// Copyright (c) 2011 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_edit.h" #include #include "base/basictypes.h" #include "base/metrics/histogram.h" #include "base/string_util.h" #include "base/utf_string_conversions.h" #include "chrome/app/chrome_command_ids.h" #include "chrome/browser/autocomplete/autocomplete_classifier.h" #include "chrome/browser/autocomplete/autocomplete_edit_view.h" #include "chrome/browser/autocomplete/autocomplete_match.h" #include "chrome/browser/autocomplete/autocomplete_popup_model.h" #include "chrome/browser/autocomplete/keyword_provider.h" #include "chrome/browser/browser_list.h" #include "chrome/browser/command_updater.h" #include "chrome/browser/extensions/extension_omnibox_api.h" #include "chrome/browser/google/google_url_tracker.h" #include "chrome/browser/instant/instant_controller.h" #include "chrome/browser/metrics/user_metrics.h" #include "chrome/browser/net/predictor_api.h" #include "chrome/browser/net/url_fixer_upper.h" #include "chrome/browser/profiles/profile.h" #include "chrome/browser/search_engines/template_url.h" #include "chrome/browser/search_engines/template_url_model.h" #include "chrome/common/notification_service.h" #include "chrome/common/url_constants.h" #include "googleurl/src/gurl.h" #include "googleurl/src/url_util.h" #include "third_party/skia/include/core/SkBitmap.h" /////////////////////////////////////////////////////////////////////////////// // AutocompleteEditController AutocompleteEditController::~AutocompleteEditController() { } /////////////////////////////////////////////////////////////////////////////// // AutocompleteEditModel::State AutocompleteEditModel::State::State(bool user_input_in_progress, const std::wstring& user_text, const std::wstring& keyword, bool is_keyword_hint) : user_input_in_progress(user_input_in_progress), user_text(user_text), keyword(keyword), is_keyword_hint(is_keyword_hint) { } AutocompleteEditModel::State::~State() { } /////////////////////////////////////////////////////////////////////////////// // AutocompleteEditModel AutocompleteEditModel::AutocompleteEditModel( AutocompleteEditView* view, AutocompleteEditController* controller, Profile* profile) : view_(view), popup_(NULL), controller_(controller), has_focus_(false), user_input_in_progress_(false), just_deleted_text_(false), has_temporary_text_(false), paste_state_(NONE), control_key_state_(UP), is_keyword_hint_(false), paste_and_go_transition_(PageTransition::TYPED), profile_(profile) { } AutocompleteEditModel::~AutocompleteEditModel() { } void AutocompleteEditModel::SetPopupModel(AutocompletePopupModel* popup_model) { popup_ = popup_model; registrar_.Add(this, NotificationType::AUTOCOMPLETE_CONTROLLER_DEFAULT_MATCH_UPDATED, Source(popup_->autocomplete_controller())); } void AutocompleteEditModel::SetProfile(Profile* profile) { DCHECK(profile); profile_ = profile; popup_->SetProfile(profile); } const AutocompleteEditModel::State AutocompleteEditModel::GetStateForTabSwitch() { // Like typing, switching tabs "accepts" the temporary text as the user // text, because it makes little sense to have temporary text when the // popup is closed. if (user_input_in_progress_) { // Weird edge case to match other browsers: if the edit is empty, revert to // the permanent text (so the user can get it back easily) but select it (so // on switching back, typing will "just work"). const std::wstring user_text(UserTextFromDisplayText(view_->GetText())); if (user_text.empty()) { view_->RevertAll(); view_->SelectAll(true); } else { InternalSetUserText(user_text); } } return State(user_input_in_progress_, user_text_, keyword_, is_keyword_hint_); } void AutocompleteEditModel::RestoreState(const State& state) { // Restore any user editing. if (state.user_input_in_progress) { // NOTE: Be sure and set keyword-related state BEFORE invoking // DisplayTextFromUserText(), as its result depends upon this state. keyword_ = state.keyword; is_keyword_hint_ = state.is_keyword_hint; view_->SetUserText(state.user_text, DisplayTextFromUserText(state.user_text), false); } } AutocompleteMatch AutocompleteEditModel::CurrentMatch() { AutocompleteMatch match; GetInfoForCurrentText(&match, NULL); return match; } bool AutocompleteEditModel::UpdatePermanentText( const std::wstring& new_permanent_text) { // When there's a new URL, and the user is not editing anything or the edit // doesn't have focus, we want to revert the edit to show the new URL. (The // common case where the edit doesn't have focus is when the user has started // an edit and then abandoned it and clicked a link on the page.) const bool visibly_changed_permanent_text = (permanent_text_ != new_permanent_text) && (!user_input_in_progress_ || !has_focus_); permanent_text_ = new_permanent_text; return visibly_changed_permanent_text; } void AutocompleteEditModel::SetUserText(const