Update V8 to version 4.5.80.
[chromium-blink-merge.git] / components / bookmarks / browser / bookmark_index.cc
blobfd8f42bd399a22372dcd34ea7636022bc9308f6c
1 // Copyright 2014 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "components/bookmarks/browser/bookmark_index.h"
7 #include <algorithm>
8 #include <functional>
9 #include <iterator>
10 #include <list>
12 #include "base/i18n/case_conversion.h"
13 #include "base/logging.h"
14 #include "base/stl_util.h"
15 #include "base/strings/utf_offset_string_conversions.h"
16 #include "components/bookmarks/browser/bookmark_client.h"
17 #include "components/bookmarks/browser/bookmark_match.h"
18 #include "components/bookmarks/browser/bookmark_node.h"
19 #include "components/bookmarks/browser/bookmark_utils.h"
20 #include "components/query_parser/snippet.h"
21 #include "third_party/icu/source/common/unicode/normalizer2.h"
23 namespace bookmarks {
25 typedef BookmarkClient::NodeTypedCountPair NodeTypedCountPair;
26 typedef BookmarkClient::NodeTypedCountPairs NodeTypedCountPairs;
28 namespace {
30 // Returns a normalized version of the UTF16 string |text|. If it fails to
31 // normalize the string, returns |text| itself as a best-effort.
32 base::string16 Normalize(const base::string16& text) {
33 UErrorCode status = U_ZERO_ERROR;
34 const icu::Normalizer2* normalizer2 =
35 icu::Normalizer2::getInstance(NULL, "nfkc", UNORM2_COMPOSE, status);
36 icu::UnicodeString unicode_text(
37 text.data(), static_cast<int32_t>(text.length()));
38 icu::UnicodeString unicode_normalized_text;
39 normalizer2->normalize(unicode_text, unicode_normalized_text, status);
40 if (U_FAILURE(status))
41 return text;
42 return base::string16(unicode_normalized_text.getBuffer(),
43 unicode_normalized_text.length());
46 // Sort functor for NodeTypedCountPairs. We sort in decreasing order of typed
47 // count so that the best matches will always be added to the results.
48 struct NodeTypedCountPairSortFunctor
49 : std::binary_function<NodeTypedCountPair, NodeTypedCountPair, bool> {
50 bool operator()(const NodeTypedCountPair& a,
51 const NodeTypedCountPair& b) const {
52 return a.second > b.second;
56 // Extract the const Node* stored in a BookmarkClient::NodeTypedCountPair.
57 struct NodeTypedCountPairExtractNodeFunctor
58 : std::unary_function<NodeTypedCountPair, const BookmarkNode*> {
59 const BookmarkNode* operator()(const NodeTypedCountPair& pair) const {
60 return pair.first;
64 } // namespace
66 BookmarkIndex::BookmarkIndex(BookmarkClient* client,
67 const std::string& languages)
68 : client_(client),
69 languages_(languages) {
70 DCHECK(client_);
73 BookmarkIndex::~BookmarkIndex() {
76 void BookmarkIndex::Add(const BookmarkNode* node) {
77 if (!node->is_url())
78 return;
79 std::vector<base::string16> terms =
80 ExtractQueryWords(Normalize(node->GetTitle()));
81 for (size_t i = 0; i < terms.size(); ++i)
82 RegisterNode(terms[i], node);
83 terms =
84 ExtractQueryWords(CleanUpUrlForMatching(node->url(), languages_, NULL));
85 for (size_t i = 0; i < terms.size(); ++i)
86 RegisterNode(terms[i], node);
89 void BookmarkIndex::Remove(const BookmarkNode* node) {
90 if (!node->is_url())
91 return;
93 std::vector<base::string16> terms =
94 ExtractQueryWords(Normalize(node->GetTitle()));
95 for (size_t i = 0; i < terms.size(); ++i)
96 UnregisterNode(terms[i], node);
97 terms =
98 ExtractQueryWords(CleanUpUrlForMatching(node->url(), languages_, NULL));
99 for (size_t i = 0; i < terms.size(); ++i)
100 UnregisterNode(terms[i], node);
103 void BookmarkIndex::GetBookmarksMatching(
104 const base::string16& input_query,
105 size_t max_count,
106 query_parser::MatchingAlgorithm matching_algorithm,
107 std::vector<BookmarkMatch>* results) {
108 const base::string16 query = Normalize(input_query);
109 std::vector<base::string16> terms = ExtractQueryWords(query);
110 if (terms.empty())
111 return;
113 NodeSet matches;
114 for (size_t i = 0; i < terms.size(); ++i) {
115 if (!GetBookmarksMatchingTerm(
116 terms[i], i == 0, matching_algorithm, &matches)) {
117 return;
121 Nodes sorted_nodes;
122 SortMatches(matches, &sorted_nodes);
124 // We use a QueryParser to fill in match positions for us. It's not the most
125 // efficient way to go about this, but by the time we get here we know what
126 // matches and so this shouldn't be performance critical.
