
                sizeOfGetById());
        }
        for (unsigned i = state.putByIds.size(); i--;) {
            generateICFastPath(
                state, codeBlock, generatedFunction, recordMap, state.putByIds[i],
                sizeOfPutById());
        }

        for (unsigned i = state.checkIns.size(); i--;) {
            generateCheckInICFastPath(
                state, codeBlock, generatedFunction, recordMap, state.checkIns[i],
                sizeOfIn()); 
        } 
    }
    
    adjustCallICsForStackmaps(state.jsCalls, recordMap);
    
    for (unsigned i = state.jsCalls.size(); i--;) {
        JSCall& call = state.jsCalls[i];

        CCallHelpers fastPathJIT(&vm, codeBlock);
        call.emit(fastPathJIT);
        
        char* startOfIC = bitwise_cast<char*>(generatedFunction) + call.m_instructionOffset;
        
        LinkBuffer linkBuffer(vm, fastPathJIT, startOfIC, sizeOfCall());
        if (!linkBuffer.isValid()) {
            dataLog("Failed to insert inline cache for call because we thought the size would be ", sizeOfCall(), " but it ended up being ", fastPathJIT.m_assembler.codeSize(), " prior to compaction.\n");
            RELEASE_ASSERT_NOT_REACHED();
        }
        
        MacroAssembler::AssemblerType_T::fillNops(
            startOfIC + linkBuffer.size(), sizeOfCall() - linkBuffer.size());
        
        call.link(vm, linkBuffer);
    }
    
    adjustCallICsForStackmaps(state.jsCallVarargses, recordMap);
    
    for (unsigned i = state.jsCallVarargses.size(); i--;) {
        JSCallVarargs& call = state.jsCallVarargses[i];
        
        CCallHelpers fastPathJIT(&vm, codeBlock);
        call.emit(fastPathJIT, graph, varargsSpillSlotsOffset);
        
        char* startOfIC = bitwise_cast<char*>(generatedFunction) + call.m_instructionOffset;
        size_t sizeOfIC = sizeOfICFor(call.node());

        LinkBuffer linkBuffer(vm, fastPathJIT, startOfIC, sizeOfIC);
        if (!linkBuffer.isValid()) {
            dataLog("Failed to insert inline cache for varargs call (specifically, ", Graph::opName(call.node()->op()), ") because we thought the size would be ", sizeOfIC, " but it ended up being ", fastPathJIT.m_assembler.codeSize(), " prior to compaction.\n");
            RELEASE_ASSERT_NOT_REACHED();
        }
        
        MacroAssembler::AssemblerType_T::fillNops(
            startOfIC + linkBuffer.size(), sizeOfIC - linkBuffer.size());
        
        call.link(vm, linkBuffer, state.finalizer->handleExceptionsLinkBuffer->entrypoint());
    }
    
    RepatchBuffer repatchBuffer(codeBlock);

    auto iter = recordMap.find(state.handleStackOverflowExceptionStackmapID);
    // It's sort of remotely possible that we won't have an in-band exception handling
    // path, for some kinds of functions.
    if (iter != recordMap.end()) {
        for (unsigned i = iter->value.size(); i--;) {
            StackMaps::Record& record = iter->value[i];
            
            CodeLocationLabel source = CodeLocationLabel(
                bitwise_cast<char*>(generatedFunction) + record.instructionOffset);

            RELEASE_ASSERT(stackOverflowException.isSet());

            repatchBuffer.replaceWithJump(source, state.finalizer->handleExceptionsLinkBuffer->locationOf(stackOverflowException));
        }
    }
    
    iter = recordMap.find(state.handleExceptionStackmapID);
    // It's sort of remotely possible that we won't have an in-band exception handling
    // path, for some kinds of functions.
    if (iter != recordMap.end()) {
        for (unsigned i = iter->value.size(); i--;) {
            StackMaps::Record& record = iter->value[i];
            
