67dc6ce5fd
R=bmeurer@chromium.org Committed: https://crrev.com/15f36b2b1e166a511966a9991fddea94f890a755 Cr-Commit-Position: refs/heads/master@{#31566} Review URL: https://codereview.chromium.org/1423833003 Cr-Commit-Position: refs/heads/master@{#31576}
421 lines
12 KiB
C++
421 lines
12 KiB
C++
// Copyright 2015 the V8 project authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "src/v8.h"
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#include "src/identity-map.h"
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#include "src/zone.h"
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#include "test/cctest/cctest.h"
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namespace v8 {
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namespace internal {
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// Helper for testing. A "friend" of the IdentityMapBase class, it is able to
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// "move" objects to simulate GC for testing the internals of the map.
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class IdentityMapTester : public HandleAndZoneScope {
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public:
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IdentityMap<void*> map;
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IdentityMapTester() : map(heap(), main_zone()) {}
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Heap* heap() { return isolate()->heap(); }
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Isolate* isolate() { return main_isolate(); }
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void TestGetFind(Handle<Object> key1, void* val1, Handle<Object> key2,
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void* val2) {
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CHECK_NULL(map.Find(key1));
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CHECK_NULL(map.Find(key2));
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// Set {key1} the first time.
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void** entry = map.Get(key1);
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CHECK_NOT_NULL(entry);
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*entry = val1;
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for (int i = 0; i < 3; i++) { // Get and find {key1} K times.
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{
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void** nentry = map.Get(key1);
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CHECK_EQ(entry, nentry);
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CHECK_EQ(val1, *nentry);
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CHECK_NULL(map.Find(key2));
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}
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{
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void** nentry = map.Find(key1);
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CHECK_EQ(entry, nentry);
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CHECK_EQ(val1, *nentry);
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CHECK_NULL(map.Find(key2));
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}
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}
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// Set {key2} the first time.
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void** entry2 = map.Get(key2);
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CHECK_NOT_NULL(entry2);
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*entry2 = val2;
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for (int i = 0; i < 3; i++) { // Get and find {key1} and {key2} K times.
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{
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void** nentry = map.Get(key2);
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CHECK_EQ(entry2, nentry);
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CHECK_EQ(val2, *nentry);
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}
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{
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void** nentry = map.Find(key2);
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CHECK_EQ(entry2, nentry);
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CHECK_EQ(val2, *nentry);
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}
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{
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void** nentry = map.Find(key1);
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CHECK_EQ(val1, *nentry);
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}
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}
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}
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Handle<Smi> smi(int value) {
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return Handle<Smi>(Smi::FromInt(value), isolate());
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}
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Handle<Object> num(double value) {
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return isolate()->factory()->NewNumber(value);
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}
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void SimulateGCByIncrementingSmisBy(int shift) {
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for (int i = 0; i < map.size_; i++) {
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if (map.keys_[i]->IsSmi()) {
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map.keys_[i] = Smi::FromInt(Smi::cast(map.keys_[i])->value() + shift);
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}
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}
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map.gc_counter_ = -1;
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}
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void CheckFind(Handle<Object> key, void* value) {
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void** entry = map.Find(key);
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CHECK_NOT_NULL(entry);
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CHECK_EQ(value, *entry);
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}
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void CheckGet(Handle<Object> key, void* value) {
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void** entry = map.Get(key);
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CHECK_NOT_NULL(entry);
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CHECK_EQ(value, *entry);
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}
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void PrintMap() {
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PrintF("{\n");
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for (int i = 0; i < map.size_; i++) {
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PrintF(" %3d: %p => %p\n", i, reinterpret_cast<void*>(map.keys_[i]),
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reinterpret_cast<void*>(map.values_[i]));
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}
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PrintF("}\n");
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}
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void Resize() { map.Resize(); }
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void Rehash() { map.Rehash(); }
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};
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TEST(Find_smi_not_found) {
