base/containers/contains.h - googleurl - Git at Google

 // Copyright 2020 The Chromium Authors
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef BASE_CONTAINERS_CONTAINS_H_
 #define BASE_CONTAINERS_CONTAINS_H_

 #include <type_traits>
 #include <utility>

 #include "base/ranges/algorithm.h"
 #include "base/ranges/ranges.h"

 namespace gurl_base {

 namespace internal {

 // Small helper to detect whether a given type has a nested `key_type` typedef.
 // Used below to catch misuses of the API for associative containers.
 template <typename T, typename SFINAE = void>
 struct HasKeyType : std::false_type {};

 template <typename T>
 struct HasKeyType<T, std::void_t<typename T::key_type>> : std::true_type {};

 // Probe whether a `contains` member function exists and return the result of
 // `container.contains(value)` if this is a valid expression. This is the
 // highest priority option.
 template <typename Container, typename Value>
 constexpr auto ContainsImpl(const Container& container,
                             const Value& value,
                             priority_tag<2>)
     -> decltype(container.contains(value)) {
   return container.contains(value);
 }

 // Probe whether a `find` member function exists and whether its return value
 // can be compared with `container.end()`. Intended for STL style maps and sets
 // that lack a `contains` member function.
 template <typename Container, typename Value>
 constexpr auto ContainsImpl(const Container& container,
                             const Value& value,
                             priority_tag<1>)
     -> decltype(container.find(value) != container.end()) {
   return container.find(value) != container.end();
 }

 // Probe whether a `find` member function exists and whether its return value
 // can be compared with `Container::npos`. Intended for STL style strings that
 // lack a `contains` member function.
 template <typename Container, typename Value>
 constexpr auto ContainsImpl(const Container& container,
                             const Value& value,
                             priority_tag<1>)
     -> decltype(container.find(value) != Container::npos) {
   return container.find(value) != Container::npos;
 }

 // Generic fallback option, using a linear search over `container` to find
 // `value`. Has the lowest priority. This will not compile for associative
 // containers, as this likely is a performance bug.
 template <typename Container, typename Value>
 constexpr bool ContainsImpl(const Container& container,
                             const Value& value,
                             priority_tag<0>) {
   static_assert(
       !HasKeyType<Container>::value,
       "Error: About to perform linear search on an associative container. "
       "Either use a more generic comparator (e.g. std::less<>) or, if a linear "
       "search is desired, provide an explicit projection parameter.");
   return ranges::find(container, value) != ranges::end(container);
 }

 }  // namespace internal

 // A general purpose utility to check whether `container` contains `value`. This
 // will probe whether a `contains` or `find` member function on `container`
 // exists, and fall back to a generic linear search over `container`.
 template <typename Container, typename Value>
 constexpr bool Contains(const Container& container, const Value& value) {
   return internal::ContainsImpl(container, value, internal::priority_tag<2>());
 }

 // Overload that allows to provide an additional projection invocable. This
 // projection will be applied to every element in `container` before comparing
 // it with `value`. This will always perform a linear search.
 template <typename Container, typename Value, typename Proj>
 constexpr bool Contains(const Container& container,
                         const Value& value,
                         Proj proj) {
   return ranges::find(container, value, std::move(proj)) !=
          ranges::end(container);
 }

 }  // namespace base

 #endif  // BASE_CONTAINERS_CONTAINS_H_
	// Copyright 2020 The Chromium Authors
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef BASE_CONTAINERS_CONTAINS_H_
	#define BASE_CONTAINERS_CONTAINS_H_

	#include <type_traits>
	#include <utility>

	#include "base/ranges/algorithm.h"
	#include "base/ranges/ranges.h"

	namespace gurl_base {

	namespace internal {

	// Small helper to detect whether a given type has a nested `key_type` typedef.
	// Used below to catch misuses of the API for associative containers.
	template <typename T, typename SFINAE = void>
	struct HasKeyType : std::false_type {};

	template <typename T>
	struct HasKeyType<T, std::void_t<typename T::key_type>> : std::true_type {};

	// Probe whether a `contains` member function exists and return the result of
	// `container.contains(value)` if this is a valid expression. This is the
	// highest priority option.
	template <typename Container, typename Value>
	constexpr auto ContainsImpl(const Container& container,
	const Value& value,
	priority_tag<2>)
	-> decltype(container.contains(value)) {
	return container.contains(value);
	}

	// Probe whether a `find` member function exists and whether its return value
	// can be compared with `container.end()`. Intended for STL style maps and sets
	// that lack a `contains` member function.
	template <typename Container, typename Value>
	constexpr auto ContainsImpl(const Container& container,
	const Value& value,
	priority_tag<1>)
	-> decltype(container.find(value) != container.end()) {
	return container.find(value) != container.end();
	}

	// Probe whether a `find` member function exists and whether its return value
	// can be compared with `Container::npos`. Intended for STL style strings that
	// lack a `contains` member function.
	template <typename Container, typename Value>
	constexpr auto ContainsImpl(const Container& container,
	const Value& value,
	priority_tag<1>)
	-> decltype(container.find(value) != Container::npos) {
	return container.find(value) != Container::npos;
	}

	// Generic fallback option, using a linear search over `container` to find
	// `value`. Has the lowest priority. This will not compile for associative
	// containers, as this likely is a performance bug.
	template <typename Container, typename Value>
	constexpr bool ContainsImpl(const Container& container,
	const Value& value,
	priority_tag<0>) {
	static_assert(
	!HasKeyType<Container>::value,
	"Error: About to perform linear search on an associative container. "
	"Either use a more generic comparator (e.g. std::less<>) or, if a linear "
	"search is desired, provide an explicit projection parameter.");
	return ranges::find(container, value) != ranges::end(container);
	}

	} // namespace internal

	// A general purpose utility to check whether `container` contains `value`. This
	// will probe whether a `contains` or `find` member function on `container`
	// exists, and fall back to a generic linear search over `container`.
	template <typename Container, typename Value>
	constexpr bool Contains(const Container& container, const Value& value) {
	return internal::ContainsImpl(container, value, internal::priority_tag<2>());
	}

	// Overload that allows to provide an additional projection invocable. This
	// projection will be applied to every element in `container` before comparing
	// it with `value`. This will always perform a linear search.
	template <typename Container, typename Value, typename Proj>
	constexpr bool Contains(const Container& container,
	const Value& value,
	Proj proj) {
	return ranges::find(container, value, std::move(proj)) !=
	ranges::end(container);
	}

	} // namespace base

	#endif // BASE_CONTAINERS_CONTAINS_H_