components/omnibox/search_suggestion_parser.cc - chromium/src - Git at Google

 // Copyright 2014 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 "components/omnibox/search_suggestion_parser.h"

 #include "base/i18n/icu_string_conversions.h"
 #include "base/json/json_string_value_serializer.h"
 #include "base/json/json_writer.h"
 #include "base/logging.h"
 #include "base/metrics/histogram.h"
 #include "base/strings/string_number_conversions.h"
 #include "base/strings/string_util.h"
 #include "base/strings/utf_string_conversions.h"
 #include "base/values.h"
 #include "components/omnibox/autocomplete_input.h"
 #include "components/omnibox/url_prefix.h"
 #include "components/url_fixer/url_fixer.h"
 #include "net/base/net_util.h"
 #include "net/http/http_response_headers.h"
 #include "net/url_request/url_fetcher.h"
 #include "url/url_constants.h"

 namespace {

 AutocompleteMatchType::Type GetAutocompleteMatchType(const std::string& type) {
   if (type == "ENTITY")
     return AutocompleteMatchType::SEARCH_SUGGEST_ENTITY;
   if (type == "INFINITE")
     return AutocompleteMatchType::SEARCH_SUGGEST_INFINITE;
   if (type == "PERSONALIZED_QUERY")
     return AutocompleteMatchType::SEARCH_SUGGEST_PERSONALIZED;
   if (type == "PROFILE")
     return AutocompleteMatchType::SEARCH_SUGGEST_PROFILE;
   if (type == "NAVIGATION")
     return AutocompleteMatchType::NAVSUGGEST;
   if (type == "PERSONALIZED_NAVIGATION")
     return AutocompleteMatchType::NAVSUGGEST_PERSONALIZED;
   return AutocompleteMatchType::SEARCH_SUGGEST;
 }

 }  // namespace

 // SearchSuggestionParser::Result ----------------------------------------------

 SearchSuggestionParser::Result::Result(bool from_keyword_provider,
                                        int relevance,
                                        bool relevance_from_server,
                                        AutocompleteMatchType::Type type,
                                        const std::string& deletion_url)
     : from_keyword_provider_(from_keyword_provider),
       type_(type),
       relevance_(relevance),
       relevance_from_server_(relevance_from_server),
       received_after_last_keystroke_(true),
       deletion_url_(deletion_url) {}

 SearchSuggestionParser::Result::~Result() {}

 // SearchSuggestionParser::SuggestResult ---------------------------------------

 SearchSuggestionParser::SuggestResult::SuggestResult(
     const base::string16& suggestion,
     AutocompleteMatchType::Type type,
     const base::string16& match_contents,
     const base::string16& match_contents_prefix,
     const base::string16& annotation,
     const base::string16& answer_contents,
     const base::string16& answer_type,
     scoped_ptr<SuggestionAnswer> answer,
     const std::string& suggest_query_params,
     const std::string& deletion_url,
     bool from_keyword_provider,
     int relevance,
     bool relevance_from_server,
     bool should_prefetch,
     const base::string16& input_text)
     : Result(from_keyword_provider,
              relevance,
              relevance_from_server,
              type,
              deletion_url),
       suggestion_(suggestion),
       match_contents_prefix_(match_contents_prefix),
       annotation_(annotation),
       suggest_query_params_(suggest_query_params),
       answer_contents_(answer_contents),
       answer_type_(answer_type),
       answer_(answer.Pass()),
       should_prefetch_(should_prefetch) {
   match_contents_ = match_contents;
   DCHECK(!match_contents_.empty());
   ClassifyMatchContents(true, input_text);
 }

 SearchSuggestionParser::SuggestResult::SuggestResult(
     const SuggestResult& result)
     : Result(result),
       suggestion_(result.suggestion_),
       match_contents_prefix_(result.match_contents_prefix_),
       annotation_(result.annotation_),
       suggest_query_params_(result.suggest_query_params_),
       answer_contents_(result.answer_contents_),
       answer_type_(result.answer_type_),
       answer_(SuggestionAnswer::copy(result.answer_.get())),
       should_prefetch_(result.should_prefetch_) {
 }

 SearchSuggestionParser::SuggestResult::~SuggestResult() {}

 SearchSuggestionParser::SuggestResult&
     SearchSuggestionParser::SuggestResult::operator=(const SuggestResult& rhs) {
   if (this == &rhs)
     return *this;

   // Assign via parent class first.
   Result::operator=(rhs);

   suggestion_ = rhs.suggestion_;
   match_contents_prefix_ = rhs.match_contents_prefix_;
   annotation_ = rhs.annotation_;
   suggest_query_params_ = rhs.suggest_query_params_;
   answer_contents_ = rhs.answer_contents_;
   answer_type_ = rhs.answer_type_;
   answer_ = SuggestionAnswer::copy(rhs.answer_.get());
   should_prefetch_ = rhs.should_prefetch_;

   return *this;
 }

 void SearchSuggestionParser::SuggestResult::ClassifyMatchContents(
     const bool allow_bolding_all,
     const base::string16& input_text) {
   if (input_text.empty()) {
     // In case of zero-suggest results, do not highlight matches.
     match_contents_class_.push_back(
         ACMatchClassification(0, ACMatchClassification::NONE));
     return;
   }

