CollectionsWTF.h - chromium/src/third_party/WebKit/Source/platform/inspector_protocol - Git at Google

 // Copyright 2016 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.

 #ifndef CollectionsWTF_h
 #define CollectionsWTF_h

 #include "wtf/Allocator.h"
 #include "wtf/HashMap.h"
 #include "wtf/PtrUtil.h"
 #include "wtf/Vector.h"
 #include "wtf/VectorTraits.h"

 namespace blink {
 namespace protocol {

 template <typename T>
 class Vector {
 public:
     Vector() { }
     Vector(size_t capacity) : m_impl(capacity) { }
     typedef T* iterator;
     typedef const T* const_iterator;

     iterator begin() { return m_impl.begin(); }
     iterator end() { return m_impl.end(); }
     const_iterator begin() const { return m_impl.begin(); }
     const_iterator end() const { return m_impl.end(); }

     void resize(size_t s) { m_impl.resize(s); }
     size_t size() const { return m_impl.size(); }
     bool isEmpty() const { return m_impl.isEmpty(); }
     T& operator[](size_t i) { return at(i); }
     const T& operator[](size_t i) const { return at(i); }
     T& at(size_t i) { return m_impl.at(i); }
     const T& at(size_t i) const { return m_impl.at(i); }
     T& last() { return m_impl.last(); }
     const T& last() const { return m_impl.last(); }
     void append(const T& t) { m_impl.append(t); }
     void prepend(const T& t) { m_impl.prepend(t); }
     void remove(size_t i) { m_impl.remove(i); }
     void clear() { m_impl.clear(); }
     void swap(Vector<T>& other) { m_impl.swap(other.m_impl); }
     void removeLast() { m_impl.removeLast(); }

 private:
     WTF::Vector<T> m_impl;
 };

 template <typename T>
 class Vector<std::unique_ptr<T>> {
     WTF_MAKE_NONCOPYABLE(Vector);
 public:
     Vector() { }
     Vector(size_t capacity) : m_impl(capacity) { }
     Vector(Vector<std::unique_ptr<T>>&& other) : m_impl(std::move(other.m_impl)) { }
     ~Vector() { }

     typedef std::unique_ptr<T>* iterator;
     typedef const std::unique_ptr<T>* const_iterator;

     iterator begin() { return m_impl.begin(); }
     iterator end() { return m_impl.end(); }
     const_iterator begin() const { return m_impl.begin(); }
     const_iterator end() const { return m_impl.end(); }

     void resize(size_t s) { m_impl.resize(s); }
     size_t size() const { return m_impl.size(); }
     bool isEmpty() const { return m_impl.isEmpty(); }
     T* operator[](size_t i) { return m_impl.at(i).get(); }
     const T* operator[](size_t i) const { return m_impl.at(i).get(); }
     T* at(size_t i) { return m_impl.at(i).get(); }
     const T* at(size_t i) const { return m_impl.at(i).get(); }
     T* last() { return m_impl.last().get(); }
     const T* last() const { return m_impl.last(); }
     void append(std::unique_ptr<T> t) { m_impl.append(std::move(t)); }
     void prepend(std::unique_ptr<T> t) { m_impl.prepend(std::move(t)); }
     void remove(size_t i) { m_impl.remove(i); }
     void clear() { m_impl.clear(); }
     void swap(Vector<std::unique_ptr<T>>& other) { m_impl.swap(other.m_impl); }
     void swap(Vector<std::unique_ptr<T>>&& other) { m_impl.swap(other.m_impl); }
     void removeLast() { m_impl.removeLast(); }

 private:
     WTF::Vector<std::unique_ptr<T>> m_impl;
 };

 template <typename K, typename V, typename I>
 class HashMapIterator {
     STACK_ALLOCATED();
 public:
     HashMapIterator(const I& impl) : m_impl(impl) { }
     std::pair<K, V*>* get() const { m_pair = std::make_pair(m_impl->key, &m_impl->value); return &m_pair; }
     std::pair<K, V*>& operator*() const { return *get(); }
     std::pair<K, V*>* operator->() const { return get(); }

     bool operator==(const HashMapIterator<K, V, I>& other) const { return m_impl == other.m_impl; }
     bool operator!=(const HashMapIterator<K, V, I>& other) const { return m_impl != other.m_impl; }

