components/omnibox/browser/shortcuts_provider.cc - chromium/src - Git at Google

 // Copyright 2012 The Chromium Authors
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "components/omnibox/browser/shortcuts_provider.h"

 #include <stddef.h>

 #include <algorithm>
 #include <cmath>
 #include <map>
 #include <numeric>
 #include <utility>
 #include <vector>

 #include "base/check_op.h"
 #include "base/containers/cxx20_erase.h"
 #include "base/feature_list.h"
 #include "base/i18n/case_conversion.h"
 #include "base/memory/raw_ptr.h"
 #include "base/metrics/histogram.h"
 #include "base/numerics/safe_conversions.h"
 #include "base/ranges/algorithm.h"
 #include "base/strings/strcat.h"
 #include "base/strings/string_util.h"
 #include "base/strings/utf_string_conversions.h"
 #include "base/time/time.h"
 #include "base/trace_event/trace_event.h"
 #include "components/history/core/browser/history_service.h"
 #include "components/omnibox/browser/autocomplete_i18n.h"
 #include "components/omnibox/browser/autocomplete_input.h"
 #include "components/omnibox/browser/autocomplete_match.h"
 #include "components/omnibox/browser/autocomplete_provider_client.h"
 #include "components/omnibox/browser/history_url_provider.h"
 #include "components/omnibox/browser/omnibox_field_trial.h"
 #include "components/omnibox/browser/url_prefix.h"
 #include "components/omnibox/common/omnibox_features.h"
 #include "components/prefs/pref_service.h"
 #include "components/search_engines/template_url_service.h"
 #include "components/url_formatter/url_fixer.h"
 #include "third_party/metrics_proto/omnibox_focus_type.pb.h"
 #include "third_party/metrics_proto/omnibox_input_type.pb.h"
 #include "third_party/omnibox_proto/groups.pb.h"

 #if !BUILDFLAG(IS_IOS)
 #include "components/history_clusters/core/config.h"
 #endif  // !BUILDFLAG(IS_IOS)

 namespace {

 class DestinationURLEqualsURL {
  public:
   explicit DestinationURLEqualsURL(const GURL& url) : url_(url) {}
   bool operator()(const AutocompleteMatch& match) const {
     return match.destination_url == url_;
   }

  private:
   const GURL url_;
 };

 // ShortcutMatch holds sufficient information about a single match from the
 // shortcut database to allow for destination deduping and relevance sorting.
 // After those stages the top matches are converted to the more heavyweight
 // AutocompleteMatch struct.  Avoiding constructing the larger struct for
 // every such match can save significant time when there are many shortcut
 // matches to process.
 struct ShortcutMatch {
   ShortcutMatch(int relevance,
                 int aggregate_number_of_hits,
                 const GURL& stripped_destination_url,
                 const ShortcutsDatabase::Shortcut* shortcut)
       : relevance(relevance),
         aggregate_number_of_hits(aggregate_number_of_hits),
         stripped_destination_url(stripped_destination_url),
         shortcut(shortcut),
         contents(shortcut->match_core.contents),
         type(shortcut->match_core.type) {
     DCHECK_GE(aggregate_number_of_hits, shortcut->number_of_hits);
   }

   int relevance;
   // The sum of `number_of_hits` of all deduped shortcuts.
   int aggregate_number_of_hits;
   GURL stripped_destination_url;
   raw_ptr<const ShortcutsDatabase::Shortcut> shortcut;
   std::u16string contents;
   AutocompleteMatch::Type type;
 };

 // Helpers for extracting aggregated factors from a vector of shortcuts.
 const ShortcutsDatabase::Shortcut* ShortestShortcutText(
     std::vector<const ShortcutsDatabase::Shortcut*> shortcuts) {
   return *base::ranges::min_element(shortcuts, {}, [](const auto* shortcut) {
     return shortcut->text.length();
   });
 }

 const ShortcutsDatabase::Shortcut* MostRecentShortcut(
     std::vector<const ShortcutsDatabase::Shortcut*> shortcuts) {
   return *base::ranges::max_element(shortcuts, {}, [](const auto* shortcut) {
     return shortcut->last_access_time;
   });
 }

 int SumNumberOfHits(std::vector<const ShortcutsDatabase::Shortcut*> shortcuts) {
   return std::accumulate(shortcuts.begin(), shortcuts.end(), 0,
                          [](int sum, const auto* shortcut) {
                            return sum + shortcut->number_of_hits;
                          });
 }

 const ShortcutsDatabase::Shortcut* ShortestShortcutContent(
     std::vector<const ShortcutsDatabase::Shortcut*> shortcuts) {
   return *base::ranges::min_element(shortcuts, {}, [](const auto* shortcut) {
     return shortcut->match_core.contents.length();
   });
 }

 // Helper for `CalculateAggregateScore()` to score shortcuts.
 int CalculateScoreFromFactors(size_t typed_length,
                               size_t shortcut_text_length,
                               const base::Time& last_access_time,
                               int number_of_hits,
                               int max_relevance) {
   DCHECK_GT(typed_length, 0u);
   DCHECK_LE(typed_length, shortcut_text_length);
   // The initial score is based on how much of the shortcut the user has typed.
   // Due to appending 3 chars when updating shortcuts, and expanding the last
   // word when updating or creating shortcuts, the shortcut text can be longer
   // than the user's previous inputs (see
   // `ShortcutsBackend::AddOrUpdateShortcut()`). As an approximation, ignore 3
   // or 10 chars in the shortcut text. Shortcuts are often deduped with higher
   // scoring history suggestions anyway.
   const size_t adjustment =
       OmniboxFieldTrial::IsShortcutExpandingEnabled() ? 10 : 3;
   const size_t adjusted_text_length =
       std::max(shortcut_text_length, typed_length + adjustment) - adjustment;
   // Using the square root of the typed fraction boosts the base score rapidly
   // as characters are typed, compared with simply using the typed fraction
   // directly. This makes sense since the first characters typed are much more
   // important for determining how likely it is a user wants a particular
   // shortcut than are the remaining continued characters.
   const double typed_fraction =
       sqrt(static_cast<double>(typed_length) / adjusted_text_length);

