// Copyright 2017 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "base/value_iterators.h"
#include <type_traits>
#include "base/memory/ptr_util.h"
#include "base/values.h"
#include "testing/gmock/include/gmock/gmock.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace base {
namespace detail {
namespace {
// Implementation of std::equal variant that is missing in C++11.
template <class BinaryPredicate, class InputIterator1, class InputIterator2>
bool are_equal(InputIterator1 first1,
InputIterator1 last1,
InputIterator2 first2,
InputIterator2 last2,
BinaryPredicate pred) {
for (; first1 != last1 && first2 != last2; ++first1, ++first2) {
if (!pred(*first1, *first2))
return false;
}
return first1 == last1 && first2 == last2;
}
} // namespace
TEST(ValueIteratorsTest, SameDictStorage) {
static_assert(std::is_same<Value::DictStorage, DictStorage>::value,
"DictStorage differs between Value and Value Iterators.");
}
TEST(ValueIteratorsTest, IsAssignable) {
static_assert(
!std::is_assignable<dict_iterator::reference::first_type, std::string>(),
"Can assign strings to dict_iterator");
static_assert(
std::is_assignable<dict_iterator::reference::second_type, Value>(),
"Can't assign Values to dict_iterator");
static_assert(!std::is_assignable<const_dict_iterator::reference::first_type,
std::string>(),
"Can assign strings to const_dict_iterator");
static_assert(
!std::is_assignable<const_dict_iterator::reference::second_type, Value>(),
"Can assign Values to const_dict_iterator");
}
TEST(ValueIteratorsTest, DictIteratorOperatorStar) {
DictStorage storage;
storage.emplace("0", std::make_unique<Value>(0));
using iterator = dict_iterator;
iterator iter(storage.begin());
EXPECT_EQ("0", (*iter).first);
EXPECT_EQ(Value(0), (*iter).second);
(*iter).second = Value(1);
EXPECT_EQ(Value(1), *storage["0"]);
}
TEST(ValueIteratorsTest, DictIteratorOperatorArrow) {
DictStorage storage;
storage.emplace("0", std::make_unique<Value>(0));
using iterator = dict_iterator;
iterator iter(storage.begin());
EXPECT_EQ("0", iter->first);
EXPECT_EQ(Value(0), iter->second);
iter->second = Value(1);
EXPECT_EQ(Value(1), *storage["0"]);
}
TEST(ValueIteratorsTest, DictIteratorPreIncrement) {
DictStorage storage;
storage.emplace("0", std::make_unique<Value>(0));
storage.emplace("1", std::make_unique<Value>(1));
using iterator = dict_iterator;
iterator iter(storage.begin());
EXPECT_EQ("0", iter->first);
EXPECT_EQ(Value(0), iter->second);
iterator& iter_ref = ++iter;
EXPECT_EQ(&iter, &iter_ref);
EXPECT_EQ("1", iter_ref->first);
EXPECT_EQ(Value(1), iter_ref->second);
}
TEST(ValueIteratorsTest, DictIteratorPostIncrement) {
DictStorage storage;
storage.emplace("0", std::make_unique<Value>(0));
storage.emplace("1", std::make_unique<Value>(1));
using iterator = dict_iterator;
iterator iter(storage.begin());
iterator iter_old = iter++;
EXPECT_EQ("0", iter_old->first);
EXPECT_EQ(Value(0), iter_old->second);
EXPECT_EQ("1", iter->first);
EXPECT_EQ(Value(1), iter->second);
}
TEST(ValueIteratorsTest, DictIteratorPreDecrement) {
DictStorage storage;
storage.emplace("0", std::make_unique<Value>(0));
storage.emplace("1", std::make_unique<Value>(1));
using iterator = dict_iterator;
iterator iter(++storage.begin());