     HashMapIterator<K, V, I>& operator++() { ++m_impl; return *this; }

 private:
     mutable std::pair<K, V*> m_pair;
     I m_impl;
 };

 template <typename K, typename V, typename I>
 class HashMapIterator<K, std::unique_ptr<V>, I> {
     STACK_ALLOCATED();
 public:
     HashMapIterator(const I& impl) : m_impl(impl) { }
     std::pair<K, V*>* get() const { m_pair = std::make_pair(m_impl->key, m_impl->value.get()); return &m_pair; }
     std::pair<K, V*>& operator*() const { return *get(); }
     std::pair<K, V*>* operator->() const { return get(); }

     bool operator==(const HashMapIterator<K, std::unique_ptr<V>, I>& other) const { return m_impl == other.m_impl; }
     bool operator!=(const HashMapIterator<K, std::unique_ptr<V>, I>& other) const { return m_impl != other.m_impl; }

     HashMapIterator<K, std::unique_ptr<V>, I>& operator++() { ++m_impl; return *this; }

 private:
     mutable std::pair<K, V*> m_pair;
     I m_impl;
 };

 template <typename K, typename V>
 class HashMap {
 public:
     HashMap() { }
     ~HashMap() { }

     using iterator = HashMapIterator<K, V, typename WTF::HashMap<K, V>::iterator>;
     using const_iterator = HashMapIterator<K, const V, typename WTF::HashMap<K, V>::const_iterator>;

     iterator begin() { return iterator(m_impl.begin()); }
     iterator end() { return iterator(m_impl.end()); }
     iterator find(const K& k) { return iterator(m_impl.find(k)); }
     const_iterator begin() const { return const_iterator(m_impl.begin()); }
     const_iterator end() const { return const_iterator(m_impl.end()); }
     const_iterator find(const K& k) const { return const_iterator(m_impl.find(k)); }

     size_t size() const { return m_impl.size(); }
     bool isEmpty() const { return m_impl.isEmpty(); }
     bool set(const K& k, const V& v) { return m_impl.set(k, v).isNewEntry; }
     bool contains(const K& k) const { return m_impl.contains(k); }
     V get(const K& k) const { return m_impl.get(k); }
     void remove(const K& k) { m_impl.remove(k); }
     void clear() { m_impl.clear(); }
     V take(const K& k) { return m_impl.take(k); }

 private:
     WTF::HashMap<K, V> m_impl;
 };

 template <typename K, typename V>
 class HashMap<K, std::unique_ptr<V>> {
 public:
     HashMap() { }
     ~HashMap() { }

     using iterator = HashMapIterator<K, std::unique_ptr<V>, typename WTF::HashMap<K, std::unique_ptr<V>>::iterator>;
     using const_iterator = HashMapIterator<K, std::unique_ptr<V>, typename WTF::HashMap<K, std::unique_ptr<V>>::const_iterator>;

     iterator begin() { return iterator(m_impl.begin()); }
     iterator end() { return iterator(m_impl.end()); }
     iterator find(const K& k) { return iterator(m_impl.find(k)); }
     const_iterator begin() const { return const_iterator(m_impl.begin()); }
     const_iterator end() const { return const_iterator(m_impl.end()); }
     const_iterator find(const K& k) const { return const_iterator(m_impl.find(k)); }

     size_t size() const { return m_impl.size(); }
     bool isEmpty() const { return m_impl.isEmpty(); }
     bool set(const K& k, std::unique_ptr<V> v) { return m_impl.set(k, std::move(v)).isNewEntry; }
     bool contains(const K& k) const { return m_impl.contains(k); }
     V* get(const K& k) const { return m_impl.get(k); }
     std::unique_ptr<V> take(const K& k) { return m_impl.take(k); }
     void remove(const K& k) { m_impl.remove(k); }
     void clear() { m_impl.clear(); }

 private:
     WTF::HashMap<K, std::unique_ptr<V>> m_impl;
 };

 template <typename K>
 class HashSet : public protocol::HashMap<K, K> {
 public:
     void add(const K& k) { this->set(k, k); }
 };

 } // namespace platform
 } // namespace blink

 #endif // !defined(CollectionsWTF_h)
	// Copyright 2016 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.

