components/omnibox/browser/autocomplete_match.h - 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.

 #ifndef COMPONENTS_OMNIBOX_BROWSER_AUTOCOMPLETE_MATCH_H_
 #define COMPONENTS_OMNIBOX_BROWSER_AUTOCOMPLETE_MATCH_H_

 #include <stddef.h>

 #include <map>
 #include <memory>
 #include <string>
 #include <vector>

 #include "components/omnibox/browser/autocomplete_input.h"
 #include "components/omnibox/browser/autocomplete_match_type.h"
 #include "components/search_engines/template_url.h"
 #include "ui/base/page_transition_types.h"
 #include "url/gurl.h"

 class AutocompleteProvider;
 class SuggestionAnswer;
 class TemplateURL;
 class TemplateURLService;

 namespace base {
 class Time;
 }  // namespace base

 namespace gfx {
 enum class VectorIconId;
 }  // namespace gfx

 const char kACMatchPropertyInputText[] = "input text";
 const char kACMatchPropertyContentsPrefix[] = "match contents prefix";
 const char kACMatchPropertyContentsStartIndex[] = "match contents start index";

 // AutocompleteMatch ----------------------------------------------------------

 // A single result line with classified spans.  The autocomplete popup displays
 // the 'contents' and the 'description' (the description is optional) in the
 // autocomplete dropdown, and fills in 'fill_into_edit' into the textbox when
 // that line is selected.  fill_into_edit may be the same as 'description' for
 // things like URLs, but may be different for searches or other providers.  For
 // example, a search result may say "Search for asdf" as the description, but
 // "asdf" should appear in the box.
 struct AutocompleteMatch {
   // Autocomplete matches contain strings that are classified according to a
   // separate vector of styles.  This vector associates flags with particular
   // string segments, and must be in sorted order.  All text must be associated
   // with some kind of classification.  Even if a match has no distinct
   // segments, its vector should contain an entry at offset 0 with no flags.
   //
   // Example: The user typed "goog"
   //   http://www.google.com/        Google
   //   ^          ^   ^              ^   ^
   //   0,         |   15,            |   4,
   //              11,match           0,match
   //
   // This structure holds the classification information for each span.
   struct ACMatchClassification {
     // The values in here are not mutually exclusive -- use them like a
     // bitfield.  This also means we use "int" instead of this enum type when
     // passing the values around, so the compiler doesn't complain.
     //
     // A Java counterpart will be generated for this enum.
     // GENERATED_JAVA_ENUM_PACKAGE: org.chromium.chrome.browser.omnibox
     // GENERATED_JAVA_CLASS_NAME_OVERRIDE: MatchClassificationStyle
     enum Style {
       NONE  = 0,
       URL   = 1 << 0,  // A URL
       MATCH = 1 << 1,  // A match for the user's search term
       DIM   = 1 << 2,  // "Helper text"
     };

     ACMatchClassification(size_t offset, int style)
         : offset(offset),
           style(style) {
     }

     // Offset within the string that this classification starts
     size_t offset;

     int style;
   };

   typedef std::vector<ACMatchClassification> ACMatchClassifications;

   // Type used by providers to attach additional, optional information to
   // an AutocompleteMatch.
   typedef std::map<std::string, std::string> AdditionalInfo;

   // The type of this match.
   typedef AutocompleteMatchType::Type Type;

   // Null-terminated array of characters that are not valid within |contents|
   // and |description| strings.
   static const base::char16 kInvalidChars[];

   AutocompleteMatch();
   AutocompleteMatch(AutocompleteProvider* provider,
                     int relevance,
                     bool deletable,
                     Type type);
   AutocompleteMatch(const AutocompleteMatch& match);
   ~AutocompleteMatch();

   // Converts |type| to a string representation.  Used in logging and debugging.
   AutocompleteMatch& operator=(const AutocompleteMatch& match);

   // Converts |type| to a resource identifier for the appropriate icon for this
   // type to show in the completion popup.
   static int TypeToIcon(Type type);

   // Gets the vector icon identifier for the icon to be shown for |type|.
   static gfx::VectorIconId TypeToVectorIcon(Type type);

   // Comparison function for determining when one match is better than another.
   static bool MoreRelevant(const AutocompleteMatch& elem1,
                            const AutocompleteMatch& elem2);

   // Comparison function for removing matches with duplicate destinations.
   // Destinations are compared using |stripped_destination_url|.  Pairs of
   // matches with empty destinations are treated as differing, since empty
   // destinations are expected for non-navigable matches.
   static bool DestinationsEqual(const AutocompleteMatch& elem1,
                                 const AutocompleteMatch& elem2);

