// Copyright (c) 2012, the Dart project authors. Please see the AUTHORS file // for details. All rights reserved. Use of this source code is governed by a // BSD-style license that can be found in the LICENSE file. #include "vm/hash_map.h" #include "platform/assert.h" #include "vm/unit_test.h" namespace dart { class TestValue { public: explicit TestValue(intptr_t x) : x_(x) {} // FinalizeHash is used here to provide coverage for FinalizeHash(...) // function. uword Hash() const { return FinalizeHash(static_cast(x_) & 1); } bool Equals(const TestValue& other) { return x_ == other.x_; } private: intptr_t x_; }; TEST_CASE(DirectChainedHashMap) { DirectChainedHashMap> map; EXPECT(map.IsEmpty()); TestValue v1(0); TestValue v2(1); TestValue v3(0); map.Insert(&v1); EXPECT(map.LookupValue(&v1) == &v1); map.Insert(&v2); EXPECT(map.LookupValue(&v1) == &v1); EXPECT(map.LookupValue(&v2) == &v2); EXPECT(map.LookupValue(&v3) == &v1); EXPECT(map.Remove(&v1)); EXPECT(map.Lookup(&v1) == NULL); map.Insert(&v1); DirectChainedHashMap> map2(map); EXPECT(map2.LookupValue(&v1) == &v1); EXPECT(map2.LookupValue(&v2) == &v2); EXPECT(map2.LookupValue(&v3) == &v1); } TEST_CASE(DirectChainedHashMapInsertRemove) { DirectChainedHashMap> map; EXPECT(map.IsEmpty()); TestValue v1(1); TestValue v2(3); // Note: v1, v2, v3 should have the same hash. TestValue v3(5); // Start with adding and removing the same element. map.Insert(&v1); EXPECT(map.LookupValue(&v1) == &v1); EXPECT(map.Remove(&v1)); EXPECT(map.Lookup(&v1) == NULL); // Inserting v2 first should put it at the head of the list. map.Insert(&v2); map.Insert(&v1); EXPECT(map.LookupValue(&v2) == &v2); EXPECT(map.LookupValue(&v1) == &v1); // Check to see if removing the head of the list causes issues. EXPECT(map.Remove(&v2)); EXPECT(map.Lookup(&v2) == NULL); EXPECT(map.LookupValue(&v1) == &v1); // Reinsert v2, which will place it at the back of the hash map list. map.Insert(&v2); EXPECT(map.LookupValue(&v2) == &v2); // Remove from the back of the hash map list. EXPECT(map.Remove(&v2)); EXPECT(map.Lookup(&v2) == NULL); EXPECT(map.Remove(&v1)); EXPECT(map.Lookup(&v1) == NULL); // Check to see that removing an invalid element returns false. EXPECT(!map.Remove(&v1)); // One last case: remove from the middle of a hash map list. map.Insert(&v1); map.Insert(&v2); map.Insert(&v3); EXPECT(map.LookupValue(&v1) == &v1); EXPECT(map.LookupValue(&v2) == &v2); EXPECT(map.LookupValue(&v3) == &v3); EXPECT(map.Remove(&v2)); EXPECT(map.LookupValue(&v1) == &v1); EXPECT(map.Lookup(&v2) == NULL); EXPECT(map.LookupValue(&v3) == &v3); EXPECT(map.Remove(&v1)); EXPECT(map.Remove(&v3)); EXPECT(map.IsEmpty()); } TEST_CASE(MallocDirectChainedHashMap) { MallocDirectChainedHashMap> map; EXPECT(map.IsEmpty()); TestValue v1(0); TestValue v2(1); TestValue v3(0); map.Insert(&v1); EXPECT(map.LookupValue(&v1) == &v1); map.Insert(&v2); EXPECT(map.LookupValue(&v1) == &v1); EXPECT(map.LookupValue(&v2) == &v2); EXPECT(map.LookupValue(&v3) == &v1); MallocDirectChainedHashMap> map2(map); EXPECT(map2.LookupValue(&v1) == &v1); EXPECT(map2.LookupValue(&v2) == &v2); EXPECT(map2.LookupValue(&v3) == &v1); } TEST_CASE(ZoneDirectChainedHashMap) { auto zone = thread->zone(); auto const map = new (zone) ZoneDirectChainedHashMap>(zone); EXPECT(map->IsEmpty()); TestValue