Keep new arrays allocated with 'new Array(N)' in fast mode (revisited)

Also explicit length setting with a.length = N should remain in fast mode.

R=verwaest@chromium.org

Review URL: https://codereview.chromium.org/416403002

git-svn-id: https://v8.googlecode.com/svn/branches/bleeding_edge@22645 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
This commit is contained in:
danno@chromium.org 2014-07-28 13:12:26 +00:00
parent 77529ec746
commit afcfa7d2b7
15 changed files with 122 additions and 65 deletions

View File

@ -86,11 +86,20 @@ function SparseJoin(array, len, convert) {
}
function UseSparseVariant(object, length, is_array) {
return is_array &&
length > 1000 &&
(!%_IsSmi(length) ||
%EstimateNumberOfElements(object) < (length >> 2));
function UseSparseVariant(array, length, is_array, touched) {
// Only use the sparse variant on arrays that are likely to be sparse and the
// number of elements touched in the operation is relatively small compared to
// the overall size of the array.
if (!is_array || length < 1000 || %IsObserved(array)) {
return false;
}
if (!%_IsSmi(length)) {
return true;
}
var elements_threshold = length >> 2; // No more than 75% holes
var estimated_elements = %EstimateNumberOfElements(array);
return (estimated_elements < elements_threshold) &&
(touched > estimated_elements * 4);
}
@ -107,7 +116,8 @@ function Join(array, length, separator, convert) {
// Attempt to convert the elements.
try {
if (UseSparseVariant(array, length, is_array)) {
if (UseSparseVariant(array, length, is_array, length)) {
%NormalizeElements(array);
if (separator.length == 0) {
return SparseJoin(array, length, convert);
} else {
@ -518,13 +528,15 @@ function ArrayReverse() {
CHECK_OBJECT_COERCIBLE(this, "Array.prototype.reverse");
var array = TO_OBJECT_INLINE(this);
var j = TO_UINT32(array.length) - 1;
var len = TO_UINT32(array.length);
if (UseSparseVariant(array, j, IS_ARRAY(array))) {
SparseReverse(array, j+1);
if (UseSparseVariant(array, len, IS_ARRAY(array), len)) {
%NormalizeElements(array);
SparseReverse(array, len);
return array;
}
var j = len - 1;
for (var i = 0; i < j; i++, j--) {
var current_i = array[i];
if (!IS_UNDEFINED(current_i) || i in array) {
@ -670,10 +682,9 @@ function ArraySlice(start, end) {
if (end_i < start_i) return result;
if (IS_ARRAY(array) &&
!%IsObserved(array) &&
(end_i > 1000) &&
(%EstimateNumberOfElements(array) < end_i)) {
if (UseSparseVariant(array, len, IS_ARRAY(array), end_i - start_i)) {
%NormalizeElements(array);
%NormalizeElements(result);
SmartSlice(array, start_i, end_i - start_i, len, result);
} else {
SimpleSlice(array, start_i, end_i - start_i, len, result);
@ -781,24 +792,20 @@ function ArraySplice(start, delete_count) {
["Array.prototype.splice"]);
}
var use_simple_splice = true;
if (IS_ARRAY(array) &&
num_elements_to_add !== del_count) {
// If we are only deleting/moving a few things near the end of the
// array then the simple version is going to be faster, because it
// doesn't touch most of the array.
var estimated_non_hole_elements = %EstimateNumberOfElements(array);
if (len > 20 && (estimated_non_hole_elements >> 2) < (len - start_i)) {
use_simple_splice = false;
}
var changed_elements = del_count;
if (num_elements_to_add != del_count) {
// If the slice needs to do a actually move elements after the insertion
// point, then include those in the estimate of changed elements.
changed_elements += len - start_i - del_count;
}
if (use_simple_splice) {
SimpleSlice(array, start_i, del_count, len, deleted_elements);
SimpleMove(array, start_i, del_count, len, num_elements_to_add);
} else {
if (UseSparseVariant(array, len, IS_ARRAY(array), changed_elements)) {
%NormalizeElements(array);
%NormalizeElements(deleted_elements);
SmartSlice(array, start_i, del_count, len, deleted_elements);
SmartMove(array, start_i, del_count, len, num_elements_to_add);
} else {
SimpleSlice(array, start_i, del_count, len, deleted_elements);
SimpleMove(array, start_i, del_count, len, num_elements_to_add);
}
// Insert the arguments into the resulting array in
@ -1283,7 +1290,8 @@ function ArrayIndexOf(element, index) {
}
var min = index;
var max = length;
if (UseSparseVariant(this, length, IS_ARRAY(this))) {
if (UseSparseVariant(this, length, IS_ARRAY(this), max - min)) {
%NormalizeElements(this);
var indices = %GetArrayKeys(this, length);
if (IS_NUMBER(indices)) {
// It's an interval.
@ -1338,7 +1346,8 @@ function ArrayLastIndexOf(element, index) {
}
var min = 0;
var max = index;
if (UseSparseVariant(this, length, IS_ARRAY(this))) {
if (UseSparseVariant(this, length, IS_ARRAY(this), index)) {
%NormalizeElements(this);
var indices = %GetArrayKeys(this, index + 1);
if (IS_NUMBER(indices)) {
// It's an interval.

