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flutter_flutter/engine/wtf/ListHashSetTest.cpp
Eric Seidel e0fd75b5ab Make absolute and sort all Sky headers 
This caused us to lose our gn check certification. :(

Turns out gn check was just ignoring all the header
paths it didn't understand and so gn check passing
for sky wasn't meaning much.  I tried to straighten
out some of the mess in this CL, but its going to take
several more rounds of massaging before gn check
passes again.  On the bright side (almost) all of
our headers are absolute now.  Turns out my script
(attached to the bug) didn't notice ../ includes
but I'll fix that in the next patch.

R=abarth@chromium.org
BUG=435361

Review URL: https://codereview.chromium.org/746023002
2014-11-20 17:42:05 -08:00

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/*
* Copyright (C) 2012 Apple Inc. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS''
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
* THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
* THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "sky/engine/config.h"
#include <gtest/gtest.h>
#include "sky/engine/wtf/LinkedHashSet.h"
#include "sky/engine/wtf/ListHashSet.h"
#include "sky/engine/wtf/PassRefPtr.h"
#include "sky/engine/wtf/RefCounted.h"
#include "sky/engine/wtf/RefPtr.h"
namespace {
template<typename Set>
void removeFirstHelper()
{
Set list;
list.add(-1);
list.add(0);
list.add(1);
list.add(2);
list.add(3);
EXPECT_EQ(-1, list.first());
EXPECT_EQ(3, list.last());
list.removeFirst();
EXPECT_EQ(0, list.first());
list.removeLast();
EXPECT_EQ(2, list.last());
list.removeFirst();
EXPECT_EQ(1, list.first());
list.removeFirst();
EXPECT_EQ(2, list.first());
list.removeFirst();
EXPECT_TRUE(list.isEmpty());
}
TEST(ListHashSetTest, RemoveFirst)
{
removeFirstHelper<ListHashSet<int> >();
removeFirstHelper<ListHashSet<int, 1> >();
}
TEST(LinkedHashSetTest, RemoveFirst)
{
removeFirstHelper<LinkedHashSet<int> >();
}
template<typename Set>
void appendOrMoveToLastNewItems()
{
Set list;
typename Set::AddResult result = list.appendOrMoveToLast(1);
EXPECT_TRUE(result.isNewEntry);
result = list.add(2);
EXPECT_TRUE(result.isNewEntry);
result = list.appendOrMoveToLast(3);
EXPECT_TRUE(result.isNewEntry);
EXPECT_EQ(list.size(), 3UL);
// The list should be in order 1, 2, 3.
typename Set::iterator iterator = list.begin();
EXPECT_EQ(1, *iterator);
++iterator;
EXPECT_EQ(2, *iterator);
++iterator;
EXPECT_EQ(3, *iterator);
++iterator;
}
TEST(ListHashSetTest, AppendOrMoveToLastNewItems)
{
appendOrMoveToLastNewItems<ListHashSet<int> >();
appendOrMoveToLastNewItems<ListHashSet<int, 1> >();
}
TEST(LinkedHashSetTest, AppendOrMoveToLastNewItems)
{
appendOrMoveToLastNewItems<LinkedHashSet<int> >();
}
template<typename Set>
void appendOrMoveToLastWithDuplicates()
{
Set list;
// Add a single element twice.
typename Set::AddResult result = list.add(1);
EXPECT_TRUE(result.isNewEntry);
result = list.appendOrMoveToLast(1);
EXPECT_FALSE(result.isNewEntry);
EXPECT_EQ(1UL, list.size());
list.add(2);
list.add(3);
EXPECT_EQ(3UL, list.size());
// Appending 2 move it to the end.
EXPECT_EQ(3, list.last());
result = list.appendOrMoveToLast(2);
EXPECT_FALSE(result.isNewEntry);
EXPECT_EQ(2, list.last());
// Inverse the list by moving each element to end end.