            CodeLocationLabel source = CodeLocationLabel(
                bitwise_cast<char*>(generatedFunction) + record.instructionOffset);
            
            repatchBuffer.replaceWithJump(source, state.finalizer->handleExceptionsLinkBuffer->entrypoint());
        }
    }
    
    for (unsigned exitIndex = 0; exitIndex < jitCode->osrExit.size(); ++exitIndex) {
        OSRExitCompilationInfo& info = state.finalizer->osrExit[exitIndex];
        OSRExit& exit = jitCode->osrExit[exitIndex];
        iter = recordMap.find(exit.m_stackmapID);
        
        Vector<const void*> codeAddresses;
        
        if (iter != recordMap.end()) {
            for (unsigned i = iter->value.size(); i--;) {
                StackMaps::Record& record = iter->value[i];
                
                CodeLocationLabel source = CodeLocationLabel(
                    bitwise_cast<char*>(generatedFunction) + record.instructionOffset);
                
                codeAddresses.append(bitwise_cast<char*>(generatedFunction) + record.instructionOffset + MacroAssembler::maxJumpReplacementSize());
                
                if (info.m_isInvalidationPoint)
                    jitCode->common.jumpReplacements.append(JumpReplacement(source, info.m_thunkAddress));
                else
                    repatchBuffer.replaceWithJump(source, info.m_thunkAddress);
            }
        }
        
        if (graph.compilation())
            graph.compilation()->addOSRExitSite(codeAddresses);
    }
}
Exemplo n.º 7
0
static void fixFunctionBasedOnStackMaps(
    State& state, CodeBlock* codeBlock, JITCode* jitCode, GeneratedFunction generatedFunction,
    StackMaps::RecordMap& recordMap)
{
    Graph& graph = state.graph;
    VM& vm = graph.m_vm;
    StackMaps stackmaps = jitCode->stackmaps;
    
    int localsOffset = offsetOfStackRegion(recordMap, state.capturedStackmapID) + graph.m_nextMachineLocal;
    int varargsSpillSlotsOffset = offsetOfStackRegion(recordMap, state.varargsSpillSlotsStackmapID);
    
    for (unsigned i = graph.m_inlineVariableData.size(); i--;) {
        InlineCallFrame* inlineCallFrame = graph.m_inlineVariableData[i].inlineCallFrame;
        
        if (inlineCallFrame->argumentCountRegister.isValid())
            inlineCallFrame->argumentCountRegister += localsOffset;
        
        for (unsigned argument = inlineCallFrame->arguments.size(); argument-- > 1;) {
            inlineCallFrame->arguments[argument] =
                inlineCallFrame->arguments[argument].withLocalsOffset(localsOffset);
        }
        
        if (inlineCallFrame->isClosureCall) {
            inlineCallFrame->calleeRecovery =
                inlineCallFrame->calleeRecovery.withLocalsOffset(localsOffset);
        }

        if (graph.hasDebuggerEnabled())
            codeBlock->setScopeRegister(codeBlock->scopeRegister() + localsOffset);
    }
    
    MacroAssembler::Label stackOverflowException;

    {
        CCallHelpers checkJIT(&vm, codeBlock);
        
        // At this point it's perfectly fair to just blow away all state and restore the
        // JS JIT view of the universe.
        checkJIT.copyCalleeSavesToVMCalleeSavesBuffer();
        checkJIT.move(MacroAssembler::TrustedImmPtr(&vm), GPRInfo::argumentGPR0);
        checkJIT.move(GPRInfo::callFrameRegister, GPRInfo::argumentGPR1);
        MacroAssembler::Call callLookupExceptionHandler = checkJIT.call();
        checkJIT.jumpToExceptionHandler();