   // Helper functions for classes creating matches:
   // Fills in the classifications for |text|, using |style| as the base style
   // and marking the first instance of |find_text| as a match.  (This match
   // will also not be dimmed, if |style| has DIM set.)
   static void ClassifyMatchInString(const base::string16& find_text,
                                     const base::string16& text,
                                     int style,
                                     ACMatchClassifications* classifications);

   // Similar to ClassifyMatchInString(), but for cases where the range to mark
   // as matching is already known (avoids calling find()).  This can be helpful
   // when find() would be misleading (e.g. you want to mark the second match in
   // a string instead of the first).
   static void ClassifyLocationInString(size_t match_location,
                                        size_t match_length,
                                        size_t overall_length,
                                        int style,
                                        ACMatchClassifications* classifications);

   // Returns a new vector of classifications containing the merged contents of
   // |classifications1| and |classifications2|.
   static ACMatchClassifications MergeClassifications(
       const ACMatchClassifications& classifications1,
       const ACMatchClassifications& classifications2);

   // Converts classifications to and from a serialized string representation
   // (using comma-separated integers to sequentially list positions and styles).
   static std::string ClassificationsToString(
       const ACMatchClassifications& classifications);
   static ACMatchClassifications ClassificationsFromString(
       const std::string& serialized_classifications);

   // Adds a classification to the end of |classifications| iff its style is
   // different from the last existing classification.  |offset| must be larger
   // than the offset of the last classification in |classifications|.
   static void AddLastClassificationIfNecessary(
       ACMatchClassifications* classifications,
       size_t offset,
       int style);

   // Returns true if at least one style in |classifications| is of type MATCH.
   static bool HasMatchStyle(const ACMatchClassifications& classifications);

   // Removes invalid characters from |text|. Should be called on strings coming
   // from external sources (such as extensions) before assigning to |contents|
   // or |description|.
   static base::string16 SanitizeString(const base::string16& text);

   // Convenience function to check if |type| is a search (as opposed to a URL or
   // an extension).
   static bool IsSearchType(Type type);

   // Convenience function to check if |type| is a special search suggest type -
   // like entity, personalized, profile or postfix.
   static bool IsSpecializedSearchType(Type type);

   // A static version GetTemplateURL() that takes the match's keyword and
   // match's hostname as parameters.  In short, returns the TemplateURL
   // associated with |keyword| if it exists; otherwise returns the TemplateURL
   // associated with |host| if it exists.
   static TemplateURL* GetTemplateURLWithKeyword(
       TemplateURLService* template_url_service,
       const base::string16& keyword,
       const std::string& host);

   // Returns |url| altered by stripping off "www.", converting https protocol
   // to http, and stripping excess query parameters.  These conversions are
   // merely to allow comparisons to remove likely duplicates; these URLs are
   // not used as actual destination URLs.  If |template_url_service| is not
   // NULL, it is used to get a template URL corresponding to this match.  If
   // the match's keyword is known, it can be passed in.  Otherwise, it can be
   // left empty and the template URL (if any) is determined from the
   // destination's hostname.  The template URL is used to strip off query args
   // other than the search terms themselves that would otherwise prevent doing
   // proper deduping.  |input| is used to decide if the scheme is allowed to
   // be altered during stripping.  If this URL, minus the scheme and separator,
   // starts with any the terms in input.terms_prefixed_by_http_or_https(), we
   // avoid converting an HTTPS scheme to HTTP.  This means URLs that differ
   // only by these schemes won't be marked as dupes, since the distinction
   // seems to matter to the user.
   static GURL GURLToStrippedGURL(const GURL& url,
                                  const AutocompleteInput& input,
                                  TemplateURLService* template_url_service,
                                  const base::string16& keyword);

   // Computes the stripped destination URL (via GURLToStrippedGURL()) and
   // stores the result in |stripped_destination_url|.  |input| is used for the
   // same purpose as in GURLToStrippedGURL().
   void ComputeStrippedDestinationURL(const AutocompleteInput& input,
                                      TemplateURLService* template_url_service);

   // Sets |allowed_to_be_default_match| to true if this match is effectively
   // the URL-what-you-typed match (i.e., would be dupped against the UWYT
   // match when AutocompleteResult merges matches).
   void EnsureUWYTIsAllowedToBeDefault(
       const AutocompleteInput& input,
       TemplateURLService* template_url_service);