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IdentityMapTester t;
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for (int i = 0; i < 100; i++) {
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CHECK_NULL(t.map.Find(t.smi(i)));
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}
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}
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TEST(Find_num_not_found) {
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IdentityMapTester t;
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for (int i = 0; i < 100; i++) {
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CHECK_NULL(t.map.Find(t.num(i + 0.2)));
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}
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}
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TEST(GetFind_smi_13) {
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IdentityMapTester t;
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t.TestGetFind(t.smi(13), t.isolate(), t.smi(17), t.heap());
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}
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TEST(GetFind_num_13) {
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IdentityMapTester t;
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t.TestGetFind(t.num(13.1), t.isolate(), t.num(17.1), t.heap());
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}
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TEST(GetFind_smi_17m) {
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const int kInterval = 17;
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const int kShift = 1099;
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IdentityMapTester t;
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for (int i = 1; i < 100; i += kInterval) {
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t.map.Set(t.smi(i), reinterpret_cast<void*>(i + kShift));
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}
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for (int i = 1; i < 100; i += kInterval) {
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t.CheckFind(t.smi(i), reinterpret_cast<void*>(i + kShift));
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}
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for (int i = 1; i < 100; i += kInterval) {
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t.CheckGet(t.smi(i), reinterpret_cast<void*>(i + kShift));
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}
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for (int i = 1; i < 100; i++) {
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void** entry = t.map.Find(t.smi(i));
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if ((i % kInterval) != 1) {
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CHECK_NULL(entry);
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} else {
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CHECK_NOT_NULL(entry);
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CHECK_EQ(reinterpret_cast<void*>(i + kShift), *entry);
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}
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}
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}
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TEST(GetFind_num_1000) {
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const int kPrime = 137;
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IdentityMapTester t;
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int val1;
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int val2;
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for (int i = 0; i < 1000; i++) {
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t.TestGetFind(t.smi(i * kPrime), &val1, t.smi(i * kPrime + 1), &val2);
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}
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}
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TEST(GetFind_smi_gc) {
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const int kKey = 33;
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const int kShift = 1211;
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IdentityMapTester t;
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t.map.Set(t.smi(kKey), &t);
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t.SimulateGCByIncrementingSmisBy(kShift);
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t.CheckFind(t.smi(kKey + kShift), &t);
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t.CheckGet(t.smi(kKey + kShift), &t);
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}
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TEST(GetFind_smi_gc2) {
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int kKey1 = 1;
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int kKey2 = 33;
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const int kShift = 1211;
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IdentityMapTester t;
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t.map.Set(t.smi(kKey1), &kKey1);
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t.map.Set(t.smi(kKey2), &kKey2);
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t.SimulateGCByIncrementingSmisBy(kShift);
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t.CheckFind(t.smi(kKey1 + kShift), &kKey1);
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t.CheckGet(t.smi(kKey1 + kShift), &kKey1);
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t.CheckFind(t.smi(kKey2 + kShift), &kKey2);
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t.CheckGet(t.smi(kKey2 + kShift), &kKey2);
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}
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TEST(GetFind_smi_gc_n) {
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const int kShift = 12011;
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IdentityMapTester t;
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int keys[12] = {1, 2, 7, 8, 15, 23,
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1 + 32, 2 + 32, 7 + 32, 8 + 32, 15 + 32, 23 + 32};
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// Initialize the map first.
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for (size_t i = 0; i < arraysize(keys); i += 2) {
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t.TestGetFind(t.smi(keys[i]), &keys[i], t.smi(keys[i + 1]), &keys[i + 1]);
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}
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// Check the above initialization.
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for (size_t i = 0; i < arraysize(keys); i++) {
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t.CheckFind(t.smi(keys[i]), &keys[i]);
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}
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// Simulate a GC by "moving" the smis in the internal keys array.
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t.SimulateGCByIncrementingSmisBy(kShift);
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// Check that searching for the incremented smis finds the same values.
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for (size_t i = 0; i < arraysize(keys); i++) {
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t.CheckFind(t.smi(keys[i] + kShift), &keys[i]);
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}
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// Check that searching for the incremented smis gets the same values.