        stackOverflowException = checkJIT.label();
        checkJIT.copyCalleeSavesToVMCalleeSavesBuffer();
        checkJIT.move(MacroAssembler::TrustedImmPtr(&vm), GPRInfo::argumentGPR0);
        checkJIT.move(GPRInfo::callFrameRegister, GPRInfo::argumentGPR1);
        MacroAssembler::Call callLookupExceptionHandlerFromCallerFrame = checkJIT.call();
        checkJIT.jumpToExceptionHandler();

        auto linkBuffer = std::make_unique<LinkBuffer>(
            vm, checkJIT, codeBlock, JITCompilationCanFail);
        if (linkBuffer->didFailToAllocate()) {
            state.allocationFailed = true;
            return;
        }
        linkBuffer->link(callLookupExceptionHandler, FunctionPtr(lookupExceptionHandler));
        linkBuffer->link(callLookupExceptionHandlerFromCallerFrame, FunctionPtr(lookupExceptionHandlerFromCallerFrame));

        state.finalizer->handleExceptionsLinkBuffer = WTF::move(linkBuffer);
    }

    ExitThunkGenerator exitThunkGenerator(state);
    exitThunkGenerator.emitThunks();
    if (exitThunkGenerator.didThings()) {
        RELEASE_ASSERT(state.finalizer->osrExit.size());
        
        auto linkBuffer = std::make_unique<LinkBuffer>(
            vm, exitThunkGenerator, codeBlock, JITCompilationCanFail);
        if (linkBuffer->didFailToAllocate()) {
            state.allocationFailed = true;
            return;
        }
        
        RELEASE_ASSERT(state.finalizer->osrExit.size() == state.jitCode->osrExit.size());
        
        for (unsigned i = 0; i < state.jitCode->osrExit.size(); ++i) {
            OSRExitCompilationInfo& info = state.finalizer->osrExit[i];
            OSRExit& exit = jitCode->osrExit[i];
            
            if (verboseCompilationEnabled())
                dataLog("Handling OSR stackmap #", exit.m_stackmapID, " for ", exit.m_codeOrigin, "\n");

            auto iter = recordMap.find(exit.m_stackmapID);
            if (iter == recordMap.end()) {
                // It was optimized out.
                continue;
            }
            
            info.m_thunkAddress = linkBuffer->locationOf(info.m_thunkLabel);
            exit.m_patchableCodeOffset = linkBuffer->offsetOf(info.m_thunkJump);
            
            for (unsigned j = exit.m_values.size(); j--;)
                exit.m_values[j] = exit.m_values[j].withLocalsOffset(localsOffset);
            for (ExitTimeObjectMaterialization* materialization : exit.m_materializations)
                materialization->accountForLocalsOffset(localsOffset);
            
            if (verboseCompilationEnabled()) {
                DumpContext context;
                dataLog("    Exit values: ", inContext(exit.m_values, &context), "\n");
                if (!exit.m_materializations.isEmpty()) {
                    dataLog("    Materializations: \n");
                    for (ExitTimeObjectMaterialization* materialization : exit.m_materializations)
                        dataLog("        Materialize(", pointerDump(materialization), ")\n");
                }
            }
        }
        
        state.finalizer->exitThunksLinkBuffer = WTF::move(linkBuffer);
    }

    if (!state.getByIds.isEmpty() || !state.putByIds.isEmpty() || !state.checkIns.isEmpty()) {
        CCallHelpers slowPathJIT(&vm, codeBlock);
        
        CCallHelpers::JumpList exceptionTarget;
        
        for (unsigned i = state.getByIds.size(); i--;) {
            GetByIdDescriptor& getById = state.getByIds[i];
            
            if (verboseCompilationEnabled())
                dataLog("Handling GetById stackmap #", getById.stackmapID(), "\n");
            
            auto iter = recordMap.find(getById.stackmapID());
            if (iter == recordMap.end()) {
                // It was optimized out.
                continue;
            }
            
            CodeOrigin codeOrigin = state.jitCode->common.codeOrigins[getById.callSiteIndex().bits()];
            for (unsigned i = 0; i < iter->value.size(); ++i) {
                StackMaps::Record& record = iter->value[i];
            