   // Decay score by half each week. Clamp to 0 in case time jumps backwards
   // (e.g. due to DST).
   const double halftime_numerator =
       std::max((base::Time::Now() - last_access_time) / base::Days(7), 0.);
   // Reduce the decay factor for more used shortcuts. Once used, decay at full
   // speed; otherwise, decay `n` times slower, where n increases by 0.2 for each
   // additional hit, up to a maximum of 5.
   const double halftime_denominator = std::min(.8 + number_of_hits * .2, 5.);
   const double halftime_decay =
       pow(.5, halftime_numerator / halftime_denominator);

   return base::ClampRound(typed_fraction * halftime_decay * max_relevance);
 }
 }  // namespace

 const int ShortcutsProvider::kShortcutsProviderDefaultMaxRelevance = 1199;

 ShortcutsProvider::ShortcutsProvider(AutocompleteProviderClient* client)
     : AutocompleteProvider(AutocompleteProvider::TYPE_SHORTCUTS),
       client_(client),
       initialized_(false) {
   scoped_refptr<ShortcutsBackend> backend = client_->GetShortcutsBackend();
   if (backend) {
     backend->AddObserver(this);
     if (backend->initialized())
       initialized_ = true;
   }
 }

 void ShortcutsProvider::Start(const AutocompleteInput& input,
                               bool minimal_changes) {
   TRACE_EVENT0("omnibox", "ShortcutsProvider::Start");
   matches_.clear();

   if (input.focus_type() == metrics::OmniboxFocusType::INTERACTION_DEFAULT &&
       input.type() != metrics::OmniboxInputType::EMPTY &&
       !input.text().empty() && initialized_) {
     GetMatches(input);
   }
 }

 void ShortcutsProvider::DeleteMatch(const AutocompleteMatch& match) {
   // Copy the URL since deleting from |matches_| will invalidate |match|.
   GURL url(match.destination_url);
   DCHECK(url.is_valid());

   // When a user deletes a match, they probably mean for the URL to disappear
   // out of history entirely. So nuke all shortcuts that map to this URL.
   scoped_refptr<ShortcutsBackend> backend =
       client_->GetShortcutsBackendIfExists();
   if (backend)  // Can be NULL in Incognito.
     backend->DeleteShortcutsWithURL(url);

   base::EraseIf(matches_, DestinationURLEqualsURL(url));
   // NOTE: |match| is now dead!

   // Delete the match from the history DB. This will eventually result in a
   // second call to DeleteShortcutsWithURL(), which is harmless.
   history::HistoryService* const history_service = client_->GetHistoryService();
   DCHECK(history_service);
   history_service->DeleteURLs({url});
 }

 ShortcutsProvider::~ShortcutsProvider() {
   scoped_refptr<ShortcutsBackend> backend =
       client_->GetShortcutsBackendIfExists();
   if (backend)
     backend->RemoveObserver(this);
 }

 void ShortcutsProvider::OnShortcutsLoaded() {
   initialized_ = true;
 }

 void ShortcutsProvider::GetMatches(const AutocompleteInput& input) {
   scoped_refptr<ShortcutsBackend> backend =
       client_->GetShortcutsBackendIfExists();
   if (!backend)
     return;
   // Get the URLs from the shortcuts database with keys that partially or
   // completely match the search term.
   std::u16string term_string(base::i18n::ToLower(input.text()));
   DCHECK(!term_string.empty());

   int max_relevance = kShortcutsProviderDefaultMaxRelevance;
   TemplateURLService* template_url_service = client_->GetTemplateURLService();
   const std::u16string fixed_up_input(FixupUserInput(input).second);

   // Get the shortcuts from the database with keys that partially or completely
   // match the search term.
   std::vector<ShortcutMatch> shortcut_matches;
   // Track history cluster shortcuts separately, so they don't consume
   // `provider_max_matches_`.
   std::vector<ShortcutMatch> history_cluster_shortcut_matches;

   // Group the matching shortcuts by stripped `destination_url`, score them
   // together, and create a single `ShortcutMatch`.
   std::map<GURL, std::vector<const ShortcutsDatabase::Shortcut*>>
       shortcuts_by_url;
   for (auto it = FindFirstMatch(term_string, backend.get());
        it != backend->shortcuts_map().end() &&
        base::StartsWith(it->first, term_string, base::CompareCase::SENSITIVE);
        ++it) {
     const ShortcutsDatabase::Shortcut& shortcut = it->second;

     // Allow `HISTORY_CLUSTER` suggestions only if the appropriate feature is
     // enabled.
 #if !BUILDFLAG(IS_IOS)
     if (!history_clusters::GetConfig()
              .omnibox_history_cluster_provider_shortcuts &&
         shortcut.match_core.type == AutocompleteMatch::Type::HISTORY_CLUSTER) {
       continue;
     }
 #endif  // !BUILDFLAG(IS_IOS)

     const GURL stripped_destination_url(AutocompleteMatch::GURLToStrippedGURL(
         shortcut.match_core.destination_url, input, template_url_service,
         shortcut.match_core.keyword));
     shortcuts_by_url[stripped_destination_url].push_back(&shortcut);
   }

   for (const auto& [url, shortcuts] : shortcuts_by_url) {
     auto [relevance, number_of_hits] =
         CalculateAggregateScore(term_string, shortcuts, max_relevance);

