chrome/browser/autocomplete/autocomplete_result.cc - git/chromium - Git at Google

 // 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/autocomplete/autocomplete_result.h"

 #include <algorithm>
 #include <iterator>

 #include "base/logging.h"
 #include "chrome/browser/autocomplete/autocomplete_input.h"
 #include "chrome/browser/autocomplete/autocomplete_match.h"

 // static
 const size_t AutocompleteResult::kMaxMatches = 6;
 const int AutocompleteResult::kLowestDefaultScore = 1200;

 void AutocompleteResult::Selection::Clear() {
   destination_url = GURL();
   provider_affinity = NULL;
   is_history_what_you_typed_match = false;
 }

 AutocompleteResult::AutocompleteResult() {
   // Reserve space for the max number of matches we'll show.
   matches_.reserve(kMaxMatches);

   // It's probably safe to do this in the initializer list, but there's little
   // penalty to doing it here and it ensures our object is fully constructed
   // before calling member functions.
   default_match_ = end();
 }

 AutocompleteResult::~AutocompleteResult() {}

 void AutocompleteResult::CopyFrom(const AutocompleteResult& rhs) {
   if (this == &rhs)
     return;

   matches_ = rhs.matches_;
   // Careful!  You can't just copy iterators from another container, you have to
   // reconstruct them.
   default_match_ = (rhs.default_match_ == rhs.end()) ?
       end() : (begin() + (rhs.default_match_ - rhs.begin()));

   alternate_nav_url_ = rhs.alternate_nav_url_;
 }

 void AutocompleteResult::CopyOldMatches(const AutocompleteInput& input,
                                         const AutocompleteResult& old_matches) {
   if (old_matches.empty())
     return;

   if (empty()) {
     // If we've got no matches we can copy everything from the last result.
     CopyFrom(old_matches);
     for (ACMatches::iterator i(begin()); i != end(); ++i)
       i->from_previous = true;
     return;
   }

   // In hopes of providing a stable popup we try to keep the number of matches
   // per provider consistent. Other schemes (such as blindly copying the most
   // relevant matches) typically result in many successive 'What You Typed'
   // results filling all the matches, which looks awful.
   //
   // Instead of starting with the current matches and then adding old matches
   // until we hit our overall limit, we copy enough old matches so that each
   // provider has at least as many as before, and then use SortAndCull() to
   // clamp globally. This way, old high-relevance matches will starve new
   // low-relevance matches, under the assumption that the new matches will
   // ultimately be similar.  If the assumption holds, this prevents seeing the
   // new low-relevance match appear and then quickly get pushed off the bottom;
   // if it doesn't, then once the providers are done and we expire the old
   // matches, the new ones will all become visible, so we won't have lost
   // anything permanently.
   ProviderToMatches matches_per_provider, old_matches_per_provider;
   BuildProviderToMatches(&matches_per_provider);
   old_matches.BuildProviderToMatches(&old_matches_per_provider);
   for (ProviderToMatches::const_iterator i(old_matches_per_provider.begin());
        i != old_matches_per_provider.end(); ++i) {
     MergeMatchesByProvider(i->second, matches_per_provider[i->first]);
   }

   SortAndCull(input);
 }

 void AutocompleteResult::AppendMatches(const ACMatches& matches) {
 #ifndef NDEBUG
   for (ACMatches::const_iterator i(matches.begin()); i != matches.end(); ++i) {
     DCHECK_EQ(AutocompleteMatch::SanitizeString(i->contents), i->contents);
     DCHECK_EQ(AutocompleteMatch::SanitizeString(i->description),
               i->description);
   }
 #endif
   std::copy(matches.begin(), matches.end(), std::back_inserter(matches_));
   default_match_ = end();
   alternate_nav_url_ = GURL();
 }

 void AutocompleteResult::AddMatch(const AutocompleteMatch& match) {
   DCHECK(default_match_ != end());
   DCHECK_EQ(AutocompleteMatch::SanitizeString(match.contents), match.contents);
   DCHECK_EQ(AutocompleteMatch::SanitizeString(match.description),
             match.description);
   ACMatches::iterator insertion_point =
       std::upper_bound(begin(), end(), match, &AutocompleteMatch::MoreRelevant);
   matches_difference_type default_offset = default_match_ - begin();
   if ((insertion_point - begin()) <= default_offset)
     ++default_offset;
   matches_.insert(insertion_point, match);
   default_match_ = begin() + default_offset;
 }

 void AutocompleteResult::SortAndCull(const AutocompleteInput& input) {
   for (ACMatches::iterator i(matches_.begin()); i != matches_.end(); ++i)
     i->ComputeStrippedDestinationURL();