   base::string16 lookup_text = input_text;
   if (type_ == AutocompleteMatchType::SEARCH_SUGGEST_INFINITE) {
     const size_t contents_index =
         suggestion_.length() - match_contents_.length();
     // Ensure the query starts with the input text, and ends with the match
     // contents, and the input text has an overlap with contents.
     if (StartsWith(suggestion_, input_text, true) &&
         EndsWith(suggestion_, match_contents_, true) &&
         (input_text.length() > contents_index)) {
       lookup_text = input_text.substr(contents_index);
     }
   }
   size_t lookup_position = match_contents_.find(lookup_text);
   if (!allow_bolding_all && (lookup_position == base::string16::npos)) {
     // Bail if the code below to update the bolding would bold the whole
     // string.  Note that the string may already be entirely bolded; if
     // so, leave it as is.
     return;
   }
   match_contents_class_.clear();
   // We do intra-string highlighting for suggestions - the suggested segment
   // will be highlighted, e.g. for input_text = "you" the suggestion may be
   // "youtube", so we'll bold the "tube" section: you*tube*.
   if (input_text != match_contents_) {
     if (lookup_position == base::string16::npos) {
       // The input text is not a substring of the query string, e.g. input
       // text is "slasdot" and the query string is "slashdot", so we bold the
       // whole thing.
       match_contents_class_.push_back(
           ACMatchClassification(0, ACMatchClassification::MATCH));
     } else {
       // We don't iterate over the string here annotating all matches because
       // it looks odd to have every occurrence of a substring that may be as
       // short as a single character highlighted in a query suggestion result,
       // e.g. for input text "s" and query string "southwest airlines", it
       // looks odd if both the first and last s are highlighted.
       if (lookup_position != 0) {
         match_contents_class_.push_back(
             ACMatchClassification(0, ACMatchClassification::MATCH));
       }
       match_contents_class_.push_back(
           ACMatchClassification(lookup_position, ACMatchClassification::NONE));
       size_t next_fragment_position = lookup_position + lookup_text.length();
       if (next_fragment_position < match_contents_.length()) {
         match_contents_class_.push_back(ACMatchClassification(
             next_fragment_position, ACMatchClassification::MATCH));
       }
     }
   } else {
     // Otherwise, match_contents_ is a verbatim (what-you-typed) match, either
     // for the default provider or a keyword search provider.
     match_contents_class_.push_back(
         ACMatchClassification(0, ACMatchClassification::NONE));
   }
 }

 int SearchSuggestionParser::SuggestResult::CalculateRelevance(
     const AutocompleteInput& input,
     bool keyword_provider_requested) const {
   if (!from_keyword_provider_ && keyword_provider_requested)
     return 100;
   return ((input.type() == metrics::OmniboxInputType::URL) ? 300 : 600);
 }

 // SearchSuggestionParser::NavigationResult ------------------------------------

 SearchSuggestionParser::NavigationResult::NavigationResult(
     const AutocompleteSchemeClassifier& scheme_classifier,
     const GURL& url,
     AutocompleteMatchType::Type type,
     const base::string16& description,
     const std::string& deletion_url,
     bool from_keyword_provider,
     int relevance,
     bool relevance_from_server,
     const base::string16& input_text,
     const std::string& languages)
     : Result(from_keyword_provider, relevance, relevance_from_server, type,
              deletion_url),
       url_(url),
       formatted_url_(AutocompleteInput::FormattedStringWithEquivalentMeaning(
           url, net::FormatUrl(url, languages,
                               net::kFormatUrlOmitAll & ~net::kFormatUrlOmitHTTP,
                               net::UnescapeRule::SPACES, NULL, NULL, NULL),
           scheme_classifier)),
       description_(description) {
   DCHECK(url_.is_valid());
   CalculateAndClassifyMatchContents(true, input_text, languages);
 }

 SearchSuggestionParser::NavigationResult::~NavigationResult() {}

 void
 SearchSuggestionParser::NavigationResult::CalculateAndClassifyMatchContents(
     const bool allow_bolding_nothing,
     const base::string16& input_text,
     const std::string& languages) {
   if (input_text.empty()) {
     // In case of zero-suggest results, do not highlight matches.
     match_contents_class_.push_back(
         ACMatchClassification(0, ACMatchClassification::NONE));
     return;
   }

   // First look for the user's input inside the formatted url as it would be
   // without trimming the scheme, so we can find matches at the beginning of the
   // scheme.
   const URLPrefix* prefix =
       URLPrefix::BestURLPrefix(formatted_url_, input_text);
   size_t match_start = (prefix == NULL) ?
       formatted_url_.find(input_text) : prefix->prefix.length();
   bool trim_http = !AutocompleteInput::HasHTTPScheme(input_text) &&
                    (!prefix || (match_start != 0));
   const net::FormatUrlTypes format_types =
       net::kFormatUrlOmitAll & ~(trim_http ? 0 : net::kFormatUrlOmitHTTP);

