// Copyright (c) 2012 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. #include "chrome/browser/bookmarks/bookmark_utils.h" #include #include "base/basictypes.h" #include "base/files/file_path.h" #include "base/i18n/case_conversion.h" #include "base/i18n/string_search.h" #include "base/prefs/pref_service.h" #include "base/strings/string16.h" #include "base/strings/utf_string_conversions.h" #include "base/time/time.h" #include "chrome/browser/bookmarks/bookmark_model.h" #include "chrome/browser/bookmarks/bookmark_model_factory.h" #include "chrome/common/pref_names.h" #include "components/query_parser/query_parser.h" #include "components/user_prefs/pref_registry_syncable.h" #include "content/public/browser/user_metrics.h" #include "net/base/net_util.h" #include "ui/base/models/tree_node_iterator.h" #if !defined(OS_ANDROID) #include "chrome/browser/bookmarks/scoped_group_bookmark_actions.h" #endif using base::Time; namespace { void CloneBookmarkNodeImpl(BookmarkModel* model, const BookmarkNodeData::Element& element, const BookmarkNode* parent, int index_to_add_at, bool reset_node_times) { const BookmarkNode* cloned_node = NULL; if (element.is_url) { if (reset_node_times) { cloned_node = model->AddURL(parent, index_to_add_at, element.title, element.url); } else { DCHECK(!element.date_added.is_null()); cloned_node = model->AddURLWithCreationTime(parent, index_to_add_at, element.title, element.url, element.date_added); } } else { cloned_node = model->AddFolder(parent, index_to_add_at, element.title); if (!reset_node_times) { DCHECK(!element.date_folder_modified.is_null()); model->SetDateFolderModified(cloned_node, element.date_folder_modified); } for (int i = 0; i < static_cast(element.children.size()); ++i) CloneBookmarkNodeImpl(model, element.children[i], cloned_node, i, reset_node_times); } model->SetNodeMetaInfoMap(cloned_node, element.meta_info_map); } // Comparison function that compares based on date modified of the two nodes. bool MoreRecentlyModified(const BookmarkNode* n1, const BookmarkNode* n2) { return n1->date_folder_modified() > n2->date_folder_modified(); } // Returns true if |text| contains each string in |words|. This is used when // searching for bookmarks. bool DoesBookmarkTextContainWords(const base::string16& text, const std::vector& words) { for (size_t i = 0; i < words.size(); ++i) { if (!base::i18n::StringSearchIgnoringCaseAndAccents( words[i], text, NULL, NULL)) { return false; } } return true; } // Returns true if |node|s title or url contains the strings in |words|. // |languages| argument is user's accept-language setting to decode IDN. bool DoesBookmarkContainWords(const BookmarkNode* node, const std::vector& words, const std::string& languages) { return DoesBookmarkTextContainWords(node->GetTitle(), words) || DoesBookmarkTextContainWords( base::UTF8ToUTF16(node->url().spec()), words) || DoesBookmarkTextContainWords(net::FormatUrl( node->url(), languages, net::kFormatUrlOmitNothing, net::UnescapeRule::NORMAL, NULL, NULL, NULL), words); } // This is used with a tree iterator to skip subtrees which are not visible. bool PruneInvisibleFolders(const BookmarkNode* node) { return !node->IsVisible(); } // This traces parents up to root, determines if node is contained in a // selected folder. bool HasSelectedAncestor(BookmarkModel* model, const std::vector& selected_nodes, const BookmarkNode* node) { if (!node || model->is_permanent_node(node)) return false; for (size_t i = 0; i < selected_nodes.size(); ++i) if (node->id() == selected_nodes[i]->id()) return true; return HasSelectedAncestor(model, selected_nodes, node->parent()); } } // namespace namespace bookmark_utils { QueryFields::QueryFields() {} QueryFields::~QueryFields() {} void CloneBookmarkNode(BookmarkModel* model, const std::vector& elements, const BookmarkNode* parent, int index_to_add_at, bool reset_node_times) { if (!parent->is_folder() || !model) { NOTREACHED(); return; } for (size_t i = 0; i < elements.size(); ++i) { CloneBookmarkNodeImpl(model, elements[i], parent, index_to_add_at + i, reset_node_times); } } void CopyToClipboard(BookmarkModel* model, const std::vector& nodes, bool remove_nodes) { if (nodes.empty()) return; // Create array of selected nodes with descendants filtered out. std::vector filtered_nodes; for (size_t i = 0; i < nodes.size(); ++i) if (!HasSelectedAncestor(model, nodes, nodes[i]->parent())) filtered_nodes.push_back(nodes[i]); BookmarkNodeData(filtered_nodes). WriteToClipboard(ui::CLIPBOARD_TYPE_COPY_PASTE); if (remove_nodes) { #if !defined(OS_ANDROID) ScopedGroupBookmarkActions group_cut(model); #endif for (size_t i = 0; i < filtered_nodes.size(); ++i) { int index = filtered_nodes[i]->parent()->GetIndexOf(filtered_nodes[i]); if (index > -1) model->Remove(filtered_nodes[i]->parent(), index); } } } void PasteFromClipboard(BookmarkModel* model, const BookmarkNode* parent, int index) { if (!parent) return; BookmarkNodeData bookmark_data; if (!bookmark_data.ReadFromClipboard(ui::CLIPBOARD_TYPE_COPY_PASTE)) return; if (index == -1) index = parent->child_count(); #if !defined(OS_ANDROID) ScopedGroupBookmarkActions group_paste(model); #endif CloneBookmarkNode(model, bookmark_data.elements, parent, index, true); } bool