   // Remove duplicates.
   std::sort(matches_.begin(), matches_.end(),
             &AutocompleteMatch::DestinationSortFunc);
   matches_.erase(std::unique(matches_.begin(), matches_.end(),
                              &AutocompleteMatch::DestinationsEqual),
                  matches_.end());

   // Sort and trim to the most relevant kMaxMatches matches.
   const size_t num_matches = std::min(kMaxMatches, matches_.size());
   std::partial_sort(matches_.begin(), matches_.begin() + num_matches,
                     matches_.end(), &AutocompleteMatch::MoreRelevant);
   matches_.resize(num_matches);

   default_match_ = begin();

   // Set the alternate nav URL.
   alternate_nav_url_ = GURL();
   if (((input.type() == AutocompleteInput::UNKNOWN) ||
        (input.type() == AutocompleteInput::REQUESTED_URL)) &&
       (default_match_ != end()) &&
       AutocompleteMatch::IsSearchType(default_match_->type) &&
       (default_match_->transition != content::PAGE_TRANSITION_KEYWORD) &&
       (input.canonicalized_url() != default_match_->destination_url))
     alternate_nav_url_ = input.canonicalized_url();
 }

 bool AutocompleteResult::HasCopiedMatches() const {
   for (ACMatches::const_iterator i(begin()); i != end(); ++i) {
     if (i->from_previous)
       return true;
   }
   return false;
 }

 size_t AutocompleteResult::size() const {
   return matches_.size();
 }

 bool AutocompleteResult::empty() const {
   return matches_.empty();
 }

 AutocompleteResult::const_iterator AutocompleteResult::begin() const {
   return matches_.begin();
 }

 AutocompleteResult::iterator AutocompleteResult::begin() {
   return matches_.begin();
 }

 AutocompleteResult::const_iterator AutocompleteResult::end() const {
   return matches_.end();
 }

 AutocompleteResult::iterator AutocompleteResult::end() {
   return matches_.end();
 }

 // Returns the match at the given index.
 const AutocompleteMatch& AutocompleteResult::match_at(size_t index) const {
   DCHECK_LT(index, matches_.size());
   return matches_[index];
 }

 AutocompleteMatch* AutocompleteResult::match_at(size_t index) {
   DCHECK_LT(index, matches_.size());
   return &matches_[index];
 }

 void AutocompleteResult::Reset() {
   matches_.clear();
   default_match_ = end();
 }

 void AutocompleteResult::Swap(AutocompleteResult* other) {
   const size_t default_match_offset = default_match_ - begin();
   const size_t other_default_match_offset =
       other->default_match_ - other->begin();
   matches_.swap(other->matches_);
   default_match_ = begin() + other_default_match_offset;
   other->default_match_ = other->begin() + default_match_offset;
   alternate_nav_url_.Swap(&(other->alternate_nav_url_));
 }

 #ifndef NDEBUG
 void AutocompleteResult::Validate() const {
   for (const_iterator i(begin()); i != end(); ++i)
     i->Validate();
 }
 #endif

 void AutocompleteResult::BuildProviderToMatches(
     ProviderToMatches* provider_to_matches) const {
   for (ACMatches::const_iterator i(begin()); i != end(); ++i)
     (*provider_to_matches)[i->provider].push_back(*i);
 }

 // static
 bool AutocompleteResult::HasMatchByDestination(const AutocompleteMatch& match,
                                                const ACMatches& matches) {
   for (ACMatches::const_iterator i(matches.begin()); i != matches.end(); ++i) {
     if (i->destination_url == match.destination_url)
       return true;
   }
   return false;
 }

 void AutocompleteResult::MergeMatchesByProvider(const ACMatches& old_matches,
                                                 const ACMatches& new_matches) {
   if (new_matches.size() >= old_matches.size())
     return;

   size_t delta = old_matches.size() - new_matches.size();
   const int max_relevance = (new_matches.empty() ?
       matches_.front().relevance : new_matches[0].relevance) - 1;
   // Because the goal is a visibly-stable popup, rather than one that preserves
   // the highest-relevance matches, we copy in the lowest-relevance matches
   // first. This means that within each provider's "group" of matches, any
   // synchronous matches (which tend to have the highest scores) will
   // "overwrite" the initial matches from that provider's previous results,
   // minimally disturbing the rest of the matches.
   for (ACMatches::const_reverse_iterator i(old_matches.rbegin());
        i != old_matches.rend() && delta > 0; ++i) {
     if (!HasMatchByDestination(*i, new_matches)) {
       AutocompleteMatch match = *i;
       match.relevance = std::min(max_relevance, match.relevance);
       match.from_previous = true;
       AddMatch(match);
       delta--;
     }
   }
 }
	// 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/autocomplete/autocomplete_result.h"