v1(0); TestValue v2(1); TestValue v3(0); map->Insert(&v1); EXPECT(map->LookupValue(&v1) == &v1); map->Insert(&v2); EXPECT(map->LookupValue(&v1) == &v1); EXPECT(map->LookupValue(&v2) == &v2); EXPECT(map->LookupValue(&v3) == &v1); } class IntptrPair { public: IntptrPair() : first_(-1), second_(-1) {} IntptrPair(intptr_t first, intptr_t second) : first_(first), second_(second) {} intptr_t first() const { return first_; } intptr_t second() const { return second_; } bool operator==(const IntptrPair& other) { return (first_ == other.first_) && (second_ == other.second_); } bool operator!=(const IntptrPair& other) { return (first_ != other.first_) || (second_ != other.second_); } private: intptr_t first_; intptr_t second_; }; TEST_CASE(DirectChainedHashMapIterator) { IntptrPair p1(1, 1); IntptrPair p2(2, 2); IntptrPair p3(3, 3); IntptrPair p4(4, 4); IntptrPair p5(5, 5); DirectChainedHashMap > map; EXPECT(map.IsEmpty()); DirectChainedHashMap >::Iterator it = map.GetIterator(); EXPECT(it.Next() == NULL); it.Reset(); map.Insert(p1); EXPECT(*it.Next() == p1); it.Reset(); map.Insert(p2); map.Insert(p3); map.Insert(p4); map.Insert(p5); intptr_t count = 0; intptr_t sum = 0; while (true) { IntptrPair* p = it.Next(); if (p == NULL) { break; } count++; sum += p->second(); } EXPECT(count == 5); EXPECT(sum == 15); } TEST_CASE(DirectChainedHashMapIteratorWithCollisionInLastBucket) { intptr_t values[] = {65, 325, 329, 73, 396, 207, 215, 93, 227, 39, 431, 112, 176, 313, 188, 317, 61, 127, 447}; IntMap map; for (intptr_t value : values) { map.Insert(value, value); } bool visited[ARRAY_SIZE(values)] = {}; intptr_t count = 0; auto it = map.GetIterator(); for (auto* p = it.Next(); p != nullptr; p = it.Next()) { ++count; bool found = false; intptr_t i = 0; for (intptr_t v : values) { if (v == p->key) { EXPECT(v == p->value); EXPECT(!visited[i]); visited[i] = true; found = true; break; } ++i; } EXPECT(found); } EXPECT(count == ARRAY_SIZE(values)); for (bool is_visited : visited) { EXPECT(is_visited); } } TEST_CASE(ZoneCStringSet) { auto zone = thread->zone(); const char* const kConst1 = "test"; const char* const kConst2 = "test 2"; char* const str1 = OS::SCreate(zone, "%s", kConst1); char* const str2 = OS::SCreate(zone, "%s", kConst2); char* const str3 = OS::SCreate(zone, "%s", kConst1); // Make sure these strings are pointer-distinct, but C-string-equal. EXPECT_NE(str1, str3); EXPECT_STREQ(str1, str3); auto const set = new (zone) ZoneCStringSet(zone); EXPECT(set->IsEmpty()); set->Insert(str1); EXPECT_NOTNULL(set->Lookup(str1)); EXPECT_NULLPTR(set->Lookup(str2)); EXPECT_NOTNULL(set->Lookup(str3)); set->Insert(str2); EXPECT_NOTNULL(set->Lookup(str1)); EXPECT_NOTNULL(set->Lookup(str2)); EXPECT_NOTNULL(set->Lookup(str3)); EXPECT(set->Remove(str3)); EXPECT_NULLPTR(set->Lookup(str1)); EXPECT_NOTNULL(set->Lookup(str2)); EXPECT_NULLPTR(set->Lookup(str3)); EXPECT(!set->Remove(str3)); EXPECT(set->Remove(str2)); EXPECT(set->IsEmpty()); } TEST_CASE(CStringIntMap) { const char* const kConst1 = "test"; const char* const kConst2 = "test 2"; char* const str1 = OS::SCreate(nullptr, "%s", kConst1); char* const str2 = OS::SCreate(nullptr, "%s", kConst2); char* const str3 = OS::SCreate(nullptr, "%s", kConst1); // Make sure