                RegisterSet usedRegisters = usedRegistersFor(record);
                
                GPRReg result = record.locations[0].directGPR();
                GPRReg base = record.locations[1].directGPR();
                
                JITGetByIdGenerator gen(
                    codeBlock, codeOrigin, getById.callSiteIndex(), usedRegisters, JSValueRegs(base),
                    JSValueRegs(result), NeedToSpill);
                
                MacroAssembler::Label begin = slowPathJIT.label();

                MacroAssembler::Call call = callOperation(
                    state, usedRegisters, slowPathJIT, codeOrigin, &exceptionTarget,
                    operationGetByIdOptimize, result, gen.stubInfo(), base, getById.uid());

                gen.reportSlowPathCall(begin, call);

                getById.m_slowPathDone.append(slowPathJIT.jump());
                getById.m_generators.append(gen);
            }
        }
        
        for (unsigned i = state.putByIds.size(); i--;) {
            PutByIdDescriptor& putById = state.putByIds[i];
            
            if (verboseCompilationEnabled())
                dataLog("Handling PutById stackmap #", putById.stackmapID(), "\n");
            
            auto iter = recordMap.find(putById.stackmapID());
            if (iter == recordMap.end()) {
                // It was optimized out.
                continue;
            }
            
            CodeOrigin codeOrigin = state.jitCode->common.codeOrigins[putById.callSiteIndex().bits()];
            for (unsigned i = 0; i < iter->value.size(); ++i) {
                StackMaps::Record& record = iter->value[i];
                
                RegisterSet usedRegisters = usedRegistersFor(record);
                
                GPRReg base = record.locations[0].directGPR();
                GPRReg value = record.locations[1].directGPR();
                
                JITPutByIdGenerator gen(
                    codeBlock, codeOrigin, putById.callSiteIndex(), usedRegisters, JSValueRegs(base),
                    JSValueRegs(value), GPRInfo::patchpointScratchRegister, NeedToSpill,
                    putById.ecmaMode(), putById.putKind());
                
                MacroAssembler::Label begin = slowPathJIT.label();
                
                MacroAssembler::Call call = callOperation(
                    state, usedRegisters, slowPathJIT, codeOrigin, &exceptionTarget,
                    gen.slowPathFunction(), gen.stubInfo(), value, base, putById.uid());
                
                gen.reportSlowPathCall(begin, call);
                
                putById.m_slowPathDone.append(slowPathJIT.jump());
                putById.m_generators.append(gen);
            }
        }

        for (unsigned i = state.checkIns.size(); i--;) {
            CheckInDescriptor& checkIn = state.checkIns[i];
            
            if (verboseCompilationEnabled())
                dataLog("Handling checkIn stackmap #", checkIn.stackmapID(), "\n");
            
            auto iter = recordMap.find(checkIn.stackmapID());
            if (iter == recordMap.end()) {
                // It was optimized out.
                continue;
            }
            
            CodeOrigin codeOrigin = state.jitCode->common.codeOrigins[checkIn.callSiteIndex().bits()];
            for (unsigned i = 0; i < iter->value.size(); ++i) {
                StackMaps::Record& record = iter->value[i];
                RegisterSet usedRegisters = usedRegistersFor(record);
                GPRReg result = record.locations[0].directGPR();
                GPRReg obj = record.locations[1].directGPR();
                StructureStubInfo* stubInfo = codeBlock->addStubInfo(AccessType::In); 
                stubInfo->codeOrigin = codeOrigin;
                stubInfo->callSiteIndex = checkIn.callSiteIndex();
                stubInfo->patch.baseGPR = static_cast<int8_t>(obj);
                stubInfo->patch.valueGPR = static_cast<int8_t>(result);
                stubInfo->patch.usedRegisters = usedRegisters;
                stubInfo->patch.spillMode = NeedToSpill;

