absl/functional/bind_front_test.cc - mirrors/cros/chromiumos/third_party/webrtc-apm - Git at Google

 // 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/functional/bind_front.h"

 #include <stddef.h>

 #include <functional>
 #include <memory>
 #include <string>

 #include "gmock/gmock.h"
 #include "gtest/gtest.h"
 #include "absl/memory/memory.h"

 namespace {

 char CharAt(const char* s, size_t index) { return s[index]; }

 TEST(BindTest, Basics) {
   EXPECT_EQ('C', absl::bind_front(CharAt)("ABC", 2));
   EXPECT_EQ('C', absl::bind_front(CharAt, "ABC")(2));
   EXPECT_EQ('C', absl::bind_front(CharAt, "ABC", 2)());
 }

 TEST(BindTest, Lambda) {
   auto lambda = [](int x, int y, int z) { return x + y + z; };
   EXPECT_EQ(6, absl::bind_front(lambda)(1, 2, 3));
   EXPECT_EQ(6, absl::bind_front(lambda, 1)(2, 3));
   EXPECT_EQ(6, absl::bind_front(lambda, 1, 2)(3));
   EXPECT_EQ(6, absl::bind_front(lambda, 1, 2, 3)());
 }

 struct Functor {
   std::string operator()() & { return "&"; }
   std::string operator()() const& { return "const&"; }
   std::string operator()() && { return "&&"; }
   std::string operator()() const&& { return "const&&"; }
 };

 TEST(BindTest, PerfectForwardingOfBoundArgs) {
   auto f = absl::bind_front(Functor());
   const auto& cf = f;
   EXPECT_EQ("&", f());
   EXPECT_EQ("const&", cf());
   EXPECT_EQ("&&", std::move(f)());
   EXPECT_EQ("const&&", std::move(cf)());
 }

 struct ArgDescribe {
   std::string operator()(int&) const { return "&"; }             // NOLINT
   std::string operator()(const int&) const { return "const&"; }  // NOLINT
   std::string operator()(int&&) const { return "&&"; }
   std::string operator()(const int&&) const { return "const&&"; }
 };

 TEST(BindTest, PerfectForwardingOfFreeArgs) {
   ArgDescribe f;
   int i;
   EXPECT_EQ("&", absl::bind_front(f)(static_cast<int&>(i)));
   EXPECT_EQ("const&", absl::bind_front(f)(static_cast<const int&>(i)));
   EXPECT_EQ("&&", absl::bind_front(f)(static_cast<int&&>(i)));
   EXPECT_EQ("const&&", absl::bind_front(f)(static_cast<const int&&>(i)));
 }

 struct NonCopyableFunctor {
   NonCopyableFunctor() = default;
   NonCopyableFunctor(const NonCopyableFunctor&) = delete;
   NonCopyableFunctor& operator=(const NonCopyableFunctor&) = delete;
   const NonCopyableFunctor* operator()() const { return this; }
 };

 TEST(BindTest, RefToFunctor) {
   // It won't copy/move the functor and use the original object.
   NonCopyableFunctor ncf;
   auto bound_ncf = absl::bind_front(std::ref(ncf));
   auto bound_ncf_copy = bound_ncf;
   EXPECT_EQ(&ncf, bound_ncf_copy());
 }

 struct Struct {
   std::string value;
 };

 TEST(BindTest, StoreByCopy) {
   Struct s = {"hello"};
   auto f = absl::bind_front(&Struct::value, s);
   auto g = f;
   EXPECT_EQ("hello", f());
   EXPECT_EQ("hello", g());
   EXPECT_NE(&s.value, &f());
   EXPECT_NE(&s.value, &g());
   EXPECT_NE(&g(), &f());
 }

 struct NonCopyable {
   explicit NonCopyable(const std::string& s) : value(s) {}
   NonCopyable(const NonCopyable&) = delete;
   NonCopyable& operator=(const NonCopyable&) = delete;

   std::string value;
 };

 const std::string& GetNonCopyableValue(const NonCopyable& n) { return n.value; }

 TEST(BindTest, StoreByRef) {
   NonCopyable s("hello");
   auto f = absl::bind_front(&GetNonCopyableValue, std::ref(s));
   EXPECT_EQ("hello", f());
   EXPECT_EQ(&s.value, &f());
   auto g = std::move(f);  // NOLINT
   EXPECT_EQ("hello", g());
   EXPECT_EQ(&s.value, &g());
   s.value = "goodbye";
   EXPECT_EQ("goodbye", g());
 }