     // Don't return shortcuts with zero relevance.
     if (relevance) {
       // Pick the shortcut with the shortest content. Picking the shortest
       // shortcut text would probably also work, but could result in more
       // text changes as the user types their input for shortcut texts that
       // are prefixes of each other.
       const ShortcutsDatabase::Shortcut* shortcut =
           ShortestShortcutContent(shortcuts);
       ShortcutMatch shortcut_match = {relevance, number_of_hits, url, shortcut};
       if (shortcut->match_core.type ==
           AutocompleteMatch::Type::HISTORY_CLUSTER) {
         history_cluster_shortcut_matches.push_back(shortcut_match);
       } else {
         shortcut_matches.push_back(shortcut_match);
       }
     }
   }

   static const bool boost_enabled =
       base::FeatureList::IsEnabled(omnibox::kShortcutBoost);
   if (!shortcut_matches.empty() && boost_enabled) {
     // Promote the shortcut with most hits to compete for the default slot.
     // Won't necessarily be the highest scoring shortcut, as scoring also
     // depends on visit times and input length. Therefore, has to be done before
     // the partial sort before to ensure the match isn't erased. The match may
     // be not-allowed-to-be-default, in which case, it'll be competing for top
     // slot in the URL grouped suggestions.
     base::ranges::max_element(shortcut_matches, {},
                               [](const auto& shortcut_match) {
                                 return shortcut_match.aggregate_number_of_hits;
                               })
         ->relevance = HistoryURLProvider::kScoreForBestInlineableResult + 1;
   }

   // Find best matches.
   std::partial_sort(
       shortcut_matches.begin(),
       shortcut_matches.begin() +
           std::min(provider_max_matches_, shortcut_matches.size()),
       shortcut_matches.end(),
       [](const ShortcutMatch& elem1, const ShortcutMatch& elem2) {
         // Ensure a stable sort by sorting equal-relevance matches
         // alphabetically.
         return elem1.relevance == elem2.relevance
                    ? elem1.contents < elem2.contents
                    : elem1.relevance > elem2.relevance;
       });
   if (shortcut_matches.size() > provider_max_matches_) {
     shortcut_matches.erase(shortcut_matches.begin() + provider_max_matches_,
                            shortcut_matches.end());
   }

   // Create and initialize autocomplete matches from shortcut matches.
   matches_.reserve(shortcut_matches.size() +
                    history_cluster_shortcut_matches.size());
   base::ranges::transform(
       shortcut_matches, std::back_inserter(matches_),
       [&](const auto& shortcut_match) {
         // Guarantee that all relevance scores are decreasing (but do not assign
         // any scores below 1). Only do this for non-history cluster shortcuts.
         max_relevance = std::min(max_relevance, shortcut_match.relevance);
         int relevance = max_relevance;
         if (max_relevance > 1)
           --max_relevance;

         return ShortcutToACMatch(*shortcut_match.shortcut, relevance, input,
                                  fixed_up_input, term_string);
       });
   base::ranges::transform(
       history_cluster_shortcut_matches, std::back_inserter(matches_),
       [&](const auto& shortcut_match) {
         auto match = ShortcutToACMatch(*shortcut_match.shortcut,
                                        shortcut_match.relevance, input,
                                        fixed_up_input, term_string);
     // Guard this as `history_clusters::GetConfig()` doesn't exist on iOS.
     // Though this code will never run on iOS regardless.
 #if !BUILDFLAG(IS_IOS)
         if (!history_clusters::GetConfig()
                  .omnibox_history_cluster_provider_free_ranking) {
           match.suggestion_group_id = omnibox::GROUP_HISTORY_CLUSTER;
           // Insert a corresponding omnibox::GroupConfig with default values in
           // the suggestion groups map; otherwise the group ID will get dropped.
           suggestion_groups_map_[omnibox::GROUP_HISTORY_CLUSTER];
         }
 #endif  // !BUILDFLAG(IS_IOS)

         return match;
       });
 }

 AutocompleteMatch ShortcutsProvider::ShortcutToACMatch(
     const ShortcutsDatabase::Shortcut& shortcut,
     int relevance,
     const AutocompleteInput& input,
     const std::u16string& fixed_up_input_text,
     const std::u16string term_string) {
   DCHECK(!input.text().empty());
   AutocompleteMatch match;
   match.provider = this;
   match.relevance = relevance;

   // https://crbug.com/1154982#c36 - When deleting history is disabled by
   // policy, also disable deleting Shortcuts matches, because it's confusing
   // when the X appears on the de-duplicated History and Shortcuts matches.
   match.deletable = client_->AllowDeletingBrowserHistory();

   match.fill_into_edit = shortcut.match_core.fill_into_edit;
   match.destination_url = shortcut.match_core.destination_url;
   DCHECK(match.destination_url.is_valid());
   match.document_type = shortcut.match_core.document_type;
   match.contents = shortcut.match_core.contents;
   match.contents_class = AutocompleteMatch::ClassificationsFromString(
       shortcut.match_core.contents_class);
   match.description = shortcut.match_core.description;
   match.description_class = AutocompleteMatch::ClassificationsFromString(
       shortcut.match_core.description_class);
   match.transition = shortcut.match_core.transition;
   match.type = shortcut.match_core.type;
   match.keyword = shortcut.match_core.keyword;
   match.RecordAdditionalInfo("number of hits", shortcut.number_of_hits);
   match.RecordAdditionalInfo("last access time", shortcut.last_access_time);
   match.RecordAdditionalInfo("original input text", shortcut.text);