	#ifndef CollectionsWTF_h
	#define CollectionsWTF_h

	#include "wtf/Allocator.h"
	#include "wtf/HashMap.h"
	#include "wtf/PtrUtil.h"
	#include "wtf/Vector.h"
	#include "wtf/VectorTraits.h"

	namespace blink {
	namespace protocol {

	template <typename T>
	class Vector {
	public:
	Vector() { }
	Vector(size_t capacity) : m_impl(capacity) { }
	typedef T* iterator;
	typedef const T* const_iterator;

	iterator begin() { return m_impl.begin(); }
	iterator end() { return m_impl.end(); }
	const_iterator begin() const { return m_impl.begin(); }
	const_iterator end() const { return m_impl.end(); }

	void resize(size_t s) { m_impl.resize(s); }
	size_t size() const { return m_impl.size(); }
	bool isEmpty() const { return m_impl.isEmpty(); }
	T& operator[](size_t i) { return at(i); }
	const T& operator[](size_t i) const { return at(i); }
	T& at(size_t i) { return m_impl.at(i); }
	const T& at(size_t i) const { return m_impl.at(i); }
	T& last() { return m_impl.last(); }
	const T& last() const { return m_impl.last(); }
	void append(const T& t) { m_impl.append(t); }
	void prepend(const T& t) { m_impl.prepend(t); }
	void remove(size_t i) { m_impl.remove(i); }
	void clear() { m_impl.clear(); }
	void swap(Vector<T>& other) { m_impl.swap(other.m_impl); }
	void removeLast() { m_impl.removeLast(); }

	private:
	WTF::Vector<T> m_impl;
	};

	template <typename T>
	class Vector<std::unique_ptr<T>> {
	WTF_MAKE_NONCOPYABLE(Vector);
	public:
	Vector() { }
	Vector(size_t capacity) : m_impl(capacity) { }
	Vector(Vector<std::unique_ptr<T>>&& other) : m_impl(std::move(other.m_impl)) { }
	~Vector() { }

	typedef std::unique_ptr<T>* iterator;
	typedef const std::unique_ptr<T>* const_iterator;

	iterator begin() { return m_impl.begin(); }
	iterator end() { return m_impl.end(); }
	const_iterator begin() const { return m_impl.begin(); }
	const_iterator end() const { return m_impl.end(); }

	void resize(size_t s) { m_impl.resize(s); }
	size_t size() const { return m_impl.size(); }
	bool isEmpty() const { return m_impl.isEmpty(); }
	T* operator[](size_t i) { return m_impl.at(i).get(); }
	const T* operator[](size_t i) const { return m_impl.at(i).get(); }
	T* at(size_t i) { return m_impl.at(i).get(); }
	const T* at(size_t i) const { return m_impl.at(i).get(); }
	T* last() { return m_impl.last().get(); }
	const T* last() const { return m_impl.last(); }
	void append(std::unique_ptr<T> t) { m_impl.append(std::move(t)); }
	void prepend(std::unique_ptr<T> t) { m_impl.prepend(std::move(t)); }
	void remove(size_t i) { m_impl.remove(i); }
	void clear() { m_impl.clear(); }
	void swap(Vector<std::unique_ptr<T>>& other) { m_impl.swap(other.m_impl); }
	void swap(Vector<std::unique_ptr<T>>&& other) { m_impl.swap(other.m_impl); }
	void removeLast() { m_impl.removeLast(); }

	private:
	WTF::Vector<std::unique_ptr<T>> m_impl;
	};

	template <typename K, typename V, typename I>
	class HashMapIterator {
	STACK_ALLOCATED();
	public:
	HashMapIterator(const I& impl) : m_impl(impl) { }
	std::pair<K, V> get() const { m_pair = std::make_pair(m_impl->key, &m_impl->value); return &m_pair; }
	std::pair<K, V>& operator() const { return *get(); }
	std::pair<K, V> operator->() const { return get(); }

	bool operator==(const HashMapIterator<K, V, I>& other) const { return m_impl == other.m_impl; }
	bool operator!=(const HashMapIterator<K, V, I>& other) const { return m_impl != other.m_impl; }