these strings are pointer-distinct, but C-string-equal. EXPECT_NE(str1, str3); EXPECT_STREQ(str1, str3); const intptr_t i1 = 1; const intptr_t i2 = 2; CStringIntMap map; EXPECT(map.IsEmpty()); map.Insert({str1, i1}); EXPECT_NOTNULL(map.Lookup(str1)); EXPECT_EQ(i1, map.LookupValue(str1)); EXPECT_NULLPTR(map.Lookup(str2)); EXPECT_NOTNULL(map.Lookup(str3)); EXPECT_EQ(i1, map.LookupValue(str3)); map.Insert({str2, i2}); EXPECT_NOTNULL(map.Lookup(str1)); EXPECT_EQ(i1, map.LookupValue(str1)); EXPECT_NOTNULL(map.Lookup(str2)); EXPECT_EQ(i2, map.LookupValue(str2)); EXPECT_NOTNULL(map.Lookup(str3)); EXPECT_EQ(i1, map.LookupValue(str3)); EXPECT(map.Remove(str3)); EXPECT_NULLPTR(map.Lookup(str1)); EXPECT_NOTNULL(map.Lookup(str2)); EXPECT_EQ(i2, map.LookupValue(str2)); EXPECT_NULLPTR(map.Lookup(str3)); EXPECT(!map.Remove(str3)); EXPECT(map.Remove(str2)); EXPECT(map.IsEmpty()); free(str3); free(str2); free(str1); } TEST_CASE(CStringIntMapUpdate) { const char* const kConst1 = "test"; const char* const kConst2 = "test 2"; char* str1 = OS::SCreate(nullptr, "%s", kConst1); char* str2 = OS::SCreate(nullptr, "%s", kConst2); char* str3 = OS::SCreate(nullptr, "%s", kConst1); char* str4 = OS::SCreate(nullptr, "%s", kConst1); // Only used for lookup. // Make sure these strings are pointer-distinct, but C-string-equal. EXPECT_NE(str1, str3); EXPECT_NE(str1, str4); EXPECT_NE(str3, str4); EXPECT_STREQ(str1, str3); EXPECT_STREQ(str1, str4); CStringIntMapKeyValueTrait::Pair p1{str1, 1}; CStringIntMapKeyValueTrait::Pair p2{str2, 2}; CStringIntMapKeyValueTrait::Pair p3{str3, 3}; CStringIntMap map; EXPECT(map.IsEmpty()); map.Update(p1); EXPECT_NOTNULL(map.Lookup(str1)); EXPECT_EQ(p1.value, map.LookupValue(str1)); EXPECT_NULLPTR(map.Lookup(str2)); EXPECT_NOTNULL(map.Lookup(str3)); EXPECT_EQ(p1.value, map.LookupValue(str3)); EXPECT_NOTNULL(map.Lookup(str4)); EXPECT_EQ(p1.value, map.LookupValue(str4)); map.Update(p2); EXPECT_NOTNULL(map.Lookup(str1)); EXPECT_EQ(p1.value, map.LookupValue(str1)); EXPECT_NOTNULL(map.Lookup(str2)); EXPECT_EQ(p2.value, map.LookupValue(str2)); EXPECT_NOTNULL(map.Lookup(str3)); EXPECT_EQ(p1.value, map.LookupValue(str3)); EXPECT_NOTNULL(map.Lookup(str4)); EXPECT_EQ(p1.value, map.LookupValue(str4)); // Check Lookup after Update. map.Update(p3); EXPECT_NOTNULL(map.Lookup(str1)); EXPECT_EQ(p3.value, map.LookupValue(str1)); EXPECT_NOTNULL(map.Lookup(str2)); EXPECT_EQ(p2.value, map.LookupValue(str2)); EXPECT_NOTNULL(map.Lookup(str3)); EXPECT_EQ(p3.value, map.LookupValue(str3)); EXPECT_NOTNULL(map.Lookup(str4)); EXPECT_EQ(p3.value, map.LookupValue(str4)); // Check that single Remove after only Updates ensures Lookup fails after. EXPECT(map.Remove(str3)); EXPECT_NULLPTR(map.Lookup(str1)); EXPECT_NOTNULL(map.Lookup(str2)); EXPECT_EQ(p2.value, map.LookupValue(str2)); EXPECT_NULLPTR(map.Lookup(str3)); EXPECT_NULLPTR(map.Lookup(str4)); EXPECT(!map.Remove(str3)); EXPECT(map.Remove(str2)); EXPECT(map.IsEmpty()); // Quick double-check that these weren't side-effected by the implementation // of hash maps (p1 especially). EXPECT_EQ(str1, p1.key); EXPECT_EQ(1, p1.value); EXPECT_EQ(str2, p2.key); EXPECT_EQ(2, p2.value); EXPECT_EQ(str3, p3.key); EXPECT_EQ(3, p3.value); free(str4); free(str3); free(str2); free(str1); } } // namespace dart