   // Set |inline_autocompletion| and |allowed_to_be_default_match| if possible.
   // If the input is in keyword mode, navigation matches cannot be the default
   // match, and search query matches can only be the default match if their
   // keywords matches the input's keyword, as otherwise, default,
   // different-keyword matches may result in leaving keyword mode. Additionally,
   // if the match is a search query, check whether the user text is a prefix of
   // the query. If the match is a navigation, we assume the fill_into_edit looks
   // something like a URL, so we use URLPrefix::GetInlineAutocompleteOffset() to
   // try and strip off any prefixes that the user might not think would change
   // the meaning, but would otherwise prevent inline autocompletion. This
   // allows, for example, the input of "foo.c" to autocomplete to "foo.com" for
   // a fill_into_edit of "http://foo.com".
   const bool is_search_type = AutocompleteMatch::IsSearchType(match.type);

   DCHECK(is_search_type != match.keyword.empty());

   const bool keyword_matches =
       base::StartsWith(base::UTF16ToUTF8(input.text()),
                        base::StrCat({base::UTF16ToUTF8(match.keyword), " "}),
                        base::CompareCase::INSENSITIVE_ASCII);
   if (is_search_type) {
     const TemplateURL* template_url =
         client_->GetTemplateURLService()->GetDefaultSearchProvider();
     match.from_keyword =
         // Either the default search provider is disabled,
         !template_url ||
         // or the match is not from the default search provider,
         match.keyword != template_url->keyword() ||
         // or keyword mode was invoked explicitly and the keyword in the input
         // is also of the default search provider.
         (input.prefer_keyword() && keyword_matches);
   }

   const bool match_has_explicit_keyword =
       !match
            .GetSubstitutingExplicitlyInvokedKeyword(
                client_->GetTemplateURLService())
            .empty();

   // If the input is in keyword mode, don't inline a match without or with a
   // different keyword. Otherwise, if the input is not in keyword mode, don't
   // inline a match with a keyword.
   if (input.prefer_keyword()
           ? is_search_type && keyword_matches && match_has_explicit_keyword
           : !match_has_explicit_keyword) {
     if (is_search_type) {
       if (match.fill_into_edit.size() >= input.text().size() &&
           std::equal(match.fill_into_edit.begin(),
                      match.fill_into_edit.begin() + input.text().size(),
                      input.text().begin(),
                      SimpleCaseInsensitiveCompareUCS2())) {
         match.inline_autocompletion =
             match.fill_into_edit.substr(input.text().length());
         match.allowed_to_be_default_match =
             !input.prevent_inline_autocomplete() ||
             match.inline_autocompletion.empty();
       }
     } else {
       // Try rich autocompletion first. For document suggestions,
       // `match.contents` is the title, while `description` is something like
       // 'Google Docs' and shouldn't be autocompleted. For all other nav
       // suggestions, `contents` is the URL and `description` is the title.
       bool autocompleted =
           match.type == AutocompleteMatch::Type::DOCUMENT_SUGGESTION
               ? match.TryRichAutocompletion(u"", match.contents, input,
                                             shortcut.text)
               : match.TryRichAutocompletion(match.contents, match.description,
                                             input, shortcut.text);

       if (!autocompleted) {
         const size_t inline_autocomplete_offset =
             URLPrefix::GetInlineAutocompleteOffset(
                 input.text(), fixed_up_input_text, true, match.fill_into_edit);
         if (inline_autocomplete_offset != std::u16string::npos) {
           match.inline_autocompletion =
               match.fill_into_edit.substr(inline_autocomplete_offset);
           match.SetAllowedToBeDefault(input);
         }
       }
     }
   }

   // Try to mark pieces of the contents and description as matches if they
   // appear in |input.text()|.
   if (!term_string.empty()) {
     match.contents_class = ClassifyAllMatchesInString(
         term_string, match.contents, is_search_type, match.contents_class);
     match.description_class = ClassifyAllMatchesInString(
         term_string, match.description,
         /*text_is_search_query=*/false, match.description_class);
   }
   return match;
 }

 ShortcutsBackend::ShortcutMap::const_iterator ShortcutsProvider::FindFirstMatch(
     const std::u16string& keyword,
     ShortcutsBackend* backend) {
   DCHECK(backend);
   auto it = backend->shortcuts_map().lower_bound(keyword);
   // Lower bound not necessarily matches the keyword, check for item pointed by
   // the lower bound iterator to at least start with keyword.
   return ((it == backend->shortcuts_map().end()) ||
           base::StartsWith(it->first, keyword, base::CompareCase::SENSITIVE))
              ? it
              : backend->shortcuts_map().end();
 }

 std::pair<int, int> ShortcutsProvider::CalculateAggregateScore(
     const std::u16string& terms,
     const std::vector<const ShortcutsDatabase::Shortcut*>& shortcuts,
     int max_relevance) {
   DCHECK_GT(shortcuts.size(), 0u);
   const size_t shortest_text_length =
       ShortestShortcutText(shortcuts)->text.length();
   const base::Time& last_access_time =
       MostRecentShortcut(shortcuts)->last_access_time;
   const int number_of_hits = SumNumberOfHits(shortcuts);
   const int relevance = CalculateScoreFromFactors(
       terms.length(), shortest_text_length, last_access_time, number_of_hits,
       max_relevance);
   return {relevance, number_of_hits};
 }
	// Copyright 2012 The Chromium Authors
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "components/omnibox/browser/shortcuts_provider.h"