127 query_parser::QueryParser parser;
128 ScopedVector<query_parser::QueryNode> query_nodes;
129 parser.ParseQueryNodes(query, matching_algorithm, &query_nodes.get());
131 // The highest typed counts should be at the beginning of the results vector
132 // so that the best matches will always be included in the results. The loop
133 // that calculates result relevance in HistoryContentsProvider::ConvertResults
134 // will run backwards to assure higher relevance will be attributed to the
135 // best matches.
136 for (Nodes::const_iterator i = sorted_nodes.begin();
137 i != sorted_nodes.end() && results->size() < max_count;
138 ++i)
139 AddMatchToResults(*i, &parser, query_nodes.get(), results);
142 void BookmarkIndex::SortMatches(const NodeSet& matches,
143 Nodes* sorted_nodes) const {
144 sorted_nodes->reserve(matches.size());
145 if (client_->SupportsTypedCountForNodes()) {
146 NodeTypedCountPairs node_typed_counts;
147 client_->GetTypedCountForNodes(matches, &node_typed_counts);
148 std::sort(node_typed_counts.begin(),
149 node_typed_counts.end(),
150 NodeTypedCountPairSortFunctor());
151 std::transform(node_typed_counts.begin(),
152 node_typed_counts.end(),
153 std::back_inserter(*sorted_nodes),
154 NodeTypedCountPairExtractNodeFunctor());
155 } else {
156 sorted_nodes->insert(sorted_nodes->end(), matches.begin(), matches.end());
160 void BookmarkIndex::AddMatchToResults(
161 const BookmarkNode* node,
162 query_parser::QueryParser* parser,
163 const query_parser::QueryNodeStarVector& query_nodes,
164 std::vector<BookmarkMatch>* results) {
165 // Check that the result matches the query. The previous search
166 // was a simple per-word search, while the more complex matching
167 // of QueryParser may filter it out. For example, the query
168 // ["thi"] will match the bookmark titled [Thinking], but since
169 // ["thi"] is quoted we don't want to do a prefix match.
170 query_parser::QueryWordVector title_words, url_words;
171 const base::string16 lower_title =
172 base::i18n::ToLower(Normalize(node->GetTitle()));
173 parser->ExtractQueryWords(lower_title, &title_words);
174 base::OffsetAdjuster::Adjustments adjustments;
175 parser->ExtractQueryWords(
176 CleanUpUrlForMatching(node->url(), languages_, &adjustments),
177 &url_words);
178 query_parser::Snippet::MatchPositions title_matches, url_matches;
179 for (size_t i = 0; i < query_nodes.size(); ++i) {
180 const bool has_title_matches =
181 query_nodes[i]->HasMatchIn(title_words, &title_matches);
182 const bool has_url_matches =
183 query_nodes[i]->HasMatchIn(url_words, &url_matches);
184 if (!has_title_matches && !has_url_matches)
185 return;
186 query_parser::QueryParser::SortAndCoalesceMatchPositions(&title_matches);
187 query_parser::QueryParser::SortAndCoalesceMatchPositions(&url_matches);
189 BookmarkMatch match;
190 if (lower_title.length() == node->GetTitle().length()) {
191 // Only use title matches if the lowercase string is the same length
192 // as the original string, otherwise the matches are meaningless.