   // Gets data relevant to whether there should be any special keyword-related
   // UI shown for this match.  If this match represents a selected keyword, i.e.
   // the UI should be "in keyword mode", |keyword| will be set to the keyword
   // and |is_keyword_hint| will be set to false.  If this match has a non-NULL
   // |associated_keyword|, i.e. we should show a "Press [tab] to search ___"
   // hint and allow the user to toggle into keyword mode, |keyword| will be set
   // to the associated keyword and |is_keyword_hint| will be set to true.  Note
   // that only one of these states can be in effect at once.  In all other
   // cases, |keyword| will be cleared, even when our member variable |keyword|
   // is non-empty -- such as with non-substituting keywords or matches that
   // represent searches using the default search engine.  See also
   // GetSubstitutingExplicitlyInvokedKeyword().
   void GetKeywordUIState(TemplateURLService* template_url_service,
                          base::string16* keyword,
                          bool* is_keyword_hint) const;

   // Returns |keyword|, but only if it represents a substituting keyword that
   // the user has explicitly invoked.  If for example this match represents a
   // search with the default search engine (and the user didn't explicitly
   // invoke its keyword), this returns the empty string.  The result is that
   // this function returns a non-empty string in the same cases as when the UI
   // should show up as being "in keyword mode".
   base::string16 GetSubstitutingExplicitlyInvokedKeyword(
       TemplateURLService* template_url_service) const;

   // Returns the TemplateURL associated with this match.  This may be NULL if
   // the match has no keyword OR if the keyword no longer corresponds to a valid
   // TemplateURL.  See comments on |keyword| below.
   // If |allow_fallback_to_destination_host| is true and the keyword does
   // not map to a valid TemplateURL, we'll then check for a TemplateURL that
   // corresponds to the destination_url's hostname.
   TemplateURL* GetTemplateURL(TemplateURLService* template_url_service,
                               bool allow_fallback_to_destination_host) const;

   // Adds optional information to the |additional_info| dictionary.
   void RecordAdditionalInfo(const std::string& property,
                             const std::string& value);
   void RecordAdditionalInfo(const std::string& property, int value);
   void RecordAdditionalInfo(const std::string& property,
                             const base::Time& value);

   // Returns the value recorded for |property| in the |additional_info|
   // dictionary.  Returns the empty string if no such value exists.
   std::string GetAdditionalInfo(const std::string& property) const;

   // Returns whether this match is a "verbatim" match: a URL navigation directly
   // to the user's input, a search for the user's input with the default search
   // engine, or a "keyword mode" search for the query portion of the user's
   // input.  Note that rare or unusual types that could be considered verbatim,
   // such as keyword engine matches or extension-provided matches, aren't
   // detected by this IsVerbatimType, as the user will not be able to infer
   // what will happen when they press enter in those cases if the match is not
   // shown.
   bool IsVerbatimType() const;

   // Returns whether this match or any duplicate of this match can be deleted.
   // This is used to decide whether we should call DeleteMatch().
   bool SupportsDeletion() const;

   // Swaps the contents and description fields, and their associated
   // classifications, if this is a match for which we should emphasize the
   // title (stored in the description field) over the URL (in the contents
   // field).  Intended to only be used at the UI level before displaying, lest
   // other omnibox systems get confused about which is which.  See the code
   // that sets |swap_contents_and_description| for conditions under which
   // it is true.
   void PossiblySwapContentsAndDescriptionForDisplay();

   // The provider of this match, used to remember which provider the user had
   // selected when the input changes. This may be NULL, in which case there is
   // no provider (or memory of the user's selection).
   AutocompleteProvider* provider;

   // The relevance of this match. See table in autocomplete.h for scores
   // returned by various providers. This is used to rank matches among all
   // responding providers, so different providers must be carefully tuned to
   // supply matches with appropriate relevance.
   //
   // TODO(pkasting): http://b/1111299 This should be calculated algorithmically,
   // rather than being a fairly fixed value defined by the table above.
   int relevance;

   // How many times this result was typed in / selected from the omnibox.
   // Only set for some providers and result_types.  If it is not set,
   // its value is -1.  At the time of writing this comment, it is only
   // set for matches from HistoryURL and HistoryQuickProvider.
   int typed_count;

   // True if the user should be able to delete this match.
   bool deletable;

   // This string is loaded into the location bar when the item is selected
   // by pressing the arrow keys. This may be different than a URL, for example,
   // for search suggestions, this would just be the search terms.
   base::string16 fill_into_edit;