                MacroAssembler::Label begin = slowPathJIT.label();

                MacroAssembler::Call slowCall = callOperation(
                    state, usedRegisters, slowPathJIT, codeOrigin, &exceptionTarget,
                    operationInOptimize, result, stubInfo, obj, checkIn.m_uid);

                checkIn.m_slowPathDone.append(slowPathJIT.jump());
                
                checkIn.m_generators.append(CheckInGenerator(stubInfo, slowCall, begin));
            }
        }
        
        exceptionTarget.link(&slowPathJIT);
        MacroAssembler::Jump exceptionJump = slowPathJIT.jump();
        
        state.finalizer->sideCodeLinkBuffer = std::make_unique<LinkBuffer>(vm, slowPathJIT, codeBlock, JITCompilationCanFail);
        if (state.finalizer->sideCodeLinkBuffer->didFailToAllocate()) {
            state.allocationFailed = true;
            return;
        }
        state.finalizer->sideCodeLinkBuffer->link(
            exceptionJump, state.finalizer->handleExceptionsLinkBuffer->entrypoint());
        
        for (unsigned i = state.getByIds.size(); i--;) {
            generateICFastPath(
                state, codeBlock, generatedFunction, recordMap, state.getByIds[i],
                sizeOfGetById());
        }
        for (unsigned i = state.putByIds.size(); i--;) {
            generateICFastPath(
                state, codeBlock, generatedFunction, recordMap, state.putByIds[i],
                sizeOfPutById());
        }

        for (unsigned i = state.checkIns.size(); i--;) {
            generateCheckInICFastPath(
                state, codeBlock, generatedFunction, recordMap, state.checkIns[i],
                sizeOfIn()); 
        } 
    }
    
    adjustCallICsForStackmaps(state.jsCalls, recordMap);
    
    for (unsigned i = state.jsCalls.size(); i--;) {
        JSCall& call = state.jsCalls[i];

        CCallHelpers fastPathJIT(&vm, codeBlock);
        call.emit(fastPathJIT, state.jitCode->stackmaps.stackSizeForLocals());

        char* startOfIC = bitwise_cast<char*>(generatedFunction) + call.m_instructionOffset;

        generateInlineIfPossibleOutOfLineIfNot(state, vm, codeBlock, fastPathJIT, startOfIC, sizeOfCall(), "JSCall inline cache", [&] (LinkBuffer& linkBuffer, CCallHelpers&, bool) {
            call.link(vm, linkBuffer);
        });
    }
    
    adjustCallICsForStackmaps(state.jsCallVarargses, recordMap);
    
    for (unsigned i = state.jsCallVarargses.size(); i--;) {
        JSCallVarargs& call = state.jsCallVarargses[i];
        
        CCallHelpers fastPathJIT(&vm, codeBlock);
        call.emit(fastPathJIT, varargsSpillSlotsOffset);

        char* startOfIC = bitwise_cast<char*>(generatedFunction) + call.m_instructionOffset;
        size_t sizeOfIC = sizeOfICFor(call.node());

        generateInlineIfPossibleOutOfLineIfNot(state, vm, codeBlock, fastPathJIT, startOfIC, sizeOfIC, "varargs call inline cache", [&] (LinkBuffer& linkBuffer, CCallHelpers&, bool) {
            call.link(vm, linkBuffer, state.finalizer->handleExceptionsLinkBuffer->entrypoint());
        });
    }

    adjustCallICsForStackmaps(state.jsTailCalls, recordMap);

    for (unsigned i = state.jsTailCalls.size(); i--;) {
        JSTailCall& call = state.jsTailCalls[i];

