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-rw-r--r--js/src/jit/IonBuilder.cpp199
1 files changed, 64 insertions, 135 deletions
diff --git a/js/src/jit/IonBuilder.cpp b/js/src/jit/IonBuilder.cpp
index af85011be..3d964d1c6 100644
--- a/js/src/jit/IonBuilder.cpp
+++ b/js/src/jit/IonBuilder.cpp
@@ -7336,12 +7336,6 @@ 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 =
@@ -7597,7 +7591,6 @@ 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() ||
@@ -7608,12 +7601,6 @@ 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;
@@ -7633,60 +7620,46 @@ IonBuilder::jsop_initelem_array()
return resumeAfter(store);
}
- return initializeArrayElement(obj, index, value, unboxedType, /* addResumePoint = */ true);
+ return initializeArrayElement(obj, index, value, /* 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, unboxedType != JSVAL_TYPE_MAGIC);
+ MElements* elements = MElements::New(alloc(), obj);
current->add(elements);
- 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 (addResumePointAndIncrementInitializedLength) {
- MInstruction* increment = MIncrementUnboxedArrayInitializedLength::New(alloc(), obj);
- current->add(increment);
-
- if (!resumeAfter(increment))
- return false;
- }
- } else {
- if (NeedsPostBarrier(value))
- current->add(MPostWriteBarrier::New(alloc(), obj, value));
+ 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;
- }
+ 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,
+ // 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;
@@ -8175,8 +8148,7 @@ IonBuilder::maybeMarkEmpty(MDefinition* ins)
static bool
ClassHasEffectlessLookup(const Class* clasp)
{
- return (clasp == &UnboxedArrayObject::class_) ||
- IsTypedObjectClass(clasp) ||
+ return IsTypedObjectClass(clasp) ||
(clasp->isNative() && !clasp->getOpsLookupProperty());
}
@@ -9452,12 +9424,9 @@ IonBuilder::getElemTryDense(bool* emitted, MDefinition* obj, MDefinition* index)
{
MOZ_ASSERT(*emitted == false);
- JSValueType unboxedType = UnboxedArrayElementType(constraints(), obj, index);
- if (unboxedType == JSVAL_TYPE_MAGIC) {
- if (!ElementAccessIsDenseNative(constraints(), obj, index)) {
- trackOptimizationOutcome(TrackedOutcome::AccessNotDense);
- return true;
- }
+ if (!ElementAccessIsDenseNative(constraints(), obj, index)) {
+ trackOptimizationOutcome(TrackedOutcome::AccessNotDense);
+ return true;
}
// Don't generate a fast path if there have been bounds check failures
@@ -9474,7 +9443,7 @@ IonBuilder::getElemTryDense(bool* emitted, MDefinition* obj, MDefinition* index)
return true;
}
- if (!jsop_getelem_dense(obj, index, unboxedType))
+ if (!jsop_getelem_dense(obj, index))
return false;
trackOptimizationSuccess();
@@ -9826,7 +9795,7 @@ IonBuilder::computeHeapType(const TemporaryTypeSet* objTypes, const jsid id)
}
bool
-IonBuilder::jsop_getelem_dense(MDefinition* obj, MDefinition* index, JSValueType unboxedType)
+IonBuilder::jsop_getelem_dense(MDefinition* obj, MDefinition* index)
{
TemporaryTypeSet* types = bytecodeTypes(pc);
@@ -9850,7 +9819,7 @@ IonBuilder::jsop_getelem_dense(MDefinition* obj, MDefinition* index, JSValueType
!ElementAccessHasExtraIndexedProperty(this, obj);
MIRType knownType = MIRType::Value;
- if (unboxedType == JSVAL_TYPE_MAGIC && barrier == BarrierKind::NoBarrier)
+ if (barrier == BarrierKind::NoBarrier)
knownType = GetElemKnownType(needsHoleCheck, types);
// Ensure index is an integer.