 TEST(BindTest, StoreByCRef) {
   NonCopyable s("hello");
   auto f = absl::bind_front(&GetNonCopyableValue, std::cref(s));
   EXPECT_EQ("hello", f());
   EXPECT_EQ(&s.value, &f());
   auto g = std::move(f);  // NOLINT
   EXPECT_EQ("hello", g());
   EXPECT_EQ(&s.value, &g());
   s.value = "goodbye";
   EXPECT_EQ("goodbye", g());
 }

 const std::string& GetNonCopyableValueByWrapper(
     std::reference_wrapper<NonCopyable> n) {
   return n.get().value;
 }

 TEST(BindTest, StoreByRefInvokeByWrapper) {
   NonCopyable s("hello");
   auto f = absl::bind_front(GetNonCopyableValueByWrapper, std::ref(s));
   EXPECT_EQ("hello", f());
   EXPECT_EQ(&s.value, &f());
   auto g = std::move(f);
   EXPECT_EQ("hello", g());
   EXPECT_EQ(&s.value, &g());
   s.value = "goodbye";
   EXPECT_EQ("goodbye", g());
 }

 TEST(BindTest, StoreByPointer) {
   NonCopyable s("hello");
   auto f = absl::bind_front(&NonCopyable::value, &s);
   EXPECT_EQ("hello", f());
   EXPECT_EQ(&s.value, &f());
   auto g = std::move(f);
   EXPECT_EQ("hello", g());
   EXPECT_EQ(&s.value, &g());
 }

 int Sink(std::unique_ptr<int> p) {
   return *p;
 }

 std::unique_ptr<int> Factory(int n) { return absl::make_unique<int>(n); }

 TEST(BindTest, NonCopyableArg) {
   EXPECT_EQ(42, absl::bind_front(Sink)(absl::make_unique<int>(42)));
   EXPECT_EQ(42, absl::bind_front(Sink, absl::make_unique<int>(42))());
 }

 TEST(BindTest, NonCopyableResult) {
   EXPECT_THAT(absl::bind_front(Factory)(42), ::testing::Pointee(42));
   EXPECT_THAT(absl::bind_front(Factory, 42)(), ::testing::Pointee(42));
 }

 // is_copy_constructible<FalseCopyable<unique_ptr<T>> is true but an attempt to
 // instantiate the copy constructor leads to a compile error. This is similar
 // to how standard containers behave.
 template <class T>
 struct FalseCopyable {
   FalseCopyable() {}
   FalseCopyable(const FalseCopyable& other) : m(other.m) {}
   FalseCopyable(FalseCopyable&& other) : m(std::move(other.m)) {}
   T m;
 };

 int GetMember(FalseCopyable<std::unique_ptr<int>> x) { return *x.m; }

 TEST(BindTest, WrappedMoveOnly) {
   FalseCopyable<std::unique_ptr<int>> x;
   x.m = absl::make_unique<int>(42);
   auto f = absl::bind_front(&GetMember, std::move(x));
   EXPECT_EQ(42, std::move(f)());
 }

 int Plus(int a, int b) { return a + b; }

 TEST(BindTest, ConstExpr) {
   constexpr auto f = absl::bind_front(CharAt);
   EXPECT_EQ(f("ABC", 1), 'B');
   static constexpr int five = 5;
   constexpr auto plus5 = absl::bind_front(Plus, five);
   EXPECT_EQ(plus5(1), 6);

   // There seems to be a bug in MSVC dealing constexpr construction of
   // char[]. Notice 'plus5' above; 'int' works just fine.
 #if !(defined(_MSC_VER) && _MSC_VER < 1910)
   static constexpr char data[] = "DEF";
   constexpr auto g = absl::bind_front(CharAt, data);
   EXPECT_EQ(g(1), 'E');
 #endif
 }

 struct ManglingCall {
   int operator()(int, double, std::string) const { return 0; }
 };

 TEST(BindTest, Mangling) {
   // We just want to generate a particular instantiation to see its mangling.
   absl::bind_front(ManglingCall{}, 1, 3.3)("A");
 }