   base::string16 match_contents = net::FormatUrl(url_, languages, format_types,
       net::UnescapeRule::SPACES, NULL, NULL, &match_start);
   // If the first match in the untrimmed string was inside a scheme that we
   // trimmed, look for a subsequent match.
   if (match_start == base::string16::npos)
     match_start = match_contents.find(input_text);
   // Update |match_contents_| and |match_contents_class_| if it's allowed.
   if (allow_bolding_nothing || (match_start != base::string16::npos)) {
     match_contents_ = match_contents;
     // Safe if |match_start| is npos; also safe if the input is longer than the
     // remaining contents after |match_start|.
     AutocompleteMatch::ClassifyLocationInString(match_start,
         input_text.length(), match_contents_.length(),
         ACMatchClassification::URL, &match_contents_class_);
   }
 }

 int SearchSuggestionParser::NavigationResult::CalculateRelevance(
     const AutocompleteInput& input,
     bool keyword_provider_requested) const {
   return (from_keyword_provider_ || !keyword_provider_requested) ? 800 : 150;
 }

 // SearchSuggestionParser::Results ---------------------------------------------

 SearchSuggestionParser::Results::Results()
     : verbatim_relevance(-1),
       field_trial_triggered(false),
       relevances_from_server(false) {}

 SearchSuggestionParser::Results::~Results() {}

 void SearchSuggestionParser::Results::Clear() {
   suggest_results.clear();
   navigation_results.clear();
   verbatim_relevance = -1;
   metadata.clear();
 }

 bool SearchSuggestionParser::Results::HasServerProvidedScores() const {
   if (verbatim_relevance >= 0)
     return true;

   // Right now either all results of one type will be server-scored or they will
   // all be locally scored, but in case we change this later, we'll just check
   // them all.
   for (SuggestResults::const_iterator i(suggest_results.begin());
        i != suggest_results.end(); ++i) {
     if (i->relevance_from_server())
       return true;
   }
   for (NavigationResults::const_iterator i(navigation_results.begin());
        i != navigation_results.end(); ++i) {
     if (i->relevance_from_server())
       return true;
   }

   return false;
 }

 // SearchSuggestionParser ------------------------------------------------------

 // static
 std::string SearchSuggestionParser::ExtractJsonData(
     const net::URLFetcher* source) {
   const net::HttpResponseHeaders* const response_headers =
       source->GetResponseHeaders();
   std::string json_data;
   source->GetResponseAsString(&json_data);

   // JSON is supposed to be UTF-8, but some suggest service providers send
   // JSON files in non-UTF-8 encodings.  The actual encoding is usually
   // specified in the Content-Type header field.
   if (response_headers) {
     std::string charset;
     if (response_headers->GetCharset(&charset)) {
       base::string16 data_16;
       // TODO(jungshik): Switch to CodePageToUTF8 after it's added.
       if (base::CodepageToUTF16(json_data, charset.c_str(),
                                 base::OnStringConversionError::FAIL,
                                 &data_16))
         json_data = base::UTF16ToUTF8(data_16);
     }
   }
   return json_data;
 }

 // static
 scoped_ptr<base::Value> SearchSuggestionParser::DeserializeJsonData(
     std::string json_data) {
   // The JSON response should be an array.
   for (size_t response_start_index = json_data.find("["), i = 0;
        response_start_index != std::string::npos && i < 5;
        response_start_index = json_data.find("[", 1), i++) {
     // Remove any XSSI guards to allow for JSON parsing.
     if (response_start_index > 0)
       json_data.erase(0, response_start_index);

     JSONStringValueSerializer deserializer(json_data);
     deserializer.set_allow_trailing_comma(true);
     int error_code = 0;
     scoped_ptr<base::Value> data(deserializer.Deserialize(&error_code, NULL));
     if (error_code == 0)
       return data.Pass();
   }
   return scoped_ptr<base::Value>();
 }

 // static
 bool SearchSuggestionParser::ParseSuggestResults(
     const base::Value& root_val,
     const AutocompleteInput& input,
     const AutocompleteSchemeClassifier& scheme_classifier,
     int default_result_relevance,
     const std::string& languages,
     bool is_keyword_result,
     Results* results) {
   base::string16 query;
   const base::ListValue* root_list = NULL;
   const base::ListValue* results_list = NULL;

   if (!root_val.GetAsList(&root_list) || !root_list->GetString(0, &query) ||
       query != input.text() || !root_list->GetList(1, &results_list))
     return false;

   // 3rd element: Description list.
   const base::ListValue* descriptions = NULL;
   root_list->GetList(2, &descriptions);

   // 4th element: Disregard the query URL list for now.

