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author | wolfbeast <mcwerewolf@wolfbeast.com> | 2020-02-23 14:41:40 +0100 |
---|---|---|
committer | wolfbeast <mcwerewolf@wolfbeast.com> | 2020-02-23 14:41:40 +0100 |
commit | dd57b9273c7c95a7cdabc94854c8dc63b0653f02 (patch) | |
tree | 545f5066b231b616f92b3702982d8276fed13f01 | |
parent | be16123ddcaf061afced444a6db7d5b55020b744 (diff) | |
download | UXP-dd57b9273c7c95a7cdabc94854c8dc63b0653f02.tar UXP-dd57b9273c7c95a7cdabc94854c8dc63b0653f02.tar.gz UXP-dd57b9273c7c95a7cdabc94854c8dc63b0653f02.tar.lz UXP-dd57b9273c7c95a7cdabc94854c8dc63b0653f02.tar.xz UXP-dd57b9273c7c95a7cdabc94854c8dc63b0653f02.zip |
Revert #1137 - Remove unboxed arrays
- accounting for removal of watch()/unwatch()
- updated for intermediate code changes.
59 files changed, 3543 insertions, 630 deletions
diff --git a/js/src/builtin/ModuleObject.cpp b/js/src/builtin/ModuleObject.cpp index 575bab0b0..b275cb968 100644 --- a/js/src/builtin/ModuleObject.cpp +++ b/js/src/builtin/ModuleObject.cpp @@ -927,7 +927,7 @@ ModuleObject::evaluate(JSContext* cx, HandleModuleObject self, MutableHandleValu ModuleObject::createNamespace(JSContext* cx, HandleModuleObject self, HandleObject exports) { MOZ_ASSERT(!self->namespace_()); - MOZ_ASSERT(exports->is<ArrayObject>()); + MOZ_ASSERT(exports->is<ArrayObject>() || exports->is<UnboxedArrayObject>()); RootedModuleNamespaceObject ns(cx, ModuleNamespaceObject::create(cx, self)); if (!ns) diff --git a/js/src/frontend/BytecodeEmitter.cpp b/js/src/frontend/BytecodeEmitter.cpp index f4574b248..8cd06feac 100644 --- a/js/src/frontend/BytecodeEmitter.cpp +++ b/js/src/frontend/BytecodeEmitter.cpp @@ -6495,8 +6495,8 @@ ParseNode::getConstantValue(ExclusiveContext* cx, AllowConstantObjects allowObje } MOZ_ASSERT(idx == count); - ArrayObject* obj = ObjectGroup::newArrayObject(cx, values.begin(), values.length(), - newKind, arrayKind); + JSObject* obj = ObjectGroup::newArrayObject(cx, values.begin(), values.length(), + newKind, arrayKind); if (!obj) return false; @@ -9623,7 +9623,7 @@ BytecodeEmitter::emitCallOrNew(ParseNode* pn, ValueUsage valueUsage /* = ValueUs return false; } - if (!emitArray(args, argc)) + if (!emitArray(args, argc, JSOP_SPREADCALLARRAY)) return false; if (optCodeEmitted) { @@ -10138,11 +10138,11 @@ BytecodeEmitter::emitArrayLiteral(ParseNode* pn) } } - return emitArray(pn->pn_head, pn->pn_count); + return emitArray(pn->pn_head, pn->pn_count, JSOP_NEWARRAY); } bool -BytecodeEmitter::emitArray(ParseNode* pn, uint32_t count) +BytecodeEmitter::emitArray(ParseNode* pn, uint32_t count, JSOp op) { /* @@ -10153,6 +10153,7 @@ BytecodeEmitter::emitArray(ParseNode* pn, uint32_t count) * to avoid dup'ing and popping the array as each element is added, as * JSOP_SETELEM/JSOP_SETPROP would do. */ + MOZ_ASSERT(op == JSOP_NEWARRAY || op == JSOP_SPREADCALLARRAY); uint32_t nspread = 0; for (ParseNode* elt = pn; elt; elt = elt->pn_next) { @@ -10173,7 +10174,7 @@ BytecodeEmitter::emitArray(ParseNode* pn, uint32_t count) // For arrays with spread, this is a very pessimistic allocation, the // minimum possible final size. - if (!emitUint32Operand(JSOP_NEWARRAY, count - nspread)) // ARRAY + if (!emitUint32Operand(op, count - nspread)) // ARRAY return false; ParseNode* pn2 = pn; @@ -11314,8 +11315,8 @@ BytecodeEmitter::setSrcNoteOffset(unsigned index, unsigned which, ptrdiff_t offs /* Maybe this offset was already set to a four-byte value. */ if (!(*sn & SN_4BYTE_OFFSET_FLAG)) { /* Insert three dummy bytes that will be overwritten shortly. */ - if (MOZ_UNLIKELY(notes.length() + 3 > MaxSrcNotesLength)) {
- ReportAllocationOverflow(cx);
+ if (MOZ_UNLIKELY(notes.length() + 3 > MaxSrcNotesLength)) { + ReportAllocationOverflow(cx); return false; } jssrcnote dummy = 0; diff --git a/js/src/frontend/BytecodeEmitter.h b/js/src/frontend/BytecodeEmitter.h index 8ad409c11..77f77599c 100644 --- a/js/src/frontend/BytecodeEmitter.h +++ b/js/src/frontend/BytecodeEmitter.h @@ -543,7 +543,7 @@ struct MOZ_STACK_CLASS BytecodeEmitter MOZ_MUST_USE bool emitAtomOp(ParseNode* pn, JSOp op); MOZ_MUST_USE bool emitArrayLiteral(ParseNode* pn); - MOZ_MUST_USE bool emitArray(ParseNode* pn, uint32_t count); + MOZ_MUST_USE bool emitArray(ParseNode* pn, uint32_t count, JSOp op); MOZ_MUST_USE bool emitArrayComp(ParseNode* pn); MOZ_MUST_USE bool emitInternedScopeOp(uint32_t index, JSOp op); diff --git a/js/src/gc/Marking.cpp b/js/src/gc/Marking.cpp index 262fc8cbc..a206a8762 100644 --- a/js/src/gc/Marking.cpp +++ b/js/src/gc/Marking.cpp @@ -2504,6 +2504,8 @@ js::TenuringTracer::moveObjectToTenured(JSObject* dst, JSObject* src, AllocKind InlineTypedObject::objectMovedDuringMinorGC(this, dst, src); } else if (src->is<TypedArrayObject>()) { tenuredSize += TypedArrayObject::objectMovedDuringMinorGC(this, dst, src, dstKind); + } else if (src->is<UnboxedArrayObject>()) { + tenuredSize += UnboxedArrayObject::objectMovedDuringMinorGC(this, dst, src, dstKind); } else if (src->is<ArgumentsObject>()) { tenuredSize += ArgumentsObject::objectMovedDuringMinorGC(this, dst, src); } else if (src->is<ProxyObject>()) { diff --git a/js/src/jit/AliasAnalysisShared.cpp b/js/src/jit/AliasAnalysisShared.cpp index 400626b33..1a643698f 100644 --- a/js/src/jit/AliasAnalysisShared.cpp +++ b/js/src/jit/AliasAnalysisShared.cpp @@ -91,6 +91,10 @@ GetObject(const MDefinition* ins) case MDefinition::Op_Elements: case MDefinition::Op_MaybeCopyElementsForWrite: case MDefinition::Op_MaybeToDoubleElement: + case MDefinition::Op_UnboxedArrayLength: + case MDefinition::Op_UnboxedArrayInitializedLength: + case MDefinition::Op_IncrementUnboxedArrayInitializedLength: + case MDefinition::Op_SetUnboxedArrayInitializedLength: case MDefinition::Op_TypedArrayLength: case MDefinition::Op_SetTypedObjectOffset: case MDefinition::Op_SetDisjointTypedElements: diff --git a/js/src/jit/BaselineCacheIR.cpp b/js/src/jit/BaselineCacheIR.cpp index 7fb586811..bf96932d1 100644 --- a/js/src/jit/BaselineCacheIR.cpp +++ b/js/src/jit/BaselineCacheIR.cpp @@ -787,6 +787,9 @@ BaselineCacheIRCompiler::emitGuardClass() case GuardClassKind::Array: clasp = &ArrayObject::class_; break; + case GuardClassKind::UnboxedArray: + clasp = &UnboxedArrayObject::class_; + break; case GuardClassKind::MappedArguments: clasp = &MappedArgumentsObject::class_; break; @@ -1001,6 +1004,19 @@ BaselineCacheIRCompiler::emitLoadInt32ArrayLengthResult() } bool +BaselineCacheIRCompiler::emitLoadUnboxedArrayLengthResult() +{ + Register obj = allocator.useRegister(masm, reader.objOperandId()); + masm.load32(Address(obj, UnboxedArrayObject::offsetOfLength()), R0.scratchReg()); + masm.tagValue(JSVAL_TYPE_INT32, R0.scratchReg(), R0); + + // The int32 type was monitored when attaching the stub, so we can + // just return. + emitReturnFromIC(); + return true; +} + +bool BaselineCacheIRCompiler::emitLoadArgumentsObjectLengthResult() { Register obj = allocator.useRegister(masm, reader.objOperandId()); diff --git a/js/src/jit/BaselineCompiler.cpp b/js/src/jit/BaselineCompiler.cpp index d254b9826..ae5a2e666 100644 --- a/js/src/jit/BaselineCompiler.cpp +++ b/js/src/jit/BaselineCompiler.cpp @@ -2050,7 +2050,13 @@ BaselineCompiler::emit_JSOP_NEWARRAY() return true; } -typedef ArrayObject* (*NewArrayCopyOnWriteFn)(JSContext*, HandleArrayObject, gc::InitialHeap); +bool +BaselineCompiler::emit_JSOP_SPREADCALLARRAY() +{ + return emit_JSOP_NEWARRAY(); +} + +typedef JSObject* (*NewArrayCopyOnWriteFn)(JSContext*, HandleArrayObject, gc::InitialHeap); const VMFunction jit::NewArrayCopyOnWriteInfo = FunctionInfo<NewArrayCopyOnWriteFn>(js::NewDenseCopyOnWriteArray, "NewDenseCopyOnWriteArray"); @@ -4181,14 +4187,14 @@ BaselineCompiler::emit_JSOP_REST() { frame.syncStack(0); - ArrayObject* templateObject = + JSObject* templateObject = ObjectGroup::newArrayObject(cx, nullptr, 0, TenuredObject, ObjectGroup::NewArrayKind::UnknownIndex); if (!templateObject) return false; // Call IC. - ICRest_Fallback::Compiler compiler(cx, templateObject); + ICRest_Fallback::Compiler compiler(cx, &templateObject->as<ArrayObject>()); if (!emitOpIC(compiler.getStub(&stubSpace_))) return false; diff --git a/js/src/jit/BaselineCompiler.h b/js/src/jit/BaselineCompiler.h index a200f7ab9..7b1af092a 100644 --- a/js/src/jit/BaselineCompiler.h +++ b/js/src/jit/BaselineCompiler.h @@ -100,6 +100,7 @@ namespace jit { _(JSOP_BITNOT) \ _(JSOP_NEG) \ _(JSOP_NEWARRAY) \ + _(JSOP_SPREADCALLARRAY) \ _(JSOP_NEWARRAY_COPYONWRITE) \ _(JSOP_INITELEM_ARRAY) \ _(JSOP_NEWOBJECT) \ diff --git a/js/src/jit/BaselineIC.cpp b/js/src/jit/BaselineIC.cpp index 1b98325b7..9c8cd9835 100644 --- a/js/src/jit/BaselineIC.cpp +++ b/js/src/jit/BaselineIC.cpp @@ -1375,7 +1375,7 @@ IsNativeDenseElementAccess(HandleObject obj, HandleValue key) static bool IsNativeOrUnboxedDenseElementAccess(HandleObject obj, HandleValue key) { - if (!obj->isNative()) + if (!obj->isNative() && !obj->is<UnboxedArrayObject>()) return false; if (key.isInt32() && key.toInt32() >= 0 && !obj->is<TypedArrayObject>()) return true; @@ -1479,6 +1479,20 @@ TryAttachGetElemStub(JSContext* cx, JSScript* script, jsbytecode* pc, ICGetElem_ script = rootedScript; } + // Check for UnboxedArray[int] accesses. + if (obj->is<UnboxedArrayObject>() && rhs.isInt32() && rhs.toInt32() >= 0) { + JitSpew(JitSpew_BaselineIC, " Generating GetElem(UnboxedArray[Int32]) stub"); + ICGetElem_UnboxedArray::Compiler compiler(cx, stub->fallbackMonitorStub()->firstMonitorStub(), + obj->group()); + ICStub* unboxedStub = compiler.getStub(compiler.getStubSpace(script)); + if (!unboxedStub) + return false; + + stub->addNewStub(unboxedStub); + *attached = true; + return true; + } + // Check for TypedArray[int] => Number and TypedObject[int] => Number accesses. if ((obj->is<TypedArrayObject>() || IsPrimitiveArrayTypedObject(obj)) && rhs.isNumber() && @@ -2085,6 +2099,56 @@ ICGetElem_Dense::Compiler::generateStubCode(MacroAssembler& masm) } // +// GetElem_UnboxedArray +// + +bool +ICGetElem_UnboxedArray::Compiler::generateStubCode(MacroAssembler& masm) +{ + MOZ_ASSERT(engine_ == Engine::Baseline); + + Label failure; + masm.branchTestObject(Assembler::NotEqual, R0, &failure); + masm.branchTestInt32(Assembler::NotEqual, R1, &failure); + + AllocatableGeneralRegisterSet regs(availableGeneralRegs(2)); + Register scratchReg = regs.takeAny(); + + // Unbox R0 and group guard. + Register obj = masm.extractObject(R0, ExtractTemp0); + masm.loadPtr(Address(ICStubReg, ICGetElem_UnboxedArray::offsetOfGroup()), scratchReg); + masm.branchTestObjGroup(Assembler::NotEqual, obj, scratchReg, &failure); + + // Unbox key. + Register key = masm.extractInt32(R1, ExtractTemp1); + + // Bounds check. + masm.load32(Address(obj, UnboxedArrayObject::offsetOfCapacityIndexAndInitializedLength()), + scratchReg); + masm.and32(Imm32(UnboxedArrayObject::InitializedLengthMask), scratchReg); + masm.branch32(Assembler::BelowOrEqual, scratchReg, key, &failure); + + // Load obj->elements. + masm.loadPtr(Address(obj, UnboxedArrayObject::offsetOfElements()), scratchReg); + + // Load value. + size_t width = UnboxedTypeSize(elementType_); + BaseIndex addr(scratchReg, key, ScaleFromElemWidth(width)); + masm.loadUnboxedProperty(addr, elementType_, R0); + + // Only monitor the result if its type might change. + if (elementType_ == JSVAL_TYPE_OBJECT) + EmitEnterTypeMonitorIC(masm); + else + EmitReturnFromIC(masm); + + // Failure case - jump to next stub + masm.bind(&failure); + EmitStubGuardFailure(masm); + return true; +} + +// // GetElem_TypedArray // @@ -2388,8 +2452,8 @@ CanOptimizeDenseOrUnboxedArraySetElem(JSObject* obj, uint32_t index, Shape* oldShape, uint32_t oldCapacity, uint32_t oldInitLength, bool* isAddingCaseOut, size_t* protoDepthOut) { - uint32_t initLength = obj->as<NativeObject>().getDenseInitializedLength(); - uint32_t capacity = obj->as<NativeObject>().getDenseCapacity(); + uint32_t initLength = GetAnyBoxedOrUnboxedInitializedLength(obj); + uint32_t capacity = GetAnyBoxedOrUnboxedCapacity(obj); *isAddingCaseOut = false; *protoDepthOut = 0; @@ -2398,6 +2462,10 @@ CanOptimizeDenseOrUnboxedArraySetElem(JSObject* obj, uint32_t index, if (initLength < oldInitLength || capacity < oldCapacity) return false; + // Unboxed arrays need to be able to emit floating point code. + if (obj->is<UnboxedArrayObject>() && !obj->runtimeFromMainThread()->jitSupportsFloatingPoint) + return false; + Shape* shape = obj->maybeShape(); // Cannot optimize if the shape changed. @@ -2479,8 +2547,8 @@ DoSetElemFallback(JSContext* cx, BaselineFrame* frame, ICSetElem_Fallback* stub_ uint32_t oldCapacity = 0; uint32_t oldInitLength = 0; if (index.isInt32() && index.toInt32() >= 0) { - oldCapacity = obj->as<NativeObject>().getDenseCapacity(); - oldInitLength = obj->as<NativeObject>().getDenseInitializedLength(); + oldCapacity = GetAnyBoxedOrUnboxedCapacity(obj); + oldInitLength = GetAnyBoxedOrUnboxedInitializedLength(obj); } if (op == JSOP_INITELEM || op == JSOP_INITHIDDENELEM) { @@ -2818,6 +2886,29 @@ ICSetElem_DenseOrUnboxedArray::Compiler::generateStubCode(MacroAssembler& masm) masm.loadValue(valueAddr, tmpVal); EmitPreBarrier(masm, element, MIRType::Value); masm.storeValue(tmpVal, element); + } else { + // Set element on an unboxed array. + + // Bounds check. + Address initLength(obj, UnboxedArrayObject::offsetOfCapacityIndexAndInitializedLength()); + masm.load32(initLength, scratchReg); + masm.and32(Imm32(UnboxedArrayObject::InitializedLengthMask), scratchReg); + masm.branch32(Assembler::BelowOrEqual, scratchReg, key, &failure); + + // Load obj->elements. + masm.loadPtr(Address(obj, UnboxedArrayObject::offsetOfElements()), scratchReg); + + // Compute the address being written to. + BaseIndex address(scratchReg, key, ScaleFromElemWidth(UnboxedTypeSize(unboxedType_))); + + EmitUnboxedPreBarrierForBaseline(masm, address, unboxedType_); + + Address valueAddr(masm.getStackPointer(), ICStackValueOffset + sizeof(Value)); + masm.Push(R0); + masm.loadValue(valueAddr, R0); + masm.storeUnboxedProperty(address, unboxedType_, + ConstantOrRegister(TypedOrValueRegister(R0)), &failurePopR0); + masm.Pop(R0); } EmitReturnFromIC(masm); @@ -3011,6 +3102,40 @@ ICSetElemDenseOrUnboxedArrayAddCompiler::generateStubCode(MacroAssembler& masm) BaseIndex element(scratchReg, key, TimesEight); masm.loadValue(valueAddr, tmpVal); masm.storeValue(tmpVal, element); + } else { + // Adding element to an unboxed array. + + // Bounds check (key == initLength) + Address initLengthAddr(obj, UnboxedArrayObject::offsetOfCapacityIndexAndInitializedLength()); + masm.load32(initLengthAddr, scratchReg); + masm.and32(Imm32(UnboxedArrayObject::InitializedLengthMask), scratchReg); + masm.branch32(Assembler::NotEqual, scratchReg, key, &failure); + + // Capacity check. + masm.checkUnboxedArrayCapacity(obj, RegisterOrInt32Constant(key), scratchReg, &failure); + + // Load obj->elements. + masm.loadPtr(Address(obj, UnboxedArrayObject::offsetOfElements()), scratchReg); + + // Write the value first, since this can fail. No need for pre-barrier + // since we're not overwriting an old value. + masm.Push(R0); + Address valueAddr(masm.getStackPointer(), ICStackValueOffset + sizeof(Value)); + masm.loadValue(valueAddr, R0); + BaseIndex address(scratchReg, key, ScaleFromElemWidth(UnboxedTypeSize(unboxedType_))); + masm.storeUnboxedProperty(address, unboxedType_, + ConstantOrRegister(TypedOrValueRegister(R0)), &failurePopR0); + masm.Pop(R0); + + // Increment initialized length. + masm.add32(Imm32(1), initLengthAddr); + + // If length is now <= key, increment length. + Address lengthAddr(obj, UnboxedArrayObject::offsetOfLength()); + Label skipIncrementLength; + masm.branch32(Assembler::Above, lengthAddr, key, &skipIncrementLength); + masm.add32(Imm32(1), lengthAddr); + masm.bind(&skipIncrementLength); } EmitReturnFromIC(masm); @@ -5374,6 +5499,13 @@ GetTemplateObjectForSimd(JSContext* cx, JSFunction* target, MutableHandleObject return true; } +static void +EnsureArrayGroupAnalyzed(JSContext* cx, JSObject* obj) +{ + if (PreliminaryObjectArrayWithTemplate* objects = obj->group()->maybePreliminaryObjects()) + objects->maybeAnalyze(cx, obj->group(), /* forceAnalyze = */ true); +} + static bool GetTemplateObjectForNative(JSContext* cx, HandleFunction target, const CallArgs& args, MutableHandleObject res, bool* skipAttach) @@ -5405,7 +5537,10 @@ GetTemplateObjectForNative(JSContext* cx, HandleFunction target, const CallArgs& // With this and other array templates, analyze the group so that // we don't end up with a template whose structure might change later. res.set(NewFullyAllocatedArrayForCallingAllocationSite(cx, count, TenuredObject)); - return !!res; + if (!res) + return false; + EnsureArrayGroupAnalyzed(cx, res); + return true; } } @@ -5430,7 +5565,10 @@ GetTemplateObjectForNative(JSContext* cx, HandleFunction target, const CallArgs& return true; } res.set(NewFullyAllocatedArrayTryReuseGroup(cx, obj, 0, TenuredObject)); - return !!res; + if (!res) + return false; + EnsureArrayGroupAnalyzed(cx, res); + return true; } } } @@ -5447,7 +5585,10 @@ GetTemplateObjectForNative(JSContext* cx, HandleFunction target, const CallArgs& } res.set(NewFullyAllocatedArrayForCallingAllocationSite(cx, 0, TenuredObject)); - return !!res; + if (!res) + return false; + EnsureArrayGroupAnalyzed(cx, res); + return true; } if (native == StringConstructor) { @@ -5760,24 +5901,15 @@ TryAttachCallStub(JSContext* cx, ICCall_Fallback* stub, HandleScript script, jsb } static bool -CopyArray(JSContext* cx, HandleArrayObject arr, MutableHandleValue result) +CopyArray(JSContext* cx, HandleObject obj, MutableHandleValue result) { - uint32_t length = arr->length(); - ArrayObject* nobj = NewFullyAllocatedArrayTryReuseGroup(cx, arr, length, TenuredObject); + uint32_t length = GetAnyBoxedOrUnboxedArrayLength(obj); + JSObject* nobj = NewFullyAllocatedArrayTryReuseGroup(cx, obj, length, TenuredObject); if (!nobj) return false; - - MOZ_ASSERT(arr->isNative()); - MOZ_ASSERT(nobj->isNative()); - MOZ_ASSERT(nobj->as<NativeObject>().getDenseInitializedLength() == 0); - MOZ_ASSERT(arr->as<NativeObject>().getDenseInitializedLength() >= length); - MOZ_ASSERT(nobj->as<NativeObject>().getDenseCapacity() >= length); - - nobj->as<NativeObject>().setDenseInitializedLength(length); - - const Value* vp = arr->as<NativeObject>().getDenseElements(); - nobj->as<NativeObject>().initDenseElements(0, vp, length); - + EnsureArrayGroupAnalyzed(cx, nobj); + CopyAnyBoxedOrUnboxedDenseElements(cx, nobj, obj, 0, 0, length); + result.setObject(*nobj); return true; } @@ -5808,22 +5940,26 @@ TryAttachStringSplit(JSContext* cx, ICCall_Fallback* stub, HandleScript script, RootedValue arr(cx); // Copy the array before storing in stub. - if (!CopyArray(cx, obj.as<ArrayObject>(), &arr)) + if (!CopyArray(cx, obj, &arr)) return false; // Atomize all elements of the array. - RootedArrayObject arrObj(cx, &arr.toObject().as<ArrayObject>()); - uint32_t initLength = arrObj->length(); + RootedObject arrObj(cx, &arr.toObject()); + uint32_t initLength = GetAnyBoxedOrUnboxedArrayLength(arrObj); for (uint32_t i = 0; i < initLength; i++) { - JSAtom* str = js::AtomizeString(cx, arrObj->getDenseElement(i).toString()); + JSAtom* str = js::AtomizeString(cx, GetAnyBoxedOrUnboxedDenseElement(arrObj, i).toString()); if (!str) return false; - arrObj->setDenseElementWithType(cx, i, StringValue(str)); + if (!SetAnyBoxedOrUnboxedDenseElement(cx, arrObj, i, StringValue(str))) { + // The value could not be stored to an unboxed dense element. + return true; + } } ICCall_StringSplit::Compiler compiler(cx, stub->fallbackMonitorStub()->firstMonitorStub(), - script->pcToOffset(pc), str, sep, arrObj); + script->pcToOffset(pc), str, sep, + arr); ICStub* newStub = compiler.getStub(compiler.getStubSpace(script)); if (!newStub) return false; @@ -6711,7 +6847,7 @@ ICCallScriptedCompiler::generateStubCode(MacroAssembler& masm) return true; } -typedef bool (*CopyArrayFn)(JSContext*, HandleArrayObject, MutableHandleValue); +typedef bool (*CopyArrayFn)(JSContext*, HandleObject, MutableHandleValue); static const VMFunction CopyArrayInfo = FunctionInfo<CopyArrayFn>(CopyArray, "CopyArray"); bool @@ -8188,6 +8324,19 @@ ICGetElem_Dense::Clone(JSContext* cx, ICStubSpace* space, ICStub* firstMonitorSt return New<ICGetElem_Dense>(cx, space, other.jitCode(), firstMonitorStub, other.shape_); } +ICGetElem_UnboxedArray::ICGetElem_UnboxedArray(JitCode* stubCode, ICStub* firstMonitorStub, + ObjectGroup *group) + : ICMonitoredStub(GetElem_UnboxedArray, stubCode, firstMonitorStub), + group_(group) +{ } + +/* static */ ICGetElem_UnboxedArray* +ICGetElem_UnboxedArray::Clone(JSContext* cx, ICStubSpace* space, ICStub* firstMonitorStub, + ICGetElem_UnboxedArray& other) +{ + return New<ICGetElem_UnboxedArray>(cx, space, other.jitCode(), firstMonitorStub, other.group_); +} + ICGetElem_TypedArray::ICGetElem_TypedArray(JitCode* stubCode, Shape* shape, Scalar::Type type) : ICStub(GetElem_TypedArray, stubCode), shape_(shape) @@ -8563,8 +8712,8 @@ static bool DoRestFallback(JSContext* cx, BaselineFrame* frame, ICRest_Fallback* unsigned numRest = numActuals > numFormals ? numActuals - numFormals : 0; Value* rest = frame->argv() + numFormals; - ArrayObject* obj = ObjectGroup::newArrayObject(cx, rest, numRest, GenericObject, - ObjectGroup::NewArrayKind::UnknownIndex); + JSObject* obj = ObjectGroup::newArrayObject(cx, rest, numRest, GenericObject, + ObjectGroup::NewArrayKind::UnknownIndex); if (!obj) return false; res.setObject(*obj); diff --git a/js/src/jit/BaselineIC.h b/js/src/jit/BaselineIC.h index a1291a3bb..5600f816a 100644 --- a/js/src/jit/BaselineIC.h +++ b/js/src/jit/BaselineIC.h @@ -892,6 +892,54 @@ class ICGetElem_Dense : public ICMonitoredStub }; }; +class ICGetElem_UnboxedArray : public ICMonitoredStub +{ + friend class ICStubSpace; + + GCPtrObjectGroup group_; + + ICGetElem_UnboxedArray(JitCode* stubCode, ICStub* firstMonitorStub, ObjectGroup* group); + + public: + static ICGetElem_UnboxedArray* Clone(JSContext* cx, ICStubSpace* space, + ICStub* firstMonitorStub, ICGetElem_UnboxedArray& other); + + static size_t offsetOfGroup() { + return offsetof(ICGetElem_UnboxedArray, group_); + } + + GCPtrObjectGroup& group() { + return group_; + } + + class Compiler : public ICStubCompiler { + ICStub* firstMonitorStub_; + RootedObjectGroup group_; + JSValueType elementType_; + + protected: + MOZ_MUST_USE bool generateStubCode(MacroAssembler& masm); + + virtual int32_t getKey() const { + return static_cast<int32_t>(engine_) | + (static_cast<int32_t>(kind) << 1) | + (static_cast<int32_t>(elementType_) << 17); + } + + public: + Compiler(JSContext* cx, ICStub* firstMonitorStub, ObjectGroup* group) + : ICStubCompiler(cx, ICStub::GetElem_UnboxedArray, Engine::Baseline), + firstMonitorStub_(firstMonitorStub), + group_(cx, group), + elementType_(group->unboxedLayoutDontCheckGeneration().elementType()) + {} + + ICStub* getStub(ICStubSpace* space) { + return newStub<ICGetElem_UnboxedArray>(space, getStubCode(), firstMonitorStub_, group_); + } + }; +}; + // Accesses scalar elements of a typed array or typed object. class ICGetElem_TypedArray : public ICStub { @@ -1067,7 +1115,9 @@ class ICSetElem_DenseOrUnboxedArray : public ICUpdatedStub : ICStubCompiler(cx, ICStub::SetElem_DenseOrUnboxedArray, Engine::Baseline), shape_(cx, shape), group_(cx, group), - unboxedType_(JSVAL_TYPE_MAGIC) + unboxedType_(shape + ? JSVAL_TYPE_MAGIC + : group->unboxedLayoutDontCheckGeneration().elementType()) {} ICUpdatedStub* getStub(ICStubSpace* space) { @@ -1175,7 +1225,9 @@ class ICSetElemDenseOrUnboxedArrayAddCompiler : public ICStubCompiler { : ICStubCompiler(cx, ICStub::SetElem_DenseOrUnboxedArrayAdd, Engine::Baseline), obj_(cx, obj), protoChainDepth_(protoChainDepth), - unboxedType_(JSVAL_TYPE_MAGIC) + unboxedType_(obj->is<UnboxedArrayObject>() + ? obj->as<UnboxedArrayObject>().elementType() + : JSVAL_TYPE_MAGIC) {} template <size_t ProtoChainDepth> @@ -2822,10 +2874,10 @@ class ICCall_StringSplit : public ICMonitoredStub uint32_t pcOffset_; GCPtrString expectedStr_; GCPtrString expectedSep_; - GCPtrArrayObject templateObject_; + GCPtrObject templateObject_; ICCall_StringSplit(JitCode* stubCode, ICStub* firstMonitorStub, uint32_t pcOffset, JSString* str, - JSString* sep, ArrayObject* templateObject) + JSString* sep, JSObject* templateObject) : ICMonitoredStub(ICStub::Call_StringSplit, stubCode, firstMonitorStub), pcOffset_(pcOffset), expectedStr_(str), expectedSep_(sep), templateObject_(templateObject) @@ -2852,7 +2904,7 @@ class ICCall_StringSplit : public ICMonitoredStub return expectedSep_; } - GCPtrArrayObject& templateObject() { + GCPtrObject& templateObject() { return templateObject_; } @@ -2862,7 +2914,7 @@ class ICCall_StringSplit : public ICMonitoredStub uint32_t pcOffset_; RootedString expectedStr_; RootedString expectedSep_; - RootedArrayObject templateObject_; + RootedObject templateObject_; MOZ_MUST_USE bool generateStubCode(MacroAssembler& masm); @@ -2873,13 +2925,13 @@ class ICCall_StringSplit : public ICMonitoredStub public: Compiler(JSContext* cx, ICStub* firstMonitorStub, uint32_t pcOffset, HandleString str, - HandleString sep, HandleArrayObject templateObject) + HandleString sep, HandleValue templateObject) : ICCallStubCompiler(cx, ICStub::Call_StringSplit), firstMonitorStub_(firstMonitorStub), pcOffset_(pcOffset), expectedStr_(cx, str), expectedSep_(cx, sep), - templateObject_(cx, templateObject) + templateObject_(cx, &templateObject.toObject()) { } ICStub* getStub(ICStubSpace* space) { diff --git a/js/src/jit/BaselineInspector.cpp b/js/src/jit/BaselineInspector.cpp index bcb527516..9c7b88fb2 100644 --- a/js/src/jit/BaselineInspector.cpp +++ b/js/src/jit/BaselineInspector.cpp @@ -580,7 +580,7 @@ BaselineInspector::getTemplateObjectForNative(jsbytecode* pc, Native native) bool BaselineInspector::isOptimizableCallStringSplit(jsbytecode* pc, JSString** strOut, JSString** sepOut, - ArrayObject** objOut) + JSObject** objOut) { if (!hasBaselineScript()) return false; diff --git a/js/src/jit/BaselineInspector.h b/js/src/jit/BaselineInspector.h index 1ed4b5547..4a1791798 100644 --- a/js/src/jit/BaselineInspector.h +++ b/js/src/jit/BaselineInspector.h @@ -113,7 +113,7 @@ class BaselineInspector bool hasSeenNonStringIterMore(jsbytecode* pc); MOZ_MUST_USE bool isOptimizableCallStringSplit(jsbytecode* pc, JSString** strOut, - JSString** sepOut, ArrayObject** objOut); + JSString** sepOut, JSObject** objOut); JSObject* getTemplateObject(jsbytecode* pc); JSObject* getTemplateObjectForNative(jsbytecode* pc, Native native); JSObject* getTemplateObjectForClassHook(jsbytecode* pc, const Class* clasp); diff --git a/js/src/jit/CacheIR.cpp b/js/src/jit/CacheIR.cpp index 6822a70af..f1061af70 100644 --- a/js/src/jit/CacheIR.cpp +++ b/js/src/jit/CacheIR.cpp @@ -175,7 +175,7 @@ TestMatchingReceiver(CacheIRWriter& writer, JSObject* obj, Shape* shape, ObjOper } else { writer.guardNoUnboxedExpando(objId); } - } else if (obj->is<TypedObject>()) { + } else if (obj->is<UnboxedArrayObject>() || obj->is<TypedObject>()) { writer.guardGroup(objId, obj->group()); } else { Shape* shape = obj->maybeShape(); @@ -368,6 +368,13 @@ GetPropIRGenerator::tryAttachObjectLength(CacheIRWriter& writer, HandleObject ob return true; } + if (obj->is<UnboxedArrayObject>()) { + writer.guardClass(objId, GuardClassKind::UnboxedArray); + writer.loadUnboxedArrayLengthResult(objId); + emitted_ = true; + return true; + } + if (obj->is<ArgumentsObject>() && !obj->as<ArgumentsObject>().hasOverriddenLength()) { if (obj->is<MappedArgumentsObject>()) { writer.guardClass(objId, GuardClassKind::MappedArguments); diff --git a/js/src/jit/CacheIR.h b/js/src/jit/CacheIR.h index 4fd8575f0..51e55f48b 100644 --- a/js/src/jit/CacheIR.h +++ b/js/src/jit/CacheIR.h @@ -96,6 +96,7 @@ class ObjOperandId : public OperandId _(LoadUnboxedPropertyResult) \ _(LoadTypedObjectResult) \ _(LoadInt32ArrayLengthResult) \ + _(LoadUnboxedArrayLengthResult) \ _(LoadArgumentsObjectLengthResult) \ _(LoadUndefinedResult) @@ -127,6 +128,7 @@ struct StubField { enum class GuardClassKind { Array, + UnboxedArray, MappedArguments, UnmappedArguments, }; @@ -325,6 +327,9 @@ class MOZ_RAII CacheIRWriter void loadInt32ArrayLengthResult(ObjOperandId obj) { writeOpWithOperandId(CacheOp::LoadInt32ArrayLengthResult, obj); } + void loadUnboxedArrayLengthResult(ObjOperandId obj) { + writeOpWithOperandId(CacheOp::LoadUnboxedArrayLengthResult, obj); + } void loadArgumentsObjectLengthResult(ObjOperandId obj) { writeOpWithOperandId(CacheOp::LoadArgumentsObjectLengthResult, obj); } diff --git a/js/src/jit/CodeGenerator.cpp b/js/src/jit/CodeGenerator.cpp index 901e9ea93..c3e242991 100644 --- a/js/src/jit/CodeGenerator.cpp +++ b/js/src/jit/CodeGenerator.cpp @@ -3184,7 +3184,9 @@ CodeGenerator::visitSetPropertyPolymorphicT(LSetPropertyPolymorphicT* ins) void CodeGenerator::visitElements(LElements* lir) { - Address elements(ToRegister(lir->object()), NativeObject::offsetOfElements()); + Address elements(ToRegister(lir->object()), + lir->mir()->unboxed() ? UnboxedArrayObject::offsetOfElements() + : NativeObject::offsetOfElements()); masm.loadPtr(elements, ToRegister(lir->output())); } @@ -5169,11 +5171,11 @@ static JSObject* NewArrayWithGroup(JSContext* cx, uint32_t length, HandleObjectGroup group, bool convertDoubleElements) { - ArrayObject* res = NewFullyAllocatedArrayTryUseGroup(cx, group, length); + JSObject* res = NewFullyAllocatedArrayTryUseGroup(cx, group, length); if (!res) return nullptr; if (convertDoubleElements) - res->setShouldConvertDoubleElements(); + res->as<ArrayObject>().setShouldConvertDoubleElements(); return res; } @@ -5319,7 +5321,7 @@ CodeGenerator::visitNewArrayCopyOnWrite(LNewArrayCopyOnWrite* lir) masm.bind(ool->rejoin()); } -typedef ArrayObject* (*ArrayConstructorOneArgFn)(JSContext*, HandleObjectGroup, int32_t length); +typedef JSObject* (*ArrayConstructorOneArgFn)(JSContext*, HandleObjectGroup, int32_t length); static const VMFunction ArrayConstructorOneArgInfo = FunctionInfo<ArrayConstructorOneArgFn>(ArrayConstructorOneArg, "ArrayConstructorOneArg"); @@ -5339,11 +5341,21 @@ CodeGenerator::visitNewArrayDynamicLength(LNewArrayDynamicLength* lir) bool canInline = true; size_t inlineLength = 0; - if (templateObject->as<ArrayObject>().hasFixedElements()) { - size_t numSlots = gc::GetGCKindSlots(templateObject->asTenured().getAllocKind()); - inlineLength = numSlots - ObjectElements::VALUES_PER_HEADER; + if (templateObject->is<ArrayObject>()) { + if (templateObject->as<ArrayObject>().hasFixedElements()) { + size_t numSlots = gc::GetGCKindSlots(templateObject->asTenured().getAllocKind()); + inlineLength = numSlots - ObjectElements::VALUES_PER_HEADER; + } else { + canInline = false; + } } else { - canInline = false; + if (templateObject->as<UnboxedArrayObject>().hasInlineElements()) { + size_t nbytes = + templateObject->tenuredSizeOfThis() - UnboxedArrayObject::offsetOfInlineElements(); + inlineLength = nbytes / templateObject->as<UnboxedArrayObject>().elementSize(); + } else { + canInline = false; + } } if (canInline) { @@ -7765,7 +7777,7 @@ CodeGenerator::visitSinCos(LSinCos *lir) masm.freeStack(sizeof(double) * 2); } -typedef ArrayObject* (*StringSplitFn)(JSContext*, HandleObjectGroup, HandleString, HandleString, uint32_t); +typedef JSObject* (*StringSplitFn)(JSContext*, HandleObjectGroup, HandleString, HandleString, uint32_t); static const VMFunction StringSplitInfo = FunctionInfo<StringSplitFn>(js::str_split_string, "str_split_string"); @@ -7800,6 +7812,49 @@ CodeGenerator::visitSetInitializedLength(LSetInitializedLength* lir) } void +CodeGenerator::visitUnboxedArrayLength(LUnboxedArrayLength* lir) +{ + Register obj = ToRegister(lir->object()); + Register result = ToRegister(lir->output()); + masm.load32(Address(obj, UnboxedArrayObject::offsetOfLength()), result); +} + +void +CodeGenerator::visitUnboxedArrayInitializedLength(LUnboxedArrayInitializedLength* lir) +{ + Register obj = ToRegister(lir->object()); + Register result = ToRegister(lir->output()); + masm.load32(Address(obj, UnboxedArrayObject::offsetOfCapacityIndexAndInitializedLength()), result); + masm.and32(Imm32(UnboxedArrayObject::InitializedLengthMask), result); +} + +void +CodeGenerator::visitIncrementUnboxedArrayInitializedLength(LIncrementUnboxedArrayInitializedLength* lir) +{ + Register obj = ToRegister(lir->object()); + masm.add32(Imm32(1), Address(obj, UnboxedArrayObject::offsetOfCapacityIndexAndInitializedLength())); +} + +void +CodeGenerator::visitSetUnboxedArrayInitializedLength(LSetUnboxedArrayInitializedLength* lir) +{ + Register obj = ToRegister(lir->object()); + RegisterOrInt32Constant key = ToRegisterOrInt32Constant(lir->length()); + Register temp = ToRegister(lir->temp()); + + Address initLengthAddr(obj, UnboxedArrayObject::offsetOfCapacityIndexAndInitializedLength()); + masm.load32(initLengthAddr, temp); + masm.and32(Imm32(UnboxedArrayObject::CapacityMask), temp); + + if (key.isRegister()) + masm.or32(key.reg(), temp); + else + masm.or32(Imm32(key.constant()), temp); + + masm.store32(temp, initLengthAddr); +} + +void CodeGenerator::visitNotO(LNotO* lir) { MOZ_ASSERT(lir->mir()->operandMightEmulateUndefined(), @@ -8095,19 +8150,46 @@ CodeGenerator::emitStoreElementHoleT(T* lir) OutOfLineStoreElementHole* ool = new(alloc()) OutOfLineStoreElementHole(lir); addOutOfLineCode(ool, lir->mir()); + Register obj = ToRegister(lir->object()); Register elements = ToRegister(lir->elements()); const LAllocation* index = lir->index(); RegisterOrInt32Constant key = ToRegisterOrInt32Constant(index); - Address initLength(elements, ObjectElements::offsetOfInitializedLength()); - masm.branch32(Assembler::BelowOrEqual, initLength, key, ool->entry()); + JSValueType unboxedType = lir->mir()->unboxedType(); + if (unboxedType == JSVAL_TYPE_MAGIC) { + Address initLength(elements, ObjectElements::offsetOfInitializedLength()); + masm.branch32(Assembler::BelowOrEqual, initLength, key, ool->entry()); - if (lir->mir()->needsBarrier()) - emitPreBarrier(elements, index, 0); + if (lir->mir()->needsBarrier()) + emitPreBarrier(elements, index, 0); + + masm.bind(ool->rejoinStore()); + emitStoreElementTyped(lir->value(), lir->mir()->value()->type(), lir->mir()->elementType(), + elements, index, 0); + } else { + Register temp = ToRegister(lir->getTemp(0)); + Address initLength(obj, UnboxedArrayObject::offsetOfCapacityIndexAndInitializedLength()); + masm.load32(initLength, temp); + masm.and32(Imm32(UnboxedArrayObject::InitializedLengthMask), temp); + masm.branch32(Assembler::BelowOrEqual, temp, key, ool->entry()); - masm.bind(ool->rejoinStore()); - emitStoreElementTyped(lir->value(), lir->mir()->value()->type(), lir->mir()->elementType(), - elements, index, 0); + ConstantOrRegister v = ToConstantOrRegister(lir->value(), lir->mir()->value()->type()); + + if (index->isConstant()) { + Address address(elements, ToInt32(index) * UnboxedTypeSize(unboxedType)); + EmitUnboxedPreBarrier(masm, address, unboxedType); + + masm.bind(ool->rejoinStore()); + masm.storeUnboxedProperty(address, unboxedType, v, nullptr); + } else { + BaseIndex address(elements, ToRegister(index), + ScaleFromElemWidth(UnboxedTypeSize(unboxedType))); + EmitUnboxedPreBarrier(masm, address, unboxedType); + + masm.bind(ool->rejoinStore()); + masm.storeUnboxedProperty(address, unboxedType, v, nullptr); + } + } masm.bind(ool->rejoin()); } @@ -8127,22 +8209,47 @@ CodeGenerator::emitStoreElementHoleV(T* lir) OutOfLineStoreElementHole* ool = new(alloc()) OutOfLineStoreElementHole(lir); addOutOfLineCode(ool, lir->mir()); + Register obj = ToRegister(lir->object()); Register elements = ToRegister(lir->elements()); const LAllocation* index = lir->index(); const ValueOperand value = ToValue(lir, T::Value); RegisterOrInt32Constant key = ToRegisterOrInt32Constant(index); - Address initLength(elements, ObjectElements::offsetOfInitializedLength()); - masm.branch32(Assembler::BelowOrEqual, initLength, key, ool->entry()); + JSValueType unboxedType = lir->mir()->unboxedType(); + if (unboxedType == JSVAL_TYPE_MAGIC) { + Address initLength(elements, ObjectElements::offsetOfInitializedLength()); + masm.branch32(Assembler::BelowOrEqual, initLength, key, ool->entry()); - if (lir->mir()->needsBarrier()) - emitPreBarrier(elements, index, 0); + if (lir->mir()->needsBarrier()) + emitPreBarrier(elements, index, 0); - masm.bind(ool->rejoinStore()); - if (index->isConstant()) - masm.storeValue(value, Address(elements, ToInt32(index) * sizeof(js::Value))); - else - masm.storeValue(value, BaseIndex(elements, ToRegister(index), TimesEight)); + masm.bind(ool->rejoinStore()); + if (index->isConstant()) + masm.storeValue(value, Address(elements, ToInt32(index) * sizeof(js::Value))); + else + masm.storeValue(value, BaseIndex(elements, ToRegister(index), TimesEight)); + } else { + Register temp = ToRegister(lir->getTemp(0)); + Address initLength(obj, UnboxedArrayObject::offsetOfCapacityIndexAndInitializedLength()); + masm.load32(initLength, temp); + masm.and32(Imm32(UnboxedArrayObject::InitializedLengthMask), temp); + masm.branch32(Assembler::BelowOrEqual, temp, key, ool->entry()); + + if (index->isConstant()) { + Address address(elements, ToInt32(index) * UnboxedTypeSize(unboxedType)); + EmitUnboxedPreBarrier(masm, address, unboxedType); + + masm.bind(ool->rejoinStore()); + masm.storeUnboxedProperty(address, unboxedType, ConstantOrRegister(value), nullptr); + } else { + BaseIndex address(elements, ToRegister(index), + ScaleFromElemWidth(UnboxedTypeSize(unboxedType))); + EmitUnboxedPreBarrier(masm, address, unboxedType); + + masm.bind(ool->rejoinStore()); + masm.storeUnboxedProperty(address, unboxedType, ConstantOrRegister(value), nullptr); + } + } masm.bind(ool->rejoin()); } @@ -8213,10 +8320,11 @@ CodeGenerator::visitFallibleStoreElementV(LFallibleStoreElementV* lir) masm.bind(&isFrozen); } -typedef bool (*SetDenseElementFn)(JSContext*, HandleNativeObject, int32_t, HandleValue, - bool strict); -static const VMFunction SetDenseElementInfo = - FunctionInfo<SetDenseElementFn>(jit::SetDenseElement, "SetDenseElement"); +typedef bool (*SetDenseOrUnboxedArrayElementFn)(JSContext*, HandleObject, int32_t, + HandleValue, bool strict); +static const VMFunction SetDenseOrUnboxedArrayElementInfo = + FunctionInfo<SetDenseOrUnboxedArrayElementFn>(SetDenseOrUnboxedArrayElement, + "SetDenseOrUnboxedArrayElement"); void CodeGenerator::visitOutOfLineStoreElementHole(OutOfLineStoreElementHole* ool) @@ -8226,6 +8334,8 @@ CodeGenerator::visitOutOfLineStoreElementHole(OutOfLineStoreElementHole* ool) const LAllocation* index; MIRType valueType; ConstantOrRegister value; + JSValueType unboxedType; + LDefinition *temp = nullptr; if (ins->isStoreElementHoleV()) { LStoreElementHoleV* store = ins->toStoreElementHoleV(); @@ -8234,6 +8344,8 @@ CodeGenerator::visitOutOfLineStoreElementHole(OutOfLineStoreElementHole* ool) index = store->index(); valueType = store->mir()->value()->type(); value = TypedOrValueRegister(ToValue(store, LStoreElementHoleV::Value)); + unboxedType = store->mir()->unboxedType(); + temp = store->getTemp(0); } else if (ins->isFallibleStoreElementV()) { LFallibleStoreElementV* store = ins->toFallibleStoreElementV(); object = ToRegister(store->object()); @@ -8241,6 +8353,8 @@ CodeGenerator::visitOutOfLineStoreElementHole(OutOfLineStoreElementHole* ool) index = store->index(); valueType = store->mir()->value()->type(); value = TypedOrValueRegister(ToValue(store, LFallibleStoreElementV::Value)); + unboxedType = store->mir()->unboxedType(); + temp = store->getTemp(0); } else if (ins->isStoreElementHoleT()) { LStoreElementHoleT* store = ins->toStoreElementHoleT(); object = ToRegister(store->object()); @@ -8251,6 +8365,8 @@ CodeGenerator::visitOutOfLineStoreElementHole(OutOfLineStoreElementHole* ool) value = ConstantOrRegister(store->value()->toConstant()->toJSValue()); else value = TypedOrValueRegister(valueType, ToAnyRegister(store->value())); + unboxedType = store->mir()->unboxedType(); + temp = store->getTemp(0); } else { // ins->isFallibleStoreElementT() LFallibleStoreElementT* store = ins->toFallibleStoreElementT(); object = ToRegister(store->object()); @@ -8261,6 +8377,8 @@ CodeGenerator::visitOutOfLineStoreElementHole(OutOfLineStoreElementHole* ool) value = ConstantOrRegister(store->value()->toConstant()->toJSValue()); else value = TypedOrValueRegister(valueType, ToAnyRegister(store->value())); + unboxedType = store->mir()->unboxedType(); + temp = store->getTemp(0); } RegisterOrInt32Constant key = ToRegisterOrInt32Constant(index); @@ -8271,32 +8389,54 @@ CodeGenerator::visitOutOfLineStoreElementHole(OutOfLineStoreElementHole* ool) Label callStub; #if defined(JS_CODEGEN_MIPS32) || defined(JS_CODEGEN_MIPS64) // Had to reimplement for MIPS because there are no flags. - Address initLength(elements, ObjectElements::offsetOfInitializedLength()); - masm.branch32(Assembler::NotEqual, initLength, key, &callStub); + if (unboxedType == JSVAL_TYPE_MAGIC) { + Address initLength(elements, ObjectElements::offsetOfInitializedLength()); + masm.branch32(Assembler::NotEqual, initLength, key, &callStub); + } else { + Address initLength(object, UnboxedArrayObject::offsetOfCapacityIndexAndInitializedLength()); + masm.load32(initLength, ToRegister(temp)); + masm.and32(Imm32(UnboxedArrayObject::InitializedLengthMask), ToRegister(temp)); + masm.branch32(Assembler::NotEqual, ToRegister(temp), key, &callStub); + } #else masm.j(Assembler::NotEqual, &callStub); #endif - // Check array capacity. - masm.branch32(Assembler::BelowOrEqual, Address(elements, ObjectElements::offsetOfCapacity()), - key, &callStub); + if (unboxedType == JSVAL_TYPE_MAGIC) { + // Check array capacity. + masm.branch32(Assembler::BelowOrEqual, Address(elements, ObjectElements::offsetOfCapacity()), + key, &callStub); - // Update initialized length. The capacity guard above ensures this won't overflow, - // due to MAX_DENSE_ELEMENTS_COUNT. - masm.inc32(&key); - masm.store32(key, Address(elements, ObjectElements::offsetOfInitializedLength())); + // Update initialized length. The capacity guard above ensures this won't overflow, + // due to MAX_DENSE_ELEMENTS_COUNT. + masm.inc32(&key); + masm.store32(key, Address(elements, ObjectElements::offsetOfInitializedLength())); - // Update length if length < initializedLength. - Label dontUpdate; - masm.branch32(Assembler::AboveOrEqual, Address(elements, ObjectElements::offsetOfLength()), - key, &dontUpdate); - masm.store32(key, Address(elements, ObjectElements::offsetOfLength())); - masm.bind(&dontUpdate); + // Update length if length < initializedLength. + Label dontUpdate; + masm.branch32(Assembler::AboveOrEqual, Address(elements, ObjectElements::offsetOfLength()), + key, &dontUpdate); + masm.store32(key, Address(elements, ObjectElements::offsetOfLength())); + masm.bind(&dontUpdate); - masm.dec32(&key); + masm.dec32(&key); + } else { + // Check array capacity. + masm.checkUnboxedArrayCapacity(object, key, ToRegister(temp), &callStub); + + // Update initialized length. + masm.add32(Imm32(1), Address(object, UnboxedArrayObject::offsetOfCapacityIndexAndInitializedLength())); + + // Update length if length < initializedLength. + Address lengthAddr(object, UnboxedArrayObject::offsetOfLength()); + Label dontUpdate; + masm.branch32(Assembler::Above, lengthAddr, key, &dontUpdate); + masm.add32(Imm32(1), lengthAddr); + masm.bind(&dontUpdate); + } if ((ins->isStoreElementHoleT() || ins->isFallibleStoreElementT()) && - valueType != MIRType::Double) + unboxedType == JSVAL_TYPE_MAGIC && valueType != MIRType::Double) { // The inline path for StoreElementHoleT and FallibleStoreElementT does not always store // the type tag, so we do the store on the OOL path. We use MIRType::None for the element @@ -8325,7 +8465,7 @@ CodeGenerator::visitOutOfLineStoreElementHole(OutOfLineStoreElementHole* ool) else pushArg(ToRegister(index)); pushArg(object); - callVM(SetDenseElementInfo, ins); + callVM(SetDenseOrUnboxedArrayElementInfo, ins); restoreLive(ins); masm.jump(ool->rejoin()); @@ -8386,6 +8526,9 @@ typedef bool (*ConvertUnboxedObjectToNativeFn)(JSContext*, JSObject*); static const VMFunction ConvertUnboxedPlainObjectToNativeInfo = FunctionInfo<ConvertUnboxedObjectToNativeFn>(UnboxedPlainObject::convertToNative, "UnboxedPlainObject::convertToNative"); +static const VMFunction ConvertUnboxedArrayObjectToNativeInfo = + FunctionInfo<ConvertUnboxedObjectToNativeFn>(UnboxedArrayObject::convertToNative, + "UnboxedArrayObject::convertToNative"); typedef bool (*ArrayPopShiftFn)(JSContext*, HandleObject, MutableHandleValue); static const VMFunction ArrayPopDenseInfo = @@ -8411,11 +8554,20 @@ CodeGenerator::emitArrayPopShift(LInstruction* lir, const MArrayPopShift* mir, R // Load elements and length, and VM call if length != initializedLength. RegisterOrInt32Constant key = RegisterOrInt32Constant(lengthTemp); - masm.loadPtr(Address(obj, NativeObject::offsetOfElements()), elementsTemp); - masm.load32(Address(elementsTemp, ObjectElements::offsetOfLength()), lengthTemp); + if (mir->unboxedType() == JSVAL_TYPE_MAGIC) { + masm.loadPtr(Address(obj, NativeObject::offsetOfElements()), elementsTemp); + masm.load32(Address(elementsTemp, ObjectElements::offsetOfLength()), lengthTemp); - Address initLength(elementsTemp, ObjectElements::offsetOfInitializedLength()); - masm.branch32(Assembler::NotEqual, initLength, key, ool->entry()); + Address initLength(elementsTemp, ObjectElements::offsetOfInitializedLength()); + masm.branch32(Assembler::NotEqual, initLength, key, ool->entry()); + } else { + masm.loadPtr(Address(obj, UnboxedArrayObject::offsetOfElements()), elementsTemp); + masm.load32(Address(obj, UnboxedArrayObject::offsetOfCapacityIndexAndInitializedLength()), lengthTemp); + masm.and32(Imm32(UnboxedArrayObject::InitializedLengthMask), lengthTemp); + + Address lengthAddr(obj, UnboxedArrayObject::offsetOfLength()); + masm.branch32(Assembler::NotEqual, lengthAddr, key, ool->entry()); + } // Test for length != 0. On zero length either take a VM call or generate // an undefined value, depending on whether the call is known to produce @@ -8427,10 +8579,13 @@ CodeGenerator::emitArrayPopShift(LInstruction* lir, const MArrayPopShift* mir, R // According to the spec we need to set the length 0 (which is already 0). // This is observable when the array length is made non-writable. - // Handle this case in the OOL. - Address elementFlags(elementsTemp, ObjectElements::offsetOfFlags()); - Imm32 bit(ObjectElements::NONWRITABLE_ARRAY_LENGTH); - masm.branchTest32(Assembler::NonZero, elementFlags, bit, ool->entry()); + // Handle this case in the OOL. When freezing an unboxed array it is converted + // to an normal array. + if (mir->unboxedType() == JSVAL_TYPE_MAGIC) { + Address elementFlags(elementsTemp, ObjectElements::offsetOfFlags()); + Imm32 bit(ObjectElements::NONWRITABLE_ARRAY_LENGTH); + masm.branchTest32(Assembler::NonZero, elementFlags, bit, ool->entry()); + } masm.moveValue(UndefinedValue(), out.valueReg()); masm.jump(&done); @@ -8442,25 +8597,41 @@ CodeGenerator::emitArrayPopShift(LInstruction* lir, const MArrayPopShift* mir, R masm.dec32(&key); if (mir->mode() == MArrayPopShift::Pop) { - BaseIndex addr(elementsTemp, lengthTemp, TimesEight); - masm.loadElementTypedOrValue(addr, out, mir->needsHoleCheck(), ool->entry()); + if (mir->unboxedType() == JSVAL_TYPE_MAGIC) { + BaseIndex addr(elementsTemp, lengthTemp, TimesEight); + masm.loadElementTypedOrValue(addr, out, mir->needsHoleCheck(), ool->entry()); + } else { + size_t elemSize = UnboxedTypeSize(mir->unboxedType()); + BaseIndex addr(elementsTemp, lengthTemp, ScaleFromElemWidth(elemSize)); + masm.loadUnboxedProperty(addr, mir->unboxedType(), out); + } } else { MOZ_ASSERT(mir->mode() == MArrayPopShift::Shift); Address addr(elementsTemp, 0); - masm.loadElementTypedOrValue(addr, out, mir->needsHoleCheck(), ool->entry()); + if (mir->unboxedType() == JSVAL_TYPE_MAGIC) + masm.loadElementTypedOrValue(addr, out, mir->needsHoleCheck(), ool->entry()); + else + masm.loadUnboxedProperty(addr, mir->unboxedType(), out); } - // Handle the failure case when the array length is non-writable in the - // OOL path. (Unlike in the adding-an-element cases, we can't rely on the - // capacity <= length invariant for such arrays to avoid an explicit - // check.) - Address elementFlags(elementsTemp, ObjectElements::offsetOfFlags()); - Imm32 bit(ObjectElements::NONWRITABLE_ARRAY_LENGTH); - masm.branchTest32(Assembler::NonZero, elementFlags, bit, ool->entry()); + if (mir->unboxedType() == JSVAL_TYPE_MAGIC) { + // Handle the failure case when the array length is non-writable in the + // OOL path. (Unlike in the adding-an-element cases, we can't rely on the + // capacity <= length invariant for such arrays to avoid an explicit + // check.) + Address elementFlags(elementsTemp, ObjectElements::offsetOfFlags()); + Imm32 bit(ObjectElements::NONWRITABLE_ARRAY_LENGTH); + masm.branchTest32(Assembler::NonZero, elementFlags, bit, ool->entry()); - // Now adjust length and initializedLength. - masm.store32(lengthTemp, Address(elementsTemp, ObjectElements::offsetOfLength())); - masm.store32(lengthTemp, Address(elementsTemp, ObjectElements::offsetOfInitializedLength())); + // Now adjust length and initializedLength. + masm.store32(lengthTemp, Address(elementsTemp, ObjectElements::offsetOfLength())); + masm.store32(lengthTemp, Address(elementsTemp, ObjectElements::offsetOfInitializedLength())); + } else { + // Unboxed arrays always have writable lengths. Adjust length and + // initializedLength. + masm.store32(lengthTemp, Address(obj, UnboxedArrayObject::offsetOfLength())); + masm.add32(Imm32(-1), Address(obj, UnboxedArrayObject::offsetOfCapacityIndexAndInitializedLength())); + } if (mir->mode() == MArrayPopShift::Shift) { // Don't save the temp registers. @@ -8499,7 +8670,7 @@ CodeGenerator::visitArrayPopShiftT(LArrayPopShiftT* lir) emitArrayPopShift(lir, lir->mir(), obj, elements, length, out); } -typedef bool (*ArrayPushDenseFn)(JSContext*, HandleArrayObject, HandleValue, uint32_t*); +typedef bool (*ArrayPushDenseFn)(JSContext*, HandleObject, HandleValue, uint32_t*); static const VMFunction ArrayPushDenseInfo = FunctionInfo<ArrayPushDenseFn>(jit::ArrayPushDense, "ArrayPushDense"); @@ -8510,27 +8681,50 @@ CodeGenerator::emitArrayPush(LInstruction* lir, const MArrayPush* mir, Register OutOfLineCode* ool = oolCallVM(ArrayPushDenseInfo, lir, ArgList(obj, value), StoreRegisterTo(length)); RegisterOrInt32Constant key = RegisterOrInt32Constant(length); + if (mir->unboxedType() == JSVAL_TYPE_MAGIC) { + // Load elements and length. + masm.loadPtr(Address(obj, NativeObject::offsetOfElements()), elementsTemp); + masm.load32(Address(elementsTemp, ObjectElements::offsetOfLength()), length); + + // Guard length == initializedLength. + Address initLength(elementsTemp, ObjectElements::offsetOfInitializedLength()); + masm.branch32(Assembler::NotEqual, initLength, key, ool->entry()); - // Load elements and length. - masm.loadPtr(Address(obj, NativeObject::offsetOfElements()), elementsTemp); - masm.load32(Address(elementsTemp, ObjectElements::offsetOfLength()), length); + // Guard length < capacity. + Address capacity(elementsTemp, ObjectElements::offsetOfCapacity()); + masm.branch32(Assembler::BelowOrEqual, capacity, key, ool->entry()); - // Guard length == initializedLength. - Address initLength(elementsTemp, ObjectElements::offsetOfInitializedLength()); - masm.branch32(Assembler::NotEqual, initLength, key, ool->entry()); + // Do the store. + masm.storeConstantOrRegister(value, BaseIndex(elementsTemp, length, TimesEight)); + } else { + // Load initialized length. + masm.load32(Address(obj, UnboxedArrayObject::offsetOfCapacityIndexAndInitializedLength()), length); + masm.and32(Imm32(UnboxedArrayObject::InitializedLengthMask), length); - // Guard length < capacity. - Address capacity(elementsTemp, ObjectElements::offsetOfCapacity()); - masm.branch32(Assembler::BelowOrEqual, capacity, key, ool->entry()); + // Guard length == initializedLength. + Address lengthAddr(obj, UnboxedArrayObject::offsetOfLength()); + masm.branch32(Assembler::NotEqual, lengthAddr, key, ool->entry()); - // Do the store. - masm.storeConstantOrRegister(value, BaseIndex(elementsTemp, length, TimesEight)); + // Guard length < capacity. + masm.checkUnboxedArrayCapacity(obj, key, elementsTemp, ool->entry()); + + // Load elements and do the store. + masm.loadPtr(Address(obj, UnboxedArrayObject::offsetOfElements()), elementsTemp); + size_t elemSize = UnboxedTypeSize(mir->unboxedType()); + BaseIndex addr(elementsTemp, length, ScaleFromElemWidth(elemSize)); + masm.storeUnboxedProperty(addr, mir->unboxedType(), value, nullptr); + } masm.inc32(&key); // Update length and initialized length. - masm.store32(length, Address(elementsTemp, ObjectElements::offsetOfLength())); - masm.store32(length, Address(elementsTemp, ObjectElements::offsetOfInitializedLength())); + if (mir->unboxedType() == JSVAL_TYPE_MAGIC) { + masm.store32(length, Address(elementsTemp, ObjectElements::offsetOfLength())); + masm.store32(length, Address(elementsTemp, ObjectElements::offsetOfInitializedLength())); + } else { + masm.store32(length, Address(obj, UnboxedArrayObject::offsetOfLength())); + masm.add32(Imm32(1), Address(obj, UnboxedArrayObject::offsetOfCapacityIndexAndInitializedLength())); + } masm.bind(ool->rejoin()); } @@ -10357,11 +10551,22 @@ CodeGenerator::visitLoadElementHole(LLoadElementHole* lir) else masm.branch32(Assembler::BelowOrEqual, initLength, ToRegister(lir->index()), &undefined); - if (lir->index()->isConstant()) { - NativeObject::elementsSizeMustNotOverflow(); - masm.loadValue(Address(elements, ToInt32(lir->index()) * sizeof(Value)), out); + if (mir->unboxedType() != JSVAL_TYPE_MAGIC) { + size_t width = UnboxedTypeSize(mir->unboxedType()); + if (lir->index()->isConstant()) { + Address addr(elements, ToInt32(lir->index()) * width); + masm.loadUnboxedProperty(addr, mir->unboxedType(), out); + } else { + BaseIndex addr(elements, ToRegister(lir->index()), ScaleFromElemWidth(width)); + masm.loadUnboxedProperty(addr, mir->unboxedType(), out); + } } else { - masm.loadValue(BaseObjectElementIndex(elements, ToRegister(lir->index())), out); + if (lir->index()->isConstant()) { + NativeObject::elementsSizeMustNotOverflow(); + masm.loadValue(Address(elements, ToInt32(lir->index()) * sizeof(Value)), out); + } else { + masm.loadValue(BaseObjectElementIndex(elements, ToRegister(lir->index())), out); + } } // If a hole check is needed, and the value wasn't a hole, we're done. @@ -10739,7 +10944,7 @@ CodeGenerator::visitInArray(LInArray* lir) } masm.branch32(Assembler::BelowOrEqual, initLength, Imm32(index), failedInitLength); - if (mir->needsHoleCheck()) { + if (mir->needsHoleCheck() && mir->unboxedType() == JSVAL_TYPE_MAGIC) { NativeObject::elementsSizeMustNotOverflow(); Address address = Address(elements, index * sizeof(Value)); masm.branchTestMagic(Assembler::Equal, address, &falseBranch); @@ -10752,7 +10957,7 @@ CodeGenerator::visitInArray(LInArray* lir) failedInitLength = &negativeIntCheck; masm.branch32(Assembler::BelowOrEqual, initLength, index, failedInitLength); - if (mir->needsHoleCheck()) { + if (mir->needsHoleCheck() && mir->unboxedType() == JSVAL_TYPE_MAGIC) { BaseIndex address = BaseIndex(elements, ToRegister(lir->index()), TimesEight); masm.branchTestMagic(Assembler::Equal, address, &falseBranch); } diff --git a/js/src/jit/CodeGenerator.h b/js/src/jit/CodeGenerator.h index 65acfe274..bc8fcccea 100644 --- a/js/src/jit/CodeGenerator.h +++ b/js/src/jit/CodeGenerator.h @@ -234,6 +234,10 @@ class CodeGenerator final : public CodeGeneratorSpecific void visitSubstr(LSubstr* lir); void visitInitializedLength(LInitializedLength* lir); void visitSetInitializedLength(LSetInitializedLength* lir); + void visitUnboxedArrayLength(LUnboxedArrayLength* lir); + void visitUnboxedArrayInitializedLength(LUnboxedArrayInitializedLength* lir); + void visitIncrementUnboxedArrayInitializedLength(LIncrementUnboxedArrayInitializedLength* lir); + void visitSetUnboxedArrayInitializedLength(LSetUnboxedArrayInitializedLength* lir); void visitNotO(LNotO* ins); void visitNotV(LNotV* ins); void visitBoundsCheck(LBoundsCheck* lir); diff --git a/js/src/jit/IonBuilder.cpp b/js/src/jit/IonBuilder.cpp index f00167d92..a5991cc7b 100644 --- a/js/src/jit/IonBuilder.cpp +++ b/js/src/jit/IonBuilder.cpp @@ -2227,8 +2227,6 @@ IonBuilder::inspectOpcode(JSOp op) // update that stale value. #endif default: - // Any unused opcodes and JSOP_LIMIT will end up here without having - // to explicitly specify break; } @@ -7355,6 +7353,12 @@ IonBuilder::newArrayTryTemplateObject(bool* emitted, JSObject* templateObject, u if (!templateObject) return true; + if (templateObject->is<UnboxedArrayObject>()) { + MOZ_ASSERT(templateObject->as<UnboxedArrayObject>().capacity() >= length); + if (!templateObject->as<UnboxedArrayObject>().hasInlineElements()) + return true; + } + MOZ_ASSERT(length <= NativeObject::MAX_DENSE_ELEMENTS_COUNT); size_t arraySlots = @@ -7610,6 +7614,7 @@ IonBuilder::jsop_initelem_array() // intializer, and that arrays are marked as non-packed when writing holes // to them during initialization. bool needStub = false; + JSValueType unboxedType = JSVAL_TYPE_MAGIC; if (shouldAbortOnPreliminaryGroups(obj)) { needStub = true; } else if (!obj->resultTypeSet() || @@ -7620,6 +7625,12 @@ IonBuilder::jsop_initelem_array() } else { MOZ_ASSERT(obj->resultTypeSet()->getObjectCount() == 1); TypeSet::ObjectKey* initializer = obj->resultTypeSet()->getObject(0); + if (initializer->clasp() == &UnboxedArrayObject::class_) { + if (initializer->group()->unboxedLayout().nativeGroup()) + needStub = true; + else + unboxedType = initializer->group()->unboxedLayout().elementType(); + } if (value->type() == MIRType::MagicHole) { if (!initializer->hasFlags(constraints(), OBJECT_FLAG_NON_PACKED)) needStub = true; @@ -7639,46 +7650,60 @@ IonBuilder::jsop_initelem_array() return resumeAfter(store); } - return initializeArrayElement(obj, index, value, /* addResumePoint = */ true); + return initializeArrayElement(obj, index, value, unboxedType, /* addResumePoint = */ true); } bool IonBuilder::initializeArrayElement(MDefinition* obj, size_t index, MDefinition* value, + JSValueType unboxedType, bool addResumePointAndIncrementInitializedLength) { MConstant* id = MConstant::New(alloc(), Int32Value(index)); current->add(id); // Get the elements vector. - MElements* elements = MElements::New(alloc(), obj); + MElements* elements = MElements::New(alloc(), obj, unboxedType != JSVAL_TYPE_MAGIC); current->add(elements); - if (NeedsPostBarrier(value)) - current->add(MPostWriteBarrier::New(alloc(), obj, value)); + if (unboxedType != JSVAL_TYPE_MAGIC) { + // Note: storeUnboxedValue takes care of any post barriers on the value. + storeUnboxedValue(obj, elements, 0, id, unboxedType, value, /* preBarrier = */ false); - if ((obj->isNewArray() && obj->toNewArray()->convertDoubleElements()) || - (obj->isNullarySharedStub() && - obj->resultTypeSet()->convertDoubleElements(constraints()) == TemporaryTypeSet::AlwaysConvertToDoubles)) - { - MInstruction* valueDouble = MToDouble::New(alloc(), value); - current->add(valueDouble); - value = valueDouble; - } + if (addResumePointAndIncrementInitializedLength) { + MInstruction* increment = MIncrementUnboxedArrayInitializedLength::New(alloc(), obj); + current->add(increment); - // Store the value. - MStoreElement* store = MStoreElement::New(alloc(), elements, id, value, + if (!resumeAfter(increment)) + return false; + } + } else { + if (NeedsPostBarrier(value)) + current->add(MPostWriteBarrier::New(alloc(), obj, value)); + + if ((obj->isNewArray() && obj->toNewArray()->convertDoubleElements()) || + (obj->isNullarySharedStub() && + obj->resultTypeSet()->convertDoubleElements(constraints()) == TemporaryTypeSet::AlwaysConvertToDoubles)) + { + MInstruction* valueDouble = MToDouble::New(alloc(), value); + current->add(valueDouble); + value = valueDouble; + } + + // Store the value. + MStoreElement* store = MStoreElement::New(alloc(), elements, id, value, /* needsHoleCheck = */ false); - current->add(store); + current->add(store); - if (addResumePointAndIncrementInitializedLength) { - // Update the initialized length. (The template object for this - // array has the array's ultimate length, so the length field is - // already correct: no updating needed.) - MSetInitializedLength* initLength = MSetInitializedLength::New(alloc(), elements, id); - current->add(initLength); + if (addResumePointAndIncrementInitializedLength) { + // Update the initialized length. (The template object for this + // array has the array's ultimate length, so the length field is + // already correct: no updating needed.) + MSetInitializedLength* initLength = MSetInitializedLength::New(alloc(), elements, id); + current->add(initLength); - if (!resumeAfter(initLength)) - return false; + if (!resumeAfter(initLength)) + return false; + } } return true; @@ -8167,7 +8192,8 @@ IonBuilder::maybeMarkEmpty(MDefinition* ins) static bool ClassHasEffectlessLookup(const Class* clasp) { - return IsTypedObjectClass(clasp) || + return (clasp == &UnboxedArrayObject::class_) || + IsTypedObjectClass(clasp) || (clasp->isNative() && !clasp->getOpsLookupProperty()); } @@ -9441,9 +9467,12 @@ IonBuilder::getElemTryDense(bool* emitted, MDefinition* obj, MDefinition* index) { MOZ_ASSERT(*emitted == false); - if (!ElementAccessIsDenseNative(constraints(), obj, index)) { - trackOptimizationOutcome(TrackedOutcome::AccessNotDense); - return true; + JSValueType unboxedType = UnboxedArrayElementType(constraints(), obj, index); + if (unboxedType == JSVAL_TYPE_MAGIC) { + if (!ElementAccessIsDenseNative(constraints(), obj, index)) { + trackOptimizationOutcome(TrackedOutcome::AccessNotDense); + return true; + } } // Don't generate a fast path if there have been bounds check failures @@ -9460,7 +9489,7 @@ IonBuilder::getElemTryDense(bool* emitted, MDefinition* obj, MDefinition* index) return true; } - if (!jsop_getelem_dense(obj, index)) + if (!jsop_getelem_dense(obj, index, unboxedType)) return false; trackOptimizationSuccess(); @@ -9812,7 +9841,7 @@ IonBuilder::computeHeapType(const TemporaryTypeSet* objTypes, const jsid id) } bool -IonBuilder::jsop_getelem_dense(MDefinition* obj, MDefinition* index) +IonBuilder::jsop_getelem_dense(MDefinition* obj, MDefinition* index, JSValueType unboxedType) { TemporaryTypeSet* types = bytecodeTypes(pc); @@ -9836,7 +9865,7 @@ IonBuilder::jsop_getelem_dense(MDefinition* obj, MDefinition* index) !ElementAccessHasExtraIndexedProperty(this, obj); MIRType knownType = MIRType::Value; - if (barrier == BarrierKind::NoBarrier) + if (unboxedType == JSVAL_TYPE_MAGIC && barrier == BarrierKind::NoBarrier) knownType = GetElemKnownType(needsHoleCheck, types); // Ensure index is an integer. @@ -9845,13 +9874,13 @@ IonBuilder::jsop_getelem_dense(MDefinition* obj, MDefinition* index) index = idInt32; // Get the elements vector. - MInstruction* elements = MElements::New(alloc(), obj); + MInstruction* elements = MElements::New(alloc(), obj, unboxedType != JSVAL_TYPE_MAGIC); current->add(elements); // Note: to help GVN, use the original MElements instruction and not // MConvertElementsToDoubles as operand. This is fine because converting // elements to double does not change the initialized length. - MInstruction* initLength = initializedLength(obj, elements); + MInstruction* initLength = initializedLength(obj, elements, unboxedType); // If we can load the element as a definite double, make sure to check that // the array has been converted to homogenous doubles first. @@ -9867,6 +9896,7 @@ IonBuilder::jsop_getelem_dense(MDefinition* obj, MDefinition* index) } bool loadDouble = + unboxedType == JSVAL_TYPE_MAGIC && barrier == BarrierKind::NoBarrier && loopDepth_ && inBounds && @@ -9885,13 +9915,18 @@ IonBuilder::jsop_getelem_dense(MDefinition* obj, MDefinition* index) // hoisting. index = addBoundsCheck(index, initLength); - load = MLoadElement::New(alloc(), elements, index, needsHoleCheck, loadDouble); - current->add(load); + if (unboxedType != JSVAL_TYPE_MAGIC) { + load = loadUnboxedValue(elements, 0, index, unboxedType, barrier, types); + } else { + load = MLoadElement::New(alloc(), elements, index, needsHoleCheck, loadDouble); + current->add(load); + } } else { // This load may return undefined, so assume that we *can* read holes, // or that we can read out-of-bounds accesses. In this case, the bounds // check is part of the opcode. - load = MLoadElementHole::New(alloc(), elements, index, initLength, needsHoleCheck); + load = MLoadElementHole::New(alloc(), elements, index, initLength, + unboxedType, needsHoleCheck); current->add(load); // If maybeUndefined was true, the typeset must have undefined, and @@ -9901,7 +9936,8 @@ IonBuilder::jsop_getelem_dense(MDefinition* obj, MDefinition* index) } if (knownType != MIRType::Value) { - load->setResultType(knownType); + if (unboxedType == JSVAL_TYPE_MAGIC) + load->setResultType(knownType); load->setResultTypeSet(types); } @@ -10348,9 +10384,12 @@ IonBuilder::setElemTryDense(bool* emitted, MDefinition* object, { MOZ_ASSERT(*emitted == false); - if (!ElementAccessIsDenseNative(constraints(), object, index)) { - trackOptimizationOutcome(TrackedOutcome::AccessNotDense); - return true; + JSValueType unboxedType = UnboxedArrayElementType(constraints(), object, index); + if (unboxedType == JSVAL_TYPE_MAGIC) { + if (!ElementAccessIsDenseNative(constraints(), object, index)) { + trackOptimizationOutcome(TrackedOutcome::AccessNotDense); + return true; + } } if (PropertyWriteNeedsTypeBarrier(alloc(), constraints(), current, @@ -10384,7 +10423,7 @@ IonBuilder::setElemTryDense(bool* emitted, MDefinition* object, } // Emit dense setelem variant. - if (!jsop_setelem_dense(conversion, object, index, value, writeHole, emitted)) + if (!jsop_setelem_dense(conversion, object, index, value, unboxedType, writeHole, emitted)) return false; if (!