 }  // namespace
	// 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/functional/bind_front.h"

	#include <stddef.h>

	#include <functional>
	#include <memory>
	#include <string>

	#include "gmock/gmock.h"
	#include "gtest/gtest.h"
	#include "absl/memory/memory.h"

	namespace {

	char CharAt(const char* s, size_t index) { return s[index]; }

	TEST(BindTest, Basics) {
	EXPECT_EQ('C', absl::bind_front(CharAt)("ABC", 2));
	EXPECT_EQ('C', absl::bind_front(CharAt, "ABC")(2));
	EXPECT_EQ('C', absl::bind_front(CharAt, "ABC", 2)());
	}

	TEST(BindTest, Lambda) {
	auto lambda = [](int x, int y, int z) { return x + y + z; };
	EXPECT_EQ(6, absl::bind_front(lambda)(1, 2, 3));
	EXPECT_EQ(6, absl::bind_front(lambda, 1)(2, 3));
	EXPECT_EQ(6, absl::bind_front(lambda, 1, 2)(3));
	EXPECT_EQ(6, absl::bind_front(lambda, 1, 2, 3)());
	}

	struct Functor {
	std::string operator()() & { return "&"; }
	std::string operator()() const& { return "const&"; }
	std::string operator()() && { return "&&"; }
	std::string operator()() const&& { return "const&&"; }
	};

	TEST(BindTest, PerfectForwardingOfBoundArgs) {
	auto f = absl::bind_front(Functor());
	const auto& cf = f;
	EXPECT_EQ("&", f());
	EXPECT_EQ("const&", cf());
	EXPECT_EQ("&&", std::move(f)());
	EXPECT_EQ("const&&", std::move(cf)());
	}

	struct ArgDescribe {
	std::string operator()(int&) const { return "&"; } // NOLINT
	std::string operator()(const int&) const { return "const&"; } // NOLINT
	std::string operator()(int&&) const { return "&&"; }
	std::string operator()(const int&&) const { return "const&&"; }
	};

	TEST(BindTest, PerfectForwardingOfFreeArgs) {
	ArgDescribe f;
	int i;
	EXPECT_EQ("&", absl::bind_front(f)(static_cast<int&>(i)));
	EXPECT_EQ("const&", absl::bind_front(f)(static_cast<const int&>(i)));
	EXPECT_EQ("&&", absl::bind_front(f)(static_cast<int&&>(i)));
	EXPECT_EQ("const&&", absl::bind_front(f)(static_cast<const int&&>(i)));
	}

	struct NonCopyableFunctor {
	NonCopyableFunctor() = default;
	NonCopyableFunctor(const NonCopyableFunctor&) = delete;
	NonCopyableFunctor& operator=(const NonCopyableFunctor&) = delete;
	const NonCopyableFunctor* operator()() const { return this; }
	};

	TEST(BindTest, RefToFunctor) {
	// It won't copy/move the functor and use the original object.
	NonCopyableFunctor ncf;
	auto bound_ncf = absl::bind_front(std::ref(ncf));
	auto bound_ncf_copy = bound_ncf;
	EXPECT_EQ(&ncf, bound_ncf_copy());
	}

	struct Struct {
	std::string value;
	};

	TEST(BindTest, StoreByCopy) {
	Struct s = {"hello"};
	auto f = absl::bind_front(&Struct::value, s);
	auto g = f;
	EXPECT_EQ("hello", f());
	EXPECT_EQ("hello", g());
	EXPECT_NE(&s.value, &f());
	EXPECT_NE(&s.value, &g());
	EXPECT_NE(&g(), &f());
	}

	struct NonCopyable {
	explicit NonCopyable(const std::string& s) : value(s) {}
	NonCopyable(const NonCopyable&) = delete;
	NonCopyable& operator=(const NonCopyable&) = delete;

	std::string value;
	};

	const std::string& GetNonCopyableValue(const NonCopyable& n) { return n.value; }

	TEST(BindTest, StoreByRef) {
	NonCopyable s("hello");
	auto f = absl::bind_front(&GetNonCopyableValue, std::ref(s));
	EXPECT_EQ("hello", f());
	EXPECT_EQ(&s.value, &f());
	auto g = std::move(f); // NOLINT
	EXPECT_EQ("hello", g());
	EXPECT_EQ(&s.value, &g());
	s.value = "goodbye";
	EXPECT_EQ("goodbye", g());
	}