	#include <algorithm>
	#include <iterator>

	#include "base/logging.h"
	#include "chrome/browser/autocomplete/autocomplete_input.h"
	#include "chrome/browser/autocomplete/autocomplete_match.h"

	// static
	const size_t AutocompleteResult::kMaxMatches = 6;
	const int AutocompleteResult::kLowestDefaultScore = 1200;

	void AutocompleteResult::Selection::Clear() {
	destination_url = GURL();
	provider_affinity = NULL;
	is_history_what_you_typed_match = false;
	}

	AutocompleteResult::AutocompleteResult() {
	// Reserve space for the max number of matches we'll show.
	matches_.reserve(kMaxMatches);

	// It's probably safe to do this in the initializer list, but there's little
	// penalty to doing it here and it ensures our object is fully constructed
	// before calling member functions.
	default_match_ = end();
	}

	AutocompleteResult::~AutocompleteResult() {}

	void AutocompleteResult::CopyFrom(const AutocompleteResult& rhs) {
	if (this == &rhs)
	return;

	matches_ = rhs.matches_;
	// Careful! You can't just copy iterators from another container, you have to
	// reconstruct them.
	default_match_ = (rhs.default_match_ == rhs.end()) ?
	end() : (begin() + (rhs.default_match_ - rhs.begin()));

	alternate_nav_url_ = rhs.alternate_nav_url_;
	}

	void AutocompleteResult::CopyOldMatches(const AutocompleteInput& input,
	const AutocompleteResult& old_matches) {
	if (old_matches.empty())
	return;

	if (empty()) {
	// If we've got no matches we can copy everything from the last result.
	CopyFrom(old_matches);
	for (ACMatches::iterator i(begin()); i != end(); ++i)
	i->from_previous = true;
	return;
	}

	// In hopes of providing a stable popup we try to keep the number of matches
	// per provider consistent. Other schemes (such as blindly copying the most
	// relevant matches) typically result in many successive 'What You Typed'
	// results filling all the matches, which looks awful.
	//
	// Instead of starting with the current matches and then adding old matches
	// until we hit our overall limit, we copy enough old matches so that each
	// provider has at least as many as before, and then use SortAndCull() to
	// clamp globally. This way, old high-relevance matches will starve new
	// low-relevance matches, under the assumption that the new matches will
	// ultimately be similar. If the assumption holds, this prevents seeing the
	// new low-relevance match appear and then quickly get pushed off the bottom;
	// if it doesn't, then once the providers are done and we expire the old
	// matches, the new ones will all become visible, so we won't have lost
	// anything permanently.
	ProviderToMatches matches_per_provider, old_matches_per_provider;
	BuildProviderToMatches(&matches_per_provider);
	old_matches.BuildProviderToMatches(&old_matches_per_provider);
	for (ProviderToMatches::const_iterator i(old_matches_per_provider.begin());
	i != old_matches_per_provider.end(); ++i) {
	MergeMatchesByProvider(i->second, matches_per_provider[i->first]);
	}

	SortAndCull(input);
	}

	void AutocompleteResult::AppendMatches(const ACMatches& matches) {
	#ifndef NDEBUG
	for (ACMatches::const_iterator i(matches.begin()); i != matches.end(); ++i) {
	DCHECK_EQ(AutocompleteMatch::SanitizeString(i->contents), i->contents);
	DCHECK_EQ(AutocompleteMatch::SanitizeString(i->description),
	i->description);
	}
	#endif
	std::copy(matches.begin(), matches.end(), std::back_inserter(matches_));
	default_match_ = end();
	alternate_nav_url_ = GURL();
	}

	void AutocompleteResult::AddMatch(const AutocompleteMatch& match) {
	DCHECK(default_match_ != end());
	DCHECK_EQ(AutocompleteMatch::SanitizeString(match.contents), match.contents);
	DCHECK_EQ(AutocompleteMatch::SanitizeString(match.description),
	match.description);
	ACMatches::iterator insertion_point =
	std::upper_bound(begin(), end(), match, &AutocompleteMatch::MoreRelevant);
	matches_difference_type default_offset = default_match_ - begin();
	if ((insertion_point - begin()) <= default_offset)
	++default_offset;
	matches_.insert(insertion_point, match);
	default_match_ = begin() + default_offset;
	}

	void AutocompleteResult::SortAndCull(const AutocompleteInput& input) {
	for (ACMatches::iterator i(matches_.begin()); i != matches_.end(); ++i)
	i->ComputeStrippedDestinationURL();