   // Reset suggested relevance information.
   results->verbatim_relevance = -1;

   // 5th element: Optional key-value pairs from the Suggest server.
   const base::ListValue* types = NULL;
   const base::ListValue* relevances = NULL;
   const base::ListValue* suggestion_details = NULL;
   const base::DictionaryValue* extras = NULL;
   int prefetch_index = -1;
   if (root_list->GetDictionary(4, &extras)) {
     extras->GetList("google:suggesttype", &types);

     // Discard this list if its size does not match that of the suggestions.
     if (extras->GetList("google:suggestrelevance", &relevances) &&
         (relevances->GetSize() != results_list->GetSize()))
       relevances = NULL;
     extras->GetInteger("google:verbatimrelevance",
                        &results->verbatim_relevance);

     // Check if the active suggest field trial (if any) has triggered either
     // for the default provider or keyword provider.
     results->field_trial_triggered = false;
     extras->GetBoolean("google:fieldtrialtriggered",
                        &results->field_trial_triggered);

     const base::DictionaryValue* client_data = NULL;
     if (extras->GetDictionary("google:clientdata", &client_data) && client_data)
       client_data->GetInteger("phi", &prefetch_index);

     if (extras->GetList("google:suggestdetail", &suggestion_details) &&
         suggestion_details->GetSize() != results_list->GetSize())
       suggestion_details = NULL;

     // Store the metadata that came with the response in case we need to pass it
     // along with the prefetch query to Instant.
     JSONStringValueSerializer json_serializer(&results->metadata);
     json_serializer.Serialize(*extras);
   }

   // Clear the previous results now that new results are available.
   results->suggest_results.clear();
   results->navigation_results.clear();
   results->answers_image_urls.clear();

   base::string16 suggestion;
   std::string type;
   int relevance = default_result_relevance;
   // Prohibit navsuggest in FORCED_QUERY mode.  Users wants queries, not URLs.
   const bool allow_navsuggest =
       input.type() != metrics::OmniboxInputType::FORCED_QUERY;
   const base::string16& trimmed_input =
       base::CollapseWhitespace(input.text(), false);
   for (size_t index = 0; results_list->GetString(index, &suggestion); ++index) {
     // Google search may return empty suggestions for weird input characters,
     // they make no sense at all and can cause problems in our code.
     if (suggestion.empty())
       continue;

     // Apply valid suggested relevance scores; discard invalid lists.
     if (relevances != NULL && !relevances->GetInteger(index, &relevance))
       relevances = NULL;
     AutocompleteMatchType::Type match_type =
         AutocompleteMatchType::SEARCH_SUGGEST;
     if (types && types->GetString(index, &type))
       match_type = GetAutocompleteMatchType(type);
     const base::DictionaryValue* suggestion_detail = NULL;
     std::string deletion_url;

     if (suggestion_details &&
         suggestion_details->GetDictionary(index, &suggestion_detail))
       suggestion_detail->GetString("du", &deletion_url);

     if ((match_type == AutocompleteMatchType::NAVSUGGEST) ||
         (match_type == AutocompleteMatchType::NAVSUGGEST_PERSONALIZED)) {
       // Do not blindly trust the URL coming from the server to be valid.
       GURL url(
           url_fixer::FixupURL(base::UTF16ToUTF8(suggestion), std::string()));
       if (url.is_valid() && allow_navsuggest) {
         base::string16 title;
         if (descriptions != NULL)
           descriptions->GetString(index, &title);
         results->navigation_results.push_back(NavigationResult(
             scheme_classifier, url, match_type, title, deletion_url,
             is_keyword_result, relevance, relevances != NULL, input.text(),
             languages));
       }
     } else {
       base::string16 match_contents = suggestion;
       base::string16 match_contents_prefix;
       base::string16 annotation;
       base::string16 answer_contents;
       base::string16 answer_type_str;
       scoped_ptr<SuggestionAnswer> answer;
       std::string suggest_query_params;

       if (suggestion_details) {
         suggestion_details->GetDictionary(index, &suggestion_detail);
         if (suggestion_detail) {
           suggestion_detail->GetString("t", &match_contents);
           suggestion_detail->GetString("mp", &match_contents_prefix);
           // Error correction for bad data from server.
           if (match_contents.empty())
             match_contents = suggestion;
           suggestion_detail->GetString("a", &annotation);
           suggestion_detail->GetString("q", &suggest_query_params);

           // Extract the Answer, if provided.
           const base::DictionaryValue* answer_json = NULL;
           if (suggestion_detail->GetDictionary("ansa", &answer_json) &&
               suggestion_detail->GetString("ansb", &answer_type_str)) {
             bool answer_parsed_successfully = false;
             answer = SuggestionAnswer::ParseAnswer(answer_json);
             int answer_type = 0;
             if (answer && base::StringToInt(answer_type_str, &answer_type)) {
               answer_parsed_successfully = true;

               answer->set_type(answer_type);
               answer->AddImageURLsTo(&results->answers_image_urls);

               std::string contents;
               base::JSONWriter::Write(answer_json, &contents);
               answer_contents = base::UTF8ToUTF16(contents);
             } else {
               answer_type_str = base::string16();
             }
             UMA_HISTOGRAM_BOOLEAN("Omnibox.AnswerParseSuccess",
                                   answer_parsed_successfully);
           }
         }
       }

       bool should_prefetch = static_cast<int>(index) == prefetch_index;
       // TODO(kochi): Improve calculator suggestion presentation.
       results->suggest_results.push_back(SuggestResult(
           base::CollapseWhitespace(suggestion, false), match_type,
           base::CollapseWhitespace(match_contents, false),
           match_contents_prefix, annotation, answer_contents, answer_type_str,
           answer.Pass(), suggest_query_params, deletion_url, is_keyword_result,
           relevance, relevances != NULL, should_prefetch, trimmed_input));
     }
   }
   results->relevances_from_server = relevances != NULL;
   return true;
 }
	// Copyright 2014 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 "components/omnibox/search_suggestion_parser.h"

