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// Copyright 2018 The Abseil Authors.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// https://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#include "absl/container/internal/hash_function_defaults.h"
#include <functional>
#include <type_traits>
#include <utility>
#include "gtest/gtest.h"
#include "absl/random/random.h"
#include "absl/strings/cord.h"
#include "absl/strings/cord_test_helpers.h"
#include "absl/strings/string_view.h"
namespace absl {
ABSL_NAMESPACE_BEGIN
namespace container_internal {
namespace {
using ::testing::Types;
TEST(Eq, Int32) {
hash_default_eq<int32_t> eq;
EXPECT_TRUE(eq(1, 1u));
EXPECT_TRUE(eq(1, char{1}));
EXPECT_TRUE(eq(1, true));
EXPECT_TRUE(eq(1, double{1.1}));
EXPECT_FALSE(eq(1, char{2}));
EXPECT_FALSE(eq(1, 2u));
EXPECT_FALSE(eq(1, false));
EXPECT_FALSE(eq(1, 2.));
}
TEST(Hash, Int32) {
hash_default_hash<int32_t> hash;
auto h = hash(1);
EXPECT_EQ(h, hash(1u));
EXPECT_EQ(h, hash(char{1}));
EXPECT_EQ(h, hash(true));
EXPECT_EQ(h, hash(double{1.1}));
EXPECT_NE(h, hash(2u));
EXPECT_NE(h, hash(char{2}));
EXPECT_NE(h, hash(false));
EXPECT_NE(h, hash(2.));
}
enum class MyEnum { A, B, C, D };
TEST(Eq, Enum) {
hash_default_eq<MyEnum> eq;
EXPECT_TRUE(eq(MyEnum::A, MyEnum::A));
EXPECT_FALSE(eq(MyEnum::A, MyEnum::B));
}
TEST(Hash, Enum) {
hash_default_hash<MyEnum> hash;
for (MyEnum e : {MyEnum::A, MyEnum::B, MyEnum::C}) {
auto h = hash(e);
EXPECT_EQ(h, hash_default_hash<int>{}(static_cast<int>(e)));
EXPECT_NE(h, hash(MyEnum::D));
}
}
using StringTypes = ::testing::Types<std::string, absl::string_view>;
template <class T>
struct EqString : ::testing::Test {
hash_default_eq<T> key_eq;
};
TYPED_TEST_SUITE(EqString, StringTypes);
template <class T>
struct HashString : ::testing::Test {
hash_default_hash<T> hasher;
};
TYPED_TEST_SUITE(HashString, StringTypes);
TYPED_TEST(EqString, Works) {
auto eq = this->key_eq;
EXPECT_TRUE(eq("a", "a"));
EXPECT_TRUE(eq("a", absl::string_view("a")));
EXPECT_TRUE(eq("a", std::string("a")));
EXPECT_FALSE(eq("a", "b"));
EXPECT_FALSE(eq("a", absl::string_view("b")));
EXPECT_FALSE(eq("a", std::string("b")));
}
TYPED_TEST(HashString, Works) {
auto hash = this->hasher;
auto h = hash("a");
EXPECT_EQ(h, hash(absl::string_view("a")));
EXPECT_EQ(h, hash(std::string("a")));
EXPECT_NE(h, hash(absl::string_view("b")));
EXPECT_NE(h, hash(std::string("b")));
}
struct NoDeleter {
template <class T>
void operator()(const T* ptr) const {}
};
using PointerTypes =
::testing::Types<const int*, int*, std::unique_ptr<const int>,
std::unique_ptr<const int, NoDeleter>,
std::unique_ptr<int>, std::unique_ptr<int, NoDeleter>,
std::shared_ptr<const int>, std::shared_ptr<int>>;
template <class T>
struct EqPointer : ::testing::Test {
hash_default_eq<T> key_eq;
};
TYPED_TEST_SUITE(EqPointer, PointerTypes);
template <class T>
struct HashPointer : ::testing::Test {
hash_default_hash<T> hasher;
};
TYPED_TEST_SUITE(HashPointer, PointerTypes);
TYPED_TEST(EqPointer, Works) {
int dummy;
auto eq = this->key_eq;
auto sptr = std::make_shared<int>();
std::shared_ptr<const int> csptr = sptr;
int* ptr = sptr.get();
const int* cptr = ptr;
std::unique_ptr<int, NoDeleter> uptr(ptr);