	#include <stddef.h>

	#include <algorithm>
	#include <cmath>
	#include <map>
	#include <numeric>
	#include <utility>
	#include <vector>

	#include "base/check_op.h"
	#include "base/containers/cxx20_erase.h"
	#include "base/feature_list.h"
	#include "base/i18n/case_conversion.h"
	#include "base/memory/raw_ptr.h"
	#include "base/metrics/histogram.h"
	#include "base/numerics/safe_conversions.h"
	#include "base/ranges/algorithm.h"
	#include "base/strings/strcat.h"
	#include "base/strings/string_util.h"
	#include "base/strings/utf_string_conversions.h"
	#include "base/time/time.h"
	#include "base/trace_event/trace_event.h"
	#include "components/history/core/browser/history_service.h"
	#include "components/omnibox/browser/autocomplete_i18n.h"
	#include "components/omnibox/browser/autocomplete_input.h"
	#include "components/omnibox/browser/autocomplete_match.h"
	#include "components/omnibox/browser/autocomplete_provider_client.h"
	#include "components/omnibox/browser/history_url_provider.h"
	#include "components/omnibox/browser/omnibox_field_trial.h"
	#include "components/omnibox/browser/url_prefix.h"
	#include "components/omnibox/common/omnibox_features.h"
	#include "components/prefs/pref_service.h"
	#include "components/search_engines/template_url_service.h"
	#include "components/url_formatter/url_fixer.h"
	#include "third_party/metrics_proto/omnibox_focus_type.pb.h"
	#include "third_party/metrics_proto/omnibox_input_type.pb.h"
	#include "third_party/omnibox_proto/groups.pb.h"

	#if !BUILDFLAG(IS_IOS)
	#include "components/history_clusters/core/config.h"
	#endif // !BUILDFLAG(IS_IOS)

	namespace {

	class DestinationURLEqualsURL {
	public:
	explicit DestinationURLEqualsURL(const GURL& url) : url_(url) {}
	bool operator()(const AutocompleteMatch& match) const {
	return match.destination_url == url_;
	}

	private:
	const GURL url_;
	};

	// ShortcutMatch holds sufficient information about a single match from the
	// shortcut database to allow for destination deduping and relevance sorting.
	// After those stages the top matches are converted to the more heavyweight
	// AutocompleteMatch struct. Avoiding constructing the larger struct for
	// every such match can save significant time when there are many shortcut
	// matches to process.
	struct ShortcutMatch {
	ShortcutMatch(int relevance,
	int aggregate_number_of_hits,
	const GURL& stripped_destination_url,
	const ShortcutsDatabase::Shortcut* shortcut)
	: relevance(relevance),
	aggregate_number_of_hits(aggregate_number_of_hits),
	stripped_destination_url(stripped_destination_url),
	shortcut(shortcut),
	contents(shortcut->match_core.contents),
	type(shortcut->match_core.type) {
	DCHECK_GE(aggregate_number_of_hits, shortcut->number_of_hits);
	}

	int relevance;
	// The sum of `number_of_hits` of all deduped shortcuts.
	int aggregate_number_of_hits;
	GURL stripped_destination_url;
	raw_ptr<const ShortcutsDatabase::Shortcut> shortcut;
	std::u16string contents;
	AutocompleteMatch::Type type;
	};

	// Helpers for extracting aggregated factors from a vector of shortcuts.
	const ShortcutsDatabase::Shortcut* ShortestShortcutText(
	std::vector<const ShortcutsDatabase::Shortcut*> shortcuts) {
	return base::ranges::min_element(shortcuts, {}, [](const auto shortcut) {
	return shortcut->text.length();
	});
	}

	const ShortcutsDatabase::Shortcut* MostRecentShortcut(
	std::vector<const ShortcutsDatabase::Shortcut*> shortcuts) {
	return base::ranges::max_element(shortcuts, {}, [](const auto shortcut) {
	return shortcut->last_access_time;
	});
	}

	int SumNumberOfHits(std::vector<const ShortcutsDatabase::Shortcut*> shortcuts) {
	return std::accumulate(shortcuts.begin(), shortcuts.end(), 0,
	[](int sum, const auto* shortcut) {
	return sum + shortcut->number_of_hits;
	});
	}

	const ShortcutsDatabase::Shortcut* ShortestShortcutContent(
	std::vector<const ShortcutsDatabase::Shortcut*> shortcuts) {
	return base::ranges::min_element(shortcuts, {}, [](const auto shortcut) {
	return shortcut->match_core.contents.length();
	});
	}

	// Helper for `CalculateAggregateScore()` to score shortcuts.
	int CalculateScoreFromFactors(size_t typed_length,
	size_t shortcut_text_length,
	const base::Time& last_access_time,
	int number_of_hits,
	int max_relevance) {
	DCHECK_GT(typed_length, 0u);
	DCHECK_LE(typed_length, shortcut_text_length);
	// The initial score is based on how much of the shortcut the user has typed.
	// Due to appending 3 chars when updating shortcuts, and expanding the last
	// word when updating or creating shortcuts, the shortcut text can be longer
	// than the user's previous inputs (see
	// `ShortcutsBackend::AddOrUpdateShortcut()`). As an approximation, ignore 3
	// or 10 chars in the shortcut text. Shortcuts are often deduped with higher
	// scoring history suggestions anyway.
	const size_t adjustment =
	OmniboxFieldTrial::IsShortcutExpandingEnabled() ? 10 : 3;
	const size_t adjusted_text_length =
	std::max(shortcut_text_length, typed_length + adjustment) - adjustment;
	// Using the square root of the typed fraction boosts the base score rapidly
	// as characters are typed, compared with simply using the typed fraction
	// directly. This makes sense since the first characters typed are much more
	// important for determining how likely it is a user wants a particular
	// shortcut than are the remaining continued characters.
	const double typed_fraction =
	sqrt(static_cast<double>(typed_length) / adjusted_text_length);