result = list.appendOrMoveToLast(3);
EXPECT_FALSE(result.isNewEntry);
result = list.appendOrMoveToLast(2);
EXPECT_FALSE(result.isNewEntry);
result = list.appendOrMoveToLast(1);
EXPECT_FALSE(result.isNewEntry);
EXPECT_EQ(3UL, list.size());
typename Set::iterator iterator = list.begin();
EXPECT_EQ(3, *iterator);
++iterator;
EXPECT_EQ(2, *iterator);
++iterator;
EXPECT_EQ(1, *iterator);
++iterator;
}
TEST(ListHashSetTest, AppendOrMoveToLastWithDuplicates)
{
appendOrMoveToLastWithDuplicates<ListHashSet<int> >();
appendOrMoveToLastWithDuplicates<ListHashSet<int, 1> >();
}
TEST(LinkedHashSetTest, AppendOrMoveToLastWithDuplicates)
{
appendOrMoveToLastWithDuplicates<LinkedHashSet<int> >();
}
template<typename Set>
void prependOrMoveToFirstNewItems()
{
Set list;
typename Set::AddResult result = list.prependOrMoveToFirst(1);
EXPECT_TRUE(result.isNewEntry);
result = list.add(2);
EXPECT_TRUE(result.isNewEntry);
result = list.prependOrMoveToFirst(3);
EXPECT_TRUE(result.isNewEntry);
EXPECT_EQ(list.size(), 3UL);
// The list should be in order 3, 1, 2.
typename Set::iterator iterator = list.begin();
EXPECT_EQ(3, *iterator);
++iterator;
EXPECT_EQ(1, *iterator);
++iterator;
EXPECT_EQ(2, *iterator);
++iterator;
}
TEST(ListHashSetTest, PrependOrMoveToFirstNewItems)
{
prependOrMoveToFirstNewItems<ListHashSet<int> >();
prependOrMoveToFirstNewItems<ListHashSet<int, 1> >();
}
TEST(LinkedHashSetTest, PrependOrMoveToFirstNewItems)
{
prependOrMoveToFirstNewItems<LinkedHashSet<int> >();
}
template<typename Set>
void prependOrMoveToLastWithDuplicates()
{
Set list;
// Add a single element twice.
typename Set::AddResult result = list.add(1);
EXPECT_TRUE(result.isNewEntry);
result = list.prependOrMoveToFirst(1);
EXPECT_FALSE(result.isNewEntry);
EXPECT_EQ(1UL, list.size());
list.add(2);
list.add(3);
EXPECT_EQ(3UL, list.size());
// Prepending 2 move it to the beginning.
EXPECT_EQ(1, list.first());
result = list.prependOrMoveToFirst(2);
EXPECT_FALSE(result.isNewEntry);
EXPECT_EQ(2, list.first());
// Inverse the list by moving each element to the first position.
result = list.prependOrMoveToFirst(1);
EXPECT_FALSE(result.isNewEntry);
result = list.prependOrMoveToFirst(2);
EXPECT_FALSE(result.isNewEntry);
result = list.prependOrMoveToFirst(3);
EXPECT_FALSE(result.isNewEntry);
EXPECT_EQ(3UL, list.size());
typename Set::iterator iterator = list.begin();
EXPECT_EQ(3, *iterator);
++iterator;
EXPECT_EQ(2, *iterator);
++iterator;
EXPECT_EQ(1, *iterator);
++iterator;
}
TEST(ListHashSetTest, PrependOrMoveToLastWithDuplicates)
{
prependOrMoveToLastWithDuplicates<ListHashSet<int> >();
prependOrMoveToLastWithDuplicates<ListHashSet<int, 1> >();
}
TEST(LinkedHashSetTest, PrependOrMoveToLastWithDuplicates)
{
prependOrMoveToLastWithDuplicates<LinkedHashSet<int> >();
}
class DummyRefCounted: public WTF::RefCounted<DummyRefCounted> {
public:
DummyRefCounted(bool& isDeleted) : m_isDeleted(isDeleted) { m_isDeleted = false; }
~DummyRefCounted() { m_isDeleted = true; }
void ref()
{
WTF::RefCounted<DummyRefCounted>::ref();
++m_refInvokesCount;
}
static int m_refInvokesCount;
private:
bool& m_isDeleted;
};
int DummyRefCounted::m_refInvokesCount = 0;
template<typename Set>
void withRefPtr()
{
bool isDeleted = false;
DummyRefCounted::m_refInvokesCount = 0;
RefPtr<DummyRefCounted> ptr = adoptRef(new DummyRefCounted(isDeleted));
EXPECT_EQ(0, DummyRefCounted::m_refInvokesCount);
Set set;
set.add(ptr);
// Referenced only once (to store a copy in the container).