   // The inline autocompletion to display after the user's typing in the
   // omnibox, if this match becomes the default match.  It may be empty.
   base::string16 inline_autocompletion;

   // If false, the omnibox should prevent this match from being the
   // default match.  Providers should set this to true only if the
   // user's input, plus any inline autocompletion on this match, would
   // lead the user to expect a navigation to this match's destination.
   // For example, with input "foo", a search for "bar" or navigation
   // to "bar.com" should not set this flag; a navigation to "foo.com"
   // should only set this flag if ".com" will be inline autocompleted;
   // and a navigation to "foo/" (an intranet host) or search for "foo"
   // should set this flag.
   bool allowed_to_be_default_match;

   // The URL to actually load when the autocomplete item is selected. This URL
   // should be canonical so we can compare URLs with strcmp to avoid dupes.
   // It may be empty if there is no possible navigation.
   GURL destination_url;

   // The destination URL modified for better dupe finding.  The result may not
   // be navigable or even valid; it's only meant to be used for detecting
   // duplicates.
   GURL stripped_destination_url;

   // The main text displayed in the address bar dropdown.
   base::string16 contents;
   ACMatchClassifications contents_class;

   // Additional helper text for each entry, such as a title or description.
   base::string16 description;
   ACMatchClassifications description_class;

   // If true, UI-level code should swap the contents and description fields
   // before displaying.
   bool swap_contents_and_description;

   // TODO(jdonnelly): Remove the first two properties once the downstream
   // clients are using the SuggestionAnswer.
   // A rich-format version of the display for the dropdown.
   base::string16 answer_contents;
   base::string16 answer_type;
   std::unique_ptr<SuggestionAnswer> answer;

   // The transition type to use when the user opens this match.  By default
   // this is TYPED.  Providers whose matches do not look like URLs should set
   // it to GENERATED.
   ui::PageTransition transition;

   // Type of this match.
   Type type;

   // Set with a keyword provider match if this match can show a keyword hint.
   // For example, if this is a SearchProvider match for "www.amazon.com",
   // |associated_keyword| could be a KeywordProvider match for "amazon.com".
   //
   // When this is set, the popup will show a ">" symbol at the right edge of the
   // line for this match, and tab/shift-tab will toggle in and out of keyword
   // mode without disturbing the rest of the popup.  See also
   // OmniboxPopupModel::SetSelectedLineState().
   std::unique_ptr<AutocompleteMatch> associated_keyword;

   // The keyword of the TemplateURL the match originated from.  This is nonempty
   // for both explicit "keyword mode" matches as well as matches for the default
   // search provider (so, any match for which we're doing substitution); it
   // doesn't imply (alone) that the UI is going to show a keyword hint or
   // keyword mode.  For that, see GetKeywordUIState() or
   // GetSubstitutingExplicitlyInvokedKeyword().
   //
   // CAUTION: The TemplateURL associated with this keyword may be deleted or
   // modified while the AutocompleteMatch is alive.  This means anyone who
   // accesses it must perform any necessary sanity checks before blindly using
   // it!
   base::string16 keyword;

   // True if this match is from a previous result.
   bool from_previous;

   // Optional search terms args.  If present,
   // AutocompleteController::UpdateAssistedQueryStats() will incorporate this
   // data with additional data it calculates and pass the completed struct to
   // TemplateURLRef::ReplaceSearchTerms() to reset the match's |destination_url|
   // after the complete set of matches in the AutocompleteResult has been chosen
   // and sorted.  Most providers will leave this as NULL, which will cause the
   // AutocompleteController to do no additional transformations.
   std::unique_ptr<TemplateURLRef::SearchTermsArgs> search_terms_args;

   // Information dictionary into which each provider can optionally record a
   // property and associated value and which is presented in chrome://omnibox.
   AdditionalInfo additional_info;

   // A list of matches culled during de-duplication process, retained to
   // ensure if a match is deleted, the duplicates are deleted as well.
   std::vector<AutocompleteMatch> duplicate_matches;

 #ifndef NDEBUG
   // Does a data integrity check on this match.
   void Validate() const;

   // Checks one text/classifications pair for valid values.
   void ValidateClassifications(
       const base::string16& text,
       const ACMatchClassifications& classifications) const;
 #endif
 };

 typedef AutocompleteMatch::ACMatchClassification ACMatchClassification;
 typedef std::vector<ACMatchClassification> ACMatchClassifications;
 typedef std::vector<AutocompleteMatch> ACMatches;

 #endif  // COMPONENTS_OMNIBOX_BROWSER_AUTOCOMPLETE_MATCH_H_
	// 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.