	// Decay score by half each week. Clamp to 0 in case time jumps backwards
	// (e.g. due to DST).
	const double halftime_numerator =
	std::max((base::Time::Now() - last_access_time) / base::Days(7), 0.);
	// Reduce the decay factor for more used shortcuts. Once used, decay at full
	// speed; otherwise, decay `n` times slower, where n increases by 0.2 for each
	// additional hit, up to a maximum of 5.
	const double halftime_denominator = std::min(.8 + number_of_hits * .2, 5.);
	const double halftime_decay =
	pow(.5, halftime_numerator / halftime_denominator);

	return base::ClampRound(typed_fraction * halftime_decay * max_relevance);
	}
	} // namespace

	const int ShortcutsProvider::kShortcutsProviderDefaultMaxRelevance = 1199;

	ShortcutsProvider::ShortcutsProvider(AutocompleteProviderClient* client)
	: AutocompleteProvider(AutocompleteProvider::TYPE_SHORTCUTS),
	client_(client),
	initialized_(false) {
	scoped_refptr<ShortcutsBackend> backend = client_->GetShortcutsBackend();
	if (backend) {
	backend->AddObserver(this);
	if (backend->initialized())
	initialized_ = true;
	}
	}

	void ShortcutsProvider::Start(const AutocompleteInput& input,
	bool minimal_changes) {
	TRACE_EVENT0("omnibox", "ShortcutsProvider::Start");
	matches_.clear();

	if (input.focus_type() == metrics::OmniboxFocusType::INTERACTION_DEFAULT &&
	input.type() != metrics::OmniboxInputType::EMPTY &&
	!input.text().empty() && initialized_) {
	GetMatches(input);
	}
	}

	void ShortcutsProvider::DeleteMatch(const AutocompleteMatch& match) {
	// Copy the URL since deleting from \|matches_\| will invalidate \|match\|.
	GURL url(match.destination_url);
	DCHECK(url.is_valid());

	// When a user deletes a match, they probably mean for the URL to disappear
	// out of history entirely. So nuke all shortcuts that map to this URL.
	scoped_refptr<ShortcutsBackend> backend =
	client_->GetShortcutsBackendIfExists();
	if (backend) // Can be NULL in Incognito.
	backend->DeleteShortcutsWithURL(url);

	base::EraseIf(matches_, DestinationURLEqualsURL(url));
	// NOTE: \|match\| is now dead!

	// Delete the match from the history DB. This will eventually result in a
	// second call to DeleteShortcutsWithURL(), which is harmless.
	history::HistoryService* const history_service = client_->GetHistoryService();
	DCHECK(history_service);
	history_service->DeleteURLs({url});
	}

	ShortcutsProvider::~ShortcutsProvider() {
	scoped_refptr<ShortcutsBackend> backend =
	client_->GetShortcutsBackendIfExists();
	if (backend)
	backend->RemoveObserver(this);
	}

	void ShortcutsProvider::OnShortcutsLoaded() {
	initialized_ = true;
	}

	void ShortcutsProvider::GetMatches(const AutocompleteInput& input) {
	scoped_refptr<ShortcutsBackend> backend =
	client_->GetShortcutsBackendIfExists();
	if (!backend)
	return;
	// Get the URLs from the shortcuts database with keys that partially or
	// completely match the search term.
	std::u16string term_string(base::i18n::ToLower(input.text()));
	DCHECK(!term_string.empty());

	int max_relevance = kShortcutsProviderDefaultMaxRelevance;
	TemplateURLService* template_url_service = client_->GetTemplateURLService();
	const std::u16string fixed_up_input(FixupUserInput(input).second);

	// Get the shortcuts from the database with keys that partially or completely
	// match the search term.
	std::vector<ShortcutMatch> shortcut_matches;
	// Track history cluster shortcuts separately, so they don't consume
	// `provider_max_matches_`.
	std::vector<ShortcutMatch> history_cluster_shortcut_matches;

	// Group the matching shortcuts by stripped `destination_url`, score them
	// together, and create a single `ShortcutMatch`.
	std::map<GURL, std::vector<const ShortcutsDatabase::Shortcut*>>
	shortcuts_by_url;
	for (auto it = FindFirstMatch(term_string, backend.get());
	it != backend->shortcuts_map().end() &&
	base::StartsWith(it->first, term_string, base::CompareCase::SENSITIVE);
	++it) {
	const ShortcutsDatabase::Shortcut& shortcut = it->second;

	// Allow `HISTORY_CLUSTER` suggestions only if the appropriate feature is
	// enabled.
	#if !BUILDFLAG(IS_IOS)
	if (!history_clusters::GetConfig()
	.omnibox_history_cluster_provider_shortcuts &&
	shortcut.match_core.type == AutocompleteMatch::Type::HISTORY_CLUSTER) {
	continue;
	}
	#endif // !BUILDFLAG(IS_IOS)

	const GURL stripped_destination_url(AutocompleteMatch::GURLToStrippedGURL(
	shortcut.match_core.destination_url, input, template_url_service,
	shortcut.match_core.keyword));
	shortcuts_by_url[stripped_destination_url].push_back(&shortcut);
	}

	for (const auto& [url, shortcuts] : shortcuts_by_url) {
	auto [relevance, number_of_hits] =
	CalculateAggregateScore(term_string, shortcuts, max_relevance);