	TEST(BindTest, StoreByCRef) {
	NonCopyable s("hello");
	auto f = absl::bind_front(&GetNonCopyableValue, std::cref(s));
	EXPECT_EQ("hello", f());
	EXPECT_EQ(&s.value, &f());
	auto g = std::move(f); // NOLINT
	EXPECT_EQ("hello", g());
	EXPECT_EQ(&s.value, &g());
	s.value = "goodbye";
	EXPECT_EQ("goodbye", g());
	}

	const std::string& GetNonCopyableValueByWrapper(
	std::reference_wrapper<NonCopyable> n) {
	return n.get().value;
	}

	TEST(BindTest, StoreByRefInvokeByWrapper) {
	NonCopyable s("hello");
	auto f = absl::bind_front(GetNonCopyableValueByWrapper, std::ref(s));
	EXPECT_EQ("hello", f());
	EXPECT_EQ(&s.value, &f());
	auto g = std::move(f);
	EXPECT_EQ("hello", g());
	EXPECT_EQ(&s.value, &g());
	s.value = "goodbye";
	EXPECT_EQ("goodbye", g());
	}

	TEST(BindTest, StoreByPointer) {
	NonCopyable s("hello");
	auto f = absl::bind_front(&NonCopyable::value, &s);
	EXPECT_EQ("hello", f());
	EXPECT_EQ(&s.value, &f());
	auto g = std::move(f);
	EXPECT_EQ("hello", g());
	EXPECT_EQ(&s.value, &g());
	}

	int Sink(std::unique_ptr<int> p) {
	return *p;
	}

	std::unique_ptr<int> Factory(int n) { return absl::make_unique<int>(n); }

	TEST(BindTest, NonCopyableArg) {
	EXPECT_EQ(42, absl::bind_front(Sink)(absl::make_unique<int>(42)));
	EXPECT_EQ(42, absl::bind_front(Sink, absl::make_unique<int>(42))());
	}

	TEST(BindTest, NonCopyableResult) {
	EXPECT_THAT(absl::bind_front(Factory)(42), ::testing::Pointee(42));
	EXPECT_THAT(absl::bind_front(Factory, 42)(), ::testing::Pointee(42));
	}

	// is_copy_constructible<FalseCopyable<unique_ptr<T>> is true but an attempt to
	// instantiate the copy constructor leads to a compile error. This is similar
	// to how standard containers behave.
	template <class T>
	struct FalseCopyable {
	FalseCopyable() {}
	FalseCopyable(const FalseCopyable& other) : m(other.m) {}
	FalseCopyable(FalseCopyable&& other) : m(std::move(other.m)) {}
	T m;
	};

	int GetMember(FalseCopyable<std::unique_ptr<int>> x) { return *x.m; }

	TEST(BindTest, WrappedMoveOnly) {
	FalseCopyable<std::unique_ptr<int>> x;
	x.m = absl::make_unique<int>(42);
	auto f = absl::bind_front(&GetMember, std::move(x));
	EXPECT_EQ(42, std::move(f)());
	}

	int Plus(int a, int b) { return a + b; }

	TEST(BindTest, ConstExpr) {
	constexpr auto f = absl::bind_front(CharAt);
	EXPECT_EQ(f("ABC", 1), 'B');
	static constexpr int five = 5;
	constexpr auto plus5 = absl::bind_front(Plus, five);
	EXPECT_EQ(plus5(1), 6);

	// There seems to be a bug in MSVC dealing constexpr construction of
	// char[]. Notice 'plus5' above; 'int' works just fine.
	#if !(defined(_MSC_VER) && _MSC_VER < 1910)
	static constexpr char data[] = "DEF";
	constexpr auto g = absl::bind_front(CharAt, data);
	EXPECT_EQ(g(1), 'E');
	#endif
	}

	struct ManglingCall {
	int operator()(int, double, std::string) const { return 0; }
	};

	TEST(BindTest, Mangling) {
	// We just want to generate a particular instantiation to see its mangling.
	absl::bind_front(ManglingCall{}, 1, 3.3)("A");
	}

	} // namespace