	#ifndef COMPONENTS_OMNIBOX_BROWSER_AUTOCOMPLETE_MATCH_H_
	#define COMPONENTS_OMNIBOX_BROWSER_AUTOCOMPLETE_MATCH_H_

	#include <stddef.h>

	#include <map>
	#include <memory>
	#include <string>
	#include <vector>

	#include "components/omnibox/browser/autocomplete_input.h"
	#include "components/omnibox/browser/autocomplete_match_type.h"
	#include "components/search_engines/template_url.h"
	#include "ui/base/page_transition_types.h"
	#include "url/gurl.h"

	class AutocompleteProvider;
	class SuggestionAnswer;
	class TemplateURL;
	class TemplateURLService;

	namespace base {
	class Time;
	} // namespace base

	namespace gfx {
	enum class VectorIconId;
	} // namespace gfx

	const char kACMatchPropertyInputText[] = "input text";
	const char kACMatchPropertyContentsPrefix[] = "match contents prefix";
	const char kACMatchPropertyContentsStartIndex[] = "match contents start index";

	// AutocompleteMatch ----------------------------------------------------------

	// A single result line with classified spans. The autocomplete popup displays
	// the 'contents' and the 'description' (the description is optional) in the
	// autocomplete dropdown, and fills in 'fill_into_edit' into the textbox when
	// that line is selected. fill_into_edit may be the same as 'description' for
	// things like URLs, but may be different for searches or other providers. For
	// example, a search result may say "Search for asdf" as the description, but
	// "asdf" should appear in the box.
	struct AutocompleteMatch {
	// Autocomplete matches contain strings that are classified according to a
	// separate vector of styles. This vector associates flags with particular
	// string segments, and must be in sorted order. All text must be associated
	// with some kind of classification. Even if a match has no distinct
	// segments, its vector should contain an entry at offset 0 with no flags.
	//
	// Example: The user typed "goog"
	// http://www.google.com/ Google
	// ^ ^ ^ ^ ^
	// 0, \| 15, \| 4,
	// 11,match 0,match
	//
	// This structure holds the classification information for each span.
	struct ACMatchClassification {
	// The values in here are not mutually exclusive -- use them like a
	// bitfield. This also means we use "int" instead of this enum type when
	// passing the values around, so the compiler doesn't complain.
	//
	// A Java counterpart will be generated for this enum.
	// GENERATED_JAVA_ENUM_PACKAGE: org.chromium.chrome.browser.omnibox
	// GENERATED_JAVA_CLASS_NAME_OVERRIDE: MatchClassificationStyle
	enum Style {
	NONE = 0,
	URL = 1 << 0, // A URL
	MATCH = 1 << 1, // A match for the user's search term
	DIM = 1 << 2, // "Helper text"
	};

	ACMatchClassification(size_t offset, int style)
	: offset(offset),
	style(style) {
	}

	// Offset within the string that this classification starts
	size_t offset;

	int style;
	};

	typedef std::vector<ACMatchClassification> ACMatchClassifications;

	// Type used by providers to attach additional, optional information to
	// an AutocompleteMatch.
	typedef std::map<std::string, std::string> AdditionalInfo;

	// The type of this match.
	typedef AutocompleteMatchType::Type Type;

	// Null-terminated array of characters that are not valid within \|contents\|
	// and \|description\| strings.
	static const base::char16 kInvalidChars[];

	AutocompleteMatch();
	AutocompleteMatch(AutocompleteProvider* provider,
	int relevance,
	bool deletable,
	Type type);
	AutocompleteMatch(const AutocompleteMatch& match);
	~AutocompleteMatch();

	// Converts \|type\| to a string representation. Used in logging and debugging.
	AutocompleteMatch& operator=(const AutocompleteMatch& match);

	// Converts \|type\| to a resource identifier for the appropriate icon for this
	// type to show in the completion popup.
	static int TypeToIcon(Type type);

	// Gets the vector icon identifier for the icon to be shown for \|type\|.
	static gfx::VectorIconId TypeToVectorIcon(Type type);

	// Comparison function for determining when one match is better than another.
	static bool MoreRelevant(const AutocompleteMatch& elem1,
	const AutocompleteMatch& elem2);

	// Comparison function for removing matches with duplicate destinations.
	// Destinations are compared using \|stripped_destination_url\|. Pairs of
	// matches with empty destinations are treated as differing, since empty
	// destinations are expected for non-navigable matches.
	static bool DestinationsEqual(const AutocompleteMatch& elem1,
	const AutocompleteMatch& elem2);