	HashMapIterator<K, V, I>& operator++() { ++m_impl; return *this; }

	private:
	mutable std::pair<K, V*> m_pair;
	I m_impl;
	};

	template <typename K, typename V, typename I>
	class HashMapIterator<K, std::unique_ptr<V>, I> {
	STACK_ALLOCATED();
	public:
	HashMapIterator(const I& impl) : m_impl(impl) { }
	std::pair<K, V> get() const { m_pair = std::make_pair(m_impl->key, m_impl->value.get()); return &m_pair; }
	std::pair<K, V>& operator() const { return *get(); }
	std::pair<K, V> operator->() const { return get(); }

	bool operator==(const HashMapIterator<K, std::unique_ptr<V>, I>& other) const { return m_impl == other.m_impl; }
	bool operator!=(const HashMapIterator<K, std::unique_ptr<V>, I>& other) const { return m_impl != other.m_impl; }

	HashMapIterator<K, std::unique_ptr<V>, I>& operator++() { ++m_impl; return *this; }

	private:
	mutable std::pair<K, V*> m_pair;
	I m_impl;
	};

	template <typename K, typename V>
	class HashMap {
	public:
	HashMap() { }
	~HashMap() { }

	using iterator = HashMapIterator<K, V, typename WTF::HashMap<K, V>::iterator>;
	using const_iterator = HashMapIterator<K, const V, typename WTF::HashMap<K, V>::const_iterator>;

	iterator begin() { return iterator(m_impl.begin()); }
	iterator end() { return iterator(m_impl.end()); }
	iterator find(const K& k) { return iterator(m_impl.find(k)); }
	const_iterator begin() const { return const_iterator(m_impl.begin()); }
	const_iterator end() const { return const_iterator(m_impl.end()); }
	const_iterator find(const K& k) const { return const_iterator(m_impl.find(k)); }

	size_t size() const { return m_impl.size(); }
	bool isEmpty() const { return m_impl.isEmpty(); }
	bool set(const K& k, const V& v) { return m_impl.set(k, v).isNewEntry; }
	bool contains(const K& k) const { return m_impl.contains(k); }
	V get(const K& k) const { return m_impl.get(k); }
	void remove(const K& k) { m_impl.remove(k); }
	void clear() { m_impl.clear(); }
	V take(const K& k) { return m_impl.take(k); }

	private:
	WTF::HashMap<K, V> m_impl;
	};

	template <typename K, typename V>
	class HashMap<K, std::unique_ptr<V>> {
	public:
	HashMap() { }
	~HashMap() { }

	using iterator = HashMapIterator<K, std::unique_ptr<V>, typename WTF::HashMap<K, std::unique_ptr<V>>::iterator>;
	using const_iterator = HashMapIterator<K, std::unique_ptr<V>, typename WTF::HashMap<K, std::unique_ptr<V>>::const_iterator>;

	iterator begin() { return iterator(m_impl.begin()); }
	iterator end() { return iterator(m_impl.end()); }
	iterator find(const K& k) { return iterator(m_impl.find(k)); }
	const_iterator begin() const { return const_iterator(m_impl.begin()); }
	const_iterator end() const { return const_iterator(m_impl.end()); }
	const_iterator find(const K& k) const { return const_iterator(m_impl.find(k)); }

	size_t size() const { return m_impl.size(); }
	bool isEmpty() const { return m_impl.isEmpty(); }
	bool set(const K& k, std::unique_ptr<V> v) { return m_impl.set(k, std::move(v)).isNewEntry; }
	bool contains(const K& k) const { return m_impl.contains(k); }
	V* get(const K& k) const { return m_impl.get(k); }
	std::unique_ptr<V> take(const K& k) { return m_impl.take(k); }
	void remove(const K& k) { m_impl.remove(k); }
	void clear() { m_impl.clear(); }

	private:
	WTF::HashMap<K, std::unique_ptr<V>> m_impl;
	};

	template <typename K>
	class HashSet : public protocol::HashMap<K, K> {
	public:
	void add(const K& k) { this->set(k, k); }
	};

	} // namespace platform
	} // namespace blink

	#endif // !defined(CollectionsWTF_h)