std::unique_ptr<const int, NoDeleter> cuptr(ptr);
EXPECT_TRUE(eq(ptr, cptr));
EXPECT_TRUE(eq(ptr, sptr));
EXPECT_TRUE(eq(ptr, uptr));
EXPECT_TRUE(eq(ptr, csptr));
EXPECT_TRUE(eq(ptr, cuptr));
EXPECT_FALSE(eq(&dummy, cptr));
EXPECT_FALSE(eq(&dummy, sptr));
EXPECT_FALSE(eq(&dummy, uptr));
EXPECT_FALSE(eq(&dummy, csptr));
EXPECT_FALSE(eq(&dummy, cuptr));
}
TEST(Hash, DerivedAndBase) {
struct Base {};
struct Derived : Base {};
hash_default_hash<Base*> hasher;
Base base;
Derived derived;
EXPECT_NE(hasher(&base), hasher(&derived));
EXPECT_EQ(hasher(static_cast<Base*>(&derived)), hasher(&derived));
auto dp = std::make_shared<Derived>();
EXPECT_EQ(hasher(static_cast<Base*>(dp.get())), hasher(dp));
}
TEST(Hash, FunctionPointer) {
using Func = int (*)();
hash_default_hash<Func> hasher;
hash_default_eq<Func> eq;
Func p1 = [] { return 1; }, p2 = [] { return 2; };
EXPECT_EQ(hasher(p1), hasher(p1));
EXPECT_TRUE(eq(p1, p1));
EXPECT_NE(hasher(p1), hasher(p2));
EXPECT_FALSE(eq(p1, p2));
}
TYPED_TEST(HashPointer, Works) {
int dummy;
auto hash = this->hasher;
auto sptr = std::make_shared<int>();
std::shared_ptr<const int> csptr = sptr;
int* ptr = sptr.get();
const int* cptr = ptr;
std::unique_ptr<int, NoDeleter> uptr(ptr);
std::unique_ptr<const int, NoDeleter> cuptr(ptr);
EXPECT_EQ(hash(ptr), hash(cptr));
EXPECT_EQ(hash(ptr), hash(sptr));
EXPECT_EQ(hash(ptr), hash(uptr));
EXPECT_EQ(hash(ptr), hash(csptr));
EXPECT_EQ(hash(ptr), hash(cuptr));
EXPECT_NE(hash(&dummy), hash(cptr));
EXPECT_NE(hash(&dummy), hash(sptr));
EXPECT_NE(hash(&dummy), hash(uptr));
EXPECT_NE(hash(&dummy), hash(csptr));
EXPECT_NE(hash(&dummy), hash(cuptr));
}
TEST(EqCord, Works) {
hash_default_eq<absl::Cord> eq;
const absl::string_view a_string_view = "a";
const absl::Cord a_cord(a_string_view);
const absl::string_view b_string_view = "b";
const absl::Cord b_cord(b_string_view);
EXPECT_TRUE(eq(a_cord, a_cord));
EXPECT_TRUE(eq(a_cord, a_string_view));
EXPECT_TRUE(eq(a_string_view, a_cord));
EXPECT_FALSE(eq(a_cord, b_cord));
EXPECT_FALSE(eq(a_cord, b_string_view));
EXPECT_FALSE(eq(b_string_view, a_cord));
}
TEST(HashCord, Works) {
hash_default_hash<absl::Cord> hash;
const absl::string_view a_string_view = "a";
const absl::Cord a_cord(a_string_view);
const absl::string_view b_string_view = "b";
const absl::Cord b_cord(b_string_view);
EXPECT_EQ(hash(a_cord), hash(a_cord));
EXPECT_EQ(hash(b_cord), hash(b_cord));
EXPECT_EQ(hash(a_string_view), hash(a_cord));
EXPECT_EQ(hash(b_string_view), hash(b_cord));
EXPECT_EQ(hash(absl::Cord("")), hash(""));
EXPECT_EQ(hash(absl::Cord()), hash(absl::string_view()));
EXPECT_NE(hash(a_cord), hash(b_cord));
EXPECT_NE(hash(a_cord), hash(b_string_view));
EXPECT_NE(hash(a_string_view), hash(b_cord));
EXPECT_NE(hash(a_string_view), hash(b_string_view));
}
void NoOpReleaser(absl::string_view data, void* arg) {}
TEST(HashCord, FragmentedCordWorks) {
hash_default_hash<absl::Cord> hash;
absl::Cord c = absl::MakeFragmentedCord({"a", "b", "c"});
EXPECT_FALSE(c.TryFlat().has_value());
EXPECT_EQ(hash(c), hash("abc"));
}
TEST(HashCord, FragmentedLongCordWorks) {
hash_default_hash<absl::Cord> hash;
// Crete some large strings which do not fit on the stack.