*emitted) { @@ -10474,11 +10513,13 @@ IonBuilder::setElemTryCache(bool* emitted, MDefinition* object, bool IonBuilder::jsop_setelem_dense(TemporaryTypeSet::DoubleConversion conversion, MDefinition* obj, MDefinition* id, MDefinition* value, - bool writeHole, bool* emitted) + JSValueType unboxedType, bool writeHole, bool* emitted) { MOZ_ASSERT(*emitted == false); - MIRType elementType = DenseNativeElementType(constraints(), obj); + MIRType elementType = MIRType::None; + if (unboxedType == JSVAL_TYPE_MAGIC) + elementType = DenseNativeElementType(constraints(), obj); bool packed = ElementAccessIsPacked(constraints(), obj); // Writes which are on holes in the object do not have to bail out if they @@ -10508,7 +10549,7 @@ IonBuilder::jsop_setelem_dense(TemporaryTypeSet::DoubleConversion conversion, obj = addMaybeCopyElementsForWrite(obj, /* checkNative = */ false); // Get the elements vector. - MElements* elements = MElements::New(alloc(), obj); + MElements* elements = MElements::New(alloc(), obj, unboxedType != JSVAL_TYPE_MAGIC); current->add(elements); // Ensure the value is a double, if double conversion might be needed. @@ -10545,7 +10586,7 @@ IonBuilder::jsop_setelem_dense(TemporaryTypeSet::DoubleConversion conversion, MInstruction* store; MStoreElementCommon* common = nullptr; if (writeHole && hasNoExtraIndexedProperty && !mayBeFrozen) { - MStoreElementHole* ins = MStoreElementHole::New(alloc(), obj, elements, id, newValue); + MStoreElementHole* ins = MStoreElementHole::New(alloc(), obj, elements, id, newValue, unboxedType); store = ins; common = ins; @@ -10557,23 +10598,27 @@ IonBuilder::jsop_setelem_dense(TemporaryTypeSet::DoubleConversion conversion, bool strict = IsStrictSetPC(pc); MFallibleStoreElement* ins = MFallibleStoreElement::New(alloc(), obj, elements, id, - newValue, strict); + newValue, unboxedType, strict); store = ins; common = ins; current->add(ins); current->push(value); } else { - MInstruction* initLength = initializedLength(obj, elements); + MInstruction* initLength = initializedLength(obj, elements, unboxedType); id = addBoundsCheck(id, initLength); bool needsHoleCheck = !packed && !hasNoExtraIndexedProperty; - MStoreElement* ins = MStoreElement::New(alloc(), elements, id, newValue, needsHoleCheck); - store = ins; - common = ins; + if (unboxedType != JSVAL_TYPE_MAGIC) { + store = storeUnboxedValue(obj, elements, 0, id, unboxedType, newValue); + } else { + MStoreElement* ins = MStoreElement::New(alloc(), elements, id, newValue, needsHoleCheck); + store = ins; + common = ins; - current->add(store); + current->add(store); + } current->push(value); } @@ -10691,6 +10736,18 @@ IonBuilder::jsop_length_fastPath() return true; } + // Compute the length for unboxed array objects. + if (UnboxedArrayElementType(constraints(), obj, nullptr) != JSVAL_TYPE_MAGIC && + !objTypes->hasObjectFlags(constraints(), OBJECT_FLAG_LENGTH_OVERFLOW)) + { + current->pop(); + + MUnboxedArrayLength* length = MUnboxedArrayLength::New(alloc(), obj); + current->add(length); + current->push(length); + return true; + } + // Compute the length for array typed objects. TypedObjectPrediction prediction = typedObjectPrediction(obj); if (!prediction.isUseless()) { @@ -13675,8 +13732,11 @@ IonBuilder::inTryDense(bool* emitted, MDefinition* obj, MDefinition* id) if (shouldAbortOnPreliminaryGroups(obj)) return true; - if (!ElementAccessIsDenseNative(constraints(), obj, id)) - return true; + JSValueType unboxedType = UnboxedArrayElementType(constraints(), obj, id); + if (unboxedType == JSVAL_TYPE_MAGIC) { + if (!ElementAccessIsDenseNative(constraints(), obj, id)) + return true; + } if (ElementAccessHasExtraIndexedProperty(this, obj)) return true; @@ -13691,10 +13751,10 @@ IonBuilder::inTryDense(bool* emitted, MDefinition* obj, MDefinition* id) id = idInt32; // Get the elements vector. - MElements* elements = MElements::New(alloc(), obj); + MElements* elements = MElements::New(alloc(), obj, unboxedType != JSVAL_TYPE_MAGIC); current->add(elements); - MInstruction* initLength = initializedLength(obj, elements); + MInstruction* initLength = initializedLength(obj, elements, unboxedType); // If there are no holes, speculate the InArray check will not fail. if (!needsHoleCheck && !failedBoundsCheck_) { @@ -13704,7 +13764,8 @@ IonBuilder::inTryDense(bool* emitted, MDefinition* obj, MDefinition* id) } // Check if id < initLength and elem[id] not a hole. - MInArray* ins = MInArray::New(alloc(), elements, id, initLength, obj, needsHoleCheck); + MInArray* ins = MInArray::New(alloc(), elements, id, initLength, obj, needsHoleCheck, + unboxedType); current->add(ins); current->push(ins); @@ -14382,24 +14443,32 @@ IonBuilder::constantInt(int32_t i) } MInstruction* -IonBuilder::initializedLength(MDefinition* obj, MDefinition* elements) +IonBuilder::initializedLength(MDefinition* obj, MDefinition* elements, JSValueType unboxedType) { - MInstruction* res = MInitializedLength::New(alloc(), elements); + MInstruction* res; + if (unboxedType != JSVAL_TYPE_MAGIC) + res = MUnboxedArrayInitializedLength::New(alloc(), obj); + else + res = MInitializedLength::New(alloc(), elements); current->add(res); return res; } MInstruction* -IonBuilder::setInitializedLength(MDefinition* obj, size_t count) +IonBuilder::setInitializedLength(MDefinition* obj, JSValueType unboxedType, size_t count) { MOZ_ASSERT(count); - // MSetInitializedLength takes the index of the last element, rather - // than the count itself. - MInstruction* elements = MElements::New(alloc(), obj, /* unboxed = */ false); - current->add(elements); - MInstruction* res = - MSetInitializedLength::New(alloc(), elements, constant(Int32Value(count - 1))); + MInstruction* res; + if (unboxedType != JSVAL_TYPE_MAGIC) { + res = MSetUnboxedArrayInitializedLength::New(alloc(), obj, constant(Int32Value(count))); + } else { + // MSetInitializedLength takes the index of the last element, rather + // than the count itself. + MInstruction* elements = MElements::New(alloc(), obj, /* unboxed = */ false); + current->add(elements); + res = MSetInitializedLength::New(alloc(), elements, constant(Int32Value(count - 1))); + } current->add(res); return res; } diff --git a/js/src/jit/IonBuilder.h b/js/src/jit/IonBuilder.h index 78af0e412..1f84b45df 100644 --- a/js/src/jit/IonBuilder.h +++ b/js/src/jit/IonBuilder.h @@ -346,8 +346,9 @@ class IonBuilder MConstant* constant(const Value& v); MConstant* constantInt(int32_t i); - MInstruction* initializedLength(MDefinition* obj, MDefinition* elements); - MInstruction* setInitializedLength(MDefinition* obj, size_t count); + MInstruction* initializedLength(MDefinition* obj, MDefinition* elements, + JSValueType unboxedType); + MInstruction* setInitializedLength(MDefinition* obj, JSValueType unboxedType, size_t count); // Improve the type information at tests MOZ_MUST_USE bool improveTypesAtTest(MDefinition* ins, bool trueBranch, MTest* test); @@ -610,6 +611,7 @@ class IonBuilder TypedObjectPrediction elemTypeReprs, uint32_t elemSize); MOZ_MUST_USE bool initializeArrayElement(MDefinition* obj, size_t index, MDefinition* value, + JSValueType unboxedType, bool addResumePointAndIncrementInitializedLength); // jsop_getelem() helpers. @@ -722,13 +724,15 @@ class IonBuilder MOZ_MUST_USE bool jsop_bindname(PropertyName* name); MOZ_MUST_USE bool jsop_bindvar(); MOZ_MUST_USE bool jsop_getelem(); - MOZ_MUST_USE bool jsop_getelem_dense(MDefinition* obj, MDefinition* index); + MOZ_MUST_USE bool jsop_getelem_dense(MDefinition* obj, MDefinition* index, + JSValueType unboxedType); MOZ_MUST_USE bool jsop_getelem_typed(MDefinition* obj, MDefinition* index, ScalarTypeDescr::Type arrayType); MOZ_MUST_USE bool jsop_setelem(); MOZ_MUST_USE bool jsop_setelem_dense(TemporaryTypeSet::DoubleConversion conversion, MDefinition* object, MDefinition* index, - MDefinition* value, bool writeHole, bool* emitted); + MDefinition* value, JSValueType unboxedType, + bool writeHole, bool* emitted); MOZ_MUST_USE bool jsop_setelem_typed(ScalarTypeDescr::Type arrayType, MDefinition* object, MDefinition* index, MDefinition* value); diff --git a/js/src/jit/IonCaches.cpp b/js/src/jit/IonCaches.cpp index f5e4659c1..c2dc57373 100644 --- a/js/src/jit/IonCaches.cpp +++ b/js/src/jit/IonCaches.cpp @@ -639,6 +639,9 @@ TestMatchingReceiver(MacroAssembler& masm, IonCache::StubAttacher& attacher, } else { masm.branchPtr(Assembler::NotEqual, expandoAddress, ImmWord(0), failure); } + } else if (obj->is<UnboxedArrayObject>()) { + MOZ_ASSERT(failure); + masm.branchTestObjGroup(Assembler::NotEqual, object, obj->group(), failure); } else if (obj->is<TypedObject>()) { attacher.branchNextStubOrLabel(masm, Assembler::NotEqual, Address(object, JSObject::offsetOfGroup()), @@ -1185,6 +1188,39 @@ GenerateArrayLength(JSContext* cx, MacroAssembler& masm, IonCache::StubAttacher& return true; } +static void +GenerateUnboxedArrayLength(JSContext* cx, MacroAssembler& masm, IonCache::StubAttacher& attacher, + JSObject* array, Register object, TypedOrValueRegister output, + Label* failures) +{ + Register outReg; + if (output.hasValue()) { + outReg = output.valueReg().scratchReg(); + } else { + MOZ_ASSERT(output.type() == MIRType::Int32); + outReg = output.typedReg().gpr(); + } + MOZ_ASSERT(object != outReg); + + TestMatchingReceiver(masm, attacher, object, array, failures); + + // Load length. + masm.load32(Address(object, UnboxedArrayObject::offsetOfLength()), outReg); + + // Check for a length that fits in an int32. + masm.branchTest32(Assembler::Signed, outReg, outReg, failures); + + if (output.hasValue()) + masm.tagValue(JSVAL_TYPE_INT32, outReg, output.valueReg()); + + // Success. + attacher.jumpRejoin(masm); + + // Failure. + masm.bind(failures); + attacher.jumpNextStub(masm); +} + // In this case, the code for TypedArray and SharedTypedArray is not the same, // because the code embeds pointers to the respective class arrays. Code that // caches the stub code must distinguish between the two cases. @@ -1559,6 +1595,40 @@ GetPropertyIC::tryAttachUnboxedExpando(JSContext* cx, HandleScript outerScript, } bool +GetPropertyIC::tryAttachUnboxedArrayLength(JSContext* cx, HandleScript outerScript, IonScript* ion, + HandleObject obj, HandleId id, void* returnAddr, + bool* emitted) +{ + MOZ_ASSERT(canAttachStub()); + MOZ_ASSERT(!*emitted); + MOZ_ASSERT(outerScript->ionScript() == ion); + + if (!obj->is<UnboxedArrayObject>()) + return true; + + if (!JSID_IS_ATOM(id, cx->names().length)) + return true; + + if (obj->as<UnboxedArrayObject>().length() > INT32_MAX) + return true; + + if (!allowArrayLength(cx)) + return true; + + *emitted = true; + + MacroAssembler masm(cx, ion, outerScript, profilerLeavePc_); + + Label failures; + emitIdGuard(masm, id, &failures); + + StubAttacher attacher(*this); + GenerateUnboxedArrayLength(cx, masm, attacher, obj, object(), output(), &failures); + return linkAndAttachStub(cx, masm, attacher, ion, "unboxed array length", + JS::TrackedOutcome::ICGetPropStub_UnboxedArrayLength); +} + +bool GetPropertyIC::tryAttachTypedArrayLength(JSContext* cx, HandleScript outerScript, IonScript* ion, HandleObject obj, HandleId id, bool* emitted) { @@ -2133,6 +2203,9 @@ GetPropertyIC::tryAttachStub(JSContext* cx, HandleScript outerScript, IonScript* if (!*emitted && !tryAttachUnboxedExpando(cx, outerScript, ion, obj, id, returnAddr, emitted)) return false; + if (!*emitted && !tryAttachUnboxedArrayLength(cx, outerScript, ion, obj, id, returnAddr, emitted)) + return false; + if (!*emitted && !tryAttachTypedArrayLength(cx, outerScript, ion, obj, id, emitted)) return false; } @@ -3953,7 +4026,7 @@ GetPropertyIC::tryAttachDenseElementHole(JSContext* cx, HandleScript outerScript GetPropertyIC::canAttachTypedOrUnboxedArrayElement(JSObject* obj, const Value& idval, TypedOrValueRegister output) { - if (!obj->is<TypedArrayObject>()) + if (!obj->is<TypedArrayObject>() && !obj->is<UnboxedArrayObject>()) return false; MOZ_ASSERT(idval.isInt32() || idval.isString()); @@ -3984,6 +4057,13 @@ GetPropertyIC::canAttachTypedOrUnboxedArrayElement(JSObject* obj, const Value& i return output.hasValue() || !output.typedReg().isFloat(); } + if (index >= obj->as<UnboxedArrayObject>().initializedLength()) + return false; + + JSValueType elementType = obj->as<UnboxedArrayObject>().elementType(); + if (elementType == JSVAL_TYPE_DOUBLE) + return output.hasValue(); + return output.hasValue() || !output.typedReg().isFloat(); } @@ -4060,27 +4140,46 @@ GenerateGetTypedOrUnboxedArrayElement(JSContext* cx, MacroAssembler& masm, Label popObjectAndFail; - // Guard on the initialized length. - Address length(object, TypedArrayObject::lengthOffset()); - masm.branch32(Assembler::BelowOrEqual, length, indexReg, &failures); + if (array->is<TypedArrayObject>()) { + // Guard on the initialized length. + Address length(object, TypedArrayObject::lengthOffset()); + masm.branch32(Assembler::BelowOrEqual, length, indexReg, &failures); - // Save the object register on the stack in case of failure. - Register elementReg = object; - masm.push(object); + // Save the object register on the stack in case of failure. + Register elementReg = object; + masm.push(object); - // Load elements vector. - masm.loadPtr(Address(object, TypedArrayObject::dataOffset()), elementReg); + // Load elements vector. + masm.loadPtr(Address(object, TypedArrayObject::dataOffset()), elementReg); - // Load the value. We use an invalid register because the destination - // register is necessary a non double register. - Scalar::Type arrayType = array->as<TypedArrayObject>().type(); - int width = Scalar::byteSize(arrayType); - BaseIndex source(elementReg, indexReg, ScaleFromElemWidth(width)); - if (output.hasValue()) { - masm.loadFromTypedArray(arrayType, source, output.valueReg(), allowDoubleResult, - elementReg, &popObjectAndFail); + // Load the value. We use an invalid register because the destination + // register is necessary a non double register. + Scalar::Type arrayType = array->as<TypedArrayObject>().type(); + int width = Scalar::byteSize(arrayType); + BaseIndex source(elementReg, indexReg, ScaleFromElemWidth(width)); + if (output.hasValue()) { + masm.loadFromTypedArray(arrayType, source, output.valueReg(), allowDoubleResult, + elementReg, &popObjectAndFail); + } else { + masm.loadFromTypedArray(arrayType, source, output.typedReg(), elementReg, &popObjectAndFail); + } } else { - masm.loadFromTypedArray(arrayType, source, output.typedReg(), elementReg, &popObjectAndFail); + // Save the object register on the stack in case of failure. + masm.push(object); + + // Guard on the initialized length. + masm.load32(Address(object, UnboxedArrayObject::offsetOfCapacityIndexAndInitializedLength()), object); + masm.and32(Imm32(UnboxedArrayObject::InitializedLengthMask), object); + masm.branch32(Assembler::BelowOrEqual, object, indexReg, &popObjectAndFail); + + // Load elements vector. + Register elementReg = object; + masm.loadPtr(Address(masm.getStackPointer(), 0), object); + masm.loadPtr(Address(object, UnboxedArrayObject::offsetOfElements()), elementReg); + + JSValueType elementType = array->as<UnboxedArrayObject>().elementType(); + BaseIndex source(elementReg, indexReg, ScaleFromElemWidth(UnboxedTypeSize(elementType))); + masm.loadUnboxedProperty(source, elementType, output); } masm.pop(object); diff --git a/js/src/jit/Lowering.cpp b/js/src/jit/Lowering.cpp index 108450983..c3bd47744 100644 --- a/js/src/jit/Lowering.cpp +++ b/js/src/jit/Lowering.cpp @@ -2895,6 +2895,32 @@ LIRGenerator::visitSetInitializedLength(MSetInitializedLength* ins) } void +LIRGenerator::visitUnboxedArrayLength(MUnboxedArrayLength* ins) +{ + define(new(alloc()) LUnboxedArrayLength(useRegisterAtStart(ins->object())), ins); +} + +void +LIRGenerator::visitUnboxedArrayInitializedLength(MUnboxedArrayInitializedLength* ins) +{ + define(new(alloc()) LUnboxedArrayInitializedLength(useRegisterAtStart(ins->object())), ins); +} + +void +LIRGenerator::visitIncrementUnboxedArrayInitializedLength(MIncrementUnboxedArrayInitializedLength* ins) +{ + add(new(alloc()) LIncrementUnboxedArrayInitializedLength(useRegister(ins->object())), ins); +} + +void +LIRGenerator::visitSetUnboxedArrayInitializedLength(MSetUnboxedArrayInitializedLength* ins) +{ + add(new(alloc()) LSetUnboxedArrayInitializedLength(useRegister(ins->object()), + useRegisterOrConstant(ins->length()), + temp()), ins); +} + +void LIRGenerator::visitNot(MNot* ins) { MDefinition* op = ins->input(); @@ -3143,16 +3169,22 @@ LIRGenerator::visitStoreElementHole(MStoreElementHole* ins) const LUse elements = useRegister(ins->elements()); const LAllocation index = useRegisterOrConstant(ins->index()); + // Use a temp register when adding new elements to unboxed arrays. + LDefinition tempDef = LDefinition::BogusTemp(); + if (ins->unboxedType() != JSVAL_TYPE_MAGIC) + tempDef = temp(); + LInstruction* lir; switch (ins->value()->type()) { case MIRType::Value: - lir = new(alloc()) LStoreElementHoleV(object, elements, index, useBox(ins->value())); + lir = new(alloc()) LStoreElementHoleV(object, elements, index, useBox(ins->value()), + tempDef); break; default: { const LAllocation value = useRegisterOrNonDoubleConstant(ins->value()); - lir = new(alloc()) LStoreElementHoleT(object, elements, index, value); + lir = new(alloc()) LStoreElementHoleT(object, elements, index, value, tempDef); break; } } @@ -3171,14 +3203,20 @@ LIRGenerator::visitFallibleStoreElement(MFallibleStoreElement* ins) const LUse elements = useRegister(ins->elements()); const LAllocation index = useRegisterOrConstant(ins->index()); + // Use a temp register when adding new elements to unboxed arrays. + LDefinition tempDef = LDefinition::BogusTemp(); + if (ins->unboxedType() != JSVAL_TYPE_MAGIC) + tempDef = temp(); + LInstruction* lir; switch (ins->value()->type()) { case MIRType::Value: - lir = new(alloc()) LFallibleStoreElementV(object, elements, index, useBox(ins->value())); + lir = new(alloc()) LFallibleStoreElementV(object, elements, index, useBox(ins->value()), + tempDef); break; default: const LAllocation value = useRegisterOrNonDoubleConstant(ins->value()); - lir = new(alloc()) LFallibleStoreElementT(object, elements, index, value); + lir = new(alloc()) LFallibleStoreElementT(object, elements, index, value, tempDef); break; } diff --git a/js/src/jit/Lowering.h b/js/src/jit/Lowering.h index 81e6abbbb..bb06baa29 100644 --- a/js/src/jit/Lowering.h +++ b/js/src/jit/Lowering.h @@ -217,6 +217,10 @@ class LIRGenerator : public LIRGeneratorSpecific void visitTypedObjectDescr(MTypedObjectDescr* ins); void visitInitializedLength(MInitializedLength* ins); void visitSetInitializedLength(MSetInitializedLength* ins); + void visitUnboxedArrayLength(MUnboxedArrayLength* ins); + void visitUnboxedArrayInitializedLength(MUnboxedArrayInitializedLength* ins); + void visitIncrementUnboxedArrayInitializedLength(MIncrementUnboxedArrayInitializedLength* ins); + void visitSetUnboxedArrayInitializedLength(MSetUnboxedArrayInitializedLength* ins); void visitNot(MNot* ins); void visitBoundsCheck(MBoundsCheck* ins); void visitBoundsCheckLower(MBoundsCheckLower* ins); diff --git a/js/src/jit/MCallOptimize.cpp b/js/src/jit/MCallOptimize.cpp index a1c336391..276b5eba5 100644 --- a/js/src/jit/MCallOptimize.cpp +++ b/js/src/jit/MCallOptimize.cpp @@ -471,6 +471,11 @@ IonBuilder::inlineArray(CallInfo& callInfo) return InliningStatus_NotInlined; } + if (templateObject->is<UnboxedArrayObject>()) { + if (templateObject->group()->unboxedLayout().nativeGroup()) + return InliningStatus_NotInlined; + } + // Multiple arguments imply array initialization, not just construction. if (callInfo.argc() >= 2) { initLength = callInfo.argc(); @@ -518,7 +523,7 @@ IonBuilder::inlineArray(CallInfo& callInfo) // Make sure initLength matches the template object's length. This is // not guaranteed to be the case, for instance if we're inlining the // MConstant may come from an outer script. - if (initLength != templateObject->as<ArrayObject>().length()) + if (initLength != GetAnyBoxedOrUnboxedArrayLength(templateObject)) return InliningStatus_NotInlined; // Don't inline large allocations. @@ -533,15 +538,16 @@ IonBuilder::inlineArray(CallInfo& callInfo) MDefinition* array = current->peek(-1); if (callInfo.argc() >= 2) { + JSValueType unboxedType = GetBoxedOrUnboxedType(templateObject); for (uint32_t i = 0; i < initLength; i++) { if (!alloc().ensureBallast()) return InliningStatus_Error; MDefinition* value = callInfo.getArg(i); - if (!initializeArrayElement(array, i, value, /* addResumePoint = */ false)) + if (!initializeArrayElement(array, i, value, unboxedType, /* addResumePoint = */ false)) return InliningStatus_Error; } - MInstruction* setLength = setInitializedLength(array, initLength); + MInstruction* setLength = setInitializedLength(array, unboxedType, initLength); if (!resumeAfter(setLength)) return InliningStatus_Error; } @@ -574,7 +580,7 @@ IonBuilder::inlineArrayIsArray(CallInfo& callInfo) if (!clasp || clasp->isProxy()) return InliningStatus_NotInlined; - isArray = (clasp == &ArrayObject::class_); + isArray = (clasp == &ArrayObject::class_ || clasp == &UnboxedArrayObject::class_); } pushConstant(BooleanValue(isArray)); @@ -610,7 +616,7 @@ IonBuilder::inlineArrayPopShift(CallInfo& callInfo, MArrayPopShift::Mode mode) if (!thisTypes) return InliningStatus_NotInlined; const Class* clasp = thisTypes->getKnownClass(constraints()); - if (clasp != &ArrayObject::class_) + if (clasp != &ArrayObject::class_ && clasp != &UnboxedArrayObject::class_) return InliningStatus_NotInlined; if (thisTypes->hasObjectFlags(constraints(), unhandledFlags)) { trackOptimizationOutcome(TrackedOutcome::ArrayBadFlags); @@ -623,9 +629,17 @@ IonBuilder::inlineArrayPopShift(CallInfo& callInfo, MArrayPopShift::Mode mode) return InliningStatus_NotInlined; } + JSValueType unboxedType = JSVAL_TYPE_MAGIC; + if (clasp == &UnboxedArrayObject::class_) { + unboxedType = UnboxedArrayElementType(constraints(), obj, nullptr); + if (unboxedType == JSVAL_TYPE_MAGIC) + return InliningStatus_NotInlined; + } + callInfo.setImplicitlyUsedUnchecked(); - obj = addMaybeCopyElementsForWrite(obj, /* checkNative = */ false); + if (clasp == &ArrayObject::class_) + obj = addMaybeCopyElementsForWrite(obj, /* checkNative = */ false); TemporaryTypeSet* returnTypes = getInlineReturnTypeSet(); bool needsHoleCheck = thisTypes->hasObjectFlags(constraints(), OBJECT_FLAG_NON_PACKED); @@ -636,7 +650,8 @@ IonBuilder::inlineArrayPopShift(CallInfo& callInfo, MArrayPopShift::Mode mode) if (barrier != BarrierKind::NoBarrier) returnType = MIRType::Value; - MArrayPopShift* ins = MArrayPopShift::New(alloc(), obj, mode, needsHoleCheck, maybeUndefined); + MArrayPopShift* ins = MArrayPopShift::New(alloc(), obj, mode, + unboxedType, needsHoleCheck, maybeUndefined); current->add(ins); current->push(ins); ins->setResultType(returnType); @@ -718,6 +733,13 @@ IonBuilder::inlineArrayPush(CallInfo& callInfo) return InliningStatus_NotInlined; } + JSValueType unboxedType = JSVAL_TYPE_MAGIC; + if (clasp == &UnboxedArrayObject::class_) { + unboxedType = UnboxedArrayElementType(constraints(), obj, nullptr); + if (unboxedType == JSVAL_TYPE_MAGIC) + return InliningStatus_NotInlined; + } + callInfo.setImplicitlyUsedUnchecked(); if (conversion == TemporaryTypeSet::AlwaysConvertToDoubles || @@ -728,12 +750,13 @@ IonBuilder::inlineArrayPush(CallInfo& callInfo) value = valueDouble; } - obj = addMaybeCopyElementsForWrite(obj, /* checkNative = */ false); + if (unboxedType == JSVAL_TYPE_MAGIC) + obj = addMaybeCopyElementsForWrite(obj, /* checkNative = */ false); if (NeedsPostBarrier(value)) current->add(MPostWriteBarrier::New(alloc(), obj, value)); - MArrayPush* ins = MArrayPush::New(alloc(), obj, value); + MArrayPush* ins = MArrayPush::New(alloc(), obj, value, unboxedType); current->add(ins); current->push(ins); @@ -774,9 +797,16 @@ IonBuilder::inlineArraySlice(CallInfo& callInfo) return InliningStatus_NotInlined; const Class* clasp = thisTypes->getKnownClass(constraints()); - if (clasp != &ArrayObject::class_) + if (clasp != &ArrayObject::class_ && clasp != &UnboxedArrayObject::class_) return InliningStatus_NotInlined; + JSValueType unboxedType = JSVAL_TYPE_MAGIC; + if (clasp == &UnboxedArrayObject::class_) { + unboxedType = UnboxedArrayElementType(constraints(), obj, nullptr); + if (unboxedType == JSVAL_TYPE_MAGIC) + return InliningStatus_NotInlined; + } + // Watch out for indexed properties on the object or its prototype. if (ElementAccessHasExtraIndexedProperty(this, obj)) { trackOptimizationOutcome(TrackedOutcome::ProtoIndexedProps); @@ -797,8 +827,15 @@ IonBuilder::inlineArraySlice(CallInfo& callInfo) if (!templateObj) return InliningStatus_NotInlined; - if (!templateObj->is<ArrayObject>()) - return InliningStatus_NotInlined; + if (unboxedType == JSVAL_TYPE_MAGIC) { + if (!templateObj->is<ArrayObject>()) + return InliningStatus_NotInlined; + } else { + if (!templateObj->is<UnboxedArrayObject>()) + return InliningStatus_NotInlined; + if (templateObj->as<UnboxedArrayObject>().elementType() != unboxedType) + return InliningStatus_NotInlined; + } callInfo.setImplicitlyUsedUnchecked(); @@ -817,12 +854,16 @@ IonBuilder::inlineArraySlice(CallInfo& callInfo) end = MArrayLength::New(alloc(), elements); current->add(end->toInstruction()); + } else { + end = MUnboxedArrayLength::New(alloc(), obj); + current->add(end->toInstruction()); } MArraySlice* ins = MArraySlice::New(alloc(), constraints(), obj, begin, end, templateObj, - templateObj->group()->initialHeap(constraints())); + templateObj->group()->initialHeap(constraints()), + unboxedType); current->add(ins); current->push(ins); @@ -1341,7 +1382,7 @@ IonBuilder::inlineConstantStringSplitString(CallInfo& callInfo) // Check if exist a template object in stub. JSString* stringStr = nullptr; JSString* stringSep = nullptr; - ArrayObject* templateObject = nullptr; + JSObject* templateObject = nullptr; if (!inspector->isOptimizableCallStringSplit(pc, &stringStr, &stringSep, &templateObject)) return InliningStatus_NotInlined; @@ -1367,13 +1408,13 @@ IonBuilder::inlineConstantStringSplitString(CallInfo& callInfo) if (!key.maybeTypes()->hasType(TypeSet::StringType())) return InliningStatus_NotInlined; - uint32_t initLength = templateObject->length(); - if (templateObject->getDenseInitializedLength() != initLength) + uint32_t initLength = GetAnyBoxedOrUnboxedArrayLength(templateObject); + if (GetAnyBoxedOrUnboxedInitializedLength(templateObject) != initLength) return InliningStatus_NotInlined; Vector<MConstant*, 0, SystemAllocPolicy> arrayValues; for (uint32_t i = 0; i < initLength; i++) { - Value str = templateObject->getDenseElement(i); + Value str = GetAnyBoxedOrUnboxedDenseElement(templateObject, i); MOZ_ASSERT(str.toString()->isAtom()); MConstant* value = MConstant::New(alloc().fallible(), str, constraints()); if (!value) @@ -1404,6 +1445,8 @@ IonBuilder::inlineConstantStringSplitString(CallInfo& callInfo) return InliningStatus_Inlined; } + JSValueType unboxedType = GetBoxedOrUnboxedType(templateObject); + // Store all values, no need to initialize the length after each as // jsop_initelem_array is doing because we do not expect to bailout // because the memory is supposed to be allocated by now. @@ -1414,11 +1457,11 @@ IonBuilder::inlineConstantStringSplitString(CallInfo& callInfo) MConstant* value = arrayValues[i]; current->add(value); - if (!initializeArrayElement(array, i, value, /* addResumePoint = */ false)) + if (!initializeArrayElement(array, i, value, unboxedType, /* addResumePoint = */ false)) return InliningStatus_Error; } - MInstruction* setLength = setInitializedLength(array, initLength); + MInstruction* setLength = setInitializedLength(array, unboxedType, initLength); if (!resumeAfter(setLength)) return InliningStatus_Error; diff --git a/js/src/jit/MIR.cpp b/js/src/jit/MIR.cpp index 1e4ee170f..403e70c02 100644 --- a/js/src/jit/MIR.cpp +++ b/js/src/jit/MIR.cpp @@ -5789,6 +5789,46 @@ jit::ElementAccessIsDenseNative(CompilerConstraintList* constraints, return clasp && clasp->isNative() && !IsTypedArrayClass(clasp); } +JSValueType +jit::UnboxedArrayElementType(CompilerConstraintList* constraints, MDefinition* obj, + MDefinition* id) +{ + if (obj->mightBeType(MIRType::String)) + return JSVAL_TYPE_MAGIC; + + if (id && id->type() != MIRType::Int32 && id->type() != MIRType::Double) + return JSVAL_TYPE_MAGIC; + + TemporaryTypeSet* types = obj->resultTypeSet(); + if (!types || types->unknownObject()) + return JSVAL_TYPE_MAGIC; + + JSValueType elementType = JSVAL_TYPE_MAGIC; + for (unsigned i = 0; i < types->getObjectCount(); i++) { + TypeSet::ObjectKey* key = types->getObject(i); + if (!key) + continue; + + if (key->unknownProperties() || !key->isGroup()) + return JSVAL_TYPE_MAGIC; + + if (key->clasp() != &UnboxedArrayObject::class_) + return JSVAL_TYPE_MAGIC; + + const UnboxedLayout &layout = key->group()->unboxedLayout(); + + if (layout.nativeGroup()) + return JSVAL_TYPE_MAGIC; + + if (elementType == layout.elementType() || elementType == JSVAL_TYPE_MAGIC) + elementType = layout.elementType(); + else + return JSVAL_TYPE_MAGIC; + } + + return elementType; +} + bool jit::ElementAccessIsTypedArray(CompilerConstraintList* constraints, MDefinition* obj, MDefinition* id, @@ -5948,6 +5988,11 @@ ObjectSubsumes(TypeSet::ObjectKey* first, TypeSet::ObjectKey* second) firstElements.maybeTypes()->equals(secondElements.maybeTypes()); } + if (first->clasp() == &UnboxedArrayObject::class_) { + return first->group()->unboxedLayout().elementType() == + second->group()->unboxedLayout().elementType(); + } + return false; } diff --git a/js/src/jit/MIR.h b/js/src/jit/MIR.h index cafdbab71..ebc98a4f8 100644 --- a/js/src/jit/MIR.h +++ b/js/src/jit/MIR.h @@ -375,7 +375,8 @@ class AliasSet { Element = 1 << 1, // A Value member of obj->elements or // a typed object. UnboxedElement = 1 << 2, // An unboxed scalar or reference member of - // typed object or unboxed object. + // a typed array, typed object, or unboxed + // object. DynamicSlot = 1 << 3, // A Value member of obj->slots. FixedSlot = 1 << 4, // A Value member of obj->fixedSlots(). DOMProperty = 1 << 5, // A DOM property @@ -432,6 +433,9 @@ class AliasSet { MOZ_ASSERT(flags && !