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@ -887,8 +887,7 @@ class FastElementsAccessor
typedef typename KindTraits::BackingStore BackingStore;
// Adjusts the length of the fast backing store or returns the new length or
// undefined in case conversion to a slow backing store should be performed.
// Adjusts the length of the fast backing store.
static Handle<Object> SetLengthWithoutNormalize(
Handle<FixedArrayBase> backing_store,
Handle<JSArray> array,
@ -940,15 +939,10 @@ class FastElementsAccessor
// Check whether the backing store should be expanded.
uint32_t min = JSObject::NewElementsCapacity(old_capacity);
uint32_t new_capacity = length > min ? length : min;
if (!array->ShouldConvertToSlowElements(new_capacity)) {
FastElementsAccessorSubclass::SetFastElementsCapacityAndLength(
array, new_capacity, length);
JSObject::ValidateElements(array);
return length_object;
}
// Request conversion to slow elements.
return isolate->factory()->undefined_value();
FastElementsAccessorSubclass::SetFastElementsCapacityAndLength(
array, new_capacity, length);
JSObject::ValidateElements(array);
return length_object;
}
static Handle<Object> DeleteCommon(Handle<JSObject> obj,

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@ -11738,6 +11738,17 @@ static void EndPerformSplice(Handle<JSArray> object) {
MaybeHandle<Object> JSArray::SetElementsLength(
Handle<JSArray> array,
Handle<Object> new_length_handle) {
if (array->HasFastElements()) {
// If the new array won't fit in a some non-trivial fraction of the max old
// space size, then force it to go dictionary mode.
int max_fast_array_size = static_cast<int>(
(array->GetHeap()->MaxOldGenerationSize() / kDoubleSize) / 4);
if (new_length_handle->IsNumber() &&
NumberToInt32(*new_length_handle) >= max_fast_array_size) {
NormalizeElements(array);
}
}
// We should never end in here with a pixel or external array.
ASSERT(array->AllowsSetElementsLength());
if (!array->map()->is_observed()) {