EXPECT_EQ("1", iter->first);
EXPECT_EQ(Value(1), iter->second);
iterator& iter_ref = --iter;
EXPECT_EQ(&iter, &iter_ref);
EXPECT_EQ("0", iter_ref->first);
EXPECT_EQ(Value(0), iter_ref->second);
}
TEST(ValueIteratorsTest, DictIteratorPostDecrement) {
DictStorage storage;
storage.emplace("0", std::make_unique<Value>(0));
storage.emplace("1", std::make_unique<Value>(1));
using iterator = dict_iterator;
iterator iter(++storage.begin());
iterator iter_old = iter--;
EXPECT_EQ("1", iter_old->first);
EXPECT_EQ(Value(1), iter_old->second);
EXPECT_EQ("0", iter->first);
EXPECT_EQ(Value(0), iter->second);
}
TEST(ValueIteratorsTest, DictIteratorOperatorEQ) {
DictStorage storage;
using iterator = dict_iterator;
EXPECT_EQ(iterator(storage.begin()), iterator(storage.begin()));
EXPECT_EQ(iterator(storage.end()), iterator(storage.end()));
}
TEST(ValueIteratorsTest, DictIteratorOperatorNE) {
DictStorage storage;
storage.emplace("0", std::make_unique<Value>(0));
using iterator = dict_iterator;
EXPECT_NE(iterator(storage.begin()), iterator(storage.end()));
}
TEST(ValueIteratorsTest, ConstDictIteratorOperatorStar) {
DictStorage storage;
storage.emplace("0", std::make_unique<Value>(0));
using iterator = const_dict_iterator;
iterator iter(storage.begin());
EXPECT_EQ("0", (*iter).first);
EXPECT_EQ(Value(0), (*iter).second);
}
TEST(ValueIteratorsTest, ConstDictIteratorOperatorArrow) {
DictStorage storage;
storage.emplace("0", std::make_unique<Value>(0));
using iterator = const_dict_iterator;
iterator iter(storage.begin());
EXPECT_EQ("0", iter->first);
EXPECT_EQ(Value(0), iter->second);
}
TEST(ValueIteratorsTest, ConstDictIteratorPreIncrement) {
DictStorage storage;
storage.emplace("0", std::make_unique<Value>(0));
storage.emplace("1", std::make_unique<Value>(1));
using iterator = const_dict_iterator;
iterator iter(storage.begin());
EXPECT_EQ("0", iter->first);
EXPECT_EQ(Value(0), iter->second);
iterator& iter_ref = ++iter;
EXPECT_EQ(&iter, &iter_ref);
EXPECT_EQ("1", iter_ref->first);
EXPECT_EQ(Value(1), iter_ref->second);
}
TEST(ValueIteratorsTest, ConstDictIteratorPostIncrement) {
DictStorage storage;
storage.emplace("0", std::make_unique<Value>(0));
storage.emplace("1", std::make_unique<Value>(1));
using iterator = const_dict_iterator;
iterator iter(storage.begin());
iterator iter_old = iter++;
EXPECT_EQ("0", iter_old->first);
EXPECT_EQ(Value(0), iter_old->second);
EXPECT_EQ("1", iter->first);
EXPECT_EQ(Value(1), iter->second);
}
TEST(ValueIteratorsTest, ConstDictIteratorPreDecrement) {
DictStorage storage;
storage.emplace("0", std::make_unique<Value>(0));
storage.emplace("1", std::make_unique<Value>(1));
using iterator = const_dict_iterator;
iterator iter(++storage.begin());
EXPECT_EQ("1", iter->first);
EXPECT_EQ(Value(1), iter->second);
iterator& iter_ref = --iter;
EXPECT_EQ(&iter, &iter_ref);
EXPECT_EQ("0", iter_ref->first);
EXPECT_EQ(Value(0), iter_ref->second);
}
TEST(ValueIteratorsTest, ConstDictIteratorPostDecrement) {
DictStorage storage;
storage.emplace("0", std::make_unique<Value>(0));
storage.emplace("1", std::make_unique<Value>(1));
using iterator = const_dict_iterator;
iterator iter(++storage.begin());
iterator iter_old = iter--;
EXPECT_EQ("1", iter_old->first);
EXPECT_EQ(Value(1), iter_old->second);