        CCallHelpers fastPathJIT(&vm, codeBlock);
        call.emit(*state.jitCode.get(), fastPathJIT);

        char* startOfIC = bitwise_cast<char*>(generatedFunction) + call.m_instructionOffset;
        size_t sizeOfIC = call.estimatedSize();

        generateInlineIfPossibleOutOfLineIfNot(state, vm, codeBlock, fastPathJIT, startOfIC, sizeOfIC, "tail call inline cache", [&] (LinkBuffer& linkBuffer, CCallHelpers&, bool) {
            call.link(vm, linkBuffer);
        });
    }
    
    auto iter = recordMap.find(state.handleStackOverflowExceptionStackmapID);
    // It's sort of remotely possible that we won't have an in-band exception handling
    // path, for some kinds of functions.
    if (iter != recordMap.end()) {
        for (unsigned i = iter->value.size(); i--;) {
            StackMaps::Record& record = iter->value[i];
            
            CodeLocationLabel source = CodeLocationLabel(
                bitwise_cast<char*>(generatedFunction) + record.instructionOffset);

            RELEASE_ASSERT(stackOverflowException.isSet());

            MacroAssembler::replaceWithJump(source, state.finalizer->handleExceptionsLinkBuffer->locationOf(stackOverflowException));
        }
    }
    
    iter = recordMap.find(state.handleExceptionStackmapID);
    // It's sort of remotely possible that we won't have an in-band exception handling
    // path, for some kinds of functions.
    if (iter != recordMap.end()) {
        for (unsigned i = iter->value.size(); i--;) {
            StackMaps::Record& record = iter->value[i];
            
            CodeLocationLabel source = CodeLocationLabel(
                bitwise_cast<char*>(generatedFunction) + record.instructionOffset);
            
            MacroAssembler::replaceWithJump(source, state.finalizer->handleExceptionsLinkBuffer->entrypoint());
        }
    }
    
    for (unsigned exitIndex = 0; exitIndex < jitCode->osrExit.size(); ++exitIndex) {
        OSRExitCompilationInfo& info = state.finalizer->osrExit[exitIndex];
        OSRExit& exit = jitCode->osrExit[exitIndex];
        iter = recordMap.find(exit.m_stackmapID);
        
        Vector<const void*> codeAddresses;
        
        if (iter != recordMap.end()) {
            for (unsigned i = iter->value.size(); i--;) {
                StackMaps::Record& record = iter->value[i];
                
                CodeLocationLabel source = CodeLocationLabel(
                    bitwise_cast<char*>(generatedFunction) + record.instructionOffset);
                
                codeAddresses.append(bitwise_cast<char*>(generatedFunction) + record.instructionOffset + MacroAssembler::maxJumpReplacementSize());
                
                if (info.m_isInvalidationPoint)
                    jitCode->common.jumpReplacements.append(JumpReplacement(source, info.m_thunkAddress));
                else
                    MacroAssembler::replaceWithJump(source, info.m_thunkAddress);
            }
        }
        
        if (graph.compilation())
            graph.compilation()->addOSRExitSite(codeAddresses);
    }
}
Exemplo n.º 8
0
void JITCompiler::compileFunction()
{
    setStartOfCode();
    compileEntry();

    // === Function header code generation ===
    // This is the main entry point, without performing an arity check.
    // If we needed to perform an arity check we will already have moved the return address,
    // so enter after this.
    Label fromArityCheck(this);
    // Plant a check that sufficient space is available in the JSStack.
    addPtr(TrustedImm32(virtualRegisterForLocal(m_graph.requiredRegisterCountForExecutionAndExit() - 1).offset() * sizeof(Register)), GPRInfo::callFrameRegister, GPRInfo::regT1);
    Jump stackOverflow = branchPtr(Above, AbsoluteAddress(m_vm->addressOfStackLimit()), GPRInfo::regT1);

    // Move the stack pointer down to accommodate locals
    addPtr(TrustedImm32(m_graph.stackPointerOffset() * sizeof(Register)), GPRInfo::callFrameRegister, stackPointerRegister);
    checkStackPointerAlignment();

    compileSetupRegistersForEntry();
    compileEntryExecutionFlag();