std::string a(65536, 'a');
std::string b(65536, 'b');
absl::Cord c = absl::MakeFragmentedCord({a, b});
EXPECT_FALSE(c.TryFlat().has_value());
EXPECT_EQ(hash(c), hash(a + b));
}
TEST(HashCord, RandomCord) {
hash_default_hash<absl::Cord> hash;
auto bitgen = absl::BitGen();
for (int i = 0; i < 1000; ++i) {
const int number_of_segments = absl::Uniform(bitgen, 0, 10);
std::vector<std::string> pieces;
for (size_t s = 0; s < number_of_segments; ++s) {
std::string str;
str.resize(absl::Uniform(bitgen, 0, 4096));
// MSVC needed the explicit return type in the lambda.
std::generate(str.begin(), str.end(), [&]() -> char {
return static_cast<char>(absl::Uniform<unsigned char>(bitgen));
});
pieces.push_back(str);
}
absl::Cord c = absl::MakeFragmentedCord(pieces);
EXPECT_EQ(hash(c), hash(std::string(c)));
}
}
// Cartesian product of (std::string, absl::string_view)
// with (std::string, absl::string_view, const char*, absl::Cord).
using StringTypesCartesianProduct = Types<
// clang-format off
std::pair<absl::Cord, std::string>,
std::pair<absl::Cord, absl::string_view>,
std::pair<absl::Cord, absl::Cord>,
std::pair<absl::Cord, const char*>,
std::pair<std::string, absl::Cord>,
std::pair<absl::string_view, absl::Cord>,
std::pair<absl::string_view, std::string>,
std::pair<absl::string_view, absl::string_view>,
std::pair<absl::string_view, const char*>>;
// clang-format on
constexpr char kFirstString[] = "abc123";
constexpr char kSecondString[] = "ijk456";
template <typename T>
struct StringLikeTest : public ::testing::Test {
typename T::first_type a1{kFirstString};
typename T::second_type b1{kFirstString};
typename T::first_type a2{kSecondString};
typename T::second_type b2{kSecondString};
hash_default_eq<typename T::first_type> eq;
hash_default_hash<typename T::first_type> hash;
};
TYPED_TEST_CASE_P(StringLikeTest);
TYPED_TEST_P(StringLikeTest, Eq) {
EXPECT_TRUE(this->eq(this->a1, this->b1));
EXPECT_TRUE(this->eq(this->b1, this->a1));
}
TYPED_TEST_P(StringLikeTest, NotEq) {
EXPECT_FALSE(this->eq(this->a1, this->b2));
EXPECT_FALSE(this->eq(this->b2, this->a1));
}
TYPED_TEST_P(StringLikeTest, HashEq) {
EXPECT_EQ(this->hash(this->a1), this->hash(this->b1));
EXPECT_EQ(this->hash(this->a2), this->hash(this->b2));
// It would be a poor hash function which collides on these strings.
EXPECT_NE(this->hash(this->a1), this->hash(this->b2));
}
TYPED_TEST_SUITE(StringLikeTest, StringTypesCartesianProduct);
} // namespace
} // namespace container_internal
ABSL_NAMESPACE_END
} // namespace absl
enum Hash : size_t {
kStd = 0x1, // std::hash
#ifdef _MSC_VER
kExtension = kStd, // In MSVC, std::hash == ::hash
#else // _MSC_VER
kExtension = 0x2, // ::hash (GCC extension)
#endif // _MSC_VER
};
// H is a bitmask of Hash enumerations.
// Hashable<H> is hashable via all means specified in H.
template <int H>
struct Hashable {
static constexpr bool HashableBy(Hash h) { return h & H; }
};
namespace std {
template <int H>
struct hash<Hashable<H>> {
template <class E = Hashable<H>,
class = typename std::enable_if<E::HashableBy(kStd)>::type>
size_t operator()(E) const {
return kStd;
}
};
} // namespace std
namespace absl {
ABSL_NAMESPACE_BEGIN
namespace container_internal {
namespace {
template <class T>
size_t Hash(const T& v) {
return hash_default_hash<T>()(v);
}
TEST(Delegate, HashDispatch) {
EXPECT_EQ(Hash(kStd), Hash(Hashable<kStd>()));
}
} // namespace
} // namespace container_internal
ABSL_NAMESPACE_END
} // namespace absl
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