@@ -9859,13 +9828,13 @@ IonBuilder::jsop_getelem_dense(MDefinition* obj, MDefinition* index, JSValueType
index = idInt32;
// Get the elements vector.
- MInstruction* elements = MElements::New(alloc(), obj, unboxedType != JSVAL_TYPE_MAGIC);
+ MInstruction* elements = MElements::New(alloc(), obj);
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, unboxedType);
+ MInstruction* initLength = initializedLength(obj, elements);
// If we can load the element as a definite double, make sure to check that
// the array has been converted to homogenous doubles first.
@@ -9881,7 +9850,6 @@ IonBuilder::jsop_getelem_dense(MDefinition* obj, MDefinition* index, JSValueType
}
bool loadDouble =
- unboxedType == JSVAL_TYPE_MAGIC &&
barrier == BarrierKind::NoBarrier &&
loopDepth_ &&
inBounds &&
@@ -9900,18 +9868,13 @@ IonBuilder::jsop_getelem_dense(MDefinition* obj, MDefinition* index, JSValueType
// hoisting.
index = addBoundsCheck(index, initLength);
- 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);
- }
+ 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,
- unboxedType, needsHoleCheck);
+ load = MLoadElementHole::New(alloc(), elements, index, initLength, needsHoleCheck);
current->add(load);
// If maybeUndefined was true, the typeset must have undefined, and
@@ -9921,8 +9884,7 @@ IonBuilder::jsop_getelem_dense(MDefinition* obj, MDefinition* index, JSValueType
}
if (knownType != MIRType::Value) {
- if (unboxedType == JSVAL_TYPE_MAGIC)
- load->setResultType(knownType);
+ load->setResultType(knownType);
load->setResultTypeSet(types);
}
@@ -10369,12 +10331,9 @@ IonBuilder::setElemTryDense(bool* emitted, MDefinition* object,
{
MOZ_ASSERT(*emitted == false);
- JSValueType unboxedType = UnboxedArrayElementType(constraints(), object, index);
- if (unboxedType == JSVAL_TYPE_MAGIC) {
- if (!ElementAccessIsDenseNative(constraints(), object, index)) {
- trackOptimizationOutcome(TrackedOutcome::AccessNotDense);
- return true;
- }
+ if (!ElementAccessIsDenseNative(constraints(), object, index)) {
+ trackOptimizationOutcome(TrackedOutcome::AccessNotDense);
+ return true;
}
if (PropertyWriteNeedsTypeBarrier(alloc(), constraints(), current,
@@ -10408,7 +10367,7 @@ IonBuilder::setElemTryDense(bool* emitted, MDefinition* object,
}
// Emit dense setelem variant.
- if (!jsop_setelem_dense(conversion, object, index, value, unboxedType, writeHole, emitted))
+ if (!jsop_setelem_dense(conversion, object, index, value, writeHole, emitted))
return false;
if (!*emitted) {
@@ -10498,13 +10457,11 @@ IonBuilder::setElemTryCache(bool* emitted, MDefinition* object,
bool
IonBuilder::jsop_setelem_dense(TemporaryTypeSet::DoubleConversion conversion,
MDefinition* obj, MDefinition* id, MDefinition* value,
- JSValueType unboxedType, bool writeHole, bool* emitted)
+ bool writeHole, bool* emitted)
{
MOZ_ASSERT(*emitted == false);
- MIRType elementType = MIRType::None;
- if (unboxedType == JSVAL_TYPE_MAGIC)
- elementType = DenseNativeElementType(constraints(), obj);
+ MIRType 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
@@ -10534,7 +10491,7 @@ IonBuilder::jsop_setelem_dense(TemporaryTypeSet::DoubleConversion conversion,
obj = addMaybeCopyElementsForWrite(obj, /* checkNative = */ false);
// Get the elements vector.