	#include "base/i18n/icu_string_conversions.h"
	#include "base/json/json_string_value_serializer.h"
	#include "base/json/json_writer.h"
	#include "base/logging.h"
	#include "base/metrics/histogram.h"
	#include "base/strings/string_number_conversions.h"
	#include "base/strings/string_util.h"
	#include "base/strings/utf_string_conversions.h"
	#include "base/values.h"
	#include "components/omnibox/autocomplete_input.h"
	#include "components/omnibox/url_prefix.h"
	#include "components/url_fixer/url_fixer.h"
	#include "net/base/net_util.h"
	#include "net/http/http_response_headers.h"
	#include "net/url_request/url_fetcher.h"
	#include "url/url_constants.h"

	namespace {

	AutocompleteMatchType::Type GetAutocompleteMatchType(const std::string& type) {
	if (type == "ENTITY")
	return AutocompleteMatchType::SEARCH_SUGGEST_ENTITY;
	if (type == "INFINITE")
	return AutocompleteMatchType::SEARCH_SUGGEST_INFINITE;
	if (type == "PERSONALIZED_QUERY")
	return AutocompleteMatchType::SEARCH_SUGGEST_PERSONALIZED;
	if (type == "PROFILE")
	return AutocompleteMatchType::SEARCH_SUGGEST_PROFILE;
	if (type == "NAVIGATION")
	return AutocompleteMatchType::NAVSUGGEST;
	if (type == "PERSONALIZED_NAVIGATION")
	return AutocompleteMatchType::NAVSUGGEST_PERSONALIZED;
	return AutocompleteMatchType::SEARCH_SUGGEST;
	}

	} // namespace

	// SearchSuggestionParser::Result ----------------------------------------------

	SearchSuggestionParser::Result::Result(bool from_keyword_provider,
	int relevance,
	bool relevance_from_server,
	AutocompleteMatchType::Type type,
	const std::string& deletion_url)
	: from_keyword_provider_(from_keyword_provider),
	type_(type),
	relevance_(relevance),
	relevance_from_server_(relevance_from_server),
	received_after_last_keystroke_(true),
	deletion_url_(deletion_url) {}

	SearchSuggestionParser::Result::~Result() {}

	// SearchSuggestionParser::SuggestResult ---------------------------------------

	SearchSuggestionParser::SuggestResult::SuggestResult(
	const base::string16& suggestion,
	AutocompleteMatchType::Type type,
	const base::string16& match_contents,
	const base::string16& match_contents_prefix,
	const base::string16& annotation,
	const base::string16& answer_contents,
	const base::string16& answer_type,
	scoped_ptr<SuggestionAnswer> answer,
	const std::string& suggest_query_params,
	const std::string& deletion_url,
	bool from_keyword_provider,
	int relevance,
	bool relevance_from_server,
	bool should_prefetch,
	const base::string16& input_text)
	: Result(from_keyword_provider,
	relevance,
	relevance_from_server,
	type,
	deletion_url),
	suggestion_(suggestion),
	match_contents_prefix_(match_contents_prefix),
	annotation_(annotation),
	suggest_query_params_(suggest_query_params),
	answer_contents_(answer_contents),
	answer_type_(answer_type),
	answer_(answer.Pass()),
	should_prefetch_(should_prefetch) {
	match_contents_ = match_contents;
	DCHECK(!match_contents_.empty());
	ClassifyMatchContents(true, input_text);
	}

	SearchSuggestionParser::SuggestResult::SuggestResult(
	const SuggestResult& result)
	: Result(result),
	suggestion_(result.suggestion_),
	match_contents_prefix_(result.match_contents_prefix_),
	annotation_(result.annotation_),
	suggest_query_params_(result.suggest_query_params_),
	answer_contents_(result.answer_contents_),
	answer_type_(result.answer_type_),
	answer_(SuggestionAnswer::copy(result.answer_.get())),
	should_prefetch_(result.should_prefetch_) {
	}

	SearchSuggestionParser::SuggestResult::~SuggestResult() {}

	SearchSuggestionParser::SuggestResult&
	SearchSuggestionParser::SuggestResult::operator=(const SuggestResult& rhs) {
	if (this == &rhs)
	return *this;

	// Assign via parent class first.
	Result::operator=(rhs);

	suggestion_ = rhs.suggestion_;
	match_contents_prefix_ = rhs.match_contents_prefix_;
	annotation_ = rhs.annotation_;
	suggest_query_params_ = rhs.suggest_query_params_;
	answer_contents_ = rhs.answer_contents_;
	answer_type_ = rhs.answer_type_;
	answer_ = SuggestionAnswer::copy(rhs.answer_.get());
	should_prefetch_ = rhs.should_prefetch_;

	return *this;
	}

	void SearchSuggestionParser::SuggestResult::ClassifyMatchContents(
	const bool allow_bolding_all,
	const base::string16& input_text) {
	if (input_text.empty()) {
	// In case of zero-suggest results, do not highlight matches.
	match_contents_class_.push_back(
	ACMatchClassification(0, ACMatchClassification::NONE));
	return;
	}