	// Don't return shortcuts with zero relevance.
	if (relevance) {
	// Pick the shortcut with the shortest content. Picking the shortest
	// shortcut text would probably also work, but could result in more
	// text changes as the user types their input for shortcut texts that
	// are prefixes of each other.
	const ShortcutsDatabase::Shortcut* shortcut =
	ShortestShortcutContent(shortcuts);
	ShortcutMatch shortcut_match = {relevance, number_of_hits, url, shortcut};
	if (shortcut->match_core.type ==
	AutocompleteMatch::Type::HISTORY_CLUSTER) {
	history_cluster_shortcut_matches.push_back(shortcut_match);
	} else {
	shortcut_matches.push_back(shortcut_match);
	}
	}
	}

	static const bool boost_enabled =
	base::FeatureList::IsEnabled(omnibox::kShortcutBoost);
	if (!shortcut_matches.empty() && boost_enabled) {
	// Promote the shortcut with most hits to compete for the default slot.
	// Won't necessarily be the highest scoring shortcut, as scoring also
	// depends on visit times and input length. Therefore, has to be done before
	// the partial sort before to ensure the match isn't erased. The match may
	// be not-allowed-to-be-default, in which case, it'll be competing for top
	// slot in the URL grouped suggestions.
	base::ranges::max_element(shortcut_matches, {},
	[](const auto& shortcut_match) {
	return shortcut_match.aggregate_number_of_hits;
	})
	->relevance = HistoryURLProvider::kScoreForBestInlineableResult + 1;
	}

	// Find best matches.
	std::partial_sort(
	shortcut_matches.begin(),
	shortcut_matches.begin() +
	std::min(provider_max_matches_, shortcut_matches.size()),
	shortcut_matches.end(),
	[](const ShortcutMatch& elem1, const ShortcutMatch& elem2) {
	// Ensure a stable sort by sorting equal-relevance matches
	// alphabetically.
	return elem1.relevance == elem2.relevance
	? elem1.contents < elem2.contents
	: elem1.relevance > elem2.relevance;
	});
	if (shortcut_matches.size() > provider_max_matches_) {
	shortcut_matches.erase(shortcut_matches.begin() + provider_max_matches_,
	shortcut_matches.end());
	}

	// Create and initialize autocomplete matches from shortcut matches.
	matches_.reserve(shortcut_matches.size() +
	history_cluster_shortcut_matches.size());
	base::ranges::transform(
	shortcut_matches, std::back_inserter(matches_),
	[&](const auto& shortcut_match) {
	// Guarantee that all relevance scores are decreasing (but do not assign
	// any scores below 1). Only do this for non-history cluster shortcuts.
	max_relevance = std::min(max_relevance, shortcut_match.relevance);
	int relevance = max_relevance;
	if (max_relevance > 1)
	--max_relevance;

	return ShortcutToACMatch(*shortcut_match.shortcut, relevance, input,
	fixed_up_input, term_string);
	});
	base::ranges::transform(
	history_cluster_shortcut_matches, std::back_inserter(matches_),
	[&](const auto& shortcut_match) {
	auto match = ShortcutToACMatch(*shortcut_match.shortcut,
	shortcut_match.relevance, input,
	fixed_up_input, term_string);
	// Guard this as `history_clusters::GetConfig()` doesn't exist on iOS.
	// Though this code will never run on iOS regardless.
	#if !BUILDFLAG(IS_IOS)
	if (!history_clusters::GetConfig()
	.omnibox_history_cluster_provider_free_ranking) {
	match.suggestion_group_id = omnibox::GROUP_HISTORY_CLUSTER;
	// Insert a corresponding omnibox::GroupConfig with default values in
	// the suggestion groups map; otherwise the group ID will get dropped.
	suggestion_groups_map_[omnibox::GROUP_HISTORY_CLUSTER];
	}
	#endif // !BUILDFLAG(IS_IOS)

	return match;
	});
	}

	AutocompleteMatch ShortcutsProvider::ShortcutToACMatch(
	const ShortcutsDatabase::Shortcut& shortcut,
	int relevance,
	const AutocompleteInput& input,
	const std::u16string& fixed_up_input_text,
	const std::u16string term_string) {
	DCHECK(!input.text().empty());
	AutocompleteMatch match;
	match.provider = this;
	match.relevance = relevance;

	// https://crbug.com/1154982#c36 - When deleting history is disabled by
	// policy, also disable deleting Shortcuts matches, because it's confusing
	// when the X appears on the de-duplicated History and Shortcuts matches.
	match.deletable = client_->AllowDeletingBrowserHistory();

	match.fill_into_edit = shortcut.match_core.fill_into_edit;
	match.destination_url = shortcut.match_core.destination_url;
	DCHECK(match.destination_url.is_valid());
	match.document_type = shortcut.match_core.document_type;
	match.contents = shortcut.match_core.contents;
	match.contents_class = AutocompleteMatch::ClassificationsFromString(
	shortcut.match_core.contents_class);
	match.description = shortcut.match_core.description;
	match.description_class = AutocompleteMatch::ClassificationsFromString(
	shortcut.match_core.description_class);
	match.transition = shortcut.match_core.transition;
	match.type = shortcut.match_core.type;
	match.keyword = shortcut.match_core.keyword;
	match.RecordAdditionalInfo("number of hits", shortcut.number_of_hits);
	match.RecordAdditionalInfo("last access time", shortcut.last_access_time);
	match.RecordAdditionalInfo("original input text", shortcut.text);