	// Helper functions for classes creating matches:
	// Fills in the classifications for \|text\|, using \|style\| as the base style
	// and marking the first instance of \|find_text\| as a match. (This match
	// will also not be dimmed, if \|style\| has DIM set.)
	static void ClassifyMatchInString(const base::string16& find_text,
	const base::string16& text,
	int style,
	ACMatchClassifications* classifications);

	// Similar to ClassifyMatchInString(), but for cases where the range to mark
	// as matching is already known (avoids calling find()). This can be helpful
	// when find() would be misleading (e.g. you want to mark the second match in
	// a string instead of the first).
	static void ClassifyLocationInString(size_t match_location,
	size_t match_length,
	size_t overall_length,
	int style,
	ACMatchClassifications* classifications);

	// Returns a new vector of classifications containing the merged contents of
	// \|classifications1\| and \|classifications2\|.
	static ACMatchClassifications MergeClassifications(
	const ACMatchClassifications& classifications1,
	const ACMatchClassifications& classifications2);

	// Converts classifications to and from a serialized string representation
	// (using comma-separated integers to sequentially list positions and styles).
	static std::string ClassificationsToString(
	const ACMatchClassifications& classifications);
	static ACMatchClassifications ClassificationsFromString(
	const std::string& serialized_classifications);

	// Adds a classification to the end of \|classifications\| iff its style is
	// different from the last existing classification. \|offset\| must be larger
	// than the offset of the last classification in \|classifications\|.
	static void AddLastClassificationIfNecessary(
	ACMatchClassifications* classifications,
	size_t offset,
	int style);

	// Returns true if at least one style in \|classifications\| is of type MATCH.
	static bool HasMatchStyle(const ACMatchClassifications& classifications);

	// Removes invalid characters from \|text\|. Should be called on strings coming
	// from external sources (such as extensions) before assigning to \|contents\|
	// or \|description\|.
	static base::string16 SanitizeString(const base::string16& text);

	// Convenience function to check if \|type\| is a search (as opposed to a URL or
	// an extension).
	static bool IsSearchType(Type type);

	// Convenience function to check if \|type\| is a special search suggest type -
	// like entity, personalized, profile or postfix.
	static bool IsSpecializedSearchType(Type type);

	// A static version GetTemplateURL() that takes the match's keyword and
	// match's hostname as parameters. In short, returns the TemplateURL
	// associated with \|keyword\| if it exists; otherwise returns the TemplateURL
	// associated with \|host\| if it exists.
	static TemplateURL* GetTemplateURLWithKeyword(
	TemplateURLService* template_url_service,
	const base::string16& keyword,
	const std::string& host);

	// Returns \|url\| altered by stripping off "www.", converting https protocol
	// to http, and stripping excess query parameters. These conversions are
	// merely to allow comparisons to remove likely duplicates; these URLs are
	// not used as actual destination URLs. If \|template_url_service\| is not
	// NULL, it is used to get a template URL corresponding to this match. If
	// the match's keyword is known, it can be passed in. Otherwise, it can be
	// left empty and the template URL (if any) is determined from the
	// destination's hostname. The template URL is used to strip off query args
	// other than the search terms themselves that would otherwise prevent doing
	// proper deduping. \|input\| is used to decide if the scheme is allowed to
	// be altered during stripping. If this URL, minus the scheme and separator,
	// starts with any the terms in input.terms_prefixed_by_http_or_https(), we
	// avoid converting an HTTPS scheme to HTTP. This means URLs that differ
	// only by these schemes won't be marked as dupes, since the distinction
	// seems to matter to the user.
	static GURL GURLToStrippedGURL(const GURL& url,
	const AutocompleteInput& input,
	TemplateURLService* template_url_service,
	const base::string16& keyword);

	// Computes the stripped destination URL (via GURLToStrippedGURL()) and
	// stores the result in \|stripped_destination_url\|. \|input\| is used for the
	// same purpose as in GURLToStrippedGURL().
	void ComputeStrippedDestinationURL(const AutocompleteInput& input,
	TemplateURLService* template_url_service);

	// Sets \|allowed_to_be_default_match\| to true if this match is effectively
	// the URL-what-you-typed match (i.e., would be dupped against the UWYT
	// match when AutocompleteResult merges matches).
	void EnsureUWYTIsAllowedToBeDefault(
	const AutocompleteInput& input,
	TemplateURLService* template_url_service);