	base::string16 lookup_text = input_text;
	if (type_ == AutocompleteMatchType::SEARCH_SUGGEST_INFINITE) {
	const size_t contents_index =
	suggestion_.length() - match_contents_.length();
	// Ensure the query starts with the input text, and ends with the match
	// contents, and the input text has an overlap with contents.
	if (StartsWith(suggestion_, input_text, true) &&
	EndsWith(suggestion_, match_contents_, true) &&
	(input_text.length() > contents_index)) {
	lookup_text = input_text.substr(contents_index);
	}
	}
	size_t lookup_position = match_contents_.find(lookup_text);
	if (!allow_bolding_all && (lookup_position == base::string16::npos)) {
	// Bail if the code below to update the bolding would bold the whole
	// string. Note that the string may already be entirely bolded; if
	// so, leave it as is.
	return;
	}
	match_contents_class_.clear();
	// We do intra-string highlighting for suggestions - the suggested segment
	// will be highlighted, e.g. for input_text = "you" the suggestion may be
	// "youtube", so we'll bold the "tube" section: youtube.
	if (input_text != match_contents_) {
	if (lookup_position == base::string16::npos) {
	// The input text is not a substring of the query string, e.g. input
	// text is "slasdot" and the query string is "slashdot", so we bold the
	// whole thing.
	match_contents_class_.push_back(
	ACMatchClassification(0, ACMatchClassification::MATCH));
	} else {
	// We don't iterate over the string here annotating all matches because
	// it looks odd to have every occurrence of a substring that may be as
	// short as a single character highlighted in a query suggestion result,
	// e.g. for input text "s" and query string "southwest airlines", it
	// looks odd if both the first and last s are highlighted.
	if (lookup_position != 0) {
	match_contents_class_.push_back(
	ACMatchClassification(0, ACMatchClassification::MATCH));
	}
	match_contents_class_.push_back(
	ACMatchClassification(lookup_position, ACMatchClassification::NONE));
	size_t next_fragment_position = lookup_position + lookup_text.length();
	if (next_fragment_position < match_contents_.length()) {
	match_contents_class_.push_back(ACMatchClassification(
	next_fragment_position, ACMatchClassification::MATCH));
	}
	}
	} else {
	// Otherwise, match_contents_ is a verbatim (what-you-typed) match, either
	// for the default provider or a keyword search provider.
	match_contents_class_.push_back(
	ACMatchClassification(0, ACMatchClassification::NONE));
	}
	}

	int SearchSuggestionParser::SuggestResult::CalculateRelevance(
	const AutocompleteInput& input,
	bool keyword_provider_requested) const {
	if (!from_keyword_provider_ && keyword_provider_requested)
	return 100;
	return ((input.type() == metrics::OmniboxInputType::URL) ? 300 : 600);
	}

	// SearchSuggestionParser::NavigationResult ------------------------------------

	SearchSuggestionParser::NavigationResult::NavigationResult(
	const AutocompleteSchemeClassifier& scheme_classifier,
	const GURL& url,
	AutocompleteMatchType::Type type,
	const base::string16& description,
	const std::string& deletion_url,
	bool from_keyword_provider,
	int relevance,
	bool relevance_from_server,
	const base::string16& input_text,
	const std::string& languages)
	: Result(from_keyword_provider, relevance, relevance_from_server, type,
	deletion_url),
	url_(url),
	formatted_url_(AutocompleteInput::FormattedStringWithEquivalentMeaning(
	url, net::FormatUrl(url, languages,
	net::kFormatUrlOmitAll & ~net::kFormatUrlOmitHTTP,
	net::UnescapeRule::SPACES, NULL, NULL, NULL),
	scheme_classifier)),
	description_(description) {
	DCHECK(url_.is_valid());
	CalculateAndClassifyMatchContents(true, input_text, languages);
	}

	SearchSuggestionParser::NavigationResult::~NavigationResult() {}

	void
	SearchSuggestionParser::NavigationResult::CalculateAndClassifyMatchContents(
	const bool allow_bolding_nothing,
	const base::string16& input_text,
	const std::string& languages) {
	if (input_text.empty()) {
	// In case of zero-suggest results, do not highlight matches.
	match_contents_class_.push_back(
	ACMatchClassification(0, ACMatchClassification::NONE));
	return;
	}

	// First look for the user's input inside the formatted url as it would be
	// without trimming the scheme, so we can find matches at the beginning of the
	// scheme.
	const URLPrefix* prefix =
	URLPrefix::BestURLPrefix(formatted_url_, input_text);
	size_t match_start = (prefix == NULL) ?
	formatted_url_.find(input_text) : prefix->prefix.length();
	bool trim_http = !AutocompleteInput::HasHTTPScheme(input_text) &&
	(!prefix \|\| (match_start != 0));
	const net::FormatUrlTypes format_types =
	net::kFormatUrlOmitAll & ~(trim_http ? 0 : net::kFormatUrlOmitHTTP);