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for (size_t i = 0; i < arraysize(keys); i++) {
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t.CheckGet(t.smi(keys[i] + kShift), &keys[i]);
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}
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}
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TEST(GetFind_smi_num_gc_n) {
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const int kShift = 12019;
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IdentityMapTester t;
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int smi_keys[] = {1, 2, 7, 15, 23};
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Handle<Object> num_keys[] = {t.num(1.1), t.num(2.2), t.num(3.3), t.num(4.4),
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t.num(5.5), t.num(6.6), t.num(7.7), t.num(8.8),
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t.num(9.9), t.num(10.1)};
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// Initialize the map first.
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for (size_t i = 0; i < arraysize(smi_keys); i++) {
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t.map.Set(t.smi(smi_keys[i]), &smi_keys[i]);
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}
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for (size_t i = 0; i < arraysize(num_keys); i++) {
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t.map.Set(num_keys[i], &num_keys[i]);
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}
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// Check the above initialization.
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for (size_t i = 0; i < arraysize(smi_keys); i++) {
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t.CheckFind(t.smi(smi_keys[i]), &smi_keys[i]);
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}
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for (size_t i = 0; i < arraysize(num_keys); i++) {
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t.CheckFind(num_keys[i], &num_keys[i]);
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}
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// Simulate a GC by moving SMIs.
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// Ironically the SMIs "move", but the heap numbers don't!
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t.SimulateGCByIncrementingSmisBy(kShift);
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// Check that searching for the incremented smis finds the same values.
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for (size_t i = 0; i < arraysize(smi_keys); i++) {
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t.CheckFind(t.smi(smi_keys[i] + kShift), &smi_keys[i]);
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t.CheckGet(t.smi(smi_keys[i] + kShift), &smi_keys[i]);
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}
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// Check that searching for the numbers finds the same values.
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for (size_t i = 0; i < arraysize(num_keys); i++) {
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t.CheckFind(num_keys[i], &num_keys[i]);
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t.CheckGet(num_keys[i], &num_keys[i]);
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}
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}
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void CollisionTest(int stride, bool rehash = false, bool resize = false) {
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for (int load = 15; load <= 120; load = load * 2) {
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IdentityMapTester t;
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{ // Add entries to the map.
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HandleScope scope(t.isolate());
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int next = 1;
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for (int i = 0; i < load; i++) {
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t.map.Set(t.smi(next), reinterpret_cast<void*>(next));
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t.CheckFind(t.smi(next), reinterpret_cast<void*>(next));
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next = next + stride;
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}
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}
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if (resize) t.Resize(); // Explicit resize (internal method).
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if (rehash) t.Rehash(); // Explicit rehash (internal method).
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{ // Check find and get.
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HandleScope scope(t.isolate());
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int next = 1;
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for (int i = 0; i < load; i++) {
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t.CheckFind(t.smi(next), reinterpret_cast<void*>(next));
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t.CheckGet(t.smi(next), reinterpret_cast<void*>(next));
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next = next + stride;
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}
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}
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}
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}
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TEST(Collisions_1) { CollisionTest(1); }
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TEST(Collisions_2) { CollisionTest(2); }
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TEST(Collisions_3) { CollisionTest(3); }
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TEST(Collisions_5) { CollisionTest(5); }
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TEST(Collisions_7) { CollisionTest(7); }
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TEST(Resize) { CollisionTest(9, false, true); }
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TEST(Rehash) { CollisionTest(11, true, false); }
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TEST(ExplicitGC) {
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IdentityMapTester t;
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Handle<Object> num_keys[] = {t.num(2.1), t.num(2.4), t.num(3.3), t.num(4.3),
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t.num(7.5), t.num(6.4), t.num(7.3), t.num(8.3),
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t.num(8.9), t.num(10.4)};
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// Insert some objects that should be in new space.
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for (size_t i = 0; i < arraysize(num_keys); i++) {
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t.map.Set(num_keys[i], &num_keys[i]);
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}
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// Do an explicit, real GC.