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@ -10574,15 +10574,39 @@ RUNTIME_FUNCTION(Runtime_MoveArrayContents) {
// How many elements does this object/array have?
RUNTIME_FUNCTION(Runtime_EstimateNumberOfElements) {
SealHandleScope shs(isolate);
HandleScope scope(isolate);
ASSERT(args.length() == 1);
CONVERT_ARG_CHECKED(JSArray, object, 0);
HeapObject* elements = object->elements();
CONVERT_ARG_HANDLE_CHECKED(JSArray, array, 0);
Handle<FixedArrayBase> elements(array->elements(), isolate);
SealHandleScope shs(isolate);
if (elements->IsDictionary()) {
int result = SeededNumberDictionary::cast(elements)->NumberOfElements();
int result =
Handle<SeededNumberDictionary>::cast(elements)->NumberOfElements();
return Smi::FromInt(result);
} else {
return object->length();
ASSERT(array->length()->IsSmi());
// For packed elements, we know the exact number of elements
int length = elements->length();
ElementsKind kind = array->GetElementsKind();
if (IsFastPackedElementsKind(kind)) {
return Smi::FromInt(length);
}
// For holey elements, take samples from the buffer checking for holes
// to generate the estimate.
const int kNumberOfHoleCheckSamples = 97;
int increment = (length < kNumberOfHoleCheckSamples)
? 1
: static_cast<int>(length / kNumberOfHoleCheckSamples);
ElementsAccessor* accessor = array->GetElementsAccessor();
int holes = 0;
for (int i = 0; i < length; i += increment) {
if (!accessor->HasElement(array, array, i, elements)) {
++holes;
}
}
int estimate = static_cast<int>((kNumberOfHoleCheckSamples - holes) /
kNumberOfHoleCheckSamples * length);
return Smi::FromInt(estimate);
}
}
@ -14956,6 +14980,15 @@ RUNTIME_FUNCTION(Runtime_InternalArrayConstructor) {
}
RUNTIME_FUNCTION(Runtime_NormalizeElements) {
HandleScope scope(isolate);
ASSERT(args.length() == 1);
CONVERT_ARG_HANDLE_CHECKED(JSObject, array, 0);
JSObject::NormalizeElements(array);
return *array;
}
RUNTIME_FUNCTION(Runtime_MaxSmi) {
ASSERT(args.length() == 0);
return Smi::FromInt(Smi::kMaxValue);

View File

@ -238,6 +238,7 @@ namespace internal {
F(GetArrayKeys, 2, 1) \
F(MoveArrayContents, 2, 1) \
F(EstimateNumberOfElements, 1, 1) \
F(NormalizeElements, 1, 1) \
\
/* Getters and Setters */ \
F(LookupAccessor, 3, 1) \

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@ -2,6 +2,8 @@
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
// Flags: --allow-natives-syntax
// TODO(jkummerow): There are many ways to improve these tests, e.g.:
// - more variance in randomized inputs
// - better time complexity management
@ -15,7 +17,9 @@ function makeArguments() {
result.push(17);
result.push(-31);
result.push(new Array(100));
result.push(new Array(100003));
var a = %NormalizeElements([]);
a.length = 100003;
result.push(a);
result.push(Number.MIN_VALUE);
result.push("whoops");
result.push("x");

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@ -297,10 +297,6 @@ obj = newarraycase_onearg(10, 5);
assertKind(elements_kind.fast_double, obj);
obj = newarraycase_onearg(0, 5);
assertKind(elements_kind.fast_double, obj);
// Now pass a length that forces the dictionary path.
obj = newarraycase_onearg(100000, 5);
assertKind(elements_kind.dictionary, obj);
assertTrue(obj.length == 100000);
// Verify that cross context calls work
var realmA = Realm.current();

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@ -25,6 +25,8 @@
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
// Flags: --allow-natives-syntax
function f0() {
return this;
}
@ -114,7 +116,8 @@ function al() {
for (var j = 1; j < 0x40000000; j <<= 1) {
try {
var a = new Array(j);
var a = %NormalizeElements([]);
a.length = j;
a[j - 1] = 42;
assertEquals(42 + j, al.apply(345, a));
} catch (e) {
@ -122,7 +125,8 @@ for (var j = 1; j < 0x40000000; j <<= 1) {
for (; j < 0x40000000; j <<= 1) {
var caught = false;
try {
a = new Array(j);
a = %NormalizeElements([]);
a.length = j;
a[j - 1] = 42;
al.apply(345, a);
assertUnreachable("Apply of array with length " + a.length +

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@ -130,8 +130,7 @@ function assertKind(expected, obj, name_opt) {
a = bar(10);
assertKind(elements_kind.fast, a);
assertOptimized(bar);
a = bar(100000);
assertKind(elements_kind.dictionary, a);
bar(100000);
assertOptimized(bar);
// If the argument isn't a smi, things should still work.