	// Gets data relevant to whether there should be any special keyword-related
	// UI shown for this match. If this match represents a selected keyword, i.e.
	// the UI should be "in keyword mode", \|keyword\| will be set to the keyword
	// and \|is_keyword_hint\| will be set to false. If this match has a non-NULL
	// \|associated_keyword\|, i.e. we should show a "Press [tab] to search ___"
	// hint and allow the user to toggle into keyword mode, \|keyword\| will be set
	// to the associated keyword and \|is_keyword_hint\| will be set to true. Note
	// that only one of these states can be in effect at once. In all other
	// cases, \|keyword\| will be cleared, even when our member variable \|keyword\|
	// is non-empty -- such as with non-substituting keywords or matches that
	// represent searches using the default search engine. See also
	// GetSubstitutingExplicitlyInvokedKeyword().
	void GetKeywordUIState(TemplateURLService* template_url_service,
	base::string16* keyword,
	bool* is_keyword_hint) const;

	// Returns \|keyword\|, but only if it represents a substituting keyword that
	// the user has explicitly invoked. If for example this match represents a
	// search with the default search engine (and the user didn't explicitly
	// invoke its keyword), this returns the empty string. The result is that
	// this function returns a non-empty string in the same cases as when the UI
	// should show up as being "in keyword mode".
	base::string16 GetSubstitutingExplicitlyInvokedKeyword(
	TemplateURLService* template_url_service) const;

	// Returns the TemplateURL associated with this match. This may be NULL if
	// the match has no keyword OR if the keyword no longer corresponds to a valid
	// TemplateURL. See comments on \|keyword\| below.
	// If \|allow_fallback_to_destination_host\| is true and the keyword does
	// not map to a valid TemplateURL, we'll then check for a TemplateURL that
	// corresponds to the destination_url's hostname.
	TemplateURL* GetTemplateURL(TemplateURLService* template_url_service,
	bool allow_fallback_to_destination_host) const;

	// Adds optional information to the \|additional_info\| dictionary.
	void RecordAdditionalInfo(const std::string& property,
	const std::string& value);
	void RecordAdditionalInfo(const std::string& property, int value);
	void RecordAdditionalInfo(const std::string& property,
	const base::Time& value);

	// Returns the value recorded for \|property\| in the \|additional_info\|
	// dictionary. Returns the empty string if no such value exists.
	std::string GetAdditionalInfo(const std::string& property) const;

	// Returns whether this match is a "verbatim" match: a URL navigation directly
	// to the user's input, a search for the user's input with the default search
	// engine, or a "keyword mode" search for the query portion of the user's
	// input. Note that rare or unusual types that could be considered verbatim,
	// such as keyword engine matches or extension-provided matches, aren't
	// detected by this IsVerbatimType, as the user will not be able to infer
	// what will happen when they press enter in those cases if the match is not
	// shown.
	bool IsVerbatimType() const;

	// Returns whether this match or any duplicate of this match can be deleted.
	// This is used to decide whether we should call DeleteMatch().
	bool SupportsDeletion() const;

	// Swaps the contents and description fields, and their associated
	// classifications, if this is a match for which we should emphasize the
	// title (stored in the description field) over the URL (in the contents
	// field). Intended to only be used at the UI level before displaying, lest
	// other omnibox systems get confused about which is which. See the code
	// that sets \|swap_contents_and_description\| for conditions under which
	// it is true.
	void PossiblySwapContentsAndDescriptionForDisplay();

	// The provider of this match, used to remember which provider the user had
	// selected when the input changes. This may be NULL, in which case there is
	// no provider (or memory of the user's selection).
	AutocompleteProvider* provider;

	// The relevance of this match. See table in autocomplete.h for scores
	// returned by various providers. This is used to rank matches among all
	// responding providers, so different providers must be carefully tuned to
	// supply matches with appropriate relevance.
	//
	// TODO(pkasting): http://b/1111299 This should be calculated algorithmically,
	// rather than being a fairly fixed value defined by the table above.
	int relevance;

	// How many times this result was typed in / selected from the omnibox.
	// Only set for some providers and result_types. If it is not set,
	// its value is -1. At the time of writing this comment, it is only
	// set for matches from HistoryURL and HistoryQuickProvider.
	int typed_count;

	// True if the user should be able to delete this match.
	bool deletable;

	// This string is loaded into the location bar when the item is selected
	// by pressing the arrow keys. This may be different than a URL, for example,
	// for search suggestions, this would just be the search terms.
	base::string16 fill_into_edit;