CanPasteFromClipboard(const BookmarkNode* node) { if (!node) return false; return BookmarkNodeData::ClipboardContainsBookmarks(); } std::vector GetMostRecentlyModifiedFolders( BookmarkModel* model, size_t max_count) { std::vector nodes; ui::TreeNodeIterator iterator(model->root_node(), PruneInvisibleFolders); while (iterator.has_next()) { const BookmarkNode* parent = iterator.Next(); if (parent->is_folder() && parent->date_folder_modified() > base::Time()) { if (max_count == 0) { nodes.push_back(parent); } else { std::vector::iterator i = std::upper_bound(nodes.begin(), nodes.end(), parent, &MoreRecentlyModified); if (nodes.size() < max_count || i != nodes.end()) { nodes.insert(i, parent); while (nodes.size() > max_count) nodes.pop_back(); } } } // else case, the root node, which we don't care about or imported nodes // (which have a time of 0). } if (nodes.size() < max_count) { // Add the permanent nodes if there is space. The permanent nodes are the // only children of the root_node. const BookmarkNode* root_node = model->root_node(); for (int i = 0; i < root_node->child_count(); ++i) { const BookmarkNode* node = root_node->GetChild(i); if (node->IsVisible() && std::find(nodes.begin(), nodes.end(), node) == nodes.end()) { nodes.push_back(node); if (nodes.size() == max_count) break; } } } return nodes; } void GetMostRecentlyAddedEntries(BookmarkModel* model, size_t count, std::vector* nodes) { ui::TreeNodeIterator iterator(model->root_node()); while (iterator.has_next()) { const BookmarkNode* node = iterator.Next(); if (node->is_url()) { std::vector::iterator insert_position = std::upper_bound(nodes->begin(), nodes->end(), node, &MoreRecentlyAdded); if (nodes->size() < count || insert_position != nodes->end()) { nodes->insert(insert_position, node); while (nodes->size() > count) nodes->pop_back(); } } } } bool MoreRecentlyAdded(const BookmarkNode* n1, const BookmarkNode* n2) { return n1->date_added() > n2->date_added(); } void GetBookmarksMatchingProperties(BookmarkModel* model, const QueryFields& query, size_t max_count, const std::string& languages, std::vector* nodes) { std::vector query_words; query_parser::QueryParser parser; if (query.word_phrase_query) { parser.ParseQueryWords(base::i18n::ToLower(*query.word_phrase_query), &query_words); if (query_words.empty()) return; } ui::TreeNodeIterator iterator(model->root_node()); while (iterator.has_next()) { const BookmarkNode* node = iterator.Next(); if ((!query_words.empty() && !DoesBookmarkContainWords(node, query_words, languages)) || model->is_permanent_node(node)) { continue; } if (query.url) { // Check against bare url spec and IDN-decoded url. if (!node->is_url() || !(base::UTF8ToUTF16(node->url().spec()) == *query.url || net::FormatUrl( node->url(), languages, net::kFormatUrlOmitNothing, net::UnescapeRule::NORMAL, NULL, NULL, NULL) == *query.url)) { continue; } } if (query.title && node->GetTitle() != *query.title) continue; nodes->push_back(node); if (nodes->size() == max_count) return; } } void RegisterProfilePrefs(user_prefs::PrefRegistrySyncable* registry) { registry->RegisterBooleanPref( prefs::kShowBookmarkBar, false, user_prefs::PrefRegistrySyncable::SYNCABLE_PREF); registry->RegisterBooleanPref( prefs::kEditBookmarksEnabled, true, user_prefs::PrefRegistrySyncable::UNSYNCABLE_PREF); registry->RegisterBooleanPref( prefs::kShowAppsShortcutInBookmarkBar, true, user_prefs::PrefRegistrySyncable::SYNCABLE_PREF); } const BookmarkNode* GetParentForNewNodes( const BookmarkNode* parent, const std::vector& selection, int* index) { const BookmarkNode* real_parent = parent; if (selection.size() == 1 && selection[0]->is_folder()) real_parent = selection[0]; if (index) { if (selection.size() == 1 && selection[0]->is_url()) { *index = real_parent->GetIndexOf(selection[0]) + 1; if (*index == 0) { // Node doesn't exist in parent, add to end. NOTREACHED(); *index = real_parent->child_count(); } } else { *index = real_parent->child_count(); } } return real_parent; } void DeleteBookmarkFolders(BookmarkModel* model, const std::vector& ids) { // Remove the folders that were removed. This has to be done after all the // other changes have been committed. for (std::vector::const_iterator iter = ids.begin(); iter != ids.end(); ++iter) { const BookmarkNode* node = model->GetNodeByID(*iter); if (!node) continue; const BookmarkNode* parent = node->parent(); model->Remove(parent, parent->GetIndexOf(node)); } } void AddIfNotBookmarked(BookmarkModel* model, const GURL& url, const base::string16& title) { std::vector bookmarks; model->GetNodesByURL(url, &bookmarks); if (!bookmarks.empty()) return; // Nothing to do, a bookmark with that url already exists. content::RecordAction(base::UserMetricsAction("BookmarkAdded")); const BookmarkNode* parent = model->GetParentForNewNodes(); model->AddURL(parent, parent->child_count(), title, url); } void RemoveAllBookmarks(BookmarkModel* model, const GURL& url) { std::vector bookmarks; model->GetNodesByURL(url, &bookmarks); // Remove all the bookmarks. for (size_t i = 0; i < bookmarks.size(); ++i) { const BookmarkNode* node = bookmarks[i]; int index = node->parent()->GetIndexOf(node); if (index > -1) model->Remove(node->parent(), index); } } } // namespace bookmark_utils