(flags & Store_)); return AliasSet(flags | Store_); } + static uint32_t BoxedOrUnboxedElements(JSValueType type) { + return (type == JSVAL_TYPE_MAGIC) ? Element : UnboxedElement; + } }; typedef Vector<MDefinition*, 6, JitAllocPolicy> MDefinitionVector; @@ -8758,6 +8762,102 @@ class MSetInitializedLength ALLOW_CLONE(MSetInitializedLength) }; +// Load the length from an unboxed array. +class MUnboxedArrayLength + : public MUnaryInstruction, + public SingleObjectPolicy::Data +{ + explicit MUnboxedArrayLength(MDefinition* object) + : MUnaryInstruction(object) + { + setResultType(MIRType::Int32); + setMovable(); + } + + public: + INSTRUCTION_HEADER(UnboxedArrayLength) + TRIVIAL_NEW_WRAPPERS + NAMED_OPERANDS((0, object)) + + bool congruentTo(const MDefinition* ins) const override { + return congruentIfOperandsEqual(ins); + } + AliasSet getAliasSet() const override { + return AliasSet::Load(AliasSet::ObjectFields); + } + + ALLOW_CLONE(MUnboxedArrayLength) +}; + +// Load the initialized length from an unboxed array. +class MUnboxedArrayInitializedLength + : public MUnaryInstruction, + public SingleObjectPolicy::Data +{ + explicit MUnboxedArrayInitializedLength(MDefinition* object) + : MUnaryInstruction(object) + { + setResultType(MIRType::Int32); + setMovable(); + } + + public: + INSTRUCTION_HEADER(UnboxedArrayInitializedLength) + TRIVIAL_NEW_WRAPPERS + NAMED_OPERANDS((0, object)) + + bool congruentTo(const MDefinition* ins) const override { + return congruentIfOperandsEqual(ins); + } + AliasSet getAliasSet() const override { + return AliasSet::Load(AliasSet::ObjectFields); + } + + ALLOW_CLONE(MUnboxedArrayInitializedLength) +}; + +// Increment the initialized length of an unboxed array object. +class MIncrementUnboxedArrayInitializedLength + : public MUnaryInstruction, + public SingleObjectPolicy::Data +{ + explicit MIncrementUnboxedArrayInitializedLength(MDefinition* obj) + : MUnaryInstruction(obj) + {} + + public: + INSTRUCTION_HEADER(IncrementUnboxedArrayInitializedLength) + TRIVIAL_NEW_WRAPPERS + NAMED_OPERANDS((0, object)) + + AliasSet getAliasSet() const override { + return AliasSet::Store(AliasSet::ObjectFields); + } + + ALLOW_CLONE(MIncrementUnboxedArrayInitializedLength) +}; + +// Set the initialized length of an unboxed array object. +class MSetUnboxedArrayInitializedLength + : public MBinaryInstruction, + public SingleObjectPolicy::Data +{ + explicit MSetUnboxedArrayInitializedLength(MDefinition* obj, MDefinition* length) + : MBinaryInstruction(obj, length) + {} + + public: + INSTRUCTION_HEADER(SetUnboxedArrayInitializedLength) + TRIVIAL_NEW_WRAPPERS + NAMED_OPERANDS((0, object), (1, length)) + + AliasSet getAliasSet() const override { + return AliasSet::Store(AliasSet::ObjectFields); + } + + ALLOW_CLONE(MSetUnboxedArrayInitializedLength) +}; + // Load the array length from an elements header. class MArrayLength : public MUnaryInstruction, @@ -9251,19 +9351,23 @@ class MLoadElement ALLOW_CLONE(MLoadElement) }; -// Load a value from the elements vector of a native object. +// Load a value from the elements vector for a dense native or unboxed array. // If the index is out-of-bounds, or the indexed slot has a hole, undefined is // returned instead. class MLoadElementHole : public MTernaryInstruction, public SingleObjectPolicy::Data { + // Unboxed element type, JSVAL_TYPE_MAGIC for dense native elements. + JSValueType unboxedType_; + bool needsNegativeIntCheck_; bool needsHoleCheck_; MLoadElementHole(MDefinition* elements, MDefinition* index, MDefinition* initLength, - bool needsHoleCheck) + JSValueType unboxedType, bool needsHoleCheck) : MTernaryInstruction(elements, index, initLength), + unboxedType_(unboxedType), needsNegativeIntCheck_(true), needsHoleCheck_(needsHoleCheck) { @@ -9285,6 +9389,9 @@ class MLoadElementHole TRIVIAL_NEW_WRAPPERS NAMED_OPERANDS((0, elements), (1, index), (2, initLength)) + JSValueType unboxedType() const { + return unboxedType_; + } bool needsNegativeIntCheck() const { return needsNegativeIntCheck_; } @@ -9295,6 +9402,8 @@ class MLoadElementHole if (!ins->isLoadElementHole()) return false; const MLoadElementHole* other = ins->toLoadElementHole(); + if (unboxedType() != other->unboxedType()) + return false; if (needsHoleCheck() != other->needsHoleCheck()) return false; if (needsNegativeIntCheck() != other->needsNegativeIntCheck()) @@ -9302,7 +9411,7 @@ class MLoadElementHole return congruentIfOperandsEqual(other); } AliasSet getAliasSet() const override { - return AliasSet::Load(AliasSet::Element); + return AliasSet::Load(AliasSet::BoxedOrUnboxedElements(unboxedType())); } void collectRangeInfoPreTrunc() override; @@ -9482,17 +9591,20 @@ class MStoreElement ALLOW_CLONE(MStoreElement) }; -// Like MStoreElement, but supports indexes >= initialized length. The downside -// is that we cannot hoist the elements vector and bounds check, since this -// instruction may update the (initialized) length and reallocate the elements -// vector. +// Like MStoreElement, but supports indexes >= initialized length, and can +// handle unboxed arrays. The downside is that we cannot hoist the elements +// vector and bounds check, since this instruction may update the (initialized) +// length and reallocate the elements vector. class MStoreElementHole : public MAryInstruction<4>, public MStoreElementCommon, public MixPolicy<SingleObjectPolicy, NoFloatPolicy<3> >::Data { + JSValueType unboxedType_; + MStoreElementHole(MDefinition* object, MDefinition* elements, - MDefinition* index, MDefinition* value) + MDefinition* index, MDefinition* value, JSValueType unboxedType) + : unboxedType_(unboxedType) { initOperand(0, object); initOperand(1, elements); @@ -9507,6 +9619,10 @@ class MStoreElementHole TRIVIAL_NEW_WRAPPERS NAMED_OPERANDS((0, object), (1, elements), (2, index), (3, value)) + JSValueType unboxedType() const { + return unboxedType_; + } + ALLOW_CLONE(MStoreElementHole) }; @@ -9517,11 +9633,13 @@ class MFallibleStoreElement public MStoreElementCommon, public MixPolicy<SingleObjectPolicy, NoFloatPolicy<3> >::Data { + JSValueType unboxedType_; bool strict_; MFallibleStoreElement(MDefinition* object, MDefinition* elements, MDefinition* index, MDefinition* value, - bool strict) + JSValueType unboxedType, bool strict) + : unboxedType_(unboxedType) { initOperand(0, object); initOperand(1, elements); @@ -9537,6 +9655,10 @@ class MFallibleStoreElement TRIVIAL_NEW_WRAPPERS NAMED_OPERANDS((0, object), (1, elements), (2, index), (3, value)) + JSValueType unboxedType() const { + return unboxedType_; + } + bool strict() const { return strict_; } @@ -9640,12 +9762,13 @@ class MArrayPopShift private: Mode mode_; + JSValueType unboxedType_; bool needsHoleCheck_; bool maybeUndefined_; - MArrayPopShift(MDefinition* object, Mode mode, + MArrayPopShift(MDefinition* object, Mode mode, JSValueType unboxedType, bool needsHoleCheck, bool maybeUndefined) - : MUnaryInstruction(object), mode_(mode), + : MUnaryInstruction(object), mode_(mode), unboxedType_(unboxedType), needsHoleCheck_(needsHoleCheck), maybeUndefined_(maybeUndefined) { } @@ -9663,8 +9786,12 @@ class MArrayPopShift bool mode() const { return mode_; } + JSValueType unboxedType() const { + return unboxedType_; + } AliasSet getAliasSet() const override { - return AliasSet::Store(AliasSet::ObjectFields | AliasSet::Element); + return AliasSet::Store(AliasSet::ObjectFields | + AliasSet::BoxedOrUnboxedElements(unboxedType())); } ALLOW_CLONE(MArrayPopShift) @@ -9675,8 +9802,10 @@ class MArrayPush : public MBinaryInstruction, public MixPolicy<SingleObjectPolicy, NoFloatPolicy<1> >::Data { - MArrayPush(MDefinition* object, MDefinition* value) - : MBinaryInstruction(object, value) + JSValueType unboxedType_; + + MArrayPush(MDefinition* object, MDefinition* value, JSValueType unboxedType) + : MBinaryInstruction(object, value), unboxedType_(unboxedType) { setResultType(MIRType::Int32); } @@ -9686,8 +9815,12 @@ class MArrayPush TRIVIAL_NEW_WRAPPERS NAMED_OPERANDS((0, object), (1, value)) + JSValueType unboxedType() const { + return unboxedType_; + } AliasSet getAliasSet() const override { - return AliasSet::Store(AliasSet::ObjectFields | AliasSet::Element); + return AliasSet::Store(AliasSet::ObjectFields | + AliasSet::BoxedOrUnboxedElements(unboxedType())); } void computeRange(TempAllocator& alloc) override; @@ -9701,13 +9834,15 @@ class MArraySlice { CompilerObject templateObj_; gc::InitialHeap initialHeap_; + JSValueType unboxedType_; MArraySlice(CompilerConstraintList* constraints, MDefinition* obj, MDefinition* begin, MDefinition* end, - JSObject* templateObj, gc::InitialHeap initialHeap) + JSObject* templateObj, gc::InitialHeap initialHeap, JSValueType unboxedType) : MTernaryInstruction(obj, begin, end), templateObj_(templateObj), - initialHeap_(initialHeap) + initialHeap_(initialHeap), + unboxedType_(unboxedType) { setResultType(MIRType::Object); } @@ -9725,6 +9860,10 @@ class MArraySlice return initialHeap_; } + JSValueType unboxedType() const { + return unboxedType_; + } + bool possiblyCalls() const override { return true; } @@ -12093,13 +12232,15 @@ class MInArray { bool needsHoleCheck_; bool needsNegativeIntCheck_; + JSValueType unboxedType_; MInArray(MDefinition* elements, MDefinition* index, MDefinition* initLength, MDefinition* object, - bool needsHoleCheck) + bool needsHoleCheck, JSValueType unboxedType) : MQuaternaryInstruction(elements, index, initLength, object), needsHoleCheck_(needsHoleCheck), - needsNegativeIntCheck_(true) + needsNegativeIntCheck_(true), + unboxedType_(unboxedType) { setResultType(MIRType::Boolean); setMovable(); @@ -12119,6 +12260,9 @@ class MInArray bool needsNegativeIntCheck() const { return needsNegativeIntCheck_; } + JSValueType unboxedType() const { + return unboxedType_; + } void collectRangeInfoPreTrunc() override; AliasSet getAliasSet() const override { return AliasSet::Load(AliasSet::Element); @@ -12131,6 +12275,8 @@ class MInArray return false; if (needsNegativeIntCheck() != other->needsNegativeIntCheck()) return false; + if (unboxedType() != other->unboxedType()) + return false; return congruentIfOperandsEqual(other); } }; @@ -14031,6 +14177,8 @@ MDefinition::maybeConstantValue() bool ElementAccessIsDenseNative(CompilerConstraintList* constraints, MDefinition* obj, MDefinition* id); +JSValueType UnboxedArrayElementType(CompilerConstraintList* constraints, MDefinition* obj, + MDefinition* id); bool ElementAccessIsTypedArray(CompilerConstraintList* constraints, MDefinition* obj, MDefinition* id, Scalar::Type* arrayType); diff --git a/js/src/jit/MOpcodes.h b/js/src/jit/MOpcodes.h index 589dde077..f5f59dee6 100644 --- a/js/src/jit/MOpcodes.h +++ b/js/src/jit/MOpcodes.h @@ -199,6 +199,10 @@ namespace jit { _(SetTypedObjectOffset) \ _(InitializedLength) \ _(SetInitializedLength) \ + _(UnboxedArrayLength) \ + _(UnboxedArrayInitializedLength) \ + _(IncrementUnboxedArrayInitializedLength) \ + _(SetUnboxedArrayInitializedLength) \ _(Not) \ _(BoundsCheck) \ _(BoundsCheckLower) \ diff --git a/js/src/jit/MacroAssembler.cpp b/js/src/jit/MacroAssembler.cpp index e50f68722..f633b9b7b 100644 --- a/js/src/jit/MacroAssembler.cpp +++ b/js/src/jit/MacroAssembler.cpp @@ -705,6 +705,31 @@ template void MacroAssembler::storeUnboxedProperty(BaseIndex address, JSValueType type, const ConstantOrRegister& value, Label* failure); +void +MacroAssembler::checkUnboxedArrayCapacity(Register obj, const RegisterOrInt32Constant& index, + Register temp, Label* failure) +{ + Address initLengthAddr(obj, UnboxedArrayObject::offsetOfCapacityIndexAndInitializedLength()); + Address lengthAddr(obj, UnboxedArrayObject::offsetOfLength()); + + Label capacityIsIndex, done; + load32(initLengthAddr, temp); + branchTest32(Assembler::NonZero, temp, Imm32(UnboxedArrayObject::CapacityMask), &capacityIsIndex); + branch32(Assembler::BelowOrEqual, lengthAddr, index, failure); + jump(&done); + bind(&capacityIsIndex); + + // Do a partial shift so that we can get an absolute offset from the base + // of CapacityArray to use. + JS_STATIC_ASSERT(sizeof(UnboxedArrayObject::CapacityArray[0]) == 4); + rshiftPtr(Imm32(UnboxedArrayObject::CapacityShift - 2), temp); + and32(Imm32(~0x3), temp); + + addPtr(ImmPtr(&UnboxedArrayObject::CapacityArray), temp); + branch32(Assembler::BelowOrEqual, Address(temp, 0), index, failure); + bind(&done); +} + // Inlined version of gc::CheckAllocatorState that checks the bare essentials // and bails for anything that cannot be handled with our jit allocators. void @@ -1256,6 +1281,16 @@ MacroAssembler::initGCThing(Register obj, Register temp, JSObject* templateObj, storePtr(ImmWord(0), Address(obj, UnboxedPlainObject::offsetOfExpando())); if (initContents) initUnboxedObjectContents(obj, &templateObj->as<UnboxedPlainObject>()); + } else if (templateObj->is<UnboxedArrayObject>()) { + MOZ_ASSERT(templateObj->as<UnboxedArrayObject>().hasInlineElements()); + int elementsOffset = UnboxedArrayObject::offsetOfInlineElements(); + computeEffectiveAddress(Address(obj, elementsOffset), temp); + storePtr(temp, Address(obj, UnboxedArrayObject::offsetOfElements())); + store32(Imm32(templateObj->as<UnboxedArrayObject>().length()), + Address(obj, UnboxedArrayObject::offsetOfLength())); + uint32_t capacityIndex = templateObj->as<UnboxedArrayObject>().capacityIndex(); + store32(Imm32(capacityIndex << UnboxedArrayObject::CapacityShift), + Address(obj, UnboxedArrayObject::offsetOfCapacityIndexAndInitializedLength())); } else { MOZ_CRASH("Unknown object"); } diff --git a/js/src/jit/MacroAssembler.h b/js/src/jit/MacroAssembler.h index 6ee989463..b6616321c 100644 --- a/js/src/jit/MacroAssembler.h +++ b/js/src/jit/MacroAssembler.h @@ -1626,7 +1626,7 @@ class MacroAssembler : public MacroAssemblerSpecific void storeToTypedFloatArray(Scalar::Type arrayType, FloatRegister value, const Address& dest, unsigned numElems = 0); - // Load a property from an UnboxedPlainObject. + // Load a property from an UnboxedPlainObject or UnboxedArrayObject. template <typename T> void loadUnboxedProperty(T address, JSValueType type, TypedOrValueRegister output); @@ -1637,6 +1637,9 @@ class MacroAssembler : public MacroAssemblerSpecific void storeUnboxedProperty(T address, JSValueType type, const ConstantOrRegister& value, Label* failure); + void checkUnboxedArrayCapacity(Register obj, const RegisterOrInt32Constant& index, + Register temp, Label* failure); + Register extractString(const Address& address, Register scratch) { return extractObject(address, scratch); } diff --git a/js/src/jit/Recover.cpp b/js/src/jit/Recover.cpp index 8fe6ee3fb..6fd71f377 100644 --- a/js/src/jit/Recover.cpp +++ b/js/src/jit/Recover.cpp @@ -1355,7 +1355,7 @@ RNewArray::recover(JSContext* cx, SnapshotIterator& iter) const RootedValue result(cx); RootedObjectGroup group(cx, templateObject->group()); - ArrayObject* resultObject = NewFullyAllocatedArrayTryUseGroup(cx, group, count_); + JSObject* resultObject = NewFullyAllocatedArrayTryUseGroup(cx, group, count_); if (!resultObject) return false; diff --git a/js/src/jit/ScalarReplacement.cpp b/js/src/jit/ScalarReplacement.cpp index be9ceee2e..2065c0371 100644 --- a/js/src/jit/ScalarReplacement.cpp +++ b/js/src/jit/ScalarReplacement.cpp @@ -795,6 +795,11 @@ IsArrayEscaped(MInstruction* ins) return true; } + if (obj->is<UnboxedArrayObject>()) { + JitSpew(JitSpew_Escape, "Template object is an unboxed plain object."); + return true; + } + if (length >= 16) { JitSpew(JitSpew_Escape, "Array has too many elements"); return true; diff --git a/js/src/jit/SharedIC.cpp b/js/src/jit/SharedIC.cpp index 313957462..2475dfb22 100644 --- a/js/src/jit/SharedIC.cpp +++ b/js/src/jit/SharedIC.cpp @@ -286,6 +286,11 @@ ICStub::trace(JSTracer* trc) TraceEdge(trc, &getElemStub->shape(), "baseline-getelem-dense-shape"); break; } + case ICStub::GetElem_UnboxedArray: { + ICGetElem_UnboxedArray* getElemStub = toGetElem_UnboxedArray(); + TraceEdge(trc, &getElemStub->group(), "baseline-getelem-unboxed-array-group"); + break; + } case ICStub::GetElem_TypedArray: { ICGetElem_TypedArray* getElemStub = toGetElem_TypedArray(); TraceEdge(trc, &getElemStub->shape(), "baseline-getelem-typedarray-shape"); @@ -2245,6 +2250,7 @@ IsCacheableProtoChain(JSObject* obj, JSObject* holder, bool isDOMProxy) if (obj == holder) return false; if (!obj->is<UnboxedPlainObject>() && + !obj->is<UnboxedArrayObject>() && !obj->is<TypedObject>()) { return false; @@ -2576,6 +2582,9 @@ CheckHasNoSuchProperty(JSContext* cx, JSObject* obj, PropertyName* name, } else if (curObj->is<UnboxedPlainObject>()) { if (curObj->as<UnboxedPlainObject>().containsUnboxedOrExpandoProperty(cx, NameToId(name))) return false; + } else if (curObj->is<UnboxedArrayObject>()) { + if (name == cx->names().length) + return false; } else if (curObj->is<TypedObject>()) { if (curObj->as<TypedObject>().typeDescr().hasProperty(cx->names(), NameToId(name))) return false; diff --git a/js/src/jit/VMFunctions.cpp b/js/src/jit/VMFunctions.cpp index 1cb731de8..10be2836b 100644 --- a/js/src/jit/VMFunctions.cpp +++ b/js/src/jit/VMFunctions.cpp @@ -306,7 +306,7 @@ template bool StringsEqual<false>(JSContext* cx, HandleString lhs, HandleString bool ArrayPopDense(JSContext* cx, HandleObject obj, MutableHandleValue rval) { - MOZ_ASSERT(obj->is<ArrayObject>()); + MOZ_ASSERT(obj->is<ArrayObject>() || obj->is<UnboxedArrayObject>()); AutoDetectInvalidation adi(cx, rval); @@ -325,11 +325,12 @@ ArrayPopDense(JSContext* cx, HandleObject obj, MutableHandleValue rval) } bool -ArrayPushDense(JSContext* cx, HandleArrayObject arr, HandleValue v, uint32_t* length) +ArrayPushDense(JSContext* cx, HandleObject obj, HandleValue v, uint32_t* length) { - *length = arr->length(); - DenseElementResult result = arr->setOrExtendDenseElements(cx, *length, v.address(), 1, - ShouldUpdateTypes::DontUpdate); + *length = GetAnyBoxedOrUnboxedArrayLength(obj); + DenseElementResult result = + SetOrExtendAnyBoxedOrUnboxedDenseElements(cx, obj, *length, v.address(), 1, + ShouldUpdateTypes::DontUpdate); if (result != DenseElementResult::Incomplete) { (*length)++; return result == DenseElementResult::Success; @@ -337,7 +338,7 @@ ArrayPushDense(JSContext* cx, HandleArrayObject arr, HandleValue v, uint32_t* le JS::AutoValueArray<3> argv(cx); argv[0].setUndefined(); - argv[1].setObject(*arr); + argv[1].setObject(*obj); argv[2].set(v); if (!js::array_push(cx, 1, argv.begin())) return false; @@ -349,7 +350,7 @@ ArrayPushDense(JSContext* cx, HandleArrayObject arr, HandleValue v, uint32_t* le bool ArrayShiftDense(JSContext* cx, HandleObject obj, MutableHandleValue rval) { - MOZ_ASSERT(obj->is<ArrayObject>()); + MOZ_ASSERT(obj->is<ArrayObject>() || obj->is<UnboxedArrayObject>()); AutoDetectInvalidation adi(cx, rval); @@ -1130,14 +1131,16 @@ Recompile(JSContext* cx) } bool -SetDenseElement(JSContext* cx, HandleNativeObject obj, int32_t index, HandleValue value, bool strict) +SetDenseOrUnboxedArrayElement(JSContext* cx, HandleObject obj, int32_t index, + HandleValue value, bool strict) { // This function is called from Ion code for StoreElementHole's OOL path. - // In this case we know the object is native and that no type changes are - // needed. + // In this case we know the object is native or an unboxed array and that + // no type changes are needed. - DenseElementResult result = obj->setOrExtendDenseElements(cx, index, value.address(), 1, - ShouldUpdateTypes::DontUpdate); + DenseElementResult result = + SetOrExtendAnyBoxedOrUnboxedDenseElements(cx, obj, index, value.address(), 1, + ShouldUpdateTypes::DontUpdate); if (result != DenseElementResult::Incomplete) return result == DenseElementResult::Success; diff --git a/js/src/jit/VMFunctions.h b/js/src/jit/VMFunctions.h index 94f741397..7f225c293 100644 --- a/js/src/jit/VMFunctions.h +++ b/js/src/jit/VMFunctions.h @@ -622,7 +622,7 @@ template<bool Equal> bool StringsEqual(JSContext* cx, HandleString left, HandleString right, bool* res); MOZ_MUST_USE bool ArrayPopDense(JSContext* cx, HandleObject obj, MutableHandleValue rval); -MOZ_MUST_USE bool ArrayPushDense(JSContext* cx, HandleArrayObject obj, HandleValue v, uint32_t* length); +MOZ_MUST_USE bool ArrayPushDense(JSContext* cx, HandleObject obj, HandleValue v, uint32_t* length); MOZ_MUST_USE bool ArrayShiftDense(JSContext* cx, HandleObject obj, MutableHandleValue rval); JSString* ArrayJoin(JSContext* cx, HandleObject array, HandleString sep); @@ -745,8 +745,8 @@ ForcedRecompile(JSContext* cx); JSString* StringReplace(JSContext* cx, HandleString string, HandleString pattern, HandleString repl); -MOZ_MUST_USE bool SetDenseElement(JSContext* cx, HandleNativeObject obj, int32_t index, - HandleValue value, bool strict); +MOZ_MUST_USE bool SetDenseOrUnboxedArrayElement(JSContext* cx, HandleObject obj, int32_t index, + HandleValue value, bool strict); void AssertValidObjectPtr(JSContext* cx, JSObject* obj); void AssertValidObjectOrNullPtr(JSContext* cx, JSObject* obj); diff --git a/js/src/jit/shared/LIR-shared.h b/js/src/jit/shared/LIR-shared.h index ff4915d1a..49879eedb 100644 --- a/js/src/jit/shared/LIR-shared.h +++ b/js/src/jit/shared/LIR-shared.h @@ -5166,6 +5166,72 @@ class LSetInitializedLength : public LInstructionHelper<0, 2, 0> } }; +class LUnboxedArrayLength : public LInstructionHelper<1, 1, 0> +{ + public: + LIR_HEADER(UnboxedArrayLength) + + explicit LUnboxedArrayLength(const LAllocation& object) { + setOperand(0, object); + } + + const LAllocation* object() { + return getOperand(0); + } +}; + +class LUnboxedArrayInitializedLength : public LInstructionHelper<1, 1, 0> +{ + public: + LIR_HEADER(UnboxedArrayInitializedLength) + + explicit LUnboxedArrayInitializedLength(const LAllocation& object) { + setOperand(0, object); + } + + const LAllocation* object() { + return getOperand(0); + } +}; + +class LIncrementUnboxedArrayInitializedLength : public LInstructionHelper<0, 1, 0> +{ + public: + LIR_HEADER(IncrementUnboxedArrayInitializedLength) + + explicit LIncrementUnboxedArrayInitializedLength(const LAllocation& object) { + setOperand(0, object); + } + + const LAllocation* object() { + return getOperand(0); + } +}; + +class LSetUnboxedArrayInitializedLength : public LInstructionHelper<0, 2, 1> +{ + public: + LIR_HEADER(SetUnboxedArrayInitializedLength) + + explicit LSetUnboxedArrayInitializedLength(const LAllocation& object, + const LAllocation& length, + const LDefinition& temp) { + setOperand(0, object); + setOperand(1, length); + setTemp(0, temp); + } + + const LAllocation* object() { + return getOperand(0); + } + const LAllocation* length() { + return getOperand(1); + } + const LDefinition* temp() { + return getTemp(0); + } +}; + // Load the length from an elements header. class LArrayLength : public LInstructionHelper<1, 1, 0> { @@ -5670,17 +5736,19 @@ class LStoreElementT : public LInstructionHelper<0, 3, 0> }; // Like LStoreElementV, but supports indexes >= initialized length. -class LStoreElementHoleV : public LInstructionHelper<0, 3 + BOX_PIECES, 0> +class LStoreElementHoleV : public LInstructionHelper<0, 3 + BOX_PIECES, 1> { public: LIR_HEADER(StoreElementHoleV) LStoreElementHoleV(const LAllocation& object, const LAllocation& elements, - const LAllocation& index, const LBoxAllocation& value) { + const LAllocation& index, const LBoxAllocation& value, + const LDefinition& temp) { setOperand(0, object); setOperand(1, elements); setOperand(2, index); setBoxOperand(Value, value); + setTemp(0, temp); } static const size_t Value = 3; @@ -5700,17 +5768,19 @@ class LStoreElementHoleV : public LInstructionHelper<0, 3 + BOX_PIECES, 0> }; // Like LStoreElementT, but supports indexes >= initialized length. -class LStoreElementHoleT : public LInstructionHelper<0, 4, 0> +class LStoreElementHoleT : public LInstructionHelper<0, 4, 1> { public: LIR_HEADER(StoreElementHoleT) LStoreElementHoleT(const LAllocation& object, const LAllocation& elements, - const LAllocation& index, const LAllocation& value) { + const LAllocation& index, const LAllocation& value, + const LDefinition& temp) { setOperand(0, object); setOperand(1, elements); setOperand(2, index); setOperand(3, value); + setTemp(0, temp); } const MStoreElementHole* mir() const { @@ -5731,17 +5801,19 @@ class LStoreElementHoleT : public LInstructionHelper<0, 4, 0> }; // Like LStoreElementV, but can just ignore assignment (for eg. frozen objects) -class LFallibleStoreElementV : public LInstructionHelper<0, 3 + BOX_PIECES, 0> +class LFallibleStoreElementV : public LInstructionHelper<0, 3 + BOX_PIECES, 1> { public: LIR_HEADER(FallibleStoreElementV) LFallibleStoreElementV(const LAllocation& object, const LAllocation& elements, - const LAllocation& index, const LBoxAllocation& value) { + const LAllocation& index, const LBoxAllocation& value, + const LDefinition& temp) { setOperand(0, object); setOperand(1, elements); setOperand(2, index); setBoxOperand(Value, value); + setTemp(0, temp); } static const size_t Value = 3; @@ -5761,17 +5833,19 @@ class LFallibleStoreElementV : public LInstructionHelper<0, 3 + BOX_PIECES, 0> }; // Like LStoreElementT, but can just ignore assignment (for eg. frozen objects) -class LFallibleStoreElementT : public LInstructionHelper<0, 4, 0> +class LFallibleStoreElementT : public LInstructionHelper<0, 4, 1> { public: LIR_HEADER(FallibleStoreElementT) LFallibleStoreElementT(const LAllocation& object, const LAllocation& elements, - const LAllocation& index, const LAllocation& value) { + const LAllocation& index, const LAllocation& value, + const LDefinition& temp) { setOperand(0, object); setOperand(1, elements); setOperand(2, index); setOperand(3, value); + setTemp(0, temp); } const MFallibleStoreElement* mir() const { diff --git a/js/src/jit/shared/LOpcodes-shared.h b/js/src/jit/shared/LOpcodes-shared.h index 56b98940a..505c0ea03 100644 --- a/js/src/jit/shared/LOpcodes-shared.h +++ b/js/src/jit/shared/LOpcodes-shared.h @@ -266,6 +266,10 @@ _(PostWriteElementBarrierV) \ _(InitializedLength) \ _(SetInitializedLength) \ + _(UnboxedArrayLength) \ + _(UnboxedArrayInitializedLength) \ + _(IncrementUnboxedArrayInitializedLength) \ + _(SetUnboxedArrayInitializedLength) \ _(BoundsCheck) \ _(BoundsCheckRange) \ _(BoundsCheckLower) \ diff --git a/js/src/jsapi.h b/js/src/jsapi.h index 7795c5e4c..0e2eeebaa 100644 --- a/js/src/jsapi.h +++ b/js/src/jsapi.h @@ -1096,6 +1096,7 @@ class JS_PUBLIC_API(ContextOptions) { wasmAlwaysBaseline_(false), throwOnAsmJSValidationFailure_(false), nativeRegExp_(true), + unboxedArrays_(false), asyncStack_(true), throwOnDebuggeeWouldRun_(true), dumpStackOnDebuggeeWouldRun_(false), @@ -1172,6 +1173,12 @@ class JS_PUBLIC_API(ContextOptions) { return *this; } + bool unboxedArrays() const { return unboxedArrays_; } + ContextOptions& setUnboxedArrays(bool flag) { + unboxedArrays_ = flag; + return *this; + } + bool asyncStack() const { return asyncStack_; } ContextOptions& setAsyncStack(bool flag) { asyncStack_ = flag; @@ -1234,6 +1241,7 @@ class JS_PUBLIC_API(ContextOptions) { bool wasmAlwaysBaseline_ : 1; bool throwOnAsmJSValidationFailure_ : 1; bool nativeRegExp_ : 1; + bool unboxedArrays_ : 1; bool asyncStack_ : 1; bool throwOnDebuggeeWouldRun_ : 1; bool dumpStackOnDebuggeeWouldRun_ : 1; diff --git a/js/src/jsarray.cpp b/js/src/jsarray.cpp index 4ee967d4c..1724a0a66 100644 --- a/js/src/jsarray.cpp +++ b/js/src/jsarray.cpp @@ -64,7 +64,7 @@ using JS::ToUint32; bool JS::IsArray(JSContext* cx, HandleObject obj, IsArrayAnswer* answer) { - if (obj->is<ArrayObject>()) { + if (obj->is<ArrayObject>() || obj->is<UnboxedArrayObject>()) { *answer = IsArrayAnswer::Array; return true; } @@ -100,6 +100,11 @@ js::GetLengthProperty(JSContext* cx, HandleObject obj, uint32_t* lengthp) return true; } + if (obj->is<UnboxedArrayObject>()) { + *lengthp = obj->as<UnboxedArrayObject>().length(); + return true; + } + if (obj->is<ArgumentsObject>()) { ArgumentsObject& argsobj = obj->as<ArgumentsObject>(); if (!argsobj.hasOverriddenLength()) { @@ -248,20 +253,18 @@ static bool GetElement(JSContext* cx, HandleObject obj, HandleObject receiver, uint32_t index, bool* hole, MutableHandleValue vp) { - if (obj->isNative()) { - NativeObject* nobj = &obj->as<NativeObject>(); - if (index < nobj->getDenseInitializedLength()) { - vp.set(nobj->getDenseElement(size_t(index))); - if (!vp.isMagic(JS_ELEMENTS_HOLE)) { - *hole = false; - return true; - } + AssertGreaterThanZero(index); + if (index < GetAnyBoxedOrUnboxedInitializedLength(obj)) { + vp.set(GetAnyBoxedOrUnboxedDenseElement(obj, uint32_t(index))); + if (!vp.isMagic(JS_ELEMENTS_HOLE)) { + *hole = false; + return true; } - if (nobj->is<ArgumentsObject>() && index <= UINT32_MAX) { - if (nobj->as<ArgumentsObject>().maybeGetElement(uint32_t(index), vp)) { - *hole = false; - return true; - } + } + if (obj->is<ArgumentsObject>()) { + if (obj->as<ArgumentsObject>().maybeGetElement(uint32_t(index), vp)) { + *hole = false; + return true; } } @@ -280,8 +283,8 @@ ElementAdder::append(JSContext* cx, HandleValue v) { MOZ_ASSERT(index_ < length_); if (resObj_) { - NativeObject* resObj = &resObj_->as<NativeObject>(); - DenseElementResult result = resObj->setOrExtendDenseElements(cx, index_, v.address(), 1); + DenseElementResult result = + SetOrExtendAnyBoxedOrUnboxedDenseElements(cx, resObj_, index_, v.address(), 1); if (result == DenseElementResult::Failure) return false; if (result == DenseElementResult::Incomplete) { @@ -333,31 +336,37 @@ js::GetElementsWithAdder(JSContext* cx, HandleObject obj, HandleObject receiver, return true; } -static bool -GetDenseElements(NativeObject* aobj, uint32_t length, Value* vp) +template <JSValueType Type> +DenseElementResult +GetBoxedOrUnboxedDenseElements(JSObject* aobj, uint32_t length, Value* vp) { MOZ_ASSERT(!ObjectMayHaveExtraIndexedProperties(aobj)); - if (length > aobj->getDenseInitializedLength()) - return false; + if (length > GetBoxedOrUnboxedInitializedLength<Type>(aobj)) + return DenseElementResult::Incomplete; for (size_t i = 0; i < length; i++) { - vp[i] = aobj->getDenseElement(i); + vp[i] = GetBoxedOrUnboxedDenseElement<Type>(aobj, i); // No other indexed properties so hole => undefined. if (vp[i].isMagic(JS_ELEMENTS_HOLE)) vp[i] = UndefinedValue(); } - return true; + return DenseElementResult::Success; } +DefineBoxedOrUnboxedFunctor3(GetBoxedOrUnboxedDenseElements, + JSObject*, uint32_t, Value*); + bool js::GetElements(JSContext* cx, HandleObject aobj, uint32_t length, Value* vp) { if (!ObjectMayHaveExtraIndexedProperties(aobj)) { - if (GetDenseElements(&aobj->as<NativeObject>(), length, vp)) - return true; + GetBoxedOrUnboxedDenseElementsFunctor functor(aobj, length, vp); + DenseElementResult result = CallBoxedOrUnboxedSpecialization(functor, aobj); + if (result != DenseElementResult::Incomplete) + return result == DenseElementResult::Success; } if (aobj->is<ArgumentsObject>()) { @@ -389,9 +398,9 @@ SetArrayElement(JSContext* cx, HandleObject obj, double index, HandleValue v) { MOZ_ASSERT(index >= 0); - if (obj->is<ArrayObject>() && !obj->isIndexed() && index <= UINT32_MAX) { - NativeObject* nobj = &obj->as<NativeObject>(); - DenseElementResult result = nobj->setOrExtendDenseElements(cx, uint32_t(index), v.address(), 1); + if ((obj->is<ArrayObject>() || obj->is<UnboxedArrayObject>()) && !obj->isIndexed() && index <= UINT32_MAX) { + DenseElementResult result = + SetOrExtendAnyBoxedOrUnboxedDenseElements(cx, obj, uint32_t(index), v.address(), 1); if (result != DenseElementResult::Incomplete) return result == DenseElementResult::Success; } @@ -511,6 +520,24 @@ struct ReverseIndexComparator } }; +bool +js::CanonicalizeArrayLengthValue(JSContext* cx, HandleValue v, uint32_t* newLen) +{ + double d; + + if (!ToUint32(cx, v, newLen)) + return false; + + if (!ToNumber(cx, v, &d)) + return false; + + if (d == *newLen) + return true; + + JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr, JSMSG_BAD_ARRAY_LENGTH); + return false; +} + /* ES6 draft rev 34 (2015 Feb 20) 9.4.2.4 ArraySetLength */ bool js::ArraySetLength(JSContext* cx, Handle<ArrayObject*> arr, HandleId id, @@ -532,22 +559,12 @@ js::ArraySetLength(JSContext* cx, Handle<ArrayObject*> arr, HandleId id, } else { // Step 2 is irrelevant in our implementation. - // Step 3. - if (!ToUint32(cx, value, &newLen)) - return false; - - // Step 4. - double d; - if (!ToNumber(cx, value, &d)) + // Steps 3-7. + MOZ_ASSERT_IF(attrs & JSPROP_IGNORE_VALUE, value.isUndefined()); + if (!CanonicalizeArrayLengthValue(cx, value, &newLen)) return false; - // Step 5. - if (d != newLen) { - JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr, JSMSG_BAD_ARRAY_LENGTH); - return false; - } - - // Steps 6-8 are irrelevant in our implementation. + // Step 8 is irrelevant in our implementation. } // Steps 9-11. @@ -806,7 +823,7 @@ array_addProperty(JSContext* cx, HandleObject obj, HandleId id, HandleValue v) static inline bool ObjectMayHaveExtraIndexedOwnProperties(JSObject* obj) { - return !obj->isNative() || + return (!obj->isNative() && !obj->is<UnboxedArrayObject>()) || obj->isIndexed() || obj->is<TypedArrayObject>() || ClassMayResolveId(*obj->runtimeFromAnyThread()->commonNames, @@ -837,7 +854,7 @@ js::ObjectMayHaveExtraIndexedProperties(JSObject* obj) if (ObjectMayHaveExtraIndexedOwnProperties(obj)) return true; - if (obj->as<NativeObject>().getDenseInitializedLength() != 0) + if (GetAnyBoxedOrUnboxedInitializedLength(obj) != 0) return true; } while (true); } @@ -1047,32 +1064,32 @@ struct StringSeparatorOp } }; -template <typename SeparatorOp> -static bool -ArrayJoinDenseKernel(JSContext* cx, SeparatorOp sepOp, HandleNativeObject obj, uint32_t length, +template <typename SeparatorOp, JSValueType Type> +static DenseElementResult +ArrayJoinDenseKernel(JSContext* cx, SeparatorOp sepOp, HandleObject obj, uint32_t length, StringBuffer& sb, uint32_t* numProcessed) { // This loop handles all elements up to initializedLength. If // length > initLength we rely on the second loop to add the // other elements. MOZ_ASSERT(*numProcessed == 0); - uint32_t initLength = Min<uint32_t>(obj->getDenseInitializedLength(), + uint32_t initLength = Min<uint32_t>(GetBoxedOrUnboxedInitializedLength<Type>(obj), length); while (*numProcessed < initLength) { if (!CheckForInterrupt(cx)) - return false; + return DenseElementResult::Failure; Value elem = obj->as<NativeObject>().getDenseElement(*numProcessed); if (elem.isString()) { if (!sb.append(elem.toString())) - return false; + return DenseElementResult::Failure; } else if (elem.isNumber()) { if (!NumberValueToStringBuffer(cx, elem, sb)) - return false; + return DenseElementResult::Failure; } else if (elem.isBoolean()) { if (!BooleanToStringBuffer(elem.toBoolean(), sb)) - return false; + return DenseElementResult::Failure; } else if (elem.isObject() || elem.isSymbol()) { /* * Object stringifying could modify the initialized length or make @@ -1088,13 +1105,33 @@ ArrayJoinDenseKernel(JSContext* cx, SeparatorOp sepOp, HandleNativeObject obj, u } if (++(*numProcessed) != length && !sepOp(cx, sb)) - return false; + return DenseElementResult::Failure; } - return true; + return DenseElementResult::Incomplete; } template <typename SeparatorOp> +struct ArrayJoinDenseKernelFunctor { + JSContext* cx; + SeparatorOp sepOp; + HandleObject obj; + uint32_t length; + StringBuffer& sb; + uint32_t* numProcessed; + + ArrayJoinDenseKernelFunctor(JSContext* cx, SeparatorOp sepOp, HandleObject obj, + uint32_t length, StringBuffer& sb, uint32_t* numProcessed) + : cx(cx), sepOp(sepOp), obj(obj), length(length), sb(sb), numProcessed(numProcessed) + {} + + template <JSValueType Type> + DenseElementResult operator()() { + return ArrayJoinDenseKernel<SeparatorOp, Type>(cx, sepOp, obj, length, sb, numProcessed); + } +}; + +template <typename SeparatorOp> static bool ArrayJoinKernel(JSContext* cx, SeparatorOp sepOp, HandleObject obj, uint32_t length, StringBuffer& sb) @@ -1102,10 +1139,10 @@ ArrayJoinKernel(JSContext* cx, SeparatorOp sepOp, HandleObject obj, uint32_t len uint32_t i = 0; if (!ObjectMayHaveExtraIndexedProperties(obj)) { - if (!ArrayJoinDenseKernel<SeparatorOp>(cx, sepOp, obj.as<NativeObject>(), length, sb, &i)) - { + ArrayJoinDenseKernelFunctor<SeparatorOp> functor(cx, sepOp, obj, length, sb, &i); + DenseElementResult result = CallBoxedOrUnboxedSpecialization(functor, obj); + if (result == DenseElementResult::Failure) return false; - } } if (i != length) { @@ -1176,14 +1213,11 @@ js::array_join(JSContext* cx, unsigned argc, Value* vp) // An optimized version of a special case of steps 7-11: when length==1 and // the 0th element is a string, ToString() of that element is a no-op and // so it can be immediately returned as the result. - if (length == 1 && obj->isNative()) { - NativeObject* nobj = &obj->as<NativeObject>(); - if (nobj->getDenseInitializedLength() == 1) { - Value elem0 = nobj->getDenseElement(0); - if (elem0.isString()) { - args.rval().set(elem0); - return true; - } + if (length == 1 && GetAnyBoxedOrUnboxedInitializedLength(obj) == 1) { + Value elem0 = GetAnyBoxedOrUnboxedDenseElement(obj, 0); + if (elem0.isString()) { + args.rval().set(elem0); + return true; } } @@ -1226,7 +1260,7 @@ js::array_join(JSContext* cx, unsigned argc, Value* vp) } // Step 11 - JSString* str = sb.finishString(); + JSString *str = sb.finishString(); if (!str) return false; @@ -1255,6 +1289,10 @@ array_toLocaleString(JSContext* cx, unsigned argc, Value* vp) args.rval().setString(cx->names().empty); return true; } + if (obj->is<UnboxedArrayObject>() && obj->as<UnboxedArrayObject>().length() == 0) { + args.rval().setString(cx->names().empty); + return true; + } AutoCycleDetector detector(cx, obj); if (!detector.init()) @@ -1291,9 +1329,8 @@ InitArrayElements(JSContext* cx, HandleObject obj, uint32_t start, return false; if (!ObjectMayHaveExtraIndexedProperties(obj)) { - NativeObject* nobj = &obj->as<NativeObject>(); - DenseElementResult result = nobj->setOrExtendDenseElements(cx, uint32_t(start), vector, - count, updateTypes); + DenseElementResult result = + SetOrExtendAnyBoxedOrUnboxedDenseElements(cx, obj, start, vector, count, updateTypes); if (result != DenseElementResult::Incomplete) return result == DenseElementResult::Success; } @@ -1327,45 +1364,54 @@ InitArrayElements(JSContext* cx, HandleObject obj, uint32_t start, return true; } -static DenseElementResult -ArrayReverseDenseKernel(JSContext* cx, HandleNativeObject obj, uint32_t length) +template <JSValueType Type> +DenseElementResult +ArrayReverseDenseKernel(JSContext* cx, HandleObject obj, uint32_t length) { /* An empty array or an array with no elements is already reversed. */ - if (length == 0 || obj->getDenseInitializedLength() == 0) + if (length == 0 || GetBoxedOrUnboxedInitializedLength<Type>(obj) == 0) return DenseElementResult::Success; - if (obj->denseElementsAreFrozen()) - return DenseElementResult::Incomplete; + if (Type == JSVAL_TYPE_MAGIC) { + if (obj->as<NativeObject>().denseElementsAreFrozen()) + return DenseElementResult::Incomplete; - /* - * It's actually surprisingly complicated to reverse an array due to the - * orthogonality of array length and array capacity while handling - * leading and trailing holes correctly. Reversing seems less likely to - * be a common operation than other array mass-mutation methods, so for - * now just take a probably-small memory hit (in the absence of too many - * holes in the array at its start) and ensure that the capacity is - * sufficient to hold all the elements in the array if it were full. - */ - DenseElementResult result = obj->ensureDenseElements(cx, length, 0); - if (result != DenseElementResult::Success) - return result; + /* + * It's actually surprisingly complicated to reverse an array due to the + * orthogonality of array length and array capacity while handling + * leading and trailing holes correctly. Reversing seems less likely to + * be a common operation than other array mass-mutation methods, so for + * now just take a probably-small memory hit (in the absence of too many + * holes in the array at its start) and ensure that the capacity is + * sufficient to hold all the elements in the array if it were full. + */ + DenseElementResult result = obj->as<NativeObject>().ensureDenseElements(cx, length, 0); + if (result != DenseElementResult::Success) + return result; - /* Fill out the array's initialized length to its proper length. */ - obj->ensureDenseInitializedLength(cx, length, 0); + /* Fill out the array's initialized length to its proper length. */ + obj->as<NativeObject>().ensureDenseInitializedLength(cx, length, 0); + } else { + // Unboxed arrays can only be reversed here if their initialized length + // matches their actual length. Otherwise the reversal will place holes + // at the beginning of the array, which we don't support. + if (length != obj->as<UnboxedArrayObject>().initializedLength()) + return DenseElementResult::Incomplete; + } RootedValue origlo(cx), orighi(cx); uint32_t lo = 0, hi = length - 1; for (; lo < hi; lo++, hi--) { - origlo = obj->getDenseElement(lo); - orighi = obj->getDenseElement(hi); - obj->setDenseElement(lo, orighi); + origlo = GetBoxedOrUnboxedDenseElement<Type>(obj, lo); + orighi = GetBoxedOrUnboxedDenseElement<Type>(obj, hi); + SetBoxedOrUnboxedDenseElementNoTypeChange<Type>(obj, lo, orighi); if (orighi.isMagic(JS_ELEMENTS_HOLE) && !SuppressDeletedProperty(cx, obj, INT_TO_JSID(lo))) { return DenseElementResult::Failure; } - obj->setDenseElement(hi, origlo); + SetBoxedOrUnboxedDenseElementNoTypeChange<Type>(obj, hi, origlo); if (origlo.isMagic(JS_ELEMENTS_HOLE) && !SuppressDeletedProperty(cx, obj, INT_TO_JSID(hi))) { @@ -1376,6 +1422,9 @@ ArrayReverseDenseKernel(JSContext* cx, HandleNativeObject obj, uint32_t length) return DenseElementResult::Success; } +DefineBoxedOrUnboxedFunctor3(ArrayReverseDenseKernel, + JSContext*, HandleObject, uint32_t); + bool js::array_reverse(JSContext* cx, unsigned argc, Value* vp) { @@ -1390,8 +1439,8 @@ js::array_reverse(JSContext* cx, unsigned argc, Value* vp) return false; if (!ObjectMayHaveExtraIndexedProperties(obj)) { - DenseElementResult result = - ArrayReverseDenseKernel(cx, obj.as<NativeObject>(), uint32_t(len)); + ArrayReverseDenseKernelFunctor functor(cx, obj, len); + DenseElementResult result = CallBoxedOrUnboxedSpecialization(functor, obj); if (result != DenseElementResult::Incomplete) { /* * Per ECMA-262, don't update the length of the array, even if the new @@ -2034,8 +2083,8 @@ js::array_push(JSContext* cx, unsigned argc, Value* vp) if (!ObjectMayHaveExtraIndexedProperties(obj)) { DenseElementResult result = - obj->as<NativeObject>().setOrExtendDenseElements(cx, uint32_t(length), - args.array(), args.length()); + SetOrExtendAnyBoxedOrUnboxedDenseElements(cx, obj, length, + args.array(), args.length()); if (result != DenseElementResult::Incomplete) { if (result == DenseElementResult::Failure) return false; @@ -2043,8 +2092,14 @@ js::array_push(JSContext* cx, unsigned argc, Value* vp) uint32_t newlength = length + args.length(); args.rval().setNumber(newlength); - // Handle updates to the length of non-arrays here. - if (!obj->is<ArrayObject>()) + // SetOrExtendAnyBoxedOrUnboxedDenseElements takes care of updating the + // length for boxed and unboxed arrays. Handle updates to the length of + // non-arrays here. + bool isArray; + if (!IsArray(cx, obj, &isArray)) + return false; + + if (!isArray) return SetLengthProperty(cx, obj, newlength); return true; @@ -2100,46 +2155,42 @@ js::array_pop(JSContext* cx, unsigned argc, Value* vp) return SetLengthProperty(cx, obj, index); } -void -js::ArrayShiftMoveElements(NativeObject* obj) +template <JSValueType Type> +static inline DenseElementResult +ShiftMoveBoxedOrUnboxedDenseElements(JSObject* obj) { - MOZ_ASSERT_IF(obj->is<ArrayObject>(), obj->as<ArrayObject>().lengthIsWritable()); - - size_t initlen = obj->getDenseInitializedLength(); - MOZ_ASSERT(initlen > 0); + MOZ_ASSERT(HasBoxedOrUnboxedDenseElements<Type>(obj)); /* * At this point the length and initialized length have already been * decremented and the result fetched, so just shift the array elements * themselves. */ - obj->moveDenseElementsNoPreBarrier(0, 1, initlen); -} + size_t initlen = GetBoxedOrUnboxedInitializedLength<Type>(obj); + if (Type == JSVAL_TYPE_MAGIC) { + obj->as<NativeObject>().moveDenseElementsNoPreBarrier(0, 1, initlen); + } else { + uint8_t* data = obj->as<UnboxedArrayObject>().elements(); + size_t elementSize = UnboxedTypeSize(Type); + memmove(data, data + elementSize, initlen * elementSize); + } -static inline void -SetInitializedLength(JSContext* cx, NativeObject* obj, size_t initlen) -{ - size_t oldInitlen = obj->getDenseInitializedLength(); - obj->setDenseInitializedLength(initlen); - if (initlen < oldInitlen) - obj->shrinkElements(cx, initlen); + return DenseElementResult::Success; } -static DenseElementResult -MoveDenseElements(JSContext* cx, NativeObject* obj, uint32_t dstStart, uint32_t srcStart, - uint32_t length) -{ - if (obj->denseElementsAreFrozen()) - return DenseElementResult::Incomplete; +DefineBoxedOrUnboxedFunctor1(ShiftMoveBoxedOrUnboxedDenseElements, JSObject*); - if (!obj->maybeCopyElementsForWrite(cx)) - return DenseElementResult::Failure; - obj->moveDenseElements(dstStart, srcStart, length); +void +js::ArrayShiftMoveElements(JSObject* obj) +{ + MOZ_ASSERT_IF(obj->is<ArrayObject>(), obj->as<ArrayObject>().lengthIsWritable()); - return DenseElementResult::Success; + ShiftMoveBoxedOrUnboxedDenseElementsFunctor functor(obj); + JS_ALWAYS_TRUE(CallBoxedOrUnboxedSpecialization(functor, obj) == DenseElementResult::Success); } -static DenseElementResult +template <JSValueType Type> +DenseElementResult ArrayShiftDenseKernel(JSContext* cx, HandleObject obj, MutableHandleValue rval) { if (ObjectMayHaveExtraIndexedProperties(obj)) @@ -2152,22 +2203,25 @@ ArrayShiftDenseKernel(JSContext* cx, HandleObject obj, MutableHandleValue rval) if (MOZ_UNLIKELY(group->hasAllFlags(OBJECT_FLAG_ITERATED))) return DenseElementResult::Incomplete; - size_t initlen = obj->as<NativeObject>().getDenseInitializedLength(); + size_t initlen = GetBoxedOrUnboxedInitializedLength<Type>(obj); if (initlen == 0) return DenseElementResult::Incomplete; - rval.set(obj->as<NativeObject>().getDenseElement(0)); + rval.set(GetBoxedOrUnboxedDenseElement<Type>(obj, 0)); if (rval.isMagic(JS_ELEMENTS_HOLE)) rval.setUndefined(); - DenseElementResult result = MoveDenseElements(cx, &obj->as<NativeObject>(), 0, 1, initlen - 1); + DenseElementResult result = MoveBoxedOrUnboxedDenseElements<Type>(cx, obj, 0, 1, initlen - 1); if (result != DenseElementResult::Success) return result; - SetInitializedLength(cx, obj.as<NativeObject>(), initlen - 1); + SetBoxedOrUnboxedInitializedLength<Type>(cx, obj, initlen - 1); return DenseElementResult::Success; } +DefineBoxedOrUnboxedFunctor3(ArrayShiftDenseKernel, + JSContext*, HandleObject, MutableHandleValue); + /* ES5 15.4.4.9 */ bool js::array_shift(JSContext* cx, unsigned argc, Value* vp) @@ -2199,7 +2253,8 @@ js::array_shift(JSContext* cx, unsigned argc, Value* vp) uint32_t newlen = len - 1; /* Fast paths. */ - DenseElementResult result = ArrayShiftDenseKernel(cx, obj, args.rval()); + ArrayShiftDenseKernelFunctor functor(cx, obj, args.rval()); + DenseElementResult result = CallBoxedOrUnboxedSpecialization(functor, obj); if (result != DenseElementResult::Incomplete) { if (result == DenseElementResult::Failure) return false; @@ -2253,6 +2308,9 @@ js::array_unshift(JSContext* cx, unsigned argc, Value* vp) if (args.length() > 0) { /* Slide up the array to make room for all args at the bottom. */ if (length > 0) { + // Only include a fast path for boxed arrays. Unboxed arrays can'nt + // be optimized here because unshifting temporarily places holes at + // the start of the array. bool optimized = false; do { if (!obj->is<ArrayObject>()) @@ -2312,10 +2370,10 @@ js::array_unshift(JSContext* cx, unsigned argc, Value* vp) } /* - * Returns true if this is a dense array whose properties ending at |endIndex| - * (exclusive) may be accessed (get, set, delete) directly through its - * contiguous vector of elements without fear of getters, setters, etc. along - * the prototype chain, or of enumerators requiring notification of + * Returns true if this is a dense or unboxed array whose |count| properties + * starting from |startingIndex| may be accessed (get, set, delete) directly + * through its contiguous vector of elements without fear of getters, setters, + * etc. along the prototype chain, or of enumerators requiring notification of * modifications. */ static inline bool @@ -2326,11 +2384,11 @@ CanOptimizeForDenseStorage(HandleObject arr, uint32_t startingIndex, uint32_t co return false; /* There's no optimizing possible if it's not an array. */ - if (!arr->is<ArrayObject>()) + if (!arr->is<ArrayObject>() && !arr->is<UnboxedArrayObject>()) return false; /* If it's a frozen array, always pick the slow path */ - if (arr->as<ArrayObject>().denseElementsAreFrozen()) + if (arr->is<ArrayObject>() && arr->as<ArrayObject>().denseElementsAreFrozen()) return false; /* @@ -2362,23 +2420,7 @@ CanOptimizeForDenseStorage(HandleObject arr, uint32_t startingIndex, uint32_t co * is subsumed by the initializedLength comparison.) */ return !ObjectMayHaveExtraIndexedProperties(arr) && - startingIndex + count <= arr->as<NativeObject>().getDenseInitializedLength(); -} - -static inline DenseElementResult -CopyDenseElements(JSContext* cx, NativeObject* dst, NativeObject* src, - uint32_t dstStart, uint32_t srcStart, uint32_t length) -{ - MOZ_ASSERT(dst->getDenseInitializedLength() == dstStart); - MOZ_ASSERT(src->getDenseInitializedLength() >= srcStart + length); - MOZ_ASSERT(dst->getDenseCapacity() >= dstStart + length); - - dst->setDenseInitializedLength(dstStart + length); - - const Value* vp = src->getDenseElements() + srcStart; - dst->initDenseElements(dstStart, vp, length); - - return DenseElementResult::Success; + startingIndex + count <= GetAnyBoxedOrUnboxedInitializedLength(arr); } static inline bool @@ -2472,9 +2514,7 @@ array_splice_impl(JSContext* cx, unsigned argc, Value* vp, bool returnValueIsUse /* Steps 10-11. */ DebugOnly<DenseElementResult> result = - CopyDenseElements(cx, &arr->as<NativeObject>(), - &obj->as<NativeObject>(), 0, - actualStart, actualDeleteCount); + CopyAnyBoxedOrUnboxedDenseElements(cx, arr, obj, 0, actualStart, actualDeleteCount); MOZ_ASSERT(result.value == DenseElementResult::Success); /* Step 12 (implicit). */ @@ -2511,13 +2551,14 @@ array_splice_impl(JSContext* cx, unsigned argc, Value* vp, bool returnValueIsUse if (CanOptimizeForDenseStorage(obj, 0, len, cx)) { /* Steps 15.a-b. */ DenseElementResult result = - MoveDenseElements(cx, &obj->as<NativeObject>(), targetIndex, sourceIndex, len - sourceIndex); + MoveAnyBoxedOrUnboxedDenseElements(cx, obj, targetIndex, sourceIndex, + len - sourceIndex); MOZ_ASSERT(result != DenseElementResult::Incomplete); if (result == DenseElementResult::Failure) return false; /* Steps 15.c-d. */ - SetInitializedLength(cx, obj.as<NativeObject>(), finalLength); + SetAnyBoxedOrUnboxedInitializedLength(cx, obj, finalLength); } else { /* * This is all very slow if the length is very large. We don't yet @@ -2597,15 +2638,15 @@ array_splice_impl(JSContext* cx, unsigned argc, Value* vp, bool returnValueIsUse if (CanOptimizeForDenseStorage(obj, len, itemCount - actualDeleteCount, cx)) { DenseElementResult result = - MoveDenseElements(cx, &obj->as<NativeObject>(), actualStart + itemCount, - actualStart + actualDeleteCount, - len - (actualStart + actualDeleteCount)); + MoveAnyBoxedOrUnboxedDenseElements(cx, obj, actualStart + itemCount, + actualStart + actualDeleteCount, + len - (actualStart + actualDeleteCount)); MOZ_ASSERT(result != DenseElementResult::Incomplete); if (result == DenseElementResult::Failure) return false; /* Steps 16.a-b. */ - SetInitializedLength(cx, obj.as<NativeObject>(), len + itemCount - actualDeleteCount); + SetAnyBoxedOrUnboxedInitializedLength(cx, obj, len + itemCount - actualDeleteCount); } else { RootedValue fromValue(cx); for (double k = len - actualDeleteCount; k > actualStart; k--) { @@ -2790,7 +2831,7 @@ SliceSlowly(JSContext* cx, HandleObject obj, HandleObject receiver, } static bool -SliceSparse(JSContext* cx, HandleObject obj, uint32_t begin, uint32_t end, HandleArrayObject result) +SliceSparse(JSContext* cx, HandleObject obj, uint32_t begin, uint32_t end, HandleObject result) { MOZ_ASSERT(begin <= end); @@ -2840,28 +2881,26 @@ ArraySliceOrdinary(JSContext* cx, HandleObject obj, uint32_t length, uint32_t be begin = end; if (!ObjectMayHaveExtraIndexedProperties(obj)) { - size_t initlen = obj->as<NativeObject>().getDenseInitializedLength(); + size_t initlen = GetAnyBoxedOrUnboxedInitializedLength(obj); size_t count = 0; if (initlen > begin) count = Min<size_t>(initlen - begin, end - begin); - RootedArrayObject narr(cx, NewFullyAllocatedArrayTryReuseGroup(cx, obj, count)); + RootedObject narr(cx, NewFullyAllocatedArrayTryReuseGroup(cx, obj, count)); if (!narr) return false; - - MOZ_ASSERT(count >= narr->as<ArrayObject>().length()); - narr->as<ArrayObject>().setLength(cx, count); + SetAnyBoxedOrUnboxedArrayLength(cx, narr, end - begin); if (count) { DebugOnly<DenseElementResult> result = - CopyDenseElements(cx, &narr->as<NativeObject>(), &obj->as<NativeObject>(), 0, begin, count); + CopyAnyBoxedOrUnboxedDenseElements(cx, narr, obj, 0, begin, count); MOZ_ASSERT(result.value == DenseElementResult::Success); } arr.set(narr); return true; } - RootedArrayObject narr(cx, NewPartlyAllocatedArrayTryReuseGroup(cx, obj, end - begin)); + RootedObject narr(cx, NewPartlyAllocatedArrayTryReuseGroup(cx, obj, end - begin)); if (!narr) return false; @@ -2978,10 +3017,11 @@ js::array_slice(JSContext* cx, unsigned argc, Value* vp) return true; } -static bool -ArraySliceDenseKernel(JSContext* cx, ArrayObject* arr, int32_t beginArg, int32_t endArg, ArrayObject* result) +template <JSValueType Type> +DenseElementResult +ArraySliceDenseKernel(JSContext* cx, JSObject* obj, int32_t beginArg, int32_t endArg, JSObject* result) { - int32_t length = arr->length(); + int32_t length = GetAnyBoxedOrUnboxedArrayLength(obj); uint32_t begin = NormalizeSliceTerm(beginArg, length); uint32_t end = NormalizeSliceTerm(endArg, length); @@ -2989,33 +3029,33 @@ ArraySliceDenseKernel(JSContext* cx, ArrayObject* arr, int32_t beginArg, int32_t if (begin > end) begin = end; - size_t initlen = arr->getDenseInitializedLength(); - size_t count = Min<size_t>(initlen - begin, end - begin); + size_t initlen = GetBoxedOrUnboxedInitializedLength<Type>(obj); if (initlen > begin) { + size_t count = Min<size_t>(initlen - begin, end - begin); if (count) { - if (!result->ensureElements(cx, count)) - return false; - CopyDenseElements(cx, &result->as<NativeObject>(), &arr->as<NativeObject>(), 0, begin, count); + DenseElementResult rv = EnsureBoxedOrUnboxedDenseElements<Type>(cx, result, count); + if (rv != DenseElementResult::Success) + return rv; + CopyBoxedOrUnboxedDenseElements<Type, Type>(cx, result, obj, 0, begin, count); } } - MOZ_ASSERT(count >= result->length()); - result->setLength(cx, count); - - return true; + SetAnyBoxedOrUnboxedArrayLength(cx, result, end - begin); + return DenseElementResult::Success; } +DefineBoxedOrUnboxedFunctor5(ArraySliceDenseKernel, + JSContext*, JSObject*, int32_t, int32_t, JSObject*); + JSObject* js::array_slice_dense(JSContext* cx, HandleObject obj, int32_t begin, int32_t end, HandleObject result) { if (result && IsArraySpecies(cx, obj)) { - if (!ArraySliceDenseKernel(cx, &obj->as<ArrayObject>(), begin, end, - &result->as<ArrayObject>())) - { - return nullptr; - } - return result; + ArraySliceDenseKernelFunctor functor(cx, obj, begin, end, result); + DenseElementResult rv = CallBoxedOrUnboxedSpecialization(functor, result); + MOZ_ASSERT(rv != DenseElementResult::Incomplete); + return rv == DenseElementResult::Success ? result : nullptr; } // Slower path if the JIT wasn't able to allocate an object inline. @@ -3046,7 +3086,7 @@ array_isArray(JSContext* cx, unsigned argc, Value* vp) static bool ArrayFromCallArgs(JSContext* cx, CallArgs& args, HandleObject proto = nullptr) { - ArrayObject* obj = NewCopiedArrayForCallingAllocationSite(cx, args.array(), args.length(), proto); + JSObject* obj = NewCopiedArrayForCallingAllocationSite(cx, args.array(), args.length(), proto); if (!obj) return false; @@ -3220,7 +3260,7 @@ ArrayConstructorImpl(JSContext* cx, CallArgs& args, bool isConstructor) } } - ArrayObject* obj = NewPartlyAllocatedArrayForCallingAllocationSite(cx, length, proto); + JSObject* obj = NewPartlyAllocatedArrayForCallingAllocationSite(cx, length, proto); if (!obj) return false; @@ -3246,7 +3286,7 @@ js::array_construct(JSContext* cx, unsigned argc, Value* vp) return ArrayConstructorImpl(cx, args, /* isConstructor = */ false); } -ArrayObject* +JSObject* js::ArrayConstructorOneArg(JSContext* cx, HandleObjectGroup group, int32_t lengthInt) { if (lengthInt < 0) { @@ -3541,7 +3581,7 @@ js::NewDenseFullyAllocatedArrayWithTemplate(JSContext* cx, uint32_t length, JSOb return arr; } -ArrayObject* +JSObject* js::NewDenseCopyOnWriteArray(JSContext* cx, HandleArrayObject templateObject, gc::InitialHeap heap) { MOZ_ASSERT(!gc::IsInsideNursery(templateObject)); @@ -3554,21 +3594,30 @@ js::NewDenseCopyOnWriteArray(JSContext* cx, HandleArrayObject templateObject, gc return arr; } -// Return a new array with the specified length and allocated capacity (up to -// maxLength), using the specified group if possible. If the specified group -// cannot be used, ensure that the created array at least has the given -// [[Prototype]]. +// Return a new boxed or unboxed array with the specified length and allocated +// capacity (up to maxLength), using the specified group if possible. If the +// specified group cannot be used, ensure that the created array at least has +// the given [[Prototype]]. template <uint32_t maxLength> -static inline ArrayObject* +static inline JSObject* NewArrayTryUseGroup(ExclusiveContext* cx, HandleObjectGroup group, size_t length, NewObjectKind newKind = GenericObject) { MOZ_ASSERT(newKind != SingletonObject); - if (group->shouldPreTenure()) + if (group->maybePreliminaryObjects()) + group->maybePreliminaryObjects()->maybeAnalyze(cx, group); + + if (group->shouldPreTenure() || group->maybePreliminaryObjects()) newKind = TenuredObject; RootedObject proto(cx, group->proto().toObject()); + if (group->maybeUnboxedLayout()) { + if (length > UnboxedArrayObject::MaximumCapacity) + return NewArray<maxLength>(cx, length, proto, newKind); + return UnboxedArrayObject::create(cx, group, length, newKind, maxLength); + } + ArrayObject* res = NewArray<maxLength>(cx, length, proto, newKind); if (!res) return nullptr; @@ -3580,17 +3629,20 @@ NewArrayTryUseGroup(ExclusiveContext* cx, HandleObjectGroup group, size_t length if (res->length() > INT32_MAX) res->setLength(cx, res->length()); + if (PreliminaryObjectArray* preliminaryObjects = group->maybePreliminaryObjects()) + preliminaryObjects->registerNewObject(res); + return res; } -ArrayObject* +JSObject* js::NewFullyAllocatedArrayTryUseGroup(ExclusiveContext* cx, HandleObjectGroup group, size_t length, NewObjectKind newKind) { return NewArrayTryUseGroup<UINT32_MAX>(cx, group, length, newKind); } -ArrayObject* +JSObject* js::NewPartlyAllocatedArrayTryUseGroup(ExclusiveContext* cx, HandleObjectGroup group, size_t length) { return NewArrayTryUseGroup<ArrayObject::EagerAllocationMaxLength>(cx, group, length); @@ -3599,13 +3651,16 @@ js::NewPartlyAllocatedArrayTryUseGroup(ExclusiveContext* cx, HandleObjectGroup g // Return a new array with the default prototype and specified allocated // capacity and length. If possible, try to reuse the group of the input // object. The resulting array will either reuse the input object's group or -// will have unknown property types. +// will have unknown property types. Additionally, the result will have the +// same boxed/unboxed elements representation as the input object, unless +// |length| is larger than the input object's initialized length (in which case +// UnboxedArrayObject::MaximumCapacity might be exceeded). template <uint32_t maxLength> -static inline ArrayObject* +static inline JSObject* NewArrayTryReuseGroup(JSContext* cx, HandleObject obj, size_t length, NewObjectKind newKind = GenericObject) { - if (!obj->is<ArrayObject>()) + if (!obj->is<ArrayObject>() && !obj->is<UnboxedArrayObject>()) return NewArray<maxLength>(cx, length, nullptr, newKind); if (obj->staticPrototype() != cx->global()->maybeGetArrayPrototype()) @@ -3618,20 +3673,20 @@ NewArrayTryReuseGroup(JSContext* cx, HandleObject obj, size_t length, return NewArrayTryUseGroup<maxLength>(cx, group, length, newKind); } -ArrayObject* +JSObject* js::NewFullyAllocatedArrayTryReuseGroup(JSContext* cx, HandleObject obj, size_t length, NewObjectKind newKind) { return NewArrayTryReuseGroup<UINT32_MAX>(cx, obj, length, newKind); } -ArrayObject* +JSObject* js::NewPartlyAllocatedArrayTryReuseGroup(JSContext* cx, HandleObject obj, size_t length) { return NewArrayTryReuseGroup<ArrayObject::EagerAllocationMaxLength>(cx, obj, length); } -ArrayObject* +JSObject* js::NewFullyAllocatedArrayForCallingAllocationSite(JSContext* cx, size_t length, NewObjectKind newKind) { @@ -3641,7 +3696,7 @@ js::NewFullyAllocatedArrayForCallingAllocationSite(JSContext* cx, size_t length, return NewArrayTryUseGroup<UINT32_MAX>(cx, group, length, newKind); } -ArrayObject* +JSObject* js::NewPartlyAllocatedArrayForCallingAllocationSite(JSContext* cx, size_t length, HandleObject proto) { RootedObjectGroup group(cx, ObjectGroup::callingAllocationSiteGroup(cx, JSProto_Array, proto)); @@ -3650,23 +3705,68 @@ js::NewPartlyAllocatedArrayForCallingAllocationSite(JSContext* cx, size_t length return NewArrayTryUseGroup<ArrayObject::EagerAllocationMaxLength>(cx, group, length); } -ArrayObject* +bool +js::MaybeAnalyzeBeforeCreatingLargeArray(ExclusiveContext* cx, HandleObjectGroup group, + const Value* vp, size_t length) +{ + static const size_t EagerPreliminaryObjectAnalysisThreshold = 800; + + // Force analysis to see if an unboxed array can be used when making a + // sufficiently large array, to avoid excessive analysis and copying later + // on. If this is the first array of its group that is being created, first + // make a dummy array with the initial elements of the array we are about + // to make, so there is some basis for the unboxed array analysis. + if (length > EagerPreliminaryObjectAnalysisThreshold) { + if (PreliminaryObjectArrayWithTemplate* objects = group->maybePreliminaryObjects()) { + if (objects->empty()) { + size_t nlength = Min<size_t>(length, 100); + JSObject* obj = NewFullyAllocatedArrayTryUseGroup(cx, group, nlength); + if (!obj) + return false; + DebugOnly<DenseElementResult> result = + SetOrExtendAnyBoxedOrUnboxedDenseElements(cx, obj, 0, vp, nlength, + ShouldUpdateTypes::Update); + MOZ_ASSERT(result.value == DenseElementResult::Success); + } + objects->maybeAnalyze(cx, group, /* forceAnalyze = */ true); + } + } + return true; +} + +JSObject* js::NewCopiedArrayTryUseGroup(ExclusiveContext* cx, HandleObjectGroup group, const Value* vp, size_t length, NewObjectKind newKind, ShouldUpdateTypes updateTypes) { - ArrayObject* obj = NewFullyAllocatedArrayTryUseGroup(cx, group, length, newKind); + if (!MaybeAnalyzeBeforeCreatingLargeArray(cx, group, vp, length)) + return nullptr; + + JSObject* obj = NewFullyAllocatedArrayTryUseGroup(cx, group, length, newKind); if (!obj) return nullptr; - DenseElementResult result = obj->setOrExtendDenseElements(cx, 0, vp, length, updateTypes); + DenseElementResult result = + SetOrExtendAnyBoxedOrUnboxedDenseElements(cx, obj, 0, vp, length, updateTypes); + if (result == DenseElementResult::Failure) + return nullptr; + if (result == DenseElementResult::Success) + return obj; + + MOZ_ASSERT(obj->is<UnboxedArrayObject>()); + if (!UnboxedArrayObject::convertToNative(cx->asJSContext(), obj)) + return nullptr; + + result = SetOrExtendBoxedOrUnboxedDenseElements<JSVAL_TYPE_MAGIC>(cx, obj, 0, vp, length, + updateTypes); + MOZ_ASSERT(result != DenseElementResult::Incomplete); if (result == DenseElementResult::Failure) return nullptr; - MOZ_ASSERT(result == DenseElementResult::Success); + return obj; } -ArrayObject* +JSObject* js::NewCopiedArrayForCallingAllocationSite(JSContext* cx, const Value* vp, size_t length, HandleObject proto /* = nullptr */) { diff --git a/js/src/jsarray.h b/js/src/jsarray.h index d0084731f..0ca580ba7 100644 --- a/js/src/jsarray.h +++ b/js/src/jsarray.h @@ -72,37 +72,49 @@ extern ArrayObject* NewDenseFullyAllocatedArrayWithTemplate(JSContext* cx, uint32_t length, JSObject* templateObject); /* Create a dense array with the same copy-on-write elements as another object. */ -extern ArrayObject* +extern JSObject* NewDenseCopyOnWriteArray(JSContext* cx, HandleArrayObject templateObject, gc::InitialHeap heap); -extern ArrayObject* +// The methods below can create either boxed or unboxed arrays. + +extern JSObject* NewFullyAllocatedArrayTryUseGroup(ExclusiveContext* cx, HandleObjectGroup group, size_t length, NewObjectKind newKind = GenericObject); -extern ArrayObject* +extern JSObject* NewPartlyAllocatedArrayTryUseGroup(ExclusiveContext* cx, HandleObjectGroup group, size_t length); -extern ArrayObject* +extern JSObject* NewFullyAllocatedArrayTryReuseGroup(JSContext* cx, HandleObject obj, size_t length, NewObjectKind newKind = GenericObject); -extern ArrayObject* +extern JSObject* NewPartlyAllocatedArrayTryReuseGroup(JSContext* cx, HandleObject obj, size_t length); -extern ArrayObject* +extern JSObject* NewFullyAllocatedArrayForCallingAllocationSite(JSContext* cx, size_t length, NewObjectKind newKind = GenericObject); -extern ArrayObject* +extern JSObject* NewPartlyAllocatedArrayForCallingAllocationSite(JSContext* cx, size_t length, HandleObject proto); -extern ArrayObject* +enum class ShouldUpdateTypes +{ + Update, + DontUpdate +}; + +extern bool +MaybeAnalyzeBeforeCreatingLargeArray(ExclusiveContext* cx, HandleObjectGroup group, + const Value* vp, size_t length); + +extern JSObject* NewCopiedArrayTryUseGroup(ExclusiveContext* cx, HandleObjectGroup group, const Value* vp, size_t length, NewObjectKind newKind = GenericObject, ShouldUpdateTypes updateTypes = ShouldUpdateTypes::Update); -extern ArrayObject* +extern JSObject* NewCopiedArrayForCallingAllocationSite(JSContext* cx, const Value* vp, size_t length, HandleObject proto = nullptr); @@ -117,6 +129,13 @@ NewValuePair(JSContext* cx, const Value& val1, const Value& val2, MutableHandleV extern bool WouldDefinePastNonwritableLength(HandleNativeObject obj, uint32_t index); +/* + * Canonicalize |vp| to a uint32_t value potentially suitable for use as an + * array length. + */ +extern bool +CanonicalizeArrayLengthValue(JSContext* cx, HandleValue v, uint32_t* canonicalized); + extern bool GetLengthProperty(JSContext* cx, HandleObject obj, uint32_t* lengthp); @@ -150,7 +169,7 @@ extern bool array_join(JSContext* cx, unsigned argc, js::Value* vp); extern void -ArrayShiftMoveElements(NativeObject* obj); +ArrayShiftMoveElements(JSObject* obj); extern bool array_shift(JSContext* cx, unsigned argc, js::Value* vp); @@ -182,7 +201,7 @@ extern const JSJitInfo array_splice_info; extern bool NewbornArrayPush(JSContext* cx, HandleObject obj, const Value& v); -extern ArrayObject* +extern JSObject* ArrayConstructorOneArg(JSContext* cx, HandleObjectGroup group, int32_t lengthInt); #ifdef DEBUG diff --git a/js/src/jsfriendapi.cpp b/js/src/jsfriendapi.cpp index f818bb290..515f62213 100644 --- a/js/src/jsfriendapi.cpp +++ b/js/src/jsfriendapi.cpp @@ -270,7 +270,7 @@ js::GetBuiltinClass(JSContext* cx, HandleObject obj, ESClass* cls) if (obj->is<PlainObject>() || obj->is<UnboxedPlainObject>()) *cls = ESClass::Object; - else if (obj->is<ArrayObject>()) + else if (obj->is<ArrayObject>() || obj->is<UnboxedArrayObject>()) *cls = ESClass::Array; else if (obj->is<NumberObject>()) *cls = ESClass::Number; diff --git a/js/src/jsobj.cpp b/js/src/jsobj.cpp index 3d7f294fe..901a9f505 100644 --- a/js/src/jsobj.cpp +++ b/js/src/jsobj.cpp @@ -1136,18 +1136,19 @@ js::CloneObject(JSContext* cx, HandleObject obj, Handle<js::TaggedProto> proto) } static bool -GetScriptArrayObjectElements(JSContext* cx, HandleArrayObject arr, MutableHandle<GCVector<Value>> values) +GetScriptArrayObjectElements(JSContext* cx, HandleObject obj, MutableHandle<GCVector<Value>> values) { - MOZ_ASSERT(!arr->isSingleton()); - MOZ_ASSERT(!arr->isIndexed()); + MOZ_ASSERT(!obj->isSingleton()); + MOZ_ASSERT(obj->is<ArrayObject>() || obj->is<UnboxedArrayObject>()); + MOZ_ASSERT(!obj->isIndexed()); - size_t length = arr->length(); + size_t length = GetAnyBoxedOrUnboxedArrayLength(obj); if (!values.appendN(MagicValue(JS_ELEMENTS_HOLE), length)) return false; - size_t initlen = arr->getDenseInitializedLength(); + size_t initlen = GetAnyBoxedOrUnboxedInitializedLength(obj); for (size_t i = 0; i < initlen; i++) - values[i].set(arr->getDenseElement(i)); + values[i].set(GetAnyBoxedOrUnboxedDenseElement(obj, i)); return true; } @@ -1199,12 +1200,13 @@ js::DeepCloneObjectLiteral(JSContext* cx, HandleObject obj, NewObjectKind newKin MOZ_ASSERT_IF(obj->isSingleton(), cx->compartment()->behaviors().getSingletonsAsTemplates()); MOZ_ASSERT(obj->is<PlainObject>() || - obj->is<ArrayObject>()); + obj->is<ArrayObject>() || + obj->is<UnboxedArrayObject>()); MOZ_ASSERT(newKind != SingletonObject); - if (obj->is<ArrayObject>()) { + if (obj->is<ArrayObject>() || obj->is<UnboxedArrayObject>()) { Rooted<GCVector<Value>> values(cx, GCVector<Value>(cx)); - if (!GetScriptArrayObjectElements(cx, obj.as<ArrayObject>(), &values)) + if (!GetScriptArrayObjectElements(cx, obj, &values)) return nullptr; // Deep clone any elements. @@ -1318,8 +1320,9 @@ js::XDRObjectLiteral(XDRState<mode>* xdr, MutableHandleObject obj) { if (mode == XDR_ENCODE) { MOZ_ASSERT(obj->is<PlainObject>() || - obj->is<ArrayObject>()); - isArray = obj->is<ArrayObject>() ? 1 : 0; + obj->is<ArrayObject>() || + obj->is<UnboxedArrayObject>()); + isArray = (obj->is<ArrayObject>() || obj->is<UnboxedArrayObject>()) ? 1 : 0; } if (!xdr->codeUint32(&isArray)) @@ -1331,11 +1334,8 @@ js::XDRObjectLiteral(XDRState<mode>* xdr, MutableHandleObject obj) if (isArray) { Rooted<GCVector<Value>> values(cx, GCVector<Value>(cx)); - if (mode == XDR_ENCODE) { - RootedArrayObject arr(cx, &obj->as<ArrayObject>()); - if (!GetScriptArrayObjectElements(cx, arr, &values)) - return false; - } + if (mode == XDR_ENCODE && !GetScriptArrayObjectElements(cx, obj, &values)) + return false; uint32_t initialized; if (mode == XDR_ENCODE) @@ -2315,6 +2315,11 @@ js::LookupOwnPropertyPure(ExclusiveContext* cx, JSObject* obj, jsid id, Shape** // us the resolve hook won't define a property with this id. if (ClassMayResolveId(cx->names(), obj->getClass(), id, obj)) return false; + } else if (obj->is<UnboxedArrayObject>()) { + if (obj->as<UnboxedArrayObject>().containsProperty(cx, id)) { + MarkNonNativePropertyFound<NoGC>(propp); + return true; + } } else if (obj->is<TypedObject>()) { if (obj->as<TypedObject>().typeDescr().hasProperty(cx->names(), id)) { MarkNonNativePropertyFound<NoGC>(propp); @@ -3606,6 +3611,16 @@ JSObject::allocKindForTenure(const js::Nursery& nursery) const if (IsProxy(this)) return as<ProxyObject>().allocKindForTenure(); + // Unboxed arrays use inline data if their size is small enough. + if (is<UnboxedArrayObject>()) { + const UnboxedArrayObject* nobj = &as<UnboxedArrayObject>(); + size_t nbytes = UnboxedArrayObject::offsetOfInlineElements() + + nobj->capacity() * nobj->elementSize(); + if (nbytes <= JSObject::MAX_BYTE_SIZE) + return GetGCObjectKindForBytes(nbytes); + return AllocKind::OBJECT0; + } + // Inlined typed objects are followed by their data, so make sure we copy // it all over to the new object. if (is<InlineTypedObject>()) { diff --git a/js/src/jsobjinlines.h b/js/src/jsobjinlines.h index 889033143..a82725ee8 100644 --- a/js/src/jsobjinlines.h +++ b/js/src/jsobjinlines.h @@ -40,6 +40,8 @@ MaybeConvertUnboxedObjectToNative(ExclusiveContext* cx, JSObject* obj) { if (obj->is<UnboxedPlainObject>()) return UnboxedPlainObject::convertToNative(cx->asJSContext(), obj); + if (obj->is<UnboxedArrayObject>()) + return UnboxedArrayObject::convertToNative(cx->asJSContext(), obj); return true; } diff --git a/js/src/jsstr.cpp b/js/src/jsstr.cpp index a482263e3..5e593846e 100644 --- a/js/src/jsstr.cpp +++ b/js/src/jsstr.cpp @@ -2373,7 +2373,7 @@ js::str_replace_string_raw(JSContext* cx, HandleString string, HandleString patt } // ES 2016 draft Mar 25, 2016 21.1.3.17 steps 4, 8, 12-18. -static ArrayObject* +static JSObject* SplitHelper(JSContext* cx, HandleLinearString str, uint32_t limit, HandleLinearString sep, HandleObjectGroup group) { @@ -2470,7 +2470,7 @@ SplitHelper(JSContext* cx, HandleLinearString str, uint32_t limit, HandleLinearS } // Fast-path for splitting a string into a character array via split(""). -static ArrayObject* +static JSObject* CharSplitHelper(JSContext* cx, HandleLinearString str, uint32_t limit, HandleObjectGroup group) { size_t strLength = str->length(); @@ -2495,7 +2495,7 @@ CharSplitHelper(JSContext* cx, HandleLinearString str, uint32_t limit, HandleObj } // ES 2016 draft Mar 25, 2016 21.1.3.17 steps 4, 8, 12-18. -ArrayObject* +JSObject* js::str_split_string(JSContext* cx, HandleObjectGroup group, HandleString str, HandleString sep, uint32_t limit) { diff --git a/js/src/jsstr.h b/js/src/jsstr.h index 68175c826..38fbfa85e 100644 --- a/js/src/jsstr.h +++ b/js/src/jsstr.h @@ -465,7 +465,7 @@ FileEscapedString(FILE* fp, const char* chars, size_t length, uint32_t quote) return res; } -ArrayObject* +JSObject* str_split_string(JSContext* cx, HandleObjectGroup group, HandleString str, HandleString sep, uint32_t limit); diff --git a/js/src/shell/js.cpp b/js/src/shell/js.cpp index e077bbbf8..35a527c5e 100644 --- a/js/src/shell/js.cpp +++ b/js/src/shell/js.cpp @@ -317,6 +317,7 @@ static bool enableIon = false; static bool enableAsmJS = false; static bool enableWasm = false; static bool enableNativeRegExp = false; +static bool enableUnboxedArrays = false; static bool enableSharedMemory = SHARED_MEMORY_DEFAULT; static bool enableWasmAlwaysBaseline = false; static bool enableArrayProtoValues = true; @@ -7262,6 +7263,7 @@ SetContextOptions(JSContext* cx, const OptionParser& op) enableAsmJS = !op.getBoolOption("no-asmjs"); enableWasm = !op.getBoolOption("no-wasm"); enableNativeRegExp = !op.getBoolOption("no-native-regexp"); + enableUnboxedArrays = op.getBoolOption("unboxed-arrays"); enableWasmAlwaysBaseline = op.getBoolOption("wasm-always-baseline"); enableArrayProtoValues = !op.getBoolOption("no-array-proto-values"); @@ -7271,6 +7273,7 @@ SetContextOptions(JSContext* cx, const OptionParser& op) .setWasm(enableWasm) .setWasmAlwaysBaseline(enableWasmAlwaysBaseline) .setNativeRegExp(enableNativeRegExp) + .setUnboxedArrays(enableUnboxedArrays) .setArrayProtoValues(enableArrayProtoValues); if (op.getBoolOption("wasm-check-bce")) @@ -7710,6 +7713,7 @@ main(int argc, char** argv, char** envp) || !op.addBoolOption('\0', "no-wasm", "Disable WebAssembly compilation") || !op.addBoolOption('\0', "no-native-regexp", "Disable native regexp compilation") || !op.addBoolOption('\0', "no-unboxed-objects", "Disable creating unboxed plain objects") + || !op.addBoolOption('\0', "unboxed-arrays", "Allow creating unboxed arrays") || !op.addBoolOption('\0', "wasm-always-baseline", "Enable wasm baseline compiler when possible") || !op.addBoolOption('\0', "wasm-check-bce", "Always generate wasm bounds check, even redundant ones.") || !op.addBoolOption('\0', "no-array-proto-values", "Remove Array.prototype.values") diff --git a/js/src/vm/Interpreter-inl.h b/js/src/vm/Interpreter-inl.h index acfa8f74b..adefa6e93 100644 --- a/js/src/vm/Interpreter-inl.h +++ b/js/src/vm/Interpreter-inl.h @@ -593,7 +593,7 @@ InitArrayElemOperation(JSContext* cx, jsbytecode* pc, HandleObject obj, uint32_t JSOp op = JSOp(*pc); MOZ_ASSERT(op == JSOP_INITELEM_ARRAY || op == JSOP_INITELEM_INC); - MOZ_ASSERT(obj->is<ArrayObject>()); + MOZ_ASSERT(obj->is<ArrayObject>() || obj->is<UnboxedArrayObject>()); if (op == JSOP_INITELEM_INC && index == INT32_MAX) { JS_ReportErrorNumberASCII(cx, GetErrorMessage, nullptr, JSMSG_SPREAD_TOO_LARGE); diff --git a/js/src/vm/Interpreter.cpp b/js/src/vm/Interpreter.cpp index b87d12924..834084c4d 100644 --- a/js/src/vm/Interpreter.cpp +++ b/js/src/vm/Interpreter.cpp @@ -1939,7 +1939,6 @@ CASE(EnableInterruptsPseudoOpcode) /* Various 1-byte no-ops. */ CASE(JSOP_NOP) CASE(JSOP_NOP_DESTRUCTURING) -CASE(JSOP_UNUSED126) CASE(JSOP_UNUSED211) CASE(JSOP_TRY_DESTRUCTURING_ITERCLOSE) CASE(JSOP_UNUSED221) @@ -3682,6 +3681,7 @@ CASE(JSOP_NEWINIT) END_CASE(JSOP_NEWINIT) CASE(JSOP_NEWARRAY) +CASE(JSOP_SPREADCALLARRAY) { uint32_t length = GET_UINT32(REGS.pc); JSObject* obj = NewArrayOperation(cx, script, REGS.pc, length); @@ -4979,7 +4979,7 @@ js::NewObjectOperation(JSContext* cx, HandleScript script, jsbytecode* pc, newKind = TenuredObject; } - RootedPlainObject obj(cx); + RootedObject obj(cx); if (*pc == JSOP_NEWOBJECT) { RootedPlainObject baseObject(cx, &script->getObject(pc)->as<PlainObject>()); @@ -5047,6 +5047,9 @@ js::NewArrayOperation(JSContext* cx, HandleScript script, jsbytecode* pc, uint32 if (group->shouldPreTenure() || group->maybePreliminaryObjects()) newKind = TenuredObject; + + if (group->maybeUnboxedLayout()) + return UnboxedArrayObject::create(cx, group, length, newKind); } ArrayObject* obj = NewDenseFullyAllocatedArray(cx, length, nullptr, newKind); @@ -5057,6 +5060,9 @@ js::NewArrayOperation(JSContext* cx, HandleScript script, jsbytecode* pc, uint32 MOZ_ASSERT(obj->isSingleton()); } else { obj->setGroup(group); + + if (PreliminaryObjectArray* preliminaryObjects = group->maybePreliminaryObjects()) + preliminaryObjects->registerNewObject(obj); } return obj; @@ -5069,6 +5075,12 @@ js::NewArrayOperationWithTemplate(JSContext* cx, HandleObject templateObject) NewObjectKind newKind = templateObject->group()->shouldPreTenure() ? TenuredObject : GenericObject; + if (templateObject->is<UnboxedArrayObject>()) { + uint32_t length = templateObject->as<UnboxedArrayObject>().length(); + RootedObjectGroup group(cx, templateObject->group()); + return UnboxedArrayObject::create(cx, group, length, newKind); + } + ArrayObject* obj = NewDenseFullyAllocatedArray(cx, templateObject->as<ArrayObject>().length(), nullptr, newKind); if (!obj) diff --git a/js/src/vm/JSONParser.cpp b/js/src/vm/JSONParser.cpp index e50da3bc4..01883bb15 100644 --- a/js/src/vm/JSONParser.cpp +++ b/js/src/vm/JSONParser.cpp @@ -606,8 +606,8 @@ JSONParserBase::finishArray(MutableHandleValue vp, ElementVector& elements) { MOZ_ASSERT(&elements == &stack.back().elements()); - ArrayObject* obj = ObjectGroup::newArrayObject(cx, elements.begin(), elements.length(), - GenericObject); + JSObject* obj = ObjectGroup::newArrayObject(cx, elements.begin(), elements.length(), + GenericObject); if (!obj) return false; diff --git a/js/src/vm/NativeObject-inl.h b/js/src/vm/NativeObject-inl.h index 030d92c12..205d99aa2 100644 --- a/js/src/vm/NativeObject-inl.h +++ b/js/src/vm/NativeObject-inl.h @@ -235,38 +235,6 @@ NativeObject::ensureDenseElements(ExclusiveContext* cx, uint32_t index, uint32_t return DenseElementResult::Success; } -inline DenseElementResult -NativeObject::setOrExtendDenseElements(ExclusiveContext* cx, uint32_t start, const Value* vp, - uint32_t count, - ShouldUpdateTypes updateTypes) -{ - if (denseElementsAreFrozen()) - return DenseElementResult::Incomplete; - - if (is<ArrayObject>() && - !as<ArrayObject>().lengthIsWritable() && - start + count >= as<ArrayObject>().length()) - { - return DenseElementResult::Incomplete; - } - - DenseElementResult result = ensureDenseElements(cx, start, count); - if (result != DenseElementResult::Success) - return result; - - if (is<ArrayObject>() && start + count >= as<ArrayObject>().length()) - as<ArrayObject>().setLengthInt32(start + count); - - if (updateTypes == ShouldUpdateTypes::DontUpdate && !shouldConvertDoubleElements()) { - copyDenseElements(start, vp, count); - } else { - for (size_t i = 0; i < count; i++) - setDenseElementWithType(cx, start + i, vp[i]); - } - - return DenseElementResult::Success; -} - inline Value NativeObject::getDenseOrTypedArrayElement(uint32_t idx) { diff --git a/js/src/vm/NativeObject.h b/js/src/vm/NativeObject.h index c774308af..3a3e50244 100644 --- a/js/src/vm/NativeObject.h +++ b/js/src/vm/NativeObject.h @@ -339,19 +339,16 @@ IsObjectValueInCompartment(const Value& v, JSCompartment* comp); #endif // Operations which change an object's dense elements can either succeed, fail, -// or be unable to complete. The latter is used when the object's elements must -// become sparse instead. The enum below is used for such operations. +// or be unable to complete. For native objects, the latter is used when the +// object's elements must become sparse instead. The enum below is used for +// such operations, and for similar operations on unboxed arrays and methods +// that work on both kinds of objects. enum class DenseElementResult { Failure, Success, Incomplete }; -enum class ShouldUpdateTypes { - Update, - DontUpdate -}; - /* * NativeObject specifies the internal implementation of a native object. * @@ -1154,10 +1151,6 @@ class NativeObject : public ShapedObject elementsRangeWriteBarrierPost(dstStart, count); } - inline DenseElementResult - setOrExtendDenseElements(ExclusiveContext* cx, uint32_t start, const Value* vp, uint32_t count, - ShouldUpdateTypes updateTypes = ShouldUpdateTypes::Update); - bool shouldConvertDoubleElements() { return getElementsHeader()->shouldConvertDoubleElements(); } diff --git a/js/src/vm/ObjectGroup.cpp b/js/src/vm/ObjectGroup.cpp index 95fcada94..d05a48646 100644 --- a/js/src/vm/ObjectGroup.cpp +++ b/js/src/vm/ObjectGroup.cpp @@ -777,7 +777,7 @@ GetValueTypeForTable(const Value& v) return type; } -/* static */ ArrayObject* +/* static */ JSObject* ObjectGroup::newArrayObject(ExclusiveContext* cx, const Value* vp, size_t length, NewObjectKind newKind, NewArrayKind arrayKind) @@ -841,13 +841,56 @@ ObjectGroup::newArrayObject(ExclusiveContext* cx, AddTypePropertyId(cx, group, nullptr, JSID_VOID, elementType); + if (elementType != TypeSet::UnknownType()) { + // Keep track of the initial objects we create with this type. + // If the initial ones have a consistent shape and property types, we + // will try to use an unboxed layout for the group. + PreliminaryObjectArrayWithTemplate* preliminaryObjects = + cx->new_<PreliminaryObjectArrayWithTemplate>(nullptr); + if (!preliminaryObjects) + return nullptr; + group->setPreliminaryObjects(preliminaryObjects); + } + if (!p.add(cx, *table, ObjectGroupCompartment::ArrayObjectKey(elementType), group)) return nullptr; } // The type of the elements being added will already be reflected in type - // information. + // information, but make sure when creating an unboxed array that the + // common element type is suitable for the unboxed representation. ShouldUpdateTypes updateTypes = ShouldUpdateTypes::DontUpdate; + if (!MaybeAnalyzeBeforeCreatingLargeArray(cx, group, vp, length)) + return nullptr; + if (group->maybePreliminaryObjects()) + group->maybePreliminaryObjects()->maybeAnalyze(cx, group); + if (group->maybeUnboxedLayout()) { + switch (group->unboxedLayout().elementType()) { + case JSVAL_TYPE_BOOLEAN: + if (elementType != TypeSet::BooleanType()) + updateTypes = ShouldUpdateTypes::Update; + break; + case JSVAL_TYPE_INT32: + if (elementType != TypeSet::Int32Type()) + updateTypes = ShouldUpdateTypes::Update; + break; + case JSVAL_TYPE_DOUBLE: + if (elementType != TypeSet::Int32Type() && elementType != TypeSet::DoubleType()) + updateTypes = ShouldUpdateTypes::Update; + break; + case JSVAL_TYPE_STRING: + if (elementType != TypeSet::StringType()) + updateTypes = ShouldUpdateTypes::Update; + break; + case JSVAL_TYPE_OBJECT: + if (elementType != TypeSet::NullType() && !elementType.get().isObjectUnchecked()) + updateTypes = ShouldUpdateTypes::Update; + break; + default: + MOZ_CRASH(); + } + } + return NewCopiedArrayTryUseGroup(cx, group, vp, length, newKind, updateTypes); } @@ -857,15 +900,49 @@ GiveObjectGroup(ExclusiveContext* cx, JSObject* source, JSObject* target) { MOZ_ASSERT(source->group() != target->group()); - if (!target->is<ArrayObject>() || !source->is<ArrayObject>()) { + if (!target->is<ArrayObject>() && !target->is<UnboxedArrayObject>()) return true; + + if (target->group()->maybePreliminaryObjects()) { + bool force = IsInsideNursery(source); + target->group()->maybePreliminaryObjects()->maybeAnalyze(cx, target->group(), force); } - source->setGroup(target->group()); + if (target->is<ArrayObject>()) { + ObjectGroup* sourceGroup = source->group(); - for (size_t i = 0; i < source->as<ArrayObject>().getDenseInitializedLength(); i++) { - Value v = source->as<ArrayObject>().getDenseElement(i); - AddTypePropertyId(cx, source->group(), source, JSID_VOID, v); + if (source->is<UnboxedArrayObject>()) { + Shape* shape = target->as<ArrayObject>().lastProperty(); + if (!UnboxedArrayObject::convertToNativeWithGroup(cx, source, target->group(), shape)) + return false; + } else if (source->is<ArrayObject>()) { + source->setGroup(target->group()); + } else { + return true; + } + + if (sourceGroup->maybePreliminaryObjects()) + sourceGroup->maybePreliminaryObjects()->unregisterObject(source); + if (target->group()->maybePreliminaryObjects()) + target->group()->maybePreliminaryObjects()->registerNewObject(source); + + for (size_t i = 0; i < source->as<ArrayObject>().getDenseInitializedLength(); i++) { + Value v = source->as<ArrayObject>().getDenseElement(i); + AddTypePropertyId(cx, source->group(), source, JSID_VOID, v); + } + + return true; + } + + if (target->is<UnboxedArrayObject>()) { + if (!source->is<UnboxedArrayObject>()) + return true; + if (source->as<UnboxedArrayObject>().elementType() != JSVAL_TYPE_INT32) + return true; + if (target->as<UnboxedArrayObject>().elementType() != JSVAL_TYPE_DOUBLE) + return true; + + return source->as<UnboxedArrayObject>().convertInt32ToDouble(cx, target->group()); } return true; @@ -1429,6 +1506,18 @@ ObjectGroup::allocationSiteGroup(JSContext* cx, JSScript* scriptArg, jsbytecode* } } + if (kind == JSProto_Array && + (JSOp(*pc) == JSOP_NEWARRAY || IsCallPC(pc)) && + cx->options().unboxedArrays()) + { + PreliminaryObjectArrayWithTemplate* preliminaryObjects = + cx->new_<PreliminaryObjectArrayWithTemplate>(nullptr); + if (preliminaryObjects) + res->setPreliminaryObjects(preliminaryObjects); + else + cx->recoverFromOutOfMemory(); + } + if (!table->add(p, key, res)) { ReportOutOfMemory(cx); return nullptr; diff --git a/js/src/vm/ObjectGroup.h b/js/src/vm/ObjectGroup.h index 553cb8366..4e24de9f1 100644 --- a/js/src/vm/ObjectGroup.h +++ b/js/src/vm/ObjectGroup.h @@ -505,11 +505,11 @@ class ObjectGroup : public gc::TenuredCell UnknownIndex // Make an array with an unknown element type. }; - // Create an ArrayObject with the specified elements and a group specialized - // for the elements. - static ArrayObject* newArrayObject(ExclusiveContext* cx, const Value* vp, size_t length, - NewObjectKind newKind, - NewArrayKind arrayKind = NewArrayKind::Normal); + // Create an ArrayObject or UnboxedArrayObject with the specified elements + // and a group specialized for the elements. + static JSObject* newArrayObject(ExclusiveContext* cx, const Value* vp, size_t length, + NewObjectKind newKind, + NewArrayKind arrayKind = NewArrayKind::Normal); // Create a PlainObject or UnboxedPlainObject with the specified properties // and a group specialized for those properties. diff --git a/js/src/vm/Opcodes.h b/js/src/vm/Opcodes.h index e13cd6221..b26336815 100644 --- a/js/src/vm/Opcodes.h +++ b/js/src/vm/Opcodes.h @@ -1281,7 +1281,17 @@ * Stack: receiver, obj, propval => obj[propval] */ \ macro(JSOP_GETELEM_SUPER, 125, "getelem-super", NULL, 1, 3, 1, JOF_BYTE |JOF_ELEM|JOF_LEFTASSOC) \ - macro(JSOP_UNUSED126, 126, "unused126", NULL, 5, 0, 1, JOF_UINT32) \ + /* + * Pushes newly created array for a spread call onto the stack. This has + * the same semantics as JSOP_NEWARRAY, but is distinguished to avoid + * using unboxed arrays in spread calls, which would make compiling spread + * calls in baseline more complex. + * Category: Literals + * Type: Array + * Operands: uint32_t length + * Stack: => obj + */ \ + macro(JSOP_SPREADCALLARRAY, 126, "spreadcallarray", NULL, 5, 0, 1, JOF_UINT32) \ \ /* * Defines the given function on the current scope. diff --git a/js/src/vm/ReceiverGuard.cpp b/js/src/vm/ReceiverGuard.cpp index e37bf8ee5..11c2d0727 100644 --- a/js/src/vm/ReceiverGuard.cpp +++ b/js/src/vm/ReceiverGuard.cpp @@ -19,7 +19,7 @@ ReceiverGuard::ReceiverGuard(JSObject* obj) group = obj->group(); if (UnboxedExpandoObject* expando = obj->as<UnboxedPlainObject>().maybeExpando()) shape = expando->lastProperty(); - } else if (obj->is<TypedObject>()) { + } else if (obj->is<UnboxedArrayObject>() || obj->is<TypedObject>()) { group = obj->group(); } else { shape = obj->maybeShape(); @@ -34,7 +34,7 @@ ReceiverGuard::ReceiverGuard(ObjectGroup* group, Shape* shape) const Class* clasp = group->clasp(); if (clasp == &UnboxedPlainObject::class_) { // Keep both group and shape. - } else if (IsTypedObjectClass(clasp)) { + } else if (clasp == &UnboxedArrayObject::class_ || IsTypedObjectClass(clasp)) { this->shape = nullptr; } else { this->group = nullptr; @@ -49,8 +49,8 @@ HeapReceiverGuard::keyBits(JSObject* obj) // Both the group and shape need to be guarded for unboxed plain objects. return obj->as<UnboxedPlainObject>().maybeExpando() ? 