	// Remove duplicates.
	std::sort(matches_.begin(), matches_.end(),
	&AutocompleteMatch::DestinationSortFunc);
	matches_.erase(std::unique(matches_.begin(), matches_.end(),
	&AutocompleteMatch::DestinationsEqual),
	matches_.end());

	// Sort and trim to the most relevant kMaxMatches matches.
	const size_t num_matches = std::min(kMaxMatches, matches_.size());
	std::partial_sort(matches_.begin(), matches_.begin() + num_matches,
	matches_.end(), &AutocompleteMatch::MoreRelevant);
	matches_.resize(num_matches);

	default_match_ = begin();

	// Set the alternate nav URL.
	alternate_nav_url_ = GURL();
	if (((input.type() == AutocompleteInput::UNKNOWN) \|\|
	(input.type() == AutocompleteInput::REQUESTED_URL)) &&
	(default_match_ != end()) &&
	AutocompleteMatch::IsSearchType(default_match_->type) &&
	(default_match_->transition != content::PAGE_TRANSITION_KEYWORD) &&
	(input.canonicalized_url() != default_match_->destination_url))
	alternate_nav_url_ = input.canonicalized_url();
	}

	bool AutocompleteResult::HasCopiedMatches() const {
	for (ACMatches::const_iterator i(begin()); i != end(); ++i) {
	if (i->from_previous)
	return true;
	}
	return false;
	}

	size_t AutocompleteResult::size() const {
	return matches_.size();
	}

	bool AutocompleteResult::empty() const {
	return matches_.empty();
	}

	AutocompleteResult::const_iterator AutocompleteResult::begin() const {
	return matches_.begin();
	}

	AutocompleteResult::iterator AutocompleteResult::begin() {
	return matches_.begin();
	}

	AutocompleteResult::const_iterator AutocompleteResult::end() const {
	return matches_.end();
	}

	AutocompleteResult::iterator AutocompleteResult::end() {
	return matches_.end();
	}

	// Returns the match at the given index.
	const AutocompleteMatch& AutocompleteResult::match_at(size_t index) const {
	DCHECK_LT(index, matches_.size());
	return matches_[index];
	}

	AutocompleteMatch* AutocompleteResult::match_at(size_t index) {
	DCHECK_LT(index, matches_.size());
	return &matches_[index];
	}

	void AutocompleteResult::Reset() {
	matches_.clear();
	default_match_ = end();
	}

	void AutocompleteResult::Swap(AutocompleteResult* other) {
	const size_t default_match_offset = default_match_ - begin();
	const size_t other_default_match_offset =
	other->default_match_ - other->begin();
	matches_.swap(other->matches_);
	default_match_ = begin() + other_default_match_offset;
	other->default_match_ = other->begin() + default_match_offset;
	alternate_nav_url_.Swap(&(other->alternate_nav_url_));
	}

	#ifndef NDEBUG
	void AutocompleteResult::Validate() const {
	for (const_iterator i(begin()); i != end(); ++i)
	i->Validate();
	}
	#endif

	void AutocompleteResult::BuildProviderToMatches(
	ProviderToMatches* provider_to_matches) const {
	for (ACMatches::const_iterator i(begin()); i != end(); ++i)
	(provider_to_matches)[i->provider].push_back(i);
	}

	// static
	bool AutocompleteResult::HasMatchByDestination(const AutocompleteMatch& match,
	const ACMatches& matches) {
	for (ACMatches::const_iterator i(matches.begin()); i != matches.end(); ++i) {
	if (i->destination_url == match.destination_url)
	return true;
	}
	return false;
	}

	void AutocompleteResult::MergeMatchesByProvider(const ACMatches& old_matches,
	const ACMatches& new_matches) {
	if (new_matches.size() >= old_matches.size())
	return;

	size_t delta = old_matches.size() - new_matches.size();
	const int max_relevance = (new_matches.empty() ?
	matches_.front().relevance : new_matches[0].relevance) - 1;
	// Because the goal is a visibly-stable popup, rather than one that preserves
	// the highest-relevance matches, we copy in the lowest-relevance matches
	// first. This means that within each provider's "group" of matches, any
	// synchronous matches (which tend to have the highest scores) will
	// "overwrite" the initial matches from that provider's previous results,
	// minimally disturbing the rest of the matches.
	for (ACMatches::const_reverse_iterator i(old_matches.rbegin());
	i != old_matches.rend() && delta > 0; ++i) {
	if (!HasMatchByDestination(*i, new_matches)) {
	AutocompleteMatch match = *i;
	match.relevance = std::min(max_relevance, match.relevance);
	match.from_previous = true;
	AddMatch(match);
	delta--;
	}
	}
	}