	base::string16 match_contents = net::FormatUrl(url_, languages, format_types,
	net::UnescapeRule::SPACES, NULL, NULL, &match_start);
	// If the first match in the untrimmed string was inside a scheme that we
	// trimmed, look for a subsequent match.
	if (match_start == base::string16::npos)
	match_start = match_contents.find(input_text);
	// Update \|match_contents_\| and \|match_contents_class_\| if it's allowed.
	if (allow_bolding_nothing \|\| (match_start != base::string16::npos)) {
	match_contents_ = match_contents;
	// Safe if \|match_start\| is npos; also safe if the input is longer than the
	// remaining contents after \|match_start\|.
	AutocompleteMatch::ClassifyLocationInString(match_start,
	input_text.length(), match_contents_.length(),
	ACMatchClassification::URL, &match_contents_class_);
	}
	}

	int SearchSuggestionParser::NavigationResult::CalculateRelevance(
	const AutocompleteInput& input,
	bool keyword_provider_requested) const {
	return (from_keyword_provider_ \|\| !keyword_provider_requested) ? 800 : 150;
	}

	// SearchSuggestionParser::Results ---------------------------------------------

	SearchSuggestionParser::Results::Results()
	: verbatim_relevance(-1),
	field_trial_triggered(false),
	relevances_from_server(false) {}

	SearchSuggestionParser::Results::~Results() {}

	void SearchSuggestionParser::Results::Clear() {
	suggest_results.clear();
	navigation_results.clear();
	verbatim_relevance = -1;
	metadata.clear();
	}

	bool SearchSuggestionParser::Results::HasServerProvidedScores() const {
	if (verbatim_relevance >= 0)
	return true;

	// Right now either all results of one type will be server-scored or they will
	// all be locally scored, but in case we change this later, we'll just check
	// them all.
	for (SuggestResults::const_iterator i(suggest_results.begin());
	i != suggest_results.end(); ++i) {
	if (i->relevance_from_server())
	return true;
	}
	for (NavigationResults::const_iterator i(navigation_results.begin());
	i != navigation_results.end(); ++i) {
	if (i->relevance_from_server())
	return true;
	}

	return false;
	}

	// SearchSuggestionParser ------------------------------------------------------

	// static
	std::string SearchSuggestionParser::ExtractJsonData(
	const net::URLFetcher* source) {
	const net::HttpResponseHeaders* const response_headers =
	source->GetResponseHeaders();
	std::string json_data;
	source->GetResponseAsString(&json_data);

	// JSON is supposed to be UTF-8, but some suggest service providers send
	// JSON files in non-UTF-8 encodings. The actual encoding is usually
	// specified in the Content-Type header field.
	if (response_headers) {
	std::string charset;
	if (response_headers->GetCharset(&charset)) {
	base::string16 data_16;
	// TODO(jungshik): Switch to CodePageToUTF8 after it's added.
	if (base::CodepageToUTF16(json_data, charset.c_str(),
	base::OnStringConversionError::FAIL,
	&data_16))
	json_data = base::UTF16ToUTF8(data_16);
	}
	}
	return json_data;
	}

	// static
	scoped_ptr<base::Value> SearchSuggestionParser::DeserializeJsonData(
	std::string json_data) {
	// The JSON response should be an array.
	for (size_t response_start_index = json_data.find("["), i = 0;
	response_start_index != std::string::npos && i < 5;
	response_start_index = json_data.find("[", 1), i++) {
	// Remove any XSSI guards to allow for JSON parsing.
	if (response_start_index > 0)
	json_data.erase(0, response_start_index);

	JSONStringValueSerializer deserializer(json_data);
	deserializer.set_allow_trailing_comma(true);
	int error_code = 0;
	scoped_ptr<base::Value> data(deserializer.Deserialize(&error_code, NULL));
	if (error_code == 0)
	return data.Pass();
	}
	return scoped_ptr<base::Value>();
	}

	// static
	bool SearchSuggestionParser::ParseSuggestResults(
	const base::Value& root_val,
	const AutocompleteInput& input,
	const AutocompleteSchemeClassifier& scheme_classifier,
	int default_result_relevance,
	const std::string& languages,
	bool is_keyword_result,
	Results* results) {
	base::string16 query;
	const base::ListValue* root_list = NULL;
	const base::ListValue* results_list = NULL;

	if (!root_val.GetAsList(&root_list) \|\| !root_list->GetString(0, &query) \|\|
	query != input.text() \|\| !root_list->GetList(1, &results_list))
	return false;

	// 3rd element: Description list.
	const base::ListValue* descriptions = NULL;
	root_list->GetList(2, &descriptions);

	// 4th element: Disregard the query URL list for now.