193 // TODO(mpearson): revise match positions appropriately.
194 match.title_match_positions.swap(title_matches);
196 // Now that we're done processing this entry, correct the offsets of the
197 // matches in |url_matches| so they point to offsets in the original URL
198 // spec, not the cleaned-up URL string that we used for matching.
199 std::vector<size_t> offsets =
200 BookmarkMatch::OffsetsFromMatchPositions(url_matches);
201 base::OffsetAdjuster::UnadjustOffsets(adjustments, &offsets);
202 url_matches =
203 BookmarkMatch::ReplaceOffsetsInMatchPositions(url_matches, offsets);
204 match.url_match_positions.swap(url_matches);
205 match.node = node;
206 results->push_back(match);
209 bool BookmarkIndex::GetBookmarksMatchingTerm(
210 const base::string16& term,
211 bool first_term,
212 query_parser::MatchingAlgorithm matching_algorithm,
213 NodeSet* matches) {
214 Index::const_iterator i = index_.lower_bound(term);
215 if (i == index_.end())
216 return false;
218 if (!query_parser::QueryParser::IsWordLongEnoughForPrefixSearch(
219 term, matching_algorithm)) {
220 // Term is too short for prefix match, compare using exact match.
221 if (i->first != term)
222 return false; // No bookmarks with this term.
224 if (first_term) {
225 (*matches) = i->second;
226 return true;
228 *matches = base::STLSetIntersection<NodeSet>(i->second, *matches);
229 } else {
230 // Loop through index adding all entries that start with term to
231 // |prefix_matches|.
232 NodeSet tmp_prefix_matches;
233 // If this is the first term, then store the result directly in |matches|
234 // to avoid calling stl intersection (which requires a copy).
235 NodeSet* prefix_matches = first_term ? matches : &tmp_prefix_matches;
236 while (i != index_.end() &&
237 i->first.size() >= term.size() &&
238 term.compare(0, term.size(), i->first, 0, term.size()) == 0) {
239 #if !defined(OS_ANDROID)
240 prefix_matches->insert(i->second.begin(), i->second.end());
241 #else
242 // Work around a bug in the implementation of std::set::insert in the STL
243 // used on android (http://crbug.com/367050).
244 for (NodeSet::const_iterator n = i->second.begin(); n != i->second.end();
245 ++n)
246 prefix_matches->insert(prefix_matches->end(), *n);
247 #endif
248 ++i;
250 if (!first_term)
251 *matches = base::STLSetIntersection<NodeSet>(*prefix_matches, *matches);
253 return !matches->empty();
256 std::vector<base::string16> BookmarkIndex::ExtractQueryWords(
257 const base::string16& query) {
258 std::vector<base::string16> terms;
259 if (query.empty())
260 return std::vector<base::string16>();
261 query_parser::QueryParser parser;
262 parser.ParseQueryWords(base::i18n::ToLower(query),
263 query_parser::MatchingAlgorithm::DEFAULT,
264 &terms);
265 return terms;
268 void BookmarkIndex::RegisterNode(const base::string16& term,
269 const BookmarkNode* node) {
270 index_[term].insert(node);
273 void BookmarkIndex::UnregisterNode(const base::string16& term,
274 const BookmarkNode* node) {
275 Index::iterator i = index_.find(term);
276 if (i == index_.end()) {
277 // We can get here if the node has the same term more than once. For
278 // example, a bookmark with the title 'foo foo' would end up here.
279 return;
281 i->second.erase(node);
282 if (i->second.empty())
283 index_.erase(i);
286 } // namespace bookmarks