0 : 1; } - if (obj->is<TypedObject>()) { - // Only the group needs to be guarded for typed objects. + if (obj->is<UnboxedArrayObject>() || obj->is<TypedObject>()) { + // Only the group needs to be guarded for unboxed arrays and typed objects. return 2; } // Other objects only need the shape to be guarded. diff --git a/js/src/vm/Stack.cpp b/js/src/vm/Stack.cpp index 95940eeaf..7eb8f4ab8 100644 --- a/js/src/vm/Stack.cpp +++ b/js/src/vm/Stack.cpp @@ -82,7 +82,7 @@ InterpreterFrame::isNonGlobalEvalFrame() const return isEvalFrame() && script()->bodyScope()->as<EvalScope>().isNonGlobal(); } -ArrayObject* +JSObject* InterpreterFrame::createRestParameter(JSContext* cx) { MOZ_ASSERT(script()->hasRest()); diff --git a/js/src/vm/Stack.h b/js/src/vm/Stack.h index fe04a00f2..d08544213 100644 --- a/js/src/vm/Stack.h +++ b/js/src/vm/Stack.h @@ -523,7 +523,7 @@ class InterpreterFrame ArgumentsObject& argsObj() const; void initArgsObj(ArgumentsObject& argsobj); - ArrayObject* createRestParameter(JSContext* cx); + JSObject* createRestParameter(JSContext* cx); /* * Environment chain diff --git a/js/src/vm/TypeInference.cpp b/js/src/vm/TypeInference.cpp index 39206539b..ee5bbef5d 100644 --- a/js/src/vm/TypeInference.cpp +++ b/js/src/vm/TypeInference.cpp @@ -2509,7 +2509,7 @@ TemporaryTypeSet::propertyNeedsBarrier(CompilerConstraintList* constraints, jsid bool js::ClassCanHaveExtraProperties(const Class* clasp) { - if (clasp == &UnboxedPlainObject::class_) + if (clasp == &UnboxedPlainObject::class_ || clasp == &UnboxedArrayObject::class_) return false; return clasp->getResolve() || clasp->getOpsLookupProperty() @@ -3400,7 +3400,7 @@ JSFunction::setTypeForScriptedFunction(ExclusiveContext* cx, HandleFunction fun, ///////////////////////////////////////////////////////////////////// void -PreliminaryObjectArray::registerNewObject(PlainObject* res) +PreliminaryObjectArray::registerNewObject(JSObject* res) { // The preliminary object pointers are weak, and won't be swept properly // during nursery collections, so the preliminary objects need to be @@ -3418,7 +3418,7 @@ PreliminaryObjectArray::registerNewObject(PlainObject* res) } void -PreliminaryObjectArray::unregisterObject(PlainObject* obj) +PreliminaryObjectArray::unregisterObject(JSObject* obj) { for (size_t i = 0; i < COUNT; i++) { if (objects[i] == obj) { diff --git a/js/src/vm/TypeInference.h b/js/src/vm/TypeInference.h index fd021fc96..537baa21f 100644 --- a/js/src/vm/TypeInference.h +++ b/js/src/vm/TypeInference.h @@ -871,8 +871,8 @@ class PreliminaryObjectArray public: PreliminaryObjectArray() = default; - void registerNewObject(PlainObject* res); - void unregisterObject(PlainObject* obj); + void registerNewObject(JSObject* res); + void unregisterObject(JSObject* obj); JSObject* get(size_t i) const { MOZ_ASSERT(i < COUNT); diff --git a/js/src/vm/UnboxedObject-inl.h b/js/src/vm/UnboxedObject-inl.h index c1468a5b1..93ad7bf28 100644 --- a/js/src/vm/UnboxedObject-inl.h +++ b/js/src/vm/UnboxedObject-inl.h @@ -172,6 +172,669 @@ UnboxedPlainObject::layout() const return group()->unboxedLayout(); } +///////////////////////////////////////////////////////////////////// +// UnboxedArrayObject +///////////////////////////////////////////////////////////////////// + +inline const UnboxedLayout& +UnboxedArrayObject::layout() const +{ + return group()->unboxedLayout(); +} + +inline void +UnboxedArrayObject::setLength(ExclusiveContext* cx, uint32_t length) +{ + if (length > INT32_MAX) { + // Track objects with overflowing lengths in type information. + MarkObjectGroupFlags(cx, this, OBJECT_FLAG_LENGTH_OVERFLOW); + } + + length_ = length; +} + +inline void +UnboxedArrayObject::setInitializedLength(uint32_t initlen) +{ + if (initlen < initializedLength()) { + switch (elementType()) { + case JSVAL_TYPE_STRING: + for (size_t i = initlen; i < initializedLength(); i++) + triggerPreBarrier<JSVAL_TYPE_STRING>(i); + break; + case JSVAL_TYPE_OBJECT: + for (size_t i = initlen; i < initializedLength(); i++) + triggerPreBarrier<JSVAL_TYPE_OBJECT>(i); + break; + default: + MOZ_ASSERT(!UnboxedTypeNeedsPreBarrier(elementType())); + } + } + setInitializedLengthNoBarrier(initlen); +} + +template <JSValueType Type> +inline bool +UnboxedArrayObject::setElementSpecific(ExclusiveContext* cx, size_t index, const Value& v) +{ + MOZ_ASSERT(index < initializedLength()); + MOZ_ASSERT(Type == elementType()); + uint8_t* p = elements() + index * UnboxedTypeSize(Type); + return SetUnboxedValue(cx, this, JSID_VOID, p, elementType(), v, /* preBarrier = */ true); +} + +template <JSValueType Type> +inline void +UnboxedArrayObject::setElementNoTypeChangeSpecific(size_t index, const Value& v) +{ + MOZ_ASSERT(index < initializedLength()); + MOZ_ASSERT(Type == elementType()); + uint8_t* p = elements() + index * UnboxedTypeSize(Type); + return SetUnboxedValueNoTypeChange(this, p, elementType(), v, /* preBarrier = */ true); +} + +template <JSValueType Type> +inline bool +UnboxedArrayObject::initElementSpecific(ExclusiveContext* cx, size_t index, const Value& v) +{ + MOZ_ASSERT(index < initializedLength()); + MOZ_ASSERT(Type == elementType()); + uint8_t* p = elements() + index * UnboxedTypeSize(Type); + return SetUnboxedValue(cx, this, JSID_VOID, p, elementType(), v, /* preBarrier = */ false); +} + +template <JSValueType Type> +inline void +UnboxedArrayObject::initElementNoTypeChangeSpecific(size_t index, const Value& v) +{ + MOZ_ASSERT(index < initializedLength()); + MOZ_ASSERT(Type == elementType()); + uint8_t* p = elements() + index * UnboxedTypeSize(Type); + return SetUnboxedValueNoTypeChange(this, p, elementType(), v, /* preBarrier = */ false); +} + +template <JSValueType Type> +inline Value +UnboxedArrayObject::getElementSpecific(size_t index) +{ + MOZ_ASSERT(index < initializedLength()); + MOZ_ASSERT(Type == elementType()); + uint8_t* p = elements() + index * UnboxedTypeSize(Type); + return GetUnboxedValue(p, Type, /* maybeUninitialized = */ false); +} + +template <JSValueType Type> +inline void +UnboxedArrayObject::triggerPreBarrier(size_t index) +{ + MOZ_ASSERT(UnboxedTypeNeedsPreBarrier(Type)); + + uint8_t* p = elements() + index * UnboxedTypeSize(Type); + + switch (Type) { + case JSVAL_TYPE_STRING: { + JSString** np = reinterpret_cast<JSString**>(p); + JSString::writeBarrierPre(*np); + break; + } + + case JSVAL_TYPE_OBJECT: { + JSObject** np = reinterpret_cast<JSObject**>(p); + JSObject::writeBarrierPre(*np); + break; + } + + default: + MOZ_CRASH("Bad type"); + } +} + +///////////////////////////////////////////////////////////////////// +// Combined methods for NativeObject and UnboxedArrayObject accesses. +///////////////////////////////////////////////////////////////////// + +static inline bool +HasAnyBoxedOrUnboxedDenseElements(JSObject* obj) +{ + return obj->isNative() || obj->is<UnboxedArrayObject>(); +} + +static inline size_t +GetAnyBoxedOrUnboxedInitializedLength(JSObject* obj) +{ + if (obj->isNative()) + return obj->as<NativeObject>().getDenseInitializedLength(); + if (obj->is<UnboxedArrayObject>()) + return obj->as<UnboxedArrayObject>().initializedLength(); + return 0; +} + +static inline size_t +GetAnyBoxedOrUnboxedCapacity(JSObject* obj) +{ + if (obj->isNative()) + return obj->as<NativeObject>().getDenseCapacity(); + if (obj->is<UnboxedArrayObject>()) + return obj->as<UnboxedArrayObject>().capacity(); + return 0; +} + +static inline Value +GetAnyBoxedOrUnboxedDenseElement(JSObject* obj, size_t index) +{ + if (obj->isNative()) + return obj->as<NativeObject>().getDenseElement(index); + return obj->as<UnboxedArrayObject>().getElement(index); +} + +static inline size_t +GetAnyBoxedOrUnboxedArrayLength(JSObject* obj) +{ + if (obj->is<ArrayObject>()) + return obj->as<ArrayObject>().length(); + return obj->as<UnboxedArrayObject>().length(); +} + +static inline void +SetAnyBoxedOrUnboxedArrayLength(JSContext* cx, JSObject* obj, size_t length) +{ + if (obj->is<ArrayObject>()) { + MOZ_ASSERT(length >= obj->as<ArrayObject>().length()); + obj->as<ArrayObject>().setLength(cx, length); + } else { + MOZ_ASSERT(length >= obj->as<UnboxedArrayObject>().length()); + obj->as<UnboxedArrayObject>().setLength(cx, length); + } +} + +static inline bool +SetAnyBoxedOrUnboxedDenseElement(JSContext* cx, JSObject* obj, size_t index, const Value& value) +{ + if (obj->isNative()) { + obj->as<NativeObject>().setDenseElementWithType(cx, index, value); + return true; + } + return obj->as<UnboxedArrayObject>().setElement(cx, index, value); +} + +static inline bool +InitAnyBoxedOrUnboxedDenseElement(JSContext* cx, JSObject* obj, size_t index, const Value& value) +{ + if (obj->isNative()) { + obj->as<NativeObject>().initDenseElementWithType(cx, index, value); + return true; + } + return obj->as<UnboxedArrayObject>().initElement(cx, index, value); +} + +///////////////////////////////////////////////////////////////////// +// Template methods for NativeObject and UnboxedArrayObject accesses. +///////////////////////////////////////////////////////////////////// + +static inline JSValueType +GetBoxedOrUnboxedType(JSObject* obj) +{ + if (obj->isNative()) + return JSVAL_TYPE_MAGIC; + return obj->as<UnboxedArrayObject>().elementType(); +} + +template <JSValueType Type> +static inline bool +HasBoxedOrUnboxedDenseElements(JSObject* obj) +{ + if (Type == JSVAL_TYPE_MAGIC) + return obj->isNative(); + return obj->is<UnboxedArrayObject>() && obj->as<UnboxedArrayObject>().elementType() == Type; +} + +template <JSValueType Type> +static inline size_t +GetBoxedOrUnboxedInitializedLength(JSObject* obj) +{ + if (Type == JSVAL_TYPE_MAGIC) + return obj->as<NativeObject>().getDenseInitializedLength(); + return obj->as<UnboxedArrayObject>().initializedLength(); +} + +template <JSValueType Type> +static inline DenseElementResult +SetBoxedOrUnboxedInitializedLength(JSContext* cx, JSObject* obj, size_t initlen) +{ + size_t oldInitlen = GetBoxedOrUnboxedInitializedLength<Type>(obj); + if (Type == JSVAL_TYPE_MAGIC) { + obj->as<NativeObject>().setDenseInitializedLength(initlen); + if (initlen < oldInitlen) + obj->as<NativeObject>().shrinkElements(cx, initlen); + } else { + obj->as<UnboxedArrayObject>().setInitializedLength(initlen); + if (initlen < oldInitlen) + obj->as<UnboxedArrayObject>().shrinkElements(cx, initlen); + } + return DenseElementResult::Success; +} + +template <JSValueType Type> +static inline size_t +GetBoxedOrUnboxedCapacity(JSObject* obj) +{ + if (Type == JSVAL_TYPE_MAGIC) + return obj->as<NativeObject>().getDenseCapacity(); + return obj->as<UnboxedArrayObject>().capacity(); +} + +template <JSValueType Type> +static inline Value +GetBoxedOrUnboxedDenseElement(JSObject* obj, size_t index) +{ + if (Type == JSVAL_TYPE_MAGIC) + return obj->as<NativeObject>().getDenseElement(index); + return obj->as<UnboxedArrayObject>().getElementSpecific<Type>(index); +} + +template <JSValueType Type> +static inline void +SetBoxedOrUnboxedDenseElementNoTypeChange(JSObject* obj, size_t index, const Value& value) +{ + if (Type == JSVAL_TYPE_MAGIC) + obj->as<NativeObject>().setDenseElement(index, value); + else + obj->as<UnboxedArrayObject>().setElementNoTypeChangeSpecific<Type>(index, value); +} + +template <JSValueType Type> +static inline bool +SetBoxedOrUnboxedDenseElement(JSContext* cx, JSObject* obj, size_t index, const Value& value) +{ + if (Type == JSVAL_TYPE_MAGIC) { + obj->as<NativeObject>().setDenseElementWithType(cx, index, value); + return true; + } + return obj->as<UnboxedArrayObject>().setElementSpecific<Type>(cx, index, value); +} + +template <JSValueType Type> +static inline DenseElementResult +EnsureBoxedOrUnboxedDenseElements(JSContext* cx, JSObject* obj, size_t count) +{ + if (Type == JSVAL_TYPE_MAGIC) { + if (!obj->as<ArrayObject>().ensureElements(cx, count)) + return DenseElementResult::Failure; + } else { + if (obj->as<UnboxedArrayObject>().capacity() < count) { + if (!obj->as<UnboxedArrayObject>().growElements(cx, count)) + return DenseElementResult::Failure; + } + } + return DenseElementResult::Success; +} + +template <JSValueType Type> +static inline DenseElementResult +SetOrExtendBoxedOrUnboxedDenseElements(ExclusiveContext* cx, JSObject* obj, + uint32_t start, const Value* vp, uint32_t count, + ShouldUpdateTypes updateTypes = ShouldUpdateTypes::Update) +{ + if (Type == JSVAL_TYPE_MAGIC) { + NativeObject* nobj = &obj->as<NativeObject>(); + + if (nobj->denseElementsAreFrozen()) + return DenseElementResult::Incomplete; + + if (obj->is<ArrayObject>() && + !obj->as<ArrayObject>().lengthIsWritable() && + start + count >= obj->as<ArrayObject>().length()) + { + return DenseElementResult::Incomplete; + } + + DenseElementResult result = nobj->ensureDenseElements(cx, start, count); + if (result != DenseElementResult::Success) + return result; + + if (obj->is<ArrayObject>() && start + count >= obj->as<ArrayObject>().length()) + obj->as<ArrayObject>().setLengthInt32(start + count); + + if (updateTypes == ShouldUpdateTypes::DontUpdate && !nobj->shouldConvertDoubleElements()) { + nobj->copyDenseElements(start, vp, count); + } else { + for (size_t i = 0; i < count; i++) + nobj->setDenseElementWithType(cx, start + i, vp[i]); + } + + return DenseElementResult::Success; + } + + UnboxedArrayObject* nobj = &obj->as<UnboxedArrayObject>(); + + if (start > nobj->initializedLength()) + return DenseElementResult::Incomplete; + + if (start + count >= UnboxedArrayObject::MaximumCapacity) + return DenseElementResult::Incomplete; + + if (start + count > nobj->capacity() && !nobj->growElements(cx, start + count)) + return DenseElementResult::Failure; + + size_t oldInitlen = nobj->initializedLength(); + + // Overwrite any existing elements covered by the new range. If we fail + // after this point due to some incompatible type being written to the + // object's elements, afterwards the contents will be different from when + // we started. The caller must retry the operation using a generic path, + // which will overwrite the already-modified elements as well as the ones + // that were left alone. + size_t i = 0; + if (updateTypes == ShouldUpdateTypes::DontUpdate) { + for (size_t j = start; i < count && j < oldInitlen; i++, j++) + nobj->setElementNoTypeChangeSpecific<Type>(j, vp[i]); + } else { + for (size_t j = start; i < count && j < oldInitlen; i++, j++) { + if (!nobj->setElementSpecific<Type>(cx, j, vp[i])) + return DenseElementResult::Incomplete; + } + } + + if (i != count) { + obj->as<UnboxedArrayObject>().setInitializedLength(start + count); + if (updateTypes == ShouldUpdateTypes::DontUpdate) { + for (; i < count; i++) + nobj->initElementNoTypeChangeSpecific<Type>(start + i, vp[i]); + } else { + for (; i < count; i++) { + if (!nobj->initElementSpecific<Type>(cx, start + i, vp[i])) { + nobj->setInitializedLengthNoBarrier(oldInitlen); + return DenseElementResult::Incomplete; + } + } + } + } + + if (start + count >= nobj->length()) + nobj->setLength(cx, start + count); + + return DenseElementResult::Success; +} + +template <JSValueType Type> +static inline DenseElementResult +MoveBoxedOrUnboxedDenseElements(JSContext* cx, JSObject* obj, uint32_t dstStart, uint32_t srcStart, + uint32_t length) +{ + MOZ_ASSERT(HasBoxedOrUnboxedDenseElements<Type>(obj)); + + if (Type == JSVAL_TYPE_MAGIC) { + if (obj->as<NativeObject>().denseElementsAreFrozen()) + return DenseElementResult::Incomplete; + + if (!obj->as<NativeObject>().maybeCopyElementsForWrite(cx)) + return DenseElementResult::Failure; + obj->as<NativeObject>().moveDenseElements(dstStart, srcStart, length); + } else { + uint8_t* data = obj->as<UnboxedArrayObject>().elements(); + size_t elementSize = UnboxedTypeSize(Type); + + if (UnboxedTypeNeedsPreBarrier(Type) && + JS::shadow::Zone::asShadowZone(obj->zone())->needsIncrementalBarrier()) + { + // Trigger pre barriers on any elements we are overwriting. See + // NativeObject::moveDenseElements. No post barrier is needed as + // only whole cell post barriers are used with unboxed objects. + for (size_t i = 0; i < length; i++) + obj->as<UnboxedArrayObject>().triggerPreBarrier<Type>(dstStart + i); + } + + memmove(data + dstStart * elementSize, + data + srcStart * elementSize, + length * elementSize); + } + + return DenseElementResult::Success; +} + +template <JSValueType DstType, JSValueType SrcType> +static inline DenseElementResult +CopyBoxedOrUnboxedDenseElements(JSContext* cx, JSObject* dst, JSObject* src, + uint32_t dstStart, uint32_t srcStart, uint32_t length) +{ + MOZ_ASSERT(HasBoxedOrUnboxedDenseElements<SrcType>(src)); + MOZ_ASSERT(HasBoxedOrUnboxedDenseElements<DstType>(dst)); + MOZ_ASSERT(GetBoxedOrUnboxedInitializedLength<DstType>(dst) == dstStart); + MOZ_ASSERT(GetBoxedOrUnboxedInitializedLength<SrcType>(src) >= srcStart + length); + MOZ_ASSERT(GetBoxedOrUnboxedCapacity<DstType>(dst) >= dstStart + length); + + SetBoxedOrUnboxedInitializedLength<DstType>(cx, dst, dstStart + length); + + if (DstType == JSVAL_TYPE_MAGIC) { + if (SrcType == JSVAL_TYPE_MAGIC) { + const Value* vp = src->as<NativeObject>().getDenseElements() + srcStart; + dst->as<NativeObject>().initDenseElements(dstStart, vp, length); + } else { + for (size_t i = 0; i < length; i++) { + Value v = GetBoxedOrUnboxedDenseElement<SrcType>(src, srcStart + i); + dst->as<NativeObject>().initDenseElement(dstStart + i, v); + } + } + } else if (DstType == SrcType) { + uint8_t* dstData = dst->as<UnboxedArrayObject>().elements(); + uint8_t* srcData = src->as<UnboxedArrayObject>().elements(); + size_t elementSize = UnboxedTypeSize(DstType); + + memcpy(dstData + dstStart * elementSize, + srcData + srcStart * elementSize, + length * elementSize); + + // Add a store buffer entry if we might have copied a nursery pointer to dst. + if (UnboxedTypeNeedsPostBarrier(DstType) && !IsInsideNursery(dst)) + dst->runtimeFromMainThread()->gc.storeBuffer.putWholeCell(dst); + } else if (DstType == JSVAL_TYPE_DOUBLE && SrcType == JSVAL_TYPE_INT32) { + uint8_t* dstData = dst->as<UnboxedArrayObject>().elements(); + uint8_t* srcData = src->as<UnboxedArrayObject>().elements(); + + for (size_t i = 0; i < length; i++) { + int32_t v = *reinterpret_cast<int32_t*>(srcData + (srcStart + i) * sizeof(int32_t)); + *reinterpret_cast<double*>(dstData + (dstStart + i) * sizeof(double)) = v; + } + } else { + for (size_t i = 0; i < length; i++) { + Value v = GetBoxedOrUnboxedDenseElement<SrcType>(src, srcStart + i); + dst->as<UnboxedArrayObject>().initElementNoTypeChangeSpecific<DstType>(dstStart + i, v); + } + } + + return DenseElementResult::Success; +} + +///////////////////////////////////////////////////////////////////// +// Dispatch to specialized methods based on the type of an object. +///////////////////////////////////////////////////////////////////// + +// Goop to fix MSVC. See DispatchTraceKindTyped in TraceKind.h. +// The clang-cl front end defines _MSC_VER, but still requires the explicit +// template declaration, so we must test for __clang__ here as well. +#if defined(_MSC_VER) && !defined(__clang__) +# define DEPENDENT_TEMPLATE_HINT +#else +# define DEPENDENT_TEMPLATE_HINT template +#endif + +// Function to dispatch a method specialized to whatever boxed or unboxed dense +// elements which an input object has. +template <typename F> +DenseElementResult +CallBoxedOrUnboxedSpecialization(F f, JSObject* obj) +{ + if (!HasAnyBoxedOrUnboxedDenseElements(obj)) + return DenseElementResult::Incomplete; + switch (GetBoxedOrUnboxedType(obj)) { + case JSVAL_TYPE_MAGIC: + return f. DEPENDENT_TEMPLATE_HINT operator()<JSVAL_TYPE_MAGIC>(); + case JSVAL_TYPE_BOOLEAN: + return f. DEPENDENT_TEMPLATE_HINT operator()<JSVAL_TYPE_BOOLEAN>(); + case JSVAL_TYPE_INT32: + return f. DEPENDENT_TEMPLATE_HINT operator()<JSVAL_TYPE_INT32>(); + case JSVAL_TYPE_DOUBLE: + return f. DEPENDENT_TEMPLATE_HINT operator()<JSVAL_TYPE_DOUBLE>(); + case JSVAL_TYPE_STRING: + return f. DEPENDENT_TEMPLATE_HINT operator()<JSVAL_TYPE_STRING>(); + case JSVAL_TYPE_OBJECT: + return f. DEPENDENT_TEMPLATE_HINT operator()<JSVAL_TYPE_OBJECT>(); + default: + MOZ_CRASH(); + } +} + +// As above, except the specialization can reflect the unboxed type of two objects. +template <typename F> +DenseElementResult +CallBoxedOrUnboxedSpecialization(F f, JSObject* obj1, JSObject* obj2) +{ + if (!HasAnyBoxedOrUnboxedDenseElements(obj1) || !HasAnyBoxedOrUnboxedDenseElements(obj2)) + return DenseElementResult::Incomplete; + +#define SPECIALIZE_OBJ2(TYPE) \ + switch (GetBoxedOrUnboxedType(obj2)) { \ + case JSVAL_TYPE_MAGIC: \ + return f. DEPENDENT_TEMPLATE_HINT operator()<TYPE, JSVAL_TYPE_MAGIC>(); \ + case JSVAL_TYPE_BOOLEAN: \ + return f. DEPENDENT_TEMPLATE_HINT operator()<TYPE, JSVAL_TYPE_BOOLEAN>(); \ + case JSVAL_TYPE_INT32: \ + return f. DEPENDENT_TEMPLATE_HINT operator()<TYPE, JSVAL_TYPE_INT32>(); \ + case JSVAL_TYPE_DOUBLE: \ + return f. DEPENDENT_TEMPLATE_HINT operator()<TYPE, JSVAL_TYPE_DOUBLE>(); \ + case JSVAL_TYPE_STRING: \ + return f. DEPENDENT_TEMPLATE_HINT operator()<TYPE, JSVAL_TYPE_STRING>(); \ + case JSVAL_TYPE_OBJECT: \ + return f. DEPENDENT_TEMPLATE_HINT operator()<TYPE, JSVAL_TYPE_OBJECT>(); \ + default: \ + MOZ_CRASH(); \ + } + + switch (GetBoxedOrUnboxedType(obj1)) { + case JSVAL_TYPE_MAGIC: + SPECIALIZE_OBJ2(JSVAL_TYPE_MAGIC) + case JSVAL_TYPE_BOOLEAN: + SPECIALIZE_OBJ2(JSVAL_TYPE_BOOLEAN) + case JSVAL_TYPE_INT32: + SPECIALIZE_OBJ2(JSVAL_TYPE_INT32) + case JSVAL_TYPE_DOUBLE: + SPECIALIZE_OBJ2(JSVAL_TYPE_DOUBLE) + case JSVAL_TYPE_STRING: + SPECIALIZE_OBJ2(JSVAL_TYPE_STRING) + case JSVAL_TYPE_OBJECT: + SPECIALIZE_OBJ2(JSVAL_TYPE_OBJECT) + default: + MOZ_CRASH(); + } + +#undef SPECIALIZE_OBJ2 +} + +#undef DEPENDENT_TEMPLATE_HINT + +#define DefineBoxedOrUnboxedFunctor1(Signature, A) \ +struct Signature ## Functor { \ + A a; \ + explicit Signature ## Functor(A a) \ + : a(a) \ + {} \ + template <JSValueType Type> \ + DenseElementResult operator()() { \ + return Signature<Type>(a); \ + } \ +} + +#define DefineBoxedOrUnboxedFunctor3(Signature, A, B, C) \ +struct Signature ## Functor { \ + A a; B b; C c; \ + Signature ## Functor(A a, B b, C c) \ + : a(a), b(b), c(c) \ + {} \ + template <JSValueType Type> \ + DenseElementResult operator()() { \ + return Signature<Type>(a, b, c); \ + } \ +} + +#define DefineBoxedOrUnboxedFunctor4(Signature, A, B, C, D) \ +struct Signature ## Functor { \ + A a; B b; C c; D d; \ + Signature ## Functor(A a, B b, C c, D d) \ + : a(a), b(b), c(c), d(d) \ + {} \ + template <JSValueType Type> \ + DenseElementResult operator()() { \ + return Signature<Type>(a, b, c, d); \ + } \ +} + +#define DefineBoxedOrUnboxedFunctorPair4(Signature, A, B, C, D) \ +struct Signature ## Functor { \ + A a; B b; C c; D d; \ + Signature ## Functor(A a, B b, C c, D d) \ + : a(a), b(b), c(c), d(d) \ + {} \ + template <JSValueType TypeOne, JSValueType TypeTwo> \ + DenseElementResult operator()() { \ + return Signature<TypeOne, TypeTwo>(a, b, c, d); \ + } \ +} + +#define DefineBoxedOrUnboxedFunctor5(Signature, A, B, C, D, E) \ +struct Signature ## Functor { \ + A a; B b; C c; D d; E e; \ + Signature ## Functor(A a, B b, C c, D d, E e) \ + : a(a), b(b), c(c), d(d), e(e) \ + {} \ + template <JSValueType Type> \ + DenseElementResult operator()() { \ + return Signature<Type>(a, b, c, d, e); \ + } \ +} + +#define DefineBoxedOrUnboxedFunctor6(Signature, A, B, C, D, E, F) \ +struct Signature ## Functor { \ + A a; B b; C c; D d; E e; F f; \ + Signature ## Functor(A a, B b, C c, D d, E e, F f) \ + : a(a), b(b), c(c), d(d), e(e), f(f) \ + {} \ + template <JSValueType Type> \ + DenseElementResult operator()() { \ + return Signature<Type>(a, b, c, d, e, f); \ + } \ +} + +#define DefineBoxedOrUnboxedFunctorPair6(Signature, A, B, C, D, E, F) \ +struct Signature ## Functor { \ + A a; B b; C c; D d; E e; F f; \ + Signature ## Functor(A a, B b, C c, D d, E e, F f) \ + : a(a), b(b), c(c), d(d), e(e), f(f) \ + {} \ + template <JSValueType TypeOne, JSValueType TypeTwo> \ + DenseElementResult operator()() { \ + return Signature<TypeOne, TypeTwo>(a, b, c, d, e, f); \ + } \ +} + +DenseElementResult +SetOrExtendAnyBoxedOrUnboxedDenseElements(ExclusiveContext* cx, JSObject* obj, + uint32_t start, const Value* vp, uint32_t count, + ShouldUpdateTypes updateTypes = ShouldUpdateTypes::Update); + +DenseElementResult +MoveAnyBoxedOrUnboxedDenseElements(JSContext* cx, JSObject* obj, + uint32_t dstStart, uint32_t srcStart, uint32_t length); + +DenseElementResult +CopyAnyBoxedOrUnboxedDenseElements(JSContext* cx, JSObject* dst, JSObject* src, + uint32_t dstStart, uint32_t srcStart, uint32_t length); + +void +SetAnyBoxedOrUnboxedInitializedLength(JSContext* cx, JSObject* obj, size_t initlen); + +DenseElementResult +EnsureAnyBoxedOrUnboxedDenseElements(JSContext* cx, JSObject* obj, size_t count); + } // namespace js #endif // vm_UnboxedObject_inl_h diff --git a/js/src/vm/UnboxedObject.cpp b/js/src/vm/UnboxedObject.cpp index 2e017ca3b..059293a2d 100644 --- a/js/src/vm/UnboxedObject.cpp +++ b/js/src/vm/UnboxedObject.cpp @@ -417,6 +417,8 @@ UnboxedLayout::makeNativeGroup(JSContext* cx, ObjectGroup* group) RootedObjectGroup replacementGroup(cx); + const Class* clasp = layout.isArray() ? &ArrayObject::class_ : &PlainObject::class_; + // Immediately clear any new script on the group. This is done by replacing // the existing new script with one for a replacement default new group. // This is done so that the size of the replacment group's objects is the @@ -424,6 +426,8 @@ UnboxedLayout::makeNativeGroup(JSContext* cx, ObjectGroup* group) // slot accesses later on for sites that see converted objects from this // group and objects that were allocated using the replacement new group. if (layout.newScript()) { + MOZ_ASSERT(!layout.isArray()); + replacementGroup = ObjectGroupCompartment::makeGroup(cx, &PlainObject::class_, proto); if (!replacementGroup) return false; @@ -449,14 +453,15 @@ UnboxedLayout::makeNativeGroup(JSContext* cx, ObjectGroup* group) RootedScript script(cx, layout.allocationScript()); jsbytecode* pc = layout.allocationPc(); - replacementGroup = ObjectGroupCompartment::makeGroup(cx, &PlainObject::class_, proto); + replacementGroup = ObjectGroupCompartment::makeGroup(cx, clasp, proto); if (!replacementGroup) return false; PlainObject* templateObject = &script->getObject(pc)->as<PlainObject>(); replacementGroup->addDefiniteProperties(cx, templateObject->lastProperty()); - cx->compartment()->objectGroups.replaceAllocationSiteGroup(script, pc, JSProto_Object, + JSProtoKey key = layout.isArray() ? JSProto_Array : JSProto_Object; + cx->compartment()->objectGroups.replaceAllocationSiteGroup(script, pc, key, replacementGroup); // Clear any baseline information at this opcode which might use the old group. @@ -472,12 +477,22 @@ UnboxedLayout::makeNativeGroup(JSContext* cx, ObjectGroup* group) } } - size_t nfixed = gc::GetGCKindSlots(layout.getAllocKind()); + size_t nfixed = layout.isArray() ? 