- MElements* elements = MElements::New(alloc(), obj, unboxedType != JSVAL_TYPE_MAGIC);
+ MElements* elements = MElements::New(alloc(), obj);
current->add(elements);
// Ensure the value is a double, if double conversion might be needed.
@@ -10571,7 +10528,7 @@ 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, unboxedType);
+ MStoreElementHole* ins = MStoreElementHole::New(alloc(), obj, elements, id, newValue);
store = ins;
common = ins;
@@ -10583,27 +10540,23 @@ IonBuilder::jsop_setelem_dense(TemporaryTypeSet::DoubleConversion conversion,
bool strict = IsStrictSetPC(pc);
MFallibleStoreElement* ins = MFallibleStoreElement::New(alloc(), obj, elements, id,
- newValue, unboxedType, strict);
+ newValue, strict);
store = ins;
common = ins;
current->add(ins);
current->push(value);
} else {
- MInstruction* initLength = initializedLength(obj, elements, unboxedType);
+ MInstruction* initLength = initializedLength(obj, elements);
id = addBoundsCheck(id, initLength);
bool needsHoleCheck = !packed && !hasNoExtraIndexedProperty;
- 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;
+ MStoreElement* ins = MStoreElement::New(alloc(), elements, id, newValue, needsHoleCheck);
+ store = ins;
+ common = ins;
- current->add(store);
- }
+ current->add(store);
current->push(value);
}
@@ -10721,18 +10674,6 @@ 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()) {
@@ -13687,11 +13628,8 @@ IonBuilder::inTryDense(bool* emitted, MDefinition* obj, MDefinition* id)
if (shouldAbortOnPreliminaryGroups(obj))
return true;
- JSValueType unboxedType = UnboxedArrayElementType(constraints(), obj, id);
- if (unboxedType == JSVAL_TYPE_MAGIC) {
- if (!ElementAccessIsDenseNative(constraints(), obj, id))
- return true;
- }
+ if (!ElementAccessIsDenseNative(constraints(), obj, id))
+ return true;
if (ElementAccessHasExtraIndexedProperty(this, obj))
return true;
@@ -13706,10 +13644,10 @@ IonBuilder::inTryDense(bool* emitted, MDefinition* obj, MDefinition* id)
id = idInt32;
// Get the elements vector.
- MElements* elements = MElements::New(alloc(), obj, unboxedType != JSVAL_TYPE_MAGIC);
+ MElements* elements = MElements::New(alloc(), obj);
current->add(elements);
- MInstruction* initLength = initializedLength(obj, elements, unboxedType);
+ MInstruction* initLength = initializedLength(obj, elements);
// If there are no holes, speculate the InArray check will not fail.
if (!needsHoleCheck && !failedBoundsCheck_) {
@@ -13719,8 +13657,7 @@ 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,
- unboxedType);
+ MInArray* ins = MInArray::New(alloc(), elements, id, initLength, obj, needsHoleCheck);
current->add(ins);
current->push(ins);
@@ -14398,32 +14335,24 @@ IonBuilder::constantInt(int32_t i)
}
MInstruction*
-IonBuilder::initializedLength(MDefinition* obj, MDefinition* elements, JSValueType unboxedType)
+IonBuilder::initializedLength(MDefinition* obj, MDefinition* elements)
{
- MInstruction* res;
- if (unboxedType != JSVAL_TYPE_MAGIC)
- res = MUnboxedArrayInitializedLength::New(alloc(), obj);
- else
- res = MInitializedLength::New(alloc(), elements);
+ MInstruction* res = MInitializedLength::New(alloc(), elements);
current->add(res);
return res;
}
MInstruction*
-IonBuilder::setInitializedLength(MDefinition* obj, JSValueType unboxedType, size_t count)
+IonBuilder::setInitializedLength(MDefinition* obj, size_t count)
{
MOZ_ASSERT(count);
- 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)));
- }
+ // 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)));
current->add(res);
return res;
}