// Copyright 2013 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 CHROME_COMMON_INSTANT_RESTRICTED_ID_CACHE_H_ #define CHROME_COMMON_INSTANT_RESTRICTED_ID_CACHE_H_ #include <set> #include <utility> #include <vector> #include "base/containers/mru_cache.h" #include "base/gtest_prod_util.h" #include "base/logging.h" #include "chrome/common/instant_types.h" // In InstantExtended, iframes are used to display objects which can only be // referenced by the Instant page using an ID (restricted ID). These IDs need to // be unique and cached for a while so that the SearchBox API can fetch the // object info based on the ID when required by the Instant page. The reason to // use a cache of N items as against just the last set of results is that there // may be race conditions - e.g. the user clicks on a result being shown but the // result set has internally changed but not yet been displayed. // // The cache can be used in two modes: // // 1. To store items and assign restricted IDs to them. The cache will store // a max of |max_cache_size_| items and assign them unique IDs. // // 2. To store items that already have restricted IDs assigned to them (e.g. // from another instance of the cache). The cache will then not generate IDs // and does not make any guarantees of the uniqueness of the IDs. If multiple // items are inserted with the same ID, the cache will return the last // inserted item in GetItemWithRestrictedID() call. // T needs to be copyable. template <typename T> class InstantRestrictedIDCache { public: typedef std::pair<InstantRestrictedID, T> ItemIDPair; typedef std::vector<T> ItemVector; typedef std::vector<ItemIDPair> ItemIDVector; explicit InstantRestrictedIDCache(size_t max_cache_size); ~InstantRestrictedIDCache(); // Adds items to the cache, assigning restricted IDs in the process. May // delete older items from the cache. |items.size()| has to be less than max // cache size. void AddItems(const ItemVector& items); // Adds items to the cache using the supplied restricted IDs. May delete // older items from the cache. No two entries in |items| should have the same // InstantRestrictedID. |items.size()| has to be less than max cache size. void AddItemsWithRestrictedID(const ItemIDVector& items); // Returns the last set of items added to the cache either via AddItems() or // AddItemsWithRestrictedID(). void GetCurrentItems(ItemIDVector* items) const; // Returns true if the |restricted_id| is present in the cache and if so, // returns a copy of the item. bool GetItemWithRestrictedID(InstantRestrictedID restricted_id, T* item) const; private: FRIEND_TEST_ALL_PREFIXES(InstantRestrictedIDCacheTest, AutoIDGeneration); FRIEND_TEST_ALL_PREFIXES(InstantRestrictedIDCacheTest, CrazyIDGeneration); FRIEND_TEST_ALL_PREFIXES(InstantRestrictedIDCacheTest, ManualIDGeneration); FRIEND_TEST_ALL_PREFIXES(InstantRestrictedIDCacheTest, MixIDGeneration); FRIEND_TEST_ALL_PREFIXES(InstantRestrictedIDCacheTest, AddEmptySet); FRIEND_TEST_ALL_PREFIXES(InstantRestrictedIDCacheTest, AddItemsWithRestrictedID); typedef base::MRUCache<InstantRestrictedID, T> CacheImpl; mutable CacheImpl cache_; typename CacheImpl::reverse_iterator last_add_start_; InstantRestrictedID last_restricted_id_; DISALLOW_COPY_AND_ASSIGN(InstantRestrictedIDCache); }; template <typename T> InstantRestrictedIDCache<T>::InstantRestrictedIDCache(size_t max_cache_size) : cache_(max_cache_size), last_add_start_(cache_.rend()), last_restricted_id_(0) { DCHECK(max_cache_size); } template <typename T> InstantRestrictedIDCache<T>::~InstantRestrictedIDCache() { } template <typename T> void InstantRestrictedIDCache<T>::AddItems(const ItemVector& items) { DCHECK_LE(items.size(), cache_.max_size()); if (items.empty()) { last_add_start_ = cache_.rend(); return; } for (size_t i = 0; i < items.size(); ++i) { InstantRestrictedID id = ++last_restricted_id_; cache_.Put(id, items[i]); if (i == 0) last_add_start_ = --cache_.rend(); } } template <typename T> void InstantRestrictedIDCache<T>::AddItemsWithRestrictedID( const ItemIDVector& items) { DCHECK_LE(items.size(), cache_.max_size()); if (items.empty()) { last_add_start_ = cache_.rend(); return; } std::set<InstantRestrictedID> ids_added; for (size_t i = 0; i < items.size(); ++i) { const ItemIDPair& item_id = items[i]; DCHECK(ids_added.find(item_id.first) == ids_added.end()); ids_added.insert(item_id.first); cache_.Put(item_id.first, item_id.second); last_restricted_id_ = std::max(item_id.first, last_restricted_id_); } // cache_.Put() can invalidate the iterator |last_add_start_| is pointing to. // Therefore, update |last_add_start_| after adding all the items to the // |cache_|. last_add_start_ = cache_.rend(); for (size_t i = 0; i < items.size(); ++i) --last_add_start_; } template <typename T> void InstantRestrictedIDCache<T>::GetCurrentItems(ItemIDVector* items) const { items->clear(); for (typename CacheImpl::reverse_iterator it = last_add_start_; it != cache_.rend(); ++it) { items->push_back(std::make_pair(it->first, it->second)); } } template <typename T> bool InstantRestrictedIDCache<T>::GetItemWithRestrictedID( InstantRestrictedID restricted_id, T* item) const { DCHECK(item); typename CacheImpl::const_iterator cache_it = cache_.Peek(restricted_id); if (cache_it == cache_.end()) return false; *item = cache_it->second; return true; } #endif // CHROME_COMMON_INSTANT_RESTRICTED_ID_CACHE_H_