0 : gc::GetGCKindSlots(layout.getAllocKind()); + + if (layout.isArray()) { + // The length shape to use for arrays is cached via a modified initial + // shape for array objects. Create an array now to make sure this entry + // is instantiated. + if (!NewDenseEmptyArray(cx)) + return false; + } - RootedShape shape(cx, EmptyShape::getInitialShape(cx, &PlainObject::class_, proto, nfixed, 0)); + RootedShape shape(cx, EmptyShape::getInitialShape(cx, clasp, proto, nfixed, 0)); if (!shape) return false; + MOZ_ASSERT_IF(layout.isArray(), !shape->isEmptyShape() && shape->slotSpan() == 0); + // Add shapes for each property, if this is for a plain object. for (size_t i = 0; i < layout.properties().length(); i++) { const UnboxedLayout::Property& property = layout.properties()[i]; @@ -490,7 +505,7 @@ UnboxedLayout::makeNativeGroup(JSContext* cx, ObjectGroup* group) } ObjectGroup* nativeGroup = - ObjectGroupCompartment::makeGroup(cx, &PlainObject::class_, proto, + ObjectGroupCompartment::makeGroup(cx, clasp, proto, group->flags() & OBJECT_FLAG_DYNAMIC_MASK); if (!nativeGroup) return false; @@ -498,19 +513,24 @@ UnboxedLayout::makeNativeGroup(JSContext* cx, ObjectGroup* group) // No sense propagating if we don't know what we started with. if (!group->unknownProperties()) { // Propagate all property types from the old group to the new group. - for (size_t i = 0; i < layout.properties().length(); i++) { - const UnboxedLayout::Property& property = layout.properties()[i]; - jsid id = NameToId(property.name); - if (!PropagatePropertyTypes(cx, id, group, nativeGroup)) + if (layout.isArray()) { + if (!PropagatePropertyTypes(cx, JSID_VOID, group, nativeGroup)) return false; + } else { + for (size_t i = 0; i < layout.properties().length(); i++) { + const UnboxedLayout::Property& property = layout.properties()[i]; + jsid id = NameToId(property.name); + if (!PropagatePropertyTypes(cx, id, group, nativeGroup)) + return false; - // If we are OOM we may not be able to propagate properties. - if (nativeGroup->unknownProperties()) - break; + // If we are OOM we may not be able to propagate properties. + if (nativeGroup->unknownProperties()) + break; - HeapTypeSet* nativeProperty = nativeGroup->maybeGetProperty(id); - if (nativeProperty && nativeProperty->canSetDefinite(i)) - nativeProperty->setDefinite(i); + HeapTypeSet* nativeProperty = nativeGroup->maybeGetProperty(id); + if (nativeProperty && nativeProperty->canSetDefinite(i)) + nativeProperty->setDefinite(i); + } } } else { // If we skip, though, the new group had better agree. @@ -926,6 +946,692 @@ const Class UnboxedPlainObject::class_ = { }; ///////////////////////////////////////////////////////////////////// +// UnboxedArrayObject +///////////////////////////////////////////////////////////////////// + +template <JSValueType Type> +DenseElementResult +AppendUnboxedDenseElements(UnboxedArrayObject* obj, uint32_t initlen, + MutableHandle<GCVector<Value>> values) +{ + for (size_t i = 0; i < initlen; i++) + values.infallibleAppend(obj->getElementSpecific<Type>(i)); + return DenseElementResult::Success; +} + +DefineBoxedOrUnboxedFunctor3(AppendUnboxedDenseElements, + UnboxedArrayObject*, uint32_t, MutableHandle<GCVector<Value>>); + +/* static */ bool +UnboxedArrayObject::convertToNativeWithGroup(ExclusiveContext* cx, JSObject* obj, + ObjectGroup* group, Shape* shape) +{ + size_t length = obj->as<UnboxedArrayObject>().length(); + size_t initlen = obj->as<UnboxedArrayObject>().initializedLength(); + + Rooted<GCVector<Value>> values(cx, GCVector<Value>(cx)); + if (!values.reserve(initlen)) + return false; + + AppendUnboxedDenseElementsFunctor functor(&obj->as<UnboxedArrayObject>(), initlen, &values); + DebugOnly<DenseElementResult> result = CallBoxedOrUnboxedSpecialization(functor, obj); + MOZ_ASSERT(result.value == DenseElementResult::Success); + + obj->setGroup(group); + + ArrayObject* aobj = &obj->as<ArrayObject>(); + aobj->setLastPropertyMakeNative(cx, shape); + + // Make sure there is at least one element, so that this array does not + // use emptyObjectElements / emptyObjectElementsShared. + if (!aobj->ensureElements(cx, Max<size_t>(initlen, 1))) + return false; + + MOZ_ASSERT(!aobj->getDenseInitializedLength()); + aobj->setDenseInitializedLength(initlen); + aobj->initDenseElements(0, values.begin(), initlen); + aobj->setLengthInt32(length); + + return true; +} + +/* static */ bool +UnboxedArrayObject::convertToNative(JSContext* cx, JSObject* obj) +{ + const UnboxedLayout& layout = obj->as<UnboxedArrayObject>().layout(); + + if (!layout.nativeGroup()) { + if (!UnboxedLayout::makeNativeGroup(cx, obj->group())) + return false; + } + + return convertToNativeWithGroup(cx, obj, layout.nativeGroup(), layout.nativeShape()); +} + +bool +UnboxedArrayObject::convertInt32ToDouble(ExclusiveContext* cx, ObjectGroup* group) +{ + MOZ_ASSERT(elementType() == JSVAL_TYPE_INT32); + MOZ_ASSERT(group->unboxedLayout().elementType() == JSVAL_TYPE_DOUBLE); + + Vector<int32_t> values(cx); + if (!values.reserve(initializedLength())) + return false; + for (size_t i = 0; i < initializedLength(); i++) + values.infallibleAppend(getElementSpecific<JSVAL_TYPE_INT32>(i).toInt32()); + + uint8_t* newElements; + if (hasInlineElements()) { + newElements = AllocateObjectBuffer<uint8_t>(cx, this, capacity() * sizeof(double)); + } else { + newElements = ReallocateObjectBuffer<uint8_t>(cx, this, elements(), + capacity() * sizeof(int32_t), + capacity() * sizeof(double)); + } + if (!newElements) + return false; + + setGroup(group); + elements_ = newElements; + + for (size_t i = 0; i < initializedLength(); i++) + setElementNoTypeChangeSpecific<JSVAL_TYPE_DOUBLE>(i, DoubleValue(values[i])); + + return true; +} + +/* static */ UnboxedArrayObject* +UnboxedArrayObject::create(ExclusiveContext* cx, HandleObjectGroup group, uint32_t length, + NewObjectKind newKind, uint32_t maxLength) +{ + MOZ_ASSERT(length <= MaximumCapacity); + + MOZ_ASSERT(group->clasp() == &class_); + uint32_t elementSize = UnboxedTypeSize(group->unboxedLayout().elementType()); + uint32_t capacity = Min(length, maxLength); + uint32_t nbytes = offsetOfInlineElements() + elementSize * capacity; + + UnboxedArrayObject* res; + if (nbytes <= JSObject::MAX_BYTE_SIZE) { + gc::AllocKind allocKind = gc::GetGCObjectKindForBytes(nbytes); + + // If there was no provided length information, pick an allocation kind + // to accommodate small arrays (as is done for normal native arrays). + if (capacity == 0) + allocKind = gc::AllocKind::OBJECT8; + + res = NewObjectWithGroup<UnboxedArrayObject>(cx, group, allocKind, newKind); + if (!res) + return nullptr; + res->setInitializedLengthNoBarrier(0); + res->setInlineElements(); + + size_t actualCapacity = (GetGCKindBytes(allocKind) - offsetOfInlineElements()) / elementSize; + MOZ_ASSERT(actualCapacity >= capacity); + res->setCapacityIndex(exactCapacityIndex(actualCapacity)); + } else { + res = NewObjectWithGroup<UnboxedArrayObject>(cx, group, gc::AllocKind::OBJECT0, newKind); + if (!res) + return nullptr; + res->setInitializedLengthNoBarrier(0); + + uint32_t capacityIndex = (capacity == length) + ? CapacityMatchesLengthIndex + : chooseCapacityIndex(capacity, length); + uint32_t actualCapacity = computeCapacity(capacityIndex, length); + + res->elements_ = AllocateObjectBuffer<uint8_t>(cx, res, actualCapacity * elementSize); + if (!res->elements_) { + // Make the object safe for GC. + res->setInlineElements(); + return nullptr; + } + + res->setCapacityIndex(capacityIndex); + } + + res->setLength(cx, length); + return res; +} + +bool +UnboxedArrayObject::setElement(ExclusiveContext* cx, size_t index, const Value& v) +{ + MOZ_ASSERT(index < initializedLength()); + uint8_t* p = elements() + index * elementSize(); + return SetUnboxedValue(cx, this, JSID_VOID, p, elementType(), v, /* preBarrier = */ true); +} + +bool +UnboxedArrayObject::initElement(ExclusiveContext* cx, size_t index, const Value& v) +{ + MOZ_ASSERT(index < initializedLength()); + uint8_t* p = elements() + index * elementSize(); + return SetUnboxedValue(cx, this, JSID_VOID, p, elementType(), v, /* preBarrier = */ false); +} + +void +UnboxedArrayObject::initElementNoTypeChange(size_t index, const Value& v) +{ + MOZ_ASSERT(index < initializedLength()); + uint8_t* p = elements() + index * elementSize(); + if (UnboxedTypeNeedsPreBarrier(elementType())) + *reinterpret_cast<void**>(p) = nullptr; + SetUnboxedValueNoTypeChange(this, p, elementType(), v, /* preBarrier = */ false); +} + +Value +UnboxedArrayObject::getElement(size_t index) +{ + MOZ_ASSERT(index < initializedLength()); + uint8_t* p = elements() + index * elementSize(); + return GetUnboxedValue(p, elementType(), /* maybeUninitialized = */ false); +} + +/* static */ void +UnboxedArrayObject::trace(JSTracer* trc, JSObject* obj) +{ + JSValueType type = obj->as<UnboxedArrayObject>().elementType(); + if (!UnboxedTypeNeedsPreBarrier(type)) + return; + + MOZ_ASSERT(obj->as<UnboxedArrayObject>().elementSize() == sizeof(uintptr_t)); + size_t initlen = obj->as<UnboxedArrayObject>().initializedLength(); + void** elements = reinterpret_cast<void**>(obj->as<UnboxedArrayObject>().elements()); + + switch (type) { + case JSVAL_TYPE_OBJECT: + for (size_t i = 0; i < initlen; i++) { + GCPtrObject* heap = reinterpret_cast<GCPtrObject*>(elements + i); + TraceNullableEdge(trc, heap, "unboxed_object"); + } + break; + + case JSVAL_TYPE_STRING: + for (size_t i = 0; i < initlen; i++) { + GCPtrString* heap = reinterpret_cast<GCPtrString*>(elements + i); + TraceEdge(trc, heap, "unboxed_string"); + } + break; + + default: + MOZ_CRASH(); + } +} + +/* static */ void +UnboxedArrayObject::objectMoved(JSObject* obj, const JSObject* old) +{ + UnboxedArrayObject& dst = obj->as<UnboxedArrayObject>(); + const UnboxedArrayObject& src = old->as<UnboxedArrayObject>(); + + // Fix up possible inline data pointer. + if (src.hasInlineElements()) + dst.setInlineElements(); +} + +/* static */ void +UnboxedArrayObject::finalize(FreeOp* fop, JSObject* obj) +{ + MOZ_ASSERT(!IsInsideNursery(obj)); + if (!obj->as<UnboxedArrayObject>().hasInlineElements()) + js_free(obj->as<UnboxedArrayObject>().elements()); +} + +/* static */ size_t +UnboxedArrayObject::objectMovedDuringMinorGC(JSTracer* trc, JSObject* dst, JSObject* src, + gc::AllocKind allocKind) +{ + UnboxedArrayObject* ndst = &dst->as<UnboxedArrayObject>(); + UnboxedArrayObject* nsrc = &src->as<UnboxedArrayObject>(); + MOZ_ASSERT(ndst->elements() == nsrc->elements()); + + Nursery& nursery = trc->runtime()->gc.nursery; + + if (!nursery.isInside(nsrc->elements())) { + nursery.removeMallocedBuffer(nsrc->elements()); + return 0; + } + + // Determine if we can use inline data for the target array. If this is + // possible, the nursery will have picked an allocation size that is large + // enough. + size_t nbytes = nsrc->capacity() * nsrc->elementSize(); + if (offsetOfInlineElements() + nbytes <= GetGCKindBytes(allocKind)) { + ndst->setInlineElements(); + } else { + MOZ_ASSERT(allocKind == gc::AllocKind::OBJECT0); + + AutoEnterOOMUnsafeRegion oomUnsafe; + uint8_t* data = nsrc->zone()->pod_malloc<uint8_t>(nbytes); + if (!data) + oomUnsafe.crash("Failed to allocate unboxed array elements while tenuring."); + ndst->elements_ = data; + } + + PodCopy(ndst->elements(), nsrc->elements(), nsrc->initializedLength() * nsrc->elementSize()); + + // Set a forwarding pointer for the element buffers in case they were + // preserved on the stack by Ion. + bool direct = nsrc->capacity() * nsrc->elementSize() >= sizeof(uintptr_t); + nursery.maybeSetForwardingPointer(trc, nsrc->elements(), ndst->elements(), direct); + + return ndst->hasInlineElements() ? 0 : nbytes; +} + +// Possible capacities for unboxed arrays. Some of these capacities might seem +// a little weird, but were chosen to allow the inline data of objects of each +// size to be fully utilized for arrays of the various types on both 32 bit and +// 64 bit platforms. +// +// To find the possible inline capacities, the following script was used: +// +// var fixedSlotCapacities = [0, 2, 4, 8, 12, 16]; +// var dataSizes = [1, 4, 8]; +// var header32 = 4 * 2 + 4 * 2; +// var header64 = 8 * 2 + 4 * 2; +// +// for (var i = 0; i < fixedSlotCapacities.length; i++) { +// var nfixed = fixedSlotCapacities[i]; +// var size32 = 4 * 4 + 8 * nfixed - header32; +// var size64 = 8 * 4 + 8 * nfixed - header64; +// for (var j = 0; j < dataSizes.length; j++) { +// print(size32 / dataSizes[j]); +// print(size64 / dataSizes[j]); +// } +// } +// +/* static */ const uint32_t +UnboxedArrayObject::CapacityArray[] = { + UINT32_MAX, // For CapacityMatchesLengthIndex. + 0, 1, 2, 3, 4, 5, 6, 8, 9, 10, 12, 13, 16, 17, 18, 24, 26, 32, 34, 40, 64, 72, 96, 104, 128, 136, + 256, 512, 1024, 2048, 4096, 8192, 16384, 32768, 65536, 131072, 262144, 524288, + 1048576, 2097152, 3145728, 4194304, 5242880, 6291456, 7340032, 8388608, 9437184, 11534336, + 13631488, 15728640, 17825792, 20971520, 24117248, 27262976, 31457280, 35651584, 40894464, + 46137344, 52428800, 59768832, MaximumCapacity +}; + +static const uint32_t +Pow2CapacityIndexes[] = { + 2, // 1 + 3, // 2 + 5, // 4 + 8, // 8 + 13, // 16 + 18, // 32 + 21, // 64 + 25, // 128 + 27, // 256 + 28, // 512 + 29, // 1024 + 30, // 2048 + 31, // 4096 + 32, // 8192 + 33, // 16384 + 34, // 32768 + 35, // 65536 + 36, // 131072 + 37, // 262144 + 38, // 524288 + 39 // 1048576 +}; + +static const uint32_t MebiCapacityIndex = 39; + +/* static */ uint32_t +UnboxedArrayObject::chooseCapacityIndex(uint32_t capacity, uint32_t length) +{ + // Note: the structure and behavior of this method follow along with + // NativeObject::goodAllocated. Changes to the allocation strategy in one + // should generally be matched by the other. + + // Make sure we have enough space to store all possible values for the capacity index. + // This ought to be a static_assert, but MSVC doesn't like that. + MOZ_ASSERT(mozilla::ArrayLength(CapacityArray) - 1 <= (CapacityMask >> CapacityShift)); + + // The caller should have ensured the capacity is possible for an unboxed array. + MOZ_ASSERT(capacity <= MaximumCapacity); + + static const uint32_t Mebi = 1024 * 1024; + + if (capacity <= Mebi) { + capacity = mozilla::RoundUpPow2(capacity); + + // When the required capacity is close to the array length, then round + // up to the array length itself, as for NativeObject. + if (length >= capacity && capacity > (length / 3) * 2) + return CapacityMatchesLengthIndex; + + if (capacity < MinimumDynamicCapacity) + capacity = MinimumDynamicCapacity; + + uint32_t bit = mozilla::FloorLog2Size(capacity); + MOZ_ASSERT(capacity == uint32_t(1 << bit)); + MOZ_ASSERT(bit <= 20); + MOZ_ASSERT(mozilla::ArrayLength(Pow2CapacityIndexes) == 21); + + uint32_t index = Pow2CapacityIndexes[bit]; + MOZ_ASSERT(CapacityArray[index] == capacity); + + return index; + } + + MOZ_ASSERT(CapacityArray[MebiCapacityIndex] == Mebi); + + for (uint32_t i = MebiCapacityIndex + 1;; i++) { + if (CapacityArray[i] >= capacity) + return i; + } + + MOZ_CRASH("Invalid capacity"); +} + +/* static */ uint32_t +UnboxedArrayObject::exactCapacityIndex(uint32_t capacity) +{ + for (size_t i = CapacityMatchesLengthIndex + 1; i < ArrayLength(CapacityArray); i++) { + if (CapacityArray[i] == capacity) + return i; + } + MOZ_CRASH(); +} + +bool +UnboxedArrayObject::growElements(ExclusiveContext* cx, size_t cap) +{ + // The caller should have checked if this capacity is possible for an + // unboxed array, so the only way this call can fail is from OOM. + MOZ_ASSERT(cap <= MaximumCapacity); + + uint32_t oldCapacity = capacity(); + uint32_t newCapacityIndex = chooseCapacityIndex(cap, length()); + uint32_t newCapacity = computeCapacity(newCapacityIndex, length()); + + MOZ_ASSERT(oldCapacity < cap); + MOZ_ASSERT(cap <= newCapacity); + + // The allocation size computation below cannot have integer overflows. + JS_STATIC_ASSERT(MaximumCapacity < UINT32_MAX / sizeof(double)); + + uint8_t* newElements; + if (hasInlineElements()) { + newElements = AllocateObjectBuffer<uint8_t>(cx, this, newCapacity * elementSize()); + if (!newElements) + return false; + js_memcpy(newElements, elements(), initializedLength() * elementSize()); + } else { + newElements = ReallocateObjectBuffer<uint8_t>(cx, this, elements(), + oldCapacity * elementSize(), + newCapacity * elementSize()); + if (!newElements) + return false; + } + + elements_ = newElements; + setCapacityIndex(newCapacityIndex); + + return true; +} + +void +UnboxedArrayObject::shrinkElements(ExclusiveContext* cx, size_t cap) +{ + if (hasInlineElements()) + return; + + uint32_t oldCapacity = capacity(); + uint32_t newCapacityIndex = chooseCapacityIndex(cap, 0); + uint32_t newCapacity = computeCapacity(newCapacityIndex, 0); + + MOZ_ASSERT(cap < oldCapacity); + MOZ_ASSERT(cap <= newCapacity); + + if (newCapacity >= oldCapacity) + return; + + uint8_t* newElements = ReallocateObjectBuffer<uint8_t>(cx, this, elements(), + oldCapacity * elementSize(), + newCapacity * elementSize()); + if (!newElements) + return; + + elements_ = newElements; + setCapacityIndex(newCapacityIndex); +} + +bool +UnboxedArrayObject::containsProperty(ExclusiveContext* cx, jsid id) +{ + if (JSID_IS_INT(id) && uint32_t(JSID_TO_INT(id)) < initializedLength()) + return true; + if (JSID_IS_ATOM(id) && JSID_TO_ATOM(id) == cx->names().length) + return true; + return false; +} + +/* static */ bool +UnboxedArrayObject::obj_lookupProperty(JSContext* cx, HandleObject obj, + HandleId id, MutableHandleObject objp, + MutableHandleShape propp) +{ + if (obj->as<UnboxedArrayObject>().containsProperty(cx, id)) { + MarkNonNativePropertyFound<CanGC>(propp); + objp.set(obj); + return true; + } + + RootedObject proto(cx, obj->staticPrototype()); + if (!proto) { + objp.set(nullptr); + propp.set(nullptr); + return true; + } + + return LookupProperty(cx, proto, id, objp, propp); +} + +/* static */ bool +UnboxedArrayObject::obj_defineProperty(JSContext* cx, HandleObject obj, HandleId id, + Handle<PropertyDescriptor> desc, + ObjectOpResult& result) +{ + if (JSID_IS_INT(id) && !desc.getter() && !desc.setter() && desc.attributes() == JSPROP_ENUMERATE) { + UnboxedArrayObject* nobj = &obj->as<UnboxedArrayObject>(); + + uint32_t index = JSID_TO_INT(id); + if (index < nobj->initializedLength()) { + if (nobj->setElement(cx, index, desc.value())) + return result.succeed(); + } else if (index == nobj->initializedLength() && index < MaximumCapacity) { + if (nobj->initializedLength() == nobj->capacity()) { + if (!nobj->growElements(cx, index + 1)) + return false; + } + nobj->setInitializedLength(index + 1); + if (nobj->initElement(cx, index, desc.value())) { + if (nobj->length() <= index) + nobj->setLengthInt32(index + 1); + return result.succeed(); + } + nobj->setInitializedLengthNoBarrier(index); + } + } + + if (!convertToNative(cx, obj)) + return false; + + return DefineProperty(cx, obj, id, desc, result); +} + +/* static */ bool +UnboxedArrayObject::obj_hasProperty(JSContext* cx, HandleObject obj, HandleId id, bool* foundp) +{ + if (obj->as<UnboxedArrayObject>().containsProperty(cx, id)) { + *foundp = true; + return true; + } + + RootedObject proto(cx, obj->staticPrototype()); + if (!proto) { + *foundp = false; + return true; + } + + return HasProperty(cx, proto, id, foundp); +} + +/* static */ bool +UnboxedArrayObject::obj_getProperty(JSContext* cx, HandleObject obj, HandleValue receiver, + HandleId id, MutableHandleValue vp) +{ + if (obj->as<UnboxedArrayObject>().containsProperty(cx, id)) { + if (JSID_IS_INT(id)) + vp.set(obj->as<UnboxedArrayObject>().getElement(JSID_TO_INT(id))); + else + vp.set(Int32Value(obj->as<UnboxedArrayObject>().length())); + return true; + } + + RootedObject proto(cx, obj->staticPrototype()); + if (!proto) { + vp.setUndefined(); + return true; + } + + return GetProperty(cx, proto, receiver, id, vp); +} + +/* static */ bool +UnboxedArrayObject::obj_setProperty(JSContext* cx, HandleObject obj, HandleId id, HandleValue v, + HandleValue receiver, ObjectOpResult& result) +{ + if (obj->as<UnboxedArrayObject>().containsProperty(cx, id)) { + if (receiver.isObject() && obj == &receiver.toObject()) { + if (JSID_IS_INT(id)) { + if (obj->as<UnboxedArrayObject>().setElement(cx, JSID_TO_INT(id), v)) + return result.succeed(); + } else { + uint32_t len; + if (!CanonicalizeArrayLengthValue(cx, v, &len)) + return false; + UnboxedArrayObject* nobj = &obj->as<UnboxedArrayObject>(); + if (len < nobj->initializedLength()) { + nobj->setInitializedLength(len); + nobj->shrinkElements(cx, len); + } + nobj->setLength(cx, len); + return result.succeed(); + } + + if (!convertToNative(cx, obj)) + return false; + return SetProperty(cx, obj, id, v, receiver, result); + } + + return SetPropertyByDefining(cx, id, v, receiver, result); + } + + return SetPropertyOnProto(cx, obj, id, v, receiver, result); +} + +/* static */ bool +UnboxedArrayObject::obj_getOwnPropertyDescriptor(JSContext* cx, HandleObject obj, HandleId id, + MutableHandle<PropertyDescriptor> desc) +{ + if (obj->as<UnboxedArrayObject>().containsProperty(cx, id)) { + if (JSID_IS_INT(id)) { + desc.value().set(obj->as<UnboxedArrayObject>().getElement(JSID_TO_INT(id))); + desc.setAttributes(JSPROP_ENUMERATE); + } else { + desc.value().set(Int32Value(obj->as<UnboxedArrayObject>().length())); + desc.setAttributes(JSPROP_PERMANENT); + } + desc.object().set(obj); + return true; + } + + desc.object().set(nullptr); + return true; +} + +/* static */ bool +UnboxedArrayObject::obj_deleteProperty(JSContext* cx, HandleObject obj, HandleId id, + ObjectOpResult& result) +{ + if (obj->as<UnboxedArrayObject>().containsProperty(cx, id)) { + size_t initlen = obj->as<UnboxedArrayObject>().initializedLength(); + if (JSID_IS_INT(id) && JSID_TO_INT(id) == int32_t(initlen - 1)) { + obj->as<UnboxedArrayObject>().setInitializedLength(initlen - 1); + obj->as<UnboxedArrayObject>().shrinkElements(cx, initlen - 1); + return result.succeed(); + } + } + + if (!convertToNative(cx, obj)) + return false; + return DeleteProperty(cx, obj, id, result); +} + +/* static */ bool +UnboxedArrayObject::obj_enumerate(JSContext* cx, HandleObject obj, AutoIdVector& properties, + bool enumerableOnly) +{ + for (size_t i = 0; i < obj->as<UnboxedArrayObject>().initializedLength(); i++) { + if (!properties.append(INT_TO_JSID(i))) + return false; + } + + if (!enumerableOnly && !properties.append(NameToId(cx->names().length))) + return false; + + return true; +} + +static const ClassOps UnboxedArrayObjectClassOps = { + nullptr, /* addProperty */ + nullptr, /* delProperty */ + nullptr, /* getProperty */ + nullptr, /* setProperty */ + nullptr, /* enumerate */ + nullptr, /* resolve */ + nullptr, /* mayResolve */ + UnboxedArrayObject::finalize, + nullptr, /* call */ + nullptr, /* hasInstance */ + nullptr, /* construct */ + UnboxedArrayObject::trace, +}; + +static const ClassExtension UnboxedArrayObjectClassExtension = { + nullptr, /* weakmapKeyDelegateOp */ + UnboxedArrayObject::objectMoved +}; + +static const ObjectOps UnboxedArrayObjectObjectOps = { + UnboxedArrayObject::obj_lookupProperty, + UnboxedArrayObject::obj_defineProperty, + UnboxedArrayObject::obj_hasProperty, + UnboxedArrayObject::obj_getProperty, + UnboxedArrayObject::obj_setProperty, + UnboxedArrayObject::obj_getOwnPropertyDescriptor, + UnboxedArrayObject::obj_deleteProperty, + nullptr, /* getElements */ + UnboxedArrayObject::obj_enumerate, + nullptr /* funToString */ +}; + +const Class UnboxedArrayObject::class_ = { + "Array", + Class::NON_NATIVE | + JSCLASS_SKIP_NURSERY_FINALIZE | + JSCLASS_BACKGROUND_FINALIZE, + &UnboxedArrayObjectClassOps, + JS_NULL_CLASS_SPEC, + &UnboxedArrayObjectClassExtension, + &UnboxedArrayObjectObjectOps +}; + +///////////////////////////////////////////////////////////////////// // API ///////////////////////////////////////////////////////////////////// @@ -936,6 +1642,31 @@ NextValue(Handle<GCVector<Value>> values, size_t* valueCursor) } void +UnboxedArrayObject::fillAfterConvert(ExclusiveContext* cx, + Handle<GCVector<Value>> values, size_t* valueCursor) +{ + MOZ_ASSERT(CapacityArray[1] == 0); + setCapacityIndex(1); + setInitializedLengthNoBarrier(0); + setInlineElements(); + + setLength(cx, NextValue(values, valueCursor).toInt32()); + + int32_t initlen = NextValue(values, valueCursor).toInt32(); + if (!initlen) + return; + + AutoEnterOOMUnsafeRegion oomUnsafe; + if (!growElements(cx, initlen)) + oomUnsafe.crash("UnboxedArrayObject::fillAfterConvert"); + + setInitializedLength(initlen); + + for (size_t i = 0; i < size_t(initlen); i++) + JS_ALWAYS_TRUE(initElement(cx, i, NextValue(values, valueCursor))); +} + +void UnboxedPlainObject::fillAfterConvert(ExclusiveContext* cx, Handle<GCVector<Value>> values, size_t* valueCursor) { @@ -944,3 +1675,58 @@ UnboxedPlainObject::fillAfterConvert(ExclusiveContext* cx, for (size_t i = 0; i < layout().properties().length(); i++) JS_ALWAYS_TRUE(setValue(cx, layout().properties()[i], NextValue(values, valueCursor))); } + +DefineBoxedOrUnboxedFunctor6(SetOrExtendBoxedOrUnboxedDenseElements, + ExclusiveContext*, JSObject*, uint32_t, const Value*, uint32_t, + ShouldUpdateTypes); + +DenseElementResult +js::SetOrExtendAnyBoxedOrUnboxedDenseElements(ExclusiveContext* cx, JSObject* obj, + uint32_t start, const Value* vp, uint32_t count, + ShouldUpdateTypes updateTypes) +{ + SetOrExtendBoxedOrUnboxedDenseElementsFunctor functor(cx, obj, start, vp, count, updateTypes); + return CallBoxedOrUnboxedSpecialization(functor, obj); +}; + +DefineBoxedOrUnboxedFunctor5(MoveBoxedOrUnboxedDenseElements, + JSContext*, JSObject*, uint32_t, uint32_t, uint32_t); + +DenseElementResult +js::MoveAnyBoxedOrUnboxedDenseElements(JSContext* cx, JSObject* obj, + uint32_t dstStart, uint32_t srcStart, uint32_t length) +{ + MoveBoxedOrUnboxedDenseElementsFunctor functor(cx, obj, dstStart, srcStart, length); + return CallBoxedOrUnboxedSpecialization(functor, obj); +} + +DefineBoxedOrUnboxedFunctorPair6(CopyBoxedOrUnboxedDenseElements, + JSContext*, JSObject*, JSObject*, uint32_t, uint32_t, uint32_t); + +DenseElementResult +js::CopyAnyBoxedOrUnboxedDenseElements(JSContext* cx, JSObject* dst, JSObject* src, + uint32_t dstStart, uint32_t srcStart, uint32_t length) +{ + CopyBoxedOrUnboxedDenseElementsFunctor functor(cx, dst, src, dstStart, srcStart, length); + return CallBoxedOrUnboxedSpecialization(functor, dst, src); +} + +DefineBoxedOrUnboxedFunctor3(SetBoxedOrUnboxedInitializedLength, + JSContext*, JSObject*, size_t); + +void +js::SetAnyBoxedOrUnboxedInitializedLength(JSContext* cx, JSObject* obj, size_t initlen) +{ + SetBoxedOrUnboxedInitializedLengthFunctor functor(cx, obj, initlen); + JS_ALWAYS_TRUE(CallBoxedOrUnboxedSpecialization(functor, obj) == DenseElementResult::Success); +} + +DefineBoxedOrUnboxedFunctor3(EnsureBoxedOrUnboxedDenseElements, + JSContext*, JSObject*, size_t); + +DenseElementResult +js::EnsureAnyBoxedOrUnboxedDenseElements(JSContext* cx, JSObject* obj, size_t initlen) +{ + EnsureBoxedOrUnboxedDenseElementsFunctor functor(cx, obj, initlen); + return CallBoxedOrUnboxedSpecialization(functor, obj); +} diff --git a/js/src/vm/UnboxedObject.h b/js/src/vm/UnboxedObject.h index ba66434bc..779dd14c7 100644 --- a/js/src/vm/UnboxedObject.h +++ b/js/src/vm/UnboxedObject.h @@ -96,11 +96,17 @@ class UnboxedLayout : public mozilla::LinkedListElement<UnboxedLayout> // from an array of values. GCPtrJitCode constructorCode_; + // The following members are only used for unboxed arrays. + + // The type of array elements. + JSValueType elementType_; + public: UnboxedLayout() : nativeGroup_(nullptr), nativeShape_(nullptr), allocationScript_(nullptr), allocationPc_(nullptr), replacementGroup_(nullptr), - size_(0), newScript_(nullptr), traceList_(nullptr), constructorCode_(nullptr) + size_(0), newScript_(nullptr), traceList_(nullptr), constructorCode_(nullptr), + elementType_(JSVAL_TYPE_MAGIC) {} bool initProperties(const PropertyVector& properties, size_t size) { @@ -108,6 +114,10 @@ class UnboxedLayout : public mozilla::LinkedListElement<UnboxedLayout> return properties_.appendAll(properties); } + void initArray(JSValueType elementType) { + elementType_ = elementType; + } + ~UnboxedLayout() { if (newScript_) newScript_->clear(); @@ -120,6 +130,10 @@ class UnboxedLayout : public mozilla::LinkedListElement<UnboxedLayout> constructorCode_.init(nullptr); } + bool isArray() const { + return elementType_ != JSVAL_TYPE_MAGIC; + } + void detachFromCompartment(); const PropertyVector& properties() const { @@ -187,6 +201,10 @@ class UnboxedLayout : public mozilla::LinkedListElement<UnboxedLayout> constructorCode_ = code; } + JSValueType elementType() const { + return elementType_; + } + inline gc::AllocKind getAllocKind() const; void trace(JSTracer* trc); @@ -306,6 +324,193 @@ UnboxedLayout::getAllocKind() const return gc::GetGCObjectKindForBytes(UnboxedPlainObject::offsetOfData() + size()); } +// Class for an array object using an unboxed representation. +class UnboxedArrayObject : public JSObject +{ + // Elements pointer for the object. + uint8_t* elements_; + + // The nominal array length. This always fits in an int32_t. + uint32_t length_; + + // Value indicating the allocated capacity and initialized length of the + // array. The top CapacityBits bits are an index into CapacityArray, which + // indicates the elements capacity. The low InitializedLengthBits store the + // initialized length of the array. + uint32_t capacityIndexAndInitializedLength_; + + // If the elements are inline, they will point here. + uint8_t inlineElements_[1]; + + public: + static const uint32_t CapacityBits = 6; + static const uint32_t CapacityShift = 26; + + static const uint32_t CapacityMask = uint32_t(-1) << CapacityShift; + static const uint32_t InitializedLengthMask = (1 << CapacityShift) - 1; + + static const uint32_t MaximumCapacity = InitializedLengthMask; + static const uint32_t MinimumDynamicCapacity = 8; + + static const uint32_t CapacityArray[]; + + // Capacity index which indicates the array's length is also its capacity. + static const uint32_t CapacityMatchesLengthIndex = 0; + + private: + static inline uint32_t computeCapacity(uint32_t index, uint32_t length) { + if (index == CapacityMatchesLengthIndex) + return length; + return CapacityArray[index]; + } + + static uint32_t chooseCapacityIndex(uint32_t capacity, uint32_t length); + static uint32_t exactCapacityIndex(uint32_t capacity); + + public: + static const Class class_; + + static bool obj_lookupProperty(JSContext* cx, HandleObject obj, + HandleId id, MutableHandleObject objp, + MutableHandleShape propp); + + static bool obj_defineProperty(JSContext* cx, HandleObject obj, HandleId id, + Handle<PropertyDescriptor> desc, + ObjectOpResult& result); + + static bool obj_hasProperty(JSContext* cx, HandleObject obj, HandleId id, bool* foundp); + + static bool obj_getProperty(JSContext* cx, HandleObject obj, HandleValue receiver, + HandleId id, MutableHandleValue vp); + + static bool obj_setProperty(JSContext* cx, HandleObject obj, HandleId id, HandleValue v, + HandleValue receiver, ObjectOpResult& result); + + static bool obj_getOwnPropertyDescriptor(JSContext* cx, HandleObject obj, HandleId id, + MutableHandle<PropertyDescriptor> desc); + + static bool obj_deleteProperty(JSContext* cx, HandleObject obj, HandleId id, + ObjectOpResult& result); + + static bool obj_enumerate(JSContext* cx, HandleObject obj, AutoIdVector& properties, + bool enumerableOnly); + static bool obj_watch(JSContext* cx, HandleObject obj, HandleId id, HandleObject callable); + + inline const UnboxedLayout& layout() const; + + const UnboxedLayout& layoutDontCheckGeneration() const { + return group()->unboxedLayoutDontCheckGeneration(); + } + + JSValueType elementType() const { + return layoutDontCheckGeneration().elementType(); + } + + uint32_t elementSize() const { + return UnboxedTypeSize(elementType()); + } + + static bool convertToNative(JSContext* cx, JSObject* obj); + static UnboxedArrayObject* create(ExclusiveContext* cx, HandleObjectGroup group, + uint32_t length, NewObjectKind newKind, + uint32_t maxLength = MaximumCapacity); + + static bool convertToNativeWithGroup(ExclusiveContext* cx, JSObject* obj, + ObjectGroup* group, Shape* shape); + bool convertInt32ToDouble(ExclusiveContext* cx, ObjectGroup* group); + + void fillAfterConvert(ExclusiveContext* cx, + Handle<GCVector<Value>> values, size_t* valueCursor); + + static void trace(JSTracer* trc, JSObject* object); + static void objectMoved(JSObject* obj, const JSObject* old); + static void finalize(FreeOp* fop, JSObject* obj); + + static size_t objectMovedDuringMinorGC(JSTracer* trc, JSObject* dst, JSObject* src, + gc::AllocKind allocKind); + + uint8_t* elements() { + return elements_; + } + + bool hasInlineElements() const { + return elements_ == &inlineElements_[0]; + } + + uint32_t length() const { + return length_; + } + + uint32_t initializedLength() const { + return capacityIndexAndInitializedLength_ & InitializedLengthMask; + } + + uint32_t capacityIndex() const { + return (capacityIndexAndInitializedLength_ & CapacityMask) >> CapacityShift; + } + + uint32_t capacity() const { + return computeCapacity(capacityIndex(), length()); + } + + bool containsProperty(ExclusiveContext* cx, jsid id); + + bool setElement(ExclusiveContext* cx, size_t index, const Value& v); + bool initElement(ExclusiveContext* cx, size_t index, const Value& v); + void initElementNoTypeChange(size_t index, const Value& v); + Value getElement(size_t index); + + template <JSValueType Type> inline bool setElementSpecific(ExclusiveContext* cx, size_t index, + const Value& v); + template <JSValueType Type> inline void setElementNoTypeChangeSpecific(size_t index, const Value& v); + template <JSValueType Type> inline bool initElementSpecific(ExclusiveContext* cx, size_t index, + const Value& v); + template <JSValueType Type> inline void initElementNoTypeChangeSpecific(size_t index, const Value& v); + template <JSValueType Type> inline Value getElementSpecific(size_t index); + template <JSValueType Type> inline void triggerPreBarrier(size_t index); + + bool growElements(ExclusiveContext* cx, size_t cap); + void shrinkElements(ExclusiveContext* cx, size_t cap); + + static uint32_t offsetOfElements() { + return offsetof(UnboxedArrayObject, elements_); + } + static uint32_t offsetOfLength() { + return offsetof(UnboxedArrayObject, length_); + } + static uint32_t offsetOfCapacityIndexAndInitializedLength() { + return offsetof(UnboxedArrayObject, capacityIndexAndInitializedLength_); + } + static uint32_t offsetOfInlineElements() { + return offsetof(UnboxedArrayObject, inlineElements_); + } + + void setLengthInt32(uint32_t length) { + MOZ_ASSERT(length <= INT32_MAX); + length_ = length; + } + + inline void setLength(ExclusiveContext* cx, uint32_t len); + inline void setInitializedLength(uint32_t initlen); + + inline void setInitializedLengthNoBarrier(uint32_t initlen) { + MOZ_ASSERT(initlen <= InitializedLengthMask); + capacityIndexAndInitializedLength_ = + (capacityIndexAndInitializedLength_ & CapacityMask) | initlen; + } + + private: + void setInlineElements() { + elements_ = &inlineElements_[0]; + } + + void setCapacityIndex(uint32_t index) { + MOZ_ASSERT(index <= (CapacityMask >> CapacityShift)); + capacityIndexAndInitializedLength_ = + (index << CapacityShift) | initializedLength(); + } +}; + } // namespace js namespace JS { |