std::wstring& text) { SetInputInProgress(true); InternalSetUserText(text); paste_state_ = NONE; has_temporary_text_ = false; } void AutocompleteEditModel::FinalizeInstantQuery( const std::wstring& input_text, const std::wstring& suggest_text) { popup_->FinalizeInstantQuery(input_text, suggest_text); } void AutocompleteEditModel::GetDataForURLExport(GURL* url, std::wstring* title, SkBitmap* favicon) { AutocompleteMatch match; GetInfoForCurrentText(&match, NULL); *url = match.destination_url; if (*url == URLFixerUpper::FixupURL(WideToUTF8(permanent_text_), std::string())) { *title = controller_->GetTitle(); *favicon = controller_->GetFavIcon(); } } bool AutocompleteEditModel::UseVerbatimInstant() { #if defined(OS_MACOSX) // TODO(suzhe): Fix Mac port to display Instant suggest in a separated NSView, // so that we can display instant suggest along with composition text. const AutocompleteInput& input = popup_->autocomplete_controller()->input(); if (input.initial_prevent_inline_autocomplete()) return true; #endif // The value of input.initial_prevent_inline_autocomplete() is determined by // following conditions: // 1. If the caret is at the end of the text (checked below). // 2. If it's in IME composition mode. // As we use a separated widget for displaying the instant suggest, it won't // interfere with IME composition, so we don't need to care about the value of // input.initial_prevent_inline_autocomplete() here. if (view_->DeleteAtEndPressed() || (popup_->selected_line() != 0) || just_deleted_text_) return true; std::wstring::size_type start, end; view_->GetSelectionBounds(&start, &end); return (start != end) || (start != view_->GetText().size()); } std::wstring AutocompleteEditModel::GetDesiredTLD() const { // Tricky corner case: The user has typed "foo" and currently sees an inline // autocomplete suggestion of "foo.net". He now presses ctrl-a (e.g. to // select all, on Windows). If we treat the ctrl press as potentially for the // sake of ctrl-enter, then we risk "www.foo.com" being promoted as the best // match. This would make the autocompleted text disappear, leaving our user // feeling very confused when the wrong text gets highlighted. // // Thus, we only treat the user as pressing ctrl-enter when the user presses // ctrl without any fragile state built up in the omnibox: // * the contents of the omnibox have not changed since the keypress, // * there is no autocompleted text visible, and // * the user is not typing a keyword query. return (control_key_state_ == DOWN_WITHOUT_CHANGE && inline_autocomplete_text_.empty() && !KeywordIsSelected())? std::wstring(L"com") : std::wstring(); } bool AutocompleteEditModel::CurrentTextIsURL() const { // If !user_input_in_progress_, the permanent text is showing, which should // always be a URL, so no further checking is needed. By avoiding checking in // this case, we avoid calling into the autocomplete providers, and thus // initializing the history system, as long as possible, which speeds startup. if (!user_input_in_progress_) return true; AutocompleteMatch match; GetInfoForCurrentText(&match, NULL); return match.transition == PageTransition::TYPED; } AutocompleteMatch::Type AutocompleteEditModel::CurrentTextType() const { AutocompleteMatch match; GetInfoForCurrentText(&match, NULL); return match.type; } void AutocompleteEditModel::AdjustTextForCopy(int sel_min, bool is_all_selected, std::wstring* text, GURL* url, bool* write_url) { *write_url = false; if (sel_min != 0) return; // We can't use CurrentTextIsURL() or GetDataForURLExport() because right now // the user is probably holding down control to cause the copy, which will // screw up our calculation of the desired_tld. if (!GetURLForText(*text, url)) return; // Can't be parsed as a url, no need to adjust text. if (!user_input_in_progress() && is_all_selected) { // The user selected all the text and has not edited it. Use the url as the // text so that if the scheme was stripped it's added back, and the url // is unescaped (we escape parts of the url for display). *text = UTF8ToWide(url->spec()); *write_url = true; return; } // Prefix the text with 'http://' if the text doesn't start with 'http://', // the text parses as a url with a scheme of http, the user selected the // entire host, and the user hasn't edited the host or manually removed the // scheme. GURL perm_url; if (GetURLForText(permanent_text_, &perm_url) && perm_url.SchemeIs(chrome::kHttpScheme) && url->SchemeIs(chrome::kHttpScheme) && perm_url.host() == url->host()) { *write_url = true; std::wstring http = ASCIIToWide(chrome::kHttpScheme) + ASCIIToWide(chrome::kStandardSchemeSeparator); if (text->compare(0, http.length(), http) != 0) *text = http + *text; } } void AutocompleteEditModel::SetInputInProgress(bool in_progress) { if (user_input_in_progress_ == in_progress) return; user_input_in_progress_ = in_progress; controller_->OnInputInProgress(in_progress); } void