EXPECT_EQ("0", iter->first);
EXPECT_EQ(Value(0), iter->second);
}
TEST(ValueIteratorsTest, ConstDictIteratorOperatorEQ) {
DictStorage storage;
using iterator = const_dict_iterator;
EXPECT_EQ(iterator(storage.begin()), iterator(storage.begin()));
EXPECT_EQ(iterator(storage.end()), iterator(storage.end()));
}
TEST(ValueIteratorsTest, ConstDictIteratorOperatorNE) {
DictStorage storage;
storage.emplace("0", std::make_unique<Value>(0));
using iterator = const_dict_iterator;
EXPECT_NE(iterator(storage.begin()), iterator(storage.end()));
}
TEST(ValueIteratorsTest, DictIteratorProxy) {
DictStorage storage;
storage.emplace("null", std::make_unique<Value>(Value::Type::NONE));
storage.emplace("bool", std::make_unique<Value>(Value::Type::BOOLEAN));
storage.emplace("int", std::make_unique<Value>(Value::Type::INTEGER));
storage.emplace("double", std::make_unique<Value>(Value::Type::DOUBLE));
storage.emplace("string", std::make_unique<Value>(Value::Type::STRING));
storage.emplace("blob", std::make_unique<Value>(Value::Type::BINARY));
storage.emplace("dict", std::make_unique<Value>(Value::Type::DICTIONARY));
storage.emplace("list", std::make_unique<Value>(Value::Type::LIST));
using iterator = const_dict_iterator;
using iterator_proxy = dict_iterator_proxy;
iterator_proxy proxy(&storage);
auto equal_to = [](const DictStorage::value_type& lhs,
const iterator::reference& rhs) {
return std::tie(lhs.first, *lhs.second) == std::tie(rhs.first, rhs.second);
};
EXPECT_TRUE(are_equal(storage.begin(), storage.end(), proxy.begin(),
proxy.end(), equal_to));
EXPECT_TRUE(are_equal(storage.rbegin(), storage.rend(), proxy.rbegin(),
proxy.rend(), equal_to));
EXPECT_TRUE(are_equal(storage.cbegin(), storage.cend(), proxy.cbegin(),
proxy.cend(), equal_to));
EXPECT_TRUE(are_equal(storage.crbegin(), storage.crend(), proxy.crbegin(),
proxy.crend(), equal_to));
}
TEST(ValueIteratorsTest, ConstDictIteratorProxy) {
DictStorage storage;
storage.emplace("null", std::make_unique<Value>(Value::Type::NONE));
storage.emplace("bool", std::make_unique<Value>(Value::Type::BOOLEAN));
storage.emplace("int", std::make_unique<Value>(Value::Type::INTEGER));
storage.emplace("double", std::make_unique<Value>(Value::Type::DOUBLE));
storage.emplace("string", std::make_unique<Value>(Value::Type::STRING));
storage.emplace("blob", std::make_unique<Value>(Value::Type::BINARY));
storage.emplace("dict", std::make_unique<Value>(Value::Type::DICTIONARY));
storage.emplace("list", std::make_unique<Value>(Value::Type::LIST));
using iterator = const_dict_iterator;
using iterator_proxy = const_dict_iterator_proxy;
iterator_proxy proxy(&storage);
auto equal_to = [](const DictStorage::value_type& lhs,
const iterator::reference& rhs) {
return std::tie(lhs.first, *lhs.second) == std::tie(rhs.first, rhs.second);
};
EXPECT_TRUE(are_equal(storage.begin(), storage.end(), proxy.begin(),
proxy.end(), equal_to));
EXPECT_TRUE(are_equal(storage.rbegin(), storage.rend(), proxy.rbegin(),
proxy.rend(), equal_to));
EXPECT_TRUE(are_equal(storage.cbegin(), storage.cend(), proxy.cbegin(),
proxy.cend(), equal_to));
EXPECT_TRUE(are_equal(storage.crbegin(), storage.crend(), proxy.crbegin(),
proxy.crend(), equal_to));
}
} // namespace detail
} // namespace base