EXPECT_EQ(1, DummyRefCounted::m_refInvokesCount);
EXPECT_EQ(ptr, set.first());
EXPECT_EQ(1, DummyRefCounted::m_refInvokesCount);
DummyRefCounted* rawPtr = ptr.get();
EXPECT_TRUE(set.contains(ptr));
EXPECT_TRUE(set.contains(rawPtr));
EXPECT_EQ(1, DummyRefCounted::m_refInvokesCount);
ptr.clear();
EXPECT_FALSE(isDeleted);
EXPECT_EQ(1, DummyRefCounted::m_refInvokesCount);
set.remove(rawPtr);
EXPECT_TRUE(isDeleted);
EXPECT_EQ(1, DummyRefCounted::m_refInvokesCount);
}
TEST(ListHashSetTest, WithRefPtr)
{
withRefPtr<ListHashSet<RefPtr<DummyRefCounted> > >();
withRefPtr<ListHashSet<RefPtr<DummyRefCounted>, 1> >();
}
TEST(LinkedHashSetTest, WithRefPtr)
{
withRefPtr<LinkedHashSet<RefPtr<DummyRefCounted> > >();
}
template<typename Set, typename SetRef, typename Iterator>
void findHelper()
{
Set set;
set.add(-1);
set.add(0);
set.add(1);
set.add(2);
set.add(3);
SetRef ref = set;
Iterator it = ref.find(2);
EXPECT_EQ(2, *it);
++it;
EXPECT_EQ(3, *it);
--it;
--it;
EXPECT_EQ(1, *it);
}
TEST(ListHashSetTest, Find)
{
findHelper<ListHashSet<int>, const ListHashSet<int>&, ListHashSet<int>::const_iterator>();
findHelper<ListHashSet<int>, ListHashSet<int>&, ListHashSet<int>::iterator>();
findHelper<ListHashSet<int, 1>, const ListHashSet<int, 1>&, ListHashSet<int, 1>::const_iterator>();
findHelper<ListHashSet<int, 1>, ListHashSet<int, 1>&, ListHashSet<int, 1>::iterator>();
}
TEST(LinkedHashSetTest, Find)
{
findHelper<LinkedHashSet<int>, const LinkedHashSet<int>&, LinkedHashSet<int>::const_iterator>();
findHelper<LinkedHashSet<int>, LinkedHashSet<int>&, LinkedHashSet<int>::iterator>();
}
template<typename Set>
void insertBeforeHelper(bool canModifyWhileIterating)
{
Set set;
set.add(-1);
set.add(0);
set.add(2);
set.add(3);
typename Set::iterator it = set.find(2);
EXPECT_EQ(2, *it);
set.insertBefore(it, 1);
if (!canModifyWhileIterating)
it = set.find(2);
++it;
EXPECT_EQ(3, *it);
EXPECT_EQ(5u, set.size());
--it;
--it;
EXPECT_EQ(1, *it);
if (canModifyWhileIterating) {
set.remove(-1);
set.remove(0);
set.remove(2);
set.remove(3);
EXPECT_EQ(1u, set.size());
EXPECT_EQ(1, *it);
++it;
EXPECT_EQ(it, set.end());
--it;
EXPECT_EQ(1, *it);
set.insertBefore(it, -1);
set.insertBefore(it, 0);
set.add(2);
set.add(3);
}
set.insertBefore(2, 42);
set.insertBefore(-1, 103);
EXPECT_EQ(103, set.first());
if (!canModifyWhileIterating)
it = set.find(1);
++it;
EXPECT_EQ(42, *it);
EXPECT_EQ(7u, set.size());
}
TEST(ListHashSetTest, InsertBefore)
{
insertBeforeHelper<ListHashSet<int> >(true);
insertBeforeHelper<ListHashSet<int, 1> >(true);
}
TEST(LinkedHashSetTest, InsertBefore)
{
insertBeforeHelper<LinkedHashSet<int> >(false);
}
template<typename Set>
void addReturnIterator(bool canModifyWhileIterating)
{
Set set;
set.add(-1);
set.add(0);
set.add(1);
set.add(2);
typename Set::iterator it = set.addReturnIterator(3);
EXPECT_EQ(3, *it);
--it;
EXPECT_EQ(2, *it);
EXPECT_EQ(5u, set.size());
--it;
EXPECT_EQ(1, *it);
--it;
EXPECT_EQ(0, *it);
it = set.addReturnIterator(4);
if (canModifyWhileIterating) {
set.remove(3);
set.remove(2);
set.remove(1);
set.remove(0);
set.remove(-1);
EXPECT_EQ(1u, set.size());
}
EXPECT_EQ(4, *it);
++it;
EXPECT_EQ(it, set.end());
--it;
EXPECT_EQ(4, *it);
if (canModifyWhileIterating) {
set.insertBefore(it, -1);
set.insertBefore(it, 0);
set.insertBefore(it, 1);
set.insertBefore(it, 2);
set.insertBefore(it, 3);
}
EXPECT_EQ(6u, set.size());
it = set.addReturnIterator(5);
EXPECT_EQ(7u, set.size());
set.remove(it);
EXPECT_EQ(6u, set.size());
EXPECT_EQ(4, set.last());
}
TEST(ListHashSetTest, AddReturnIterator)
{
addReturnIterator<ListHashSet<int> >(true);
addReturnIterator<ListHashSet<int, 1> >(true);