	// The inline autocompletion to display after the user's typing in the
	// omnibox, if this match becomes the default match. It may be empty.
	base::string16 inline_autocompletion;

	// If false, the omnibox should prevent this match from being the
	// default match. Providers should set this to true only if the
	// user's input, plus any inline autocompletion on this match, would
	// lead the user to expect a navigation to this match's destination.
	// For example, with input "foo", a search for "bar" or navigation
	// to "bar.com" should not set this flag; a navigation to "foo.com"
	// should only set this flag if ".com" will be inline autocompleted;
	// and a navigation to "foo/" (an intranet host) or search for "foo"
	// should set this flag.
	bool allowed_to_be_default_match;

	// The URL to actually load when the autocomplete item is selected. This URL
	// should be canonical so we can compare URLs with strcmp to avoid dupes.
	// It may be empty if there is no possible navigation.
	GURL destination_url;

	// The destination URL modified for better dupe finding. The result may not
	// be navigable or even valid; it's only meant to be used for detecting
	// duplicates.
	GURL stripped_destination_url;

	// The main text displayed in the address bar dropdown.
	base::string16 contents;
	ACMatchClassifications contents_class;

	// Additional helper text for each entry, such as a title or description.
	base::string16 description;
	ACMatchClassifications description_class;

	// If true, UI-level code should swap the contents and description fields
	// before displaying.
	bool swap_contents_and_description;

	// TODO(jdonnelly): Remove the first two properties once the downstream
	// clients are using the SuggestionAnswer.
	// A rich-format version of the display for the dropdown.
	base::string16 answer_contents;
	base::string16 answer_type;
	std::unique_ptr<SuggestionAnswer> answer;

	// The transition type to use when the user opens this match. By default
	// this is TYPED. Providers whose matches do not look like URLs should set
	// it to GENERATED.
	ui::PageTransition transition;

	// Type of this match.
	Type type;

	// Set with a keyword provider match if this match can show a keyword hint.
	// For example, if this is a SearchProvider match for "www.amazon.com",
	// \|associated_keyword\| could be a KeywordProvider match for "amazon.com".
	//
	// When this is set, the popup will show a ">" symbol at the right edge of the
	// line for this match, and tab/shift-tab will toggle in and out of keyword
	// mode without disturbing the rest of the popup. See also
	// OmniboxPopupModel::SetSelectedLineState().
	std::unique_ptr<AutocompleteMatch> associated_keyword;

	// The keyword of the TemplateURL the match originated from. This is nonempty
	// for both explicit "keyword mode" matches as well as matches for the default
	// search provider (so, any match for which we're doing substitution); it
	// doesn't imply (alone) that the UI is going to show a keyword hint or
	// keyword mode. For that, see GetKeywordUIState() or
	// GetSubstitutingExplicitlyInvokedKeyword().
	//
	// CAUTION: The TemplateURL associated with this keyword may be deleted or
	// modified while the AutocompleteMatch is alive. This means anyone who
	// accesses it must perform any necessary sanity checks before blindly using
	// it!
	base::string16 keyword;

	// True if this match is from a previous result.
	bool from_previous;

	// Optional search terms args. If present,
	// AutocompleteController::UpdateAssistedQueryStats() will incorporate this
	// data with additional data it calculates and pass the completed struct to
	// TemplateURLRef::ReplaceSearchTerms() to reset the match's \|destination_url\|
	// after the complete set of matches in the AutocompleteResult has been chosen
	// and sorted. Most providers will leave this as NULL, which will cause the
	// AutocompleteController to do no additional transformations.
	std::unique_ptr<TemplateURLRef::SearchTermsArgs> search_terms_args;

	// Information dictionary into which each provider can optionally record a
	// property and associated value and which is presented in chrome://omnibox.
	AdditionalInfo additional_info;

	// A list of matches culled during de-duplication process, retained to
	// ensure if a match is deleted, the duplicates are deleted as well.
	std::vector<AutocompleteMatch> duplicate_matches;

	#ifndef NDEBUG
	// Does a data integrity check on this match.
	void Validate() const;

	// Checks one text/classifications pair for valid values.
	void ValidateClassifications(
	const base::string16& text,
	const ACMatchClassifications& classifications) const;
	#endif
	};

	typedef AutocompleteMatch::ACMatchClassification ACMatchClassification;
	typedef std::vector<ACMatchClassification> ACMatchClassifications;
	typedef std::vector<AutocompleteMatch> ACMatches;

	#endif // COMPONENTS_OMNIBOX_BROWSER_AUTOCOMPLETE_MATCH_H_