    // === Function body code generation ===
    m_speculative = std::make_unique<SpeculativeJIT>(*this);
    compileBody();
    setEndOfMainPath();

    // === Function footer code generation ===
    //
    // Generate code to perform the stack overflow handling (if the stack check in
    // the function header fails), and generate the entry point with arity check.
    //
    // Generate the stack overflow handling; if the stack check in the function head fails,
    // we need to call out to a helper function to throw the StackOverflowError.
    stackOverflow.link(this);

    emitStoreCodeOrigin(CodeOrigin(0));

    if (maxFrameExtentForSlowPathCall)
        addPtr(TrustedImm32(-maxFrameExtentForSlowPathCall), stackPointerRegister);

    m_speculative->callOperationWithCallFrameRollbackOnException(operationThrowStackOverflowError, m_codeBlock);
    
    // The fast entry point into a function does not check the correct number of arguments
    // have been passed to the call (we only use the fast entry point where we can statically
    // determine the correct number of arguments have been passed, or have already checked).
    // In cases where an arity check is necessary, we enter here.
    // FIXME: change this from a cti call to a DFG style operation (normal C calling conventions).
    m_arityCheck = label();
    compileEntry();

    load32(AssemblyHelpers::payloadFor((VirtualRegister)JSStack::ArgumentCount), GPRInfo::regT1);
    branch32(AboveOrEqual, GPRInfo::regT1, TrustedImm32(m_codeBlock->numParameters())).linkTo(fromArityCheck, this);
    emitStoreCodeOrigin(CodeOrigin(0));
    if (maxFrameExtentForSlowPathCall)
        addPtr(TrustedImm32(-maxFrameExtentForSlowPathCall), stackPointerRegister);
    m_speculative->callOperationWithCallFrameRollbackOnException(m_codeBlock->m_isConstructor ? operationConstructArityCheck : operationCallArityCheck, GPRInfo::regT0);
    if (maxFrameExtentForSlowPathCall)
        addPtr(TrustedImm32(maxFrameExtentForSlowPathCall), stackPointerRegister);
    branchTest32(Zero, GPRInfo::returnValueGPR).linkTo(fromArityCheck, this);
    emitStoreCodeOrigin(CodeOrigin(0));
    move(GPRInfo::returnValueGPR, GPRInfo::argumentGPR0);
    m_callArityFixup = call();
    jump(fromArityCheck);
    
    // Generate slow path code.
    m_speculative->runSlowPathGenerators(m_pcToCodeOriginMapBuilder);
    m_pcToCodeOriginMapBuilder.appendItem(label(), PCToCodeOriginMapBuilder::defaultCodeOrigin());
    
    compileExceptionHandlers();
    linkOSRExits();
    
    // Create OSR entry trampolines if necessary.
    m_speculative->createOSREntries();
    setEndOfCode();

    // === Link ===
    auto linkBuffer = std::make_unique<LinkBuffer>(*m_vm, *this, m_codeBlock, JITCompilationCanFail);
    if (linkBuffer->didFailToAllocate()) {
        m_graph.m_plan.finalizer = std::make_unique<FailedFinalizer>(m_graph.m_plan);
        return;
    }
    link(*linkBuffer);
    m_speculative->linkOSREntries(*linkBuffer);
    
    m_jitCode->shrinkToFit();
    codeBlock()->shrinkToFit(CodeBlock::LateShrink);
    
    linkBuffer->link(m_callArityFixup, FunctionPtr((m_vm->getCTIStub(arityFixupGenerator)).code().executableAddress()));
    
    disassemble(*linkBuffer);

    MacroAssemblerCodePtr withArityCheck = linkBuffer->locationOf(m_arityCheck);

    m_graph.m_plan.finalizer = std::make_unique<JITFinalizer>(
        m_graph.m_plan, m_jitCode.release(), WTFMove(linkBuffer), withArityCheck);
}