	// Set \|inline_autocompletion\| and \|allowed_to_be_default_match\| if possible.
	// If the input is in keyword mode, navigation matches cannot be the default
	// match, and search query matches can only be the default match if their
	// keywords matches the input's keyword, as otherwise, default,
	// different-keyword matches may result in leaving keyword mode. Additionally,
	// if the match is a search query, check whether the user text is a prefix of
	// the query. If the match is a navigation, we assume the fill_into_edit looks
	// something like a URL, so we use URLPrefix::GetInlineAutocompleteOffset() to
	// try and strip off any prefixes that the user might not think would change
	// the meaning, but would otherwise prevent inline autocompletion. This
	// allows, for example, the input of "foo.c" to autocomplete to "foo.com" for
	// a fill_into_edit of "http://foo.com".
	const bool is_search_type = AutocompleteMatch::IsSearchType(match.type);

	DCHECK(is_search_type != match.keyword.empty());

	const bool keyword_matches =
	base::StartsWith(base::UTF16ToUTF8(input.text()),
	base::StrCat({base::UTF16ToUTF8(match.keyword), " "}),
	base::CompareCase::INSENSITIVE_ASCII);
	if (is_search_type) {
	const TemplateURL* template_url =
	client_->GetTemplateURLService()->GetDefaultSearchProvider();
	match.from_keyword =
	// Either the default search provider is disabled,
	!template_url \|\|
	// or the match is not from the default search provider,
	match.keyword != template_url->keyword() \|\|
	// or keyword mode was invoked explicitly and the keyword in the input
	// is also of the default search provider.
	(input.prefer_keyword() && keyword_matches);
	}

	const bool match_has_explicit_keyword =
	!match
	.GetSubstitutingExplicitlyInvokedKeyword(
	client_->GetTemplateURLService())
	.empty();

	// If the input is in keyword mode, don't inline a match without or with a
	// different keyword. Otherwise, if the input is not in keyword mode, don't
	// inline a match with a keyword.
	if (input.prefer_keyword()
	? is_search_type && keyword_matches && match_has_explicit_keyword
	: !match_has_explicit_keyword) {
	if (is_search_type) {
	if (match.fill_into_edit.size() >= input.text().size() &&
	std::equal(match.fill_into_edit.begin(),
	match.fill_into_edit.begin() + input.text().size(),
	input.text().begin(),
	SimpleCaseInsensitiveCompareUCS2())) {
	match.inline_autocompletion =
	match.fill_into_edit.substr(input.text().length());
	match.allowed_to_be_default_match =
	!input.prevent_inline_autocomplete() \|\|
	match.inline_autocompletion.empty();
	}
	} else {
	// Try rich autocompletion first. For document suggestions,
	// `match.contents` is the title, while `description` is something like
	// 'Google Docs' and shouldn't be autocompleted. For all other nav
	// suggestions, `contents` is the URL and `description` is the title.
	bool autocompleted =
	match.type == AutocompleteMatch::Type::DOCUMENT_SUGGESTION
	? match.TryRichAutocompletion(u"", match.contents, input,
	shortcut.text)
	: match.TryRichAutocompletion(match.contents, match.description,
	input, shortcut.text);

	if (!autocompleted) {
	const size_t inline_autocomplete_offset =
	URLPrefix::GetInlineAutocompleteOffset(
	input.text(), fixed_up_input_text, true, match.fill_into_edit);
	if (inline_autocomplete_offset != std::u16string::npos) {
	match.inline_autocompletion =
	match.fill_into_edit.substr(inline_autocomplete_offset);
	match.SetAllowedToBeDefault(input);
	}
	}
	}
	}

	// Try to mark pieces of the contents and description as matches if they
	// appear in \|input.text()\|.
	if (!term_string.empty()) {
	match.contents_class = ClassifyAllMatchesInString(
	term_string, match.contents, is_search_type, match.contents_class);
	match.description_class = ClassifyAllMatchesInString(
	term_string, match.description,
	/text_is_search_query=/false, match.description_class);
	}
	return match;
	}

	ShortcutsBackend::ShortcutMap::const_iterator ShortcutsProvider::FindFirstMatch(
	const std::u16string& keyword,
	ShortcutsBackend* backend) {
	DCHECK(backend);
	auto it = backend->shortcuts_map().lower_bound(keyword);
	// Lower bound not necessarily matches the keyword, check for item pointed by
	// the lower bound iterator to at least start with keyword.
	return ((it == backend->shortcuts_map().end()) \|\|
	base::StartsWith(it->first, keyword, base::CompareCase::SENSITIVE))
	? it
	: backend->shortcuts_map().end();
	}

	std::pair<int, int> ShortcutsProvider::CalculateAggregateScore(
	const std::u16string& terms,
	const std::vector<const ShortcutsDatabase::Shortcut*>& shortcuts,
	int max_relevance) {
	DCHECK_GT(shortcuts.size(), 0u);
	const size_t shortest_text_length =
	ShortestShortcutText(shortcuts)->text.length();
	const base::Time& last_access_time =
	MostRecentShortcut(shortcuts)->last_access_time;
	const int number_of_hits = SumNumberOfHits(shortcuts);
	const int relevance = CalculateScoreFromFactors(
	terms.length(), shortest_text_length, last_access_time, number_of_hits,
	max_relevance);
	return {relevance, number_of_hits};
	}