}
TEST(LinkedHashSetTest, AddReturnIterator)
{
addReturnIterator<LinkedHashSet<int> >(false);
}
template<typename Set>
void excerciseValuePeekInType()
{
Set set;
bool isDeleted = false;
bool isDeleted2 = false;
RefPtr<DummyRefCounted> ptr = adoptRef(new DummyRefCounted(isDeleted));
RefPtr<DummyRefCounted> ptr2 = adoptRef(new DummyRefCounted(isDeleted2));
typename Set::AddResult addResult = set.add(ptr);
EXPECT_TRUE(addResult.isNewEntry);
set.find(ptr);
const Set& constSet(set);
constSet.find(ptr);
EXPECT_TRUE(set.contains(ptr));
typename Set::iterator it = set.addReturnIterator(ptr);
set.appendOrMoveToLast(ptr);
set.prependOrMoveToFirst(ptr);
set.insertBefore(ptr, ptr);
set.insertBefore(it, ptr);
EXPECT_EQ(1u, set.size());
set.add(ptr2);
ptr2.clear();
set.remove(ptr);
EXPECT_FALSE(isDeleted);
ptr.clear();
EXPECT_TRUE(isDeleted);
EXPECT_FALSE(isDeleted2);
set.removeFirst();
EXPECT_TRUE(isDeleted2);
EXPECT_EQ(0u, set.size());
}
TEST(ListHashSetTest, ExcerciseValuePeekInType)
{
excerciseValuePeekInType<ListHashSet<RefPtr<DummyRefCounted> > >();
excerciseValuePeekInType<ListHashSet<RefPtr<DummyRefCounted>, 1> >();
}
TEST(LinkedHashSetTest, ExcerciseValuePeekInType)
{
excerciseValuePeekInType<LinkedHashSet<RefPtr<DummyRefCounted> > >();
}
struct Simple {
Simple(int value) : m_value(value) { };
int m_value;
};
struct Complicated {
Complicated(int value) : m_simple(value)
{
s_objectsConstructed++;
}
Complicated(const Complicated& other) : m_simple(other.m_simple)
{
s_objectsConstructed++;
}
Simple m_simple;
static int s_objectsConstructed;
private:
Complicated();
};
int Complicated::s_objectsConstructed = 0;
struct ComplicatedHashFunctions {
static unsigned hash(const Complicated& key) { return key.m_simple.m_value; }
static bool equal(const Complicated& a, const Complicated& b) { return a.m_simple.m_value == b.m_simple.m_value; }
};
struct ComplexityTranslator {
static unsigned hash(const Simple& key) { return key.m_value; }
static bool equal(const Complicated& a, const Simple& b) { return a.m_simple.m_value == b.m_value; }
};
template<typename Set>
void translatorTest()
{
Set set;
set.add(Complicated(42));
int baseLine = Complicated::s_objectsConstructed;
typename Set::iterator it = set.template find<ComplexityTranslator>(Simple(42));
EXPECT_NE(it, set.end());
EXPECT_EQ(baseLine, Complicated::s_objectsConstructed);
it = set.template find<ComplexityTranslator>(Simple(103));
EXPECT_EQ(it, set.end());
EXPECT_EQ(baseLine, Complicated::s_objectsConstructed);
const Set& constSet(set);
typename Set::const_iterator constIterator = constSet.template find<ComplexityTranslator>(Simple(42));
EXPECT_NE(constIterator, constSet.end());
EXPECT_EQ(baseLine, Complicated::s_objectsConstructed);
constIterator = constSet.template find<ComplexityTranslator>(Simple(103));
EXPECT_EQ(constIterator, constSet.end());
EXPECT_EQ(baseLine, Complicated::s_objectsConstructed);
}
TEST(ListHashSetTest, ComplexityTranslator)
{
translatorTest<ListHashSet<Complicated, 256, ComplicatedHashFunctions> >();
translatorTest<ListHashSet<Complicated, 1, ComplicatedHashFunctions> >();
}
TEST(LinkedHashSetTest, ComplexityTranslator)
{
translatorTest<LinkedHashSet<Complicated, ComplicatedHashFunctions> >();
}
struct Dummy {
Dummy(bool& deleted) : deleted(deleted) { }
~Dummy()
{
deleted = true;
}
bool& deleted;
};
TEST(ListHashSetTest, WithOwnPtr)
{
bool deleted1 = false, deleted2 = false;
typedef ListHashSet<OwnPtr<Dummy> > OwnPtrSet;
OwnPtrSet set;
Dummy* ptr1 = new Dummy(deleted1);
{
// AddResult in a separate scope to avoid assertion hit,
// since we modify the container further.