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@ -92,7 +92,7 @@ function assertKind(expected, obj, name_opt) {
assertKind(elements_kind.fast, b);
a = create1(100000);
assertKind(elements_kind.dictionary, a);
assertKind(elements_kind.fast_smi_only, a);
function create3(arg1, arg2, arg3) {
return Array(arg1, arg2, arg3);

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@ -145,7 +145,9 @@ function test_wrapper() {
}
assertKind(elements_kind.fast, you);
assertKind(elements_kind.dictionary, new Array(0xDECAF));
var temp = [];
temp[0xDECAF] = 0;
assertKind(elements_kind.dictionary, temp);
var fast_double_array = new Array(0xDECAF);
for (var i = 0; i < 0xDECAF; i++) fast_double_array[i] = i / 2;

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@ -1234,8 +1234,9 @@ observer2.assertCallbackRecords([
// Updating length on large (slow) array
reset();
var slow_arr = new Array(1000000000);
var slow_arr = %NormalizeElements([]);
slow_arr[500000000] = 'hello';
slow_arr.length = 1000000000;
Object.observe(slow_arr, observer.callback);
var spliceRecords;
function slowSpliceCallback(records) {

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@ -37,7 +37,7 @@ function init_sparse_array(a) {
a[i] = i;
}
a[5000000] = 256;
assertTrue(%HasDictionaryElements(a));
return %NormalizeElements(a);
}
function testPolymorphicLoads() {
@ -49,7 +49,7 @@ function testPolymorphicLoads() {
var object_array = new Object;
var sparse_object_array = new Object;
var js_array = new Array(10);
var sparse_js_array = new Array(5000001);
var sparse_js_array = %NormalizeElements([]);
init_array(object_array);
init_array(js_array);
@ -67,7 +67,7 @@ function testPolymorphicLoads() {
var object_array = new Object;
var sparse_object_array = new Object;
var js_array = new Array(10);
var sparse_js_array = new Array(5000001);
var sparse_js_array = %NormalizeElements([]);
init_array(object_array);
init_array(js_array);
@ -114,7 +114,8 @@ function testPolymorphicStores() {
var object_array = new Object;
var sparse_object_array = new Object;
var js_array = new Array(10);
var sparse_js_array = new Array(5000001);
var sparse_js_array = [];
sparse_js_array.length = 5000001;
init_array(object_array);
init_array(js_array);
@ -132,7 +133,8 @@ function testPolymorphicStores() {
var object_array = new Object;
var sparse_object_array = new Object;
var js_array = new Array(10);
var sparse_js_array = new Array(5000001);
var sparse_js_array = %NormalizeElements([]);
sparse_js_array.length = 5000001;
init_array(object_array);
init_array(js_array);

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@ -26,6 +26,6 @@
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
// Test that we can create arrays of any size.
for (var i = 1000; i < 1000000; i += 197) {
for (var i = 1000; i < 1000000; i += 19703) {
new Array(i);
}

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@ -47,7 +47,7 @@ EXPAND_MACROS = [
# that the parser doesn't bit-rot. Change the values as needed when you add,
# remove or change runtime functions, but make sure we don't lose our ability
# to parse them!
EXPECTED_FUNCTION_COUNT = 420
EXPECTED_FUNCTION_COUNT = 421
EXPECTED_FUZZABLE_COUNT = 335
EXPECTED_CCTEST_COUNT = 8
EXPECTED_UNKNOWN_COUNT = 4
@ -124,6 +124,7 @@ BLACKLISTED = [
# Arrays
"ArrayConstructor",
"InternalArrayConstructor",
"NormalizeElements",
# Literals
"MaterializeRegExpLiteral",