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t.heap()->CollectGarbage(i::NEW_SPACE);
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// Check that searching for the numbers finds the same values.
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for (size_t i = 0; i < arraysize(num_keys); i++) {
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t.CheckFind(num_keys[i], &num_keys[i]);
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t.CheckGet(num_keys[i], &num_keys[i]);
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}
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}
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TEST(CanonicalHandleScope) {
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Isolate* isolate = CcTest::i_isolate();
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Heap* heap = CcTest::heap();
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HandleScope outer(isolate);
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CanonicalHandleScope outer_canonical(isolate);
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// Deduplicate smi handles.
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List<Handle<Object> > smi_handles;
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for (int i = 0; i < 100; i++) {
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smi_handles.Add(Handle<Object>(Smi::FromInt(i), isolate));
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}
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Object** next_handle = isolate->handle_scope_data()->next;
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for (int i = 0; i < 100; i++) {
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Handle<Object> new_smi = Handle<Object>(Smi::FromInt(i), isolate);
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Handle<Object> old_smi = smi_handles[i];
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CHECK_EQ(new_smi.location(), old_smi.location());
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}
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// Check that no new handles have been allocated.
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CHECK_EQ(next_handle, isolate->handle_scope_data()->next);
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// Deduplicate root list items.
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Handle<String> empty_string(heap->empty_string());
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Handle<Map> free_space_map(heap->free_space_map());
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Handle<Symbol> uninitialized_symbol(heap->uninitialized_symbol());
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CHECK_EQ(isolate->factory()->empty_string().location(),
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empty_string.location());
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CHECK_EQ(isolate->factory()->free_space_map().location(),
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free_space_map.location());
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CHECK_EQ(isolate->factory()->uninitialized_symbol().location(),
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uninitialized_symbol.location());
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// Check that no new handles have been allocated.
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CHECK_EQ(next_handle, isolate->handle_scope_data()->next);
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// Test ordinary heap objects.
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Handle<HeapNumber> number1 = isolate->factory()->NewHeapNumber(3.3);
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Handle<String> string1 =
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isolate->factory()->NewStringFromAsciiChecked("test");
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next_handle = isolate->handle_scope_data()->next;
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Handle<HeapNumber> number2(*number1);
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Handle<String> string2(*string1);
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CHECK_EQ(number1.location(), number2.location());
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CHECK_EQ(string1.location(), string2.location());
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heap->CollectAllGarbage();
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Handle<HeapNumber> number3(*number2);
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Handle<String> string3(*string2);
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CHECK_EQ(number1.location(), number3.location());
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CHECK_EQ(string1.location(), string3.location());
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// Check that no new handles have been allocated.
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CHECK_EQ(next_handle, isolate->handle_scope_data()->next);
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// Inner handle scope do not create canonical handles.
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{
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HandleScope inner(isolate);
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Handle<HeapNumber> number4(*number1);
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Handle<String> string4(*string1);
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CHECK_NE(number1.location(), number4.location());
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CHECK_NE(string1.location(), string4.location());
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// Nested canonical scope does not conflict with outer canonical scope,
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// but does not canonicalize across scopes.
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CanonicalHandleScope inner_canonical(isolate);
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Handle<HeapNumber> number5(*number4);
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Handle<String> string5(*string4);
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CHECK_NE(number4.location(), number5.location());
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CHECK_NE(string4.location(), string5.location());
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CHECK_NE(number1.location(), number5.location());
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CHECK_NE(string1.location(), string5.location());
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Handle<HeapNumber> number6(*number1);
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Handle<String> string6(*string1);
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CHECK_NE(number4.location(), number6.location());
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CHECK_NE(string4.location(), string6.location());
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CHECK_NE(number1.location(), number6.location());
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CHECK_NE(string1.location(), string6.location());
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CHECK_EQ(number5.location(), number6.location());
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CHECK_EQ(string5.location(), string6.location());
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}
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}
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} // namespace internal
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} // namespace v8
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