OwnPtrSet::AddResult res1 = set.add(adoptPtr(ptr1));
EXPECT_EQ(res1.storedValue->m_value.get(), ptr1);
}
EXPECT_FALSE(deleted1);
EXPECT_EQ(1UL, set.size());
OwnPtrSet::iterator it1 = set.find(ptr1);
EXPECT_NE(set.end(), it1);
EXPECT_EQ(ptr1, (*it1));
Dummy* ptr2 = new Dummy(deleted2);
{
OwnPtrSet::AddResult res2 = set.add(adoptPtr(ptr2));
EXPECT_EQ(res2.storedValue->m_value.get(), ptr2);
}
EXPECT_FALSE(deleted2);
EXPECT_EQ(2UL, set.size());
OwnPtrSet::iterator it2 = set.find(ptr2);
EXPECT_NE(set.end(), it2);
EXPECT_EQ(ptr2, (*it2));
set.remove(ptr1);
EXPECT_TRUE(deleted1);
set.clear();
EXPECT_TRUE(deleted2);
EXPECT_TRUE(set.isEmpty());
deleted1 = false;
deleted2 = false;
{
OwnPtrSet set;
set.add(adoptPtr(new Dummy(deleted1)));
set.add(adoptPtr(new Dummy(deleted2)));
}
EXPECT_TRUE(deleted1);
EXPECT_TRUE(deleted2);
deleted1 = false;
deleted2 = false;
OwnPtr<Dummy> ownPtr1;
OwnPtr<Dummy> ownPtr2;
ptr1 = new Dummy(deleted1);
ptr2 = new Dummy(deleted2);
{
OwnPtrSet set;
set.add(adoptPtr(ptr1));
set.add(adoptPtr(ptr2));
ownPtr1 = set.takeFirst();
EXPECT_EQ(1UL, set.size());
ownPtr2 = set.take(ptr2);
EXPECT_TRUE(set.isEmpty());
}
EXPECT_FALSE(deleted1);
EXPECT_FALSE(deleted2);
EXPECT_EQ(ptr1, ownPtr1);
EXPECT_EQ(ptr2, ownPtr2);
}
template<typename Set>
void swapTestHelper()
{
int num = 10;
Set set0;
Set set1;
Set set2;
for (int i = 0; i < num; ++i) {
set1.add(i + 1);
set2.add(num - i);
}
typename Set::iterator it1 = set1.begin();
typename Set::iterator it2 = set2.begin();
for (int i = 0; i < num; ++i, ++it1, ++it2) {
EXPECT_EQ(*it1, i + 1);
EXPECT_EQ(*it2, num - i);
}
EXPECT_EQ(set0.begin(), set0.end());
EXPECT_EQ(it1, set1.end());
EXPECT_EQ(it2, set2.end());
// Shift sets: 2->1, 1->0, 0->2
set1.swap(set2); // Swap with non-empty sets.
set0.swap(set2); // Swap with an empty set.
it1 = set0.begin();
it2 = set1.begin();
for (int i = 0; i < num; ++i, ++it1, ++it2) {
EXPECT_EQ(*it1, i + 1);
EXPECT_EQ(*it2, num - i);
}
EXPECT_EQ(it1, set0.end());
EXPECT_EQ(it2, set1.end());
EXPECT_EQ(set2.begin(), set2.end());
int removedIndex = num >> 1;
set0.remove(removedIndex + 1);
set1.remove(num - removedIndex);
it1 = set0.begin();
it2 = set1.begin();
for (int i = 0; i < num; ++i, ++it1, ++it2) {
if (i == removedIndex)
++i;
EXPECT_EQ(*it1, i + 1);
EXPECT_EQ(*it2, num - i);
}
EXPECT_EQ(it1, set0.end());
EXPECT_EQ(it2, set1.end());
}
TEST(ListHashSetTest, Swap)
{
swapTestHelper<ListHashSet<int> >();
}
TEST(LinkedHashSetTest, Swap)
{
swapTestHelper<LinkedHashSet<int> >();
}
} // namespace
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