	// Reset suggested relevance information.
	results->verbatim_relevance = -1;

	// 5th element: Optional key-value pairs from the Suggest server.
	const base::ListValue* types = NULL;
	const base::ListValue* relevances = NULL;
	const base::ListValue* suggestion_details = NULL;
	const base::DictionaryValue* extras = NULL;
	int prefetch_index = -1;
	if (root_list->GetDictionary(4, &extras)) {
	extras->GetList("google:suggesttype", &types);

	// Discard this list if its size does not match that of the suggestions.
	if (extras->GetList("google:suggestrelevance", &relevances) &&
	(relevances->GetSize() != results_list->GetSize()))
	relevances = NULL;
	extras->GetInteger("google:verbatimrelevance",
	&results->verbatim_relevance);

	// Check if the active suggest field trial (if any) has triggered either
	// for the default provider or keyword provider.
	results->field_trial_triggered = false;
	extras->GetBoolean("google:fieldtrialtriggered",
	&results->field_trial_triggered);

	const base::DictionaryValue* client_data = NULL;
	if (extras->GetDictionary("google:clientdata", &client_data) && client_data)
	client_data->GetInteger("phi", &prefetch_index);

	if (extras->GetList("google:suggestdetail", &suggestion_details) &&
	suggestion_details->GetSize() != results_list->GetSize())
	suggestion_details = NULL;

	// Store the metadata that came with the response in case we need to pass it
	// along with the prefetch query to Instant.
	JSONStringValueSerializer json_serializer(&results->metadata);
	json_serializer.Serialize(*extras);
	}

	// Clear the previous results now that new results are available.
	results->suggest_results.clear();
	results->navigation_results.clear();
	results->answers_image_urls.clear();

	base::string16 suggestion;
	std::string type;
	int relevance = default_result_relevance;
	// Prohibit navsuggest in FORCED_QUERY mode. Users wants queries, not URLs.
	const bool allow_navsuggest =
	input.type() != metrics::OmniboxInputType::FORCED_QUERY;
	const base::string16& trimmed_input =
	base::CollapseWhitespace(input.text(), false);
	for (size_t index = 0; results_list->GetString(index, &suggestion); ++index) {
	// Google search may return empty suggestions for weird input characters,
	// they make no sense at all and can cause problems in our code.
	if (suggestion.empty())
	continue;

	// Apply valid suggested relevance scores; discard invalid lists.
	if (relevances != NULL && !relevances->GetInteger(index, &relevance))
	relevances = NULL;
	AutocompleteMatchType::Type match_type =
	AutocompleteMatchType::SEARCH_SUGGEST;
	if (types && types->GetString(index, &type))
	match_type = GetAutocompleteMatchType(type);
	const base::DictionaryValue* suggestion_detail = NULL;
	std::string deletion_url;

	if (suggestion_details &&
	suggestion_details->GetDictionary(index, &suggestion_detail))
	suggestion_detail->GetString("du", &deletion_url);

	if ((match_type == AutocompleteMatchType::NAVSUGGEST) \|\|
	(match_type == AutocompleteMatchType::NAVSUGGEST_PERSONALIZED)) {
	// Do not blindly trust the URL coming from the server to be valid.
	GURL url(
	url_fixer::FixupURL(base::UTF16ToUTF8(suggestion), std::string()));
	if (url.is_valid() && allow_navsuggest) {
	base::string16 title;
	if (descriptions != NULL)
	descriptions->GetString(index, &title);
	results->navigation_results.push_back(NavigationResult(
	scheme_classifier, url, match_type, title, deletion_url,
	is_keyword_result, relevance, relevances != NULL, input.text(),
	languages));
	}
	} else {
	base::string16 match_contents = suggestion;
	base::string16 match_contents_prefix;
	base::string16 annotation;
	base::string16 answer_contents;
	base::string16 answer_type_str;
	scoped_ptr<SuggestionAnswer> answer;
	std::string suggest_query_params;

	if (suggestion_details) {
	suggestion_details->GetDictionary(index, &suggestion_detail);
	if (suggestion_detail) {
	suggestion_detail->GetString("t", &match_contents);
	suggestion_detail->GetString("mp", &match_contents_prefix);
	// Error correction for bad data from server.
	if (match_contents.empty())
	match_contents = suggestion;
	suggestion_detail->GetString("a", &annotation);
	suggestion_detail->GetString("q", &suggest_query_params);

	// Extract the Answer, if provided.
	const base::DictionaryValue* answer_json = NULL;
	if (suggestion_detail->GetDictionary("ansa", &answer_json) &&
	suggestion_detail->GetString("ansb", &answer_type_str)) {
	bool answer_parsed_successfully = false;
	answer = SuggestionAnswer::ParseAnswer(answer_json);
	int answer_type = 0;
	if (answer && base::StringToInt(answer_type_str, &answer_type)) {
	answer_parsed_successfully = true;

	answer->set_type(answer_type);
	answer->AddImageURLsTo(&results->answers_image_urls);

	std::string contents;
	base::JSONWriter::Write(answer_json, &contents);
	answer_contents = base::UTF8ToUTF16(contents);
	} else {
	answer_type_str = base::string16();
	}
	UMA_HISTOGRAM_BOOLEAN("Omnibox.AnswerParseSuccess",
	answer_parsed_successfully);
	}
	}
	}

	bool should_prefetch = static_cast<int>(index) == prefetch_index;
	// TODO(kochi): Improve calculator suggestion presentation.
	results->suggest_results.push_back(SuggestResult(
	base::CollapseWhitespace(suggestion, false), match_type,
	base::CollapseWhitespace(match_contents, false),
	match_contents_prefix, annotation, answer_contents, answer_type_str,
	answer.Pass(), suggest_query_params, deletion_url, is_keyword_result,
	relevance, relevances != NULL, should_prefetch, trimmed_input));
	}
	}
	results->relevances_from_server = relevances != NULL;
	return true;
	}