AutocompleteEditModel::Revert() { SetInputInProgress(false); paste_state_ = NONE; InternalSetUserText(std::wstring()); keyword_.clear(); is_keyword_hint_ = false; has_temporary_text_ = false; view_->SetWindowTextAndCaretPos(permanent_text_, has_focus_ ? permanent_text_.length() : 0); } void AutocompleteEditModel::StartAutocomplete( bool has_selected_text, bool prevent_inline_autocomplete) const { bool keyword_is_selected = KeywordIsSelected(); popup_->StartAutocomplete(user_text_, GetDesiredTLD(), prevent_inline_autocomplete || just_deleted_text_ || (has_selected_text && inline_autocomplete_text_.empty()) || (paste_state_ != NONE), keyword_is_selected, keyword_is_selected); } bool AutocompleteEditModel::CanPasteAndGo(const std::wstring& text) const { if (!view_->GetCommandUpdater()->IsCommandEnabled(IDC_OPEN_CURRENT_URL)) return false; AutocompleteMatch match; profile_->GetAutocompleteClassifier()->Classify(text, std::wstring(), false, &match, &paste_and_go_alternate_nav_url_); paste_and_go_url_ = match.destination_url; paste_and_go_transition_ = match.transition; return paste_and_go_url_.is_valid(); } void AutocompleteEditModel::PasteAndGo() { // The final parameter to OpenURL, keyword, is not quite correct here: it's // possible to "paste and go" a string that contains a keyword. This is // enough of an edge case that we ignore this possibility. view_->RevertAll(); view_->OpenURL(paste_and_go_url_, CURRENT_TAB, paste_and_go_transition_, paste_and_go_alternate_nav_url_, AutocompletePopupModel::kNoMatch, std::wstring()); } void AutocompleteEditModel::AcceptInput(WindowOpenDisposition disposition, bool for_drop) { // Get the URL and transition type for the selected entry. AutocompleteMatch match; GURL alternate_nav_url; GetInfoForCurrentText(&match, &alternate_nav_url); if (!match.destination_url.is_valid()) return; if ((match.transition == PageTransition::TYPED) && (match.destination_url == URLFixerUpper::FixupURL(WideToUTF8(permanent_text_), std::string()))) { // When the user hit enter on the existing permanent URL, treat it like a // reload for scoring purposes. We could detect this by just checking // user_input_in_progress_, but it seems better to treat "edits" that end // up leaving the URL unchanged (e.g. deleting the last character and then // retyping it) as reloads too. We exclude non-TYPED transitions because if // the transition is GENERATED, the user input something that looked // different from the current URL, even if it wound up at the same place // (e.g. manually retyping the same search query), and it seems wrong to // treat this as a reload. match.transition = PageTransition::RELOAD; } else if (for_drop || ((paste_state_ != NONE) && match.is_history_what_you_typed_match)) { // When the user pasted in a URL and hit enter, score it like a link click // rather than a normal typed URL, so it doesn't get inline autocompleted // as aggressively later. match.transition = PageTransition::LINK; } if (match.type == AutocompleteMatch::SEARCH_WHAT_YOU_TYPED || match.type == AutocompleteMatch::SEARCH_HISTORY || match.type == AutocompleteMatch::SEARCH_SUGGEST) { const TemplateURL* default_provider = profile_->GetTemplateURLModel()->GetDefaultSearchProvider(); if (default_provider && default_provider->url() && default_provider->url()->HasGoogleBaseURLs()) GoogleURLTracker::GoogleURLSearchCommitted(); } view_->OpenURL(match.destination_url, disposition, match.transition, alternate_nav_url, AutocompletePopupModel::kNoMatch, is_keyword_hint_ ? std::wstring() : keyword_); } void AutocompleteEditModel::OpenURL(const GURL& url, WindowOpenDisposition disposition, PageTransition::Type transition, const GURL& alternate_nav_url, size_t index, const std::wstring& keyword) { // We only care about cases where there is a selection (i.e. the popup is // open). if (popup_->IsOpen()) { scoped_ptr log(popup_->GetAutocompleteLog()); if (index != AutocompletePopupModel::kNoMatch) log->selected_index = index; else if (!has_temporary_text_) log->inline_autocompleted_length = inline_autocomplete_text_.length(); NotificationService::current()->Notify( NotificationType::OMNIBOX_OPENED_URL, Source(profile_), Details(log.get())); } TemplateURLModel* template_url_model = profile_->GetTemplateURLModel(); if (template_url_model && !keyword.empty()) { const TemplateURL* const template_url = template_url_model->GetTemplateURLForKeyword(WideToUTF16Hack(keyword)); // Special case for extension keywords. Don't increment usage count for // these. if (template_url && template_url->IsExtensionKeyword()) { AutocompleteMatch current_match; GetInfoForCurrentText(¤t_match, NULL); const AutocompleteMatch& match = index == AutocompletePopupModel::kNoMatch ? current_match : result().match_at(index); // Strip the keyword + leading space off the input. size_t prefix_length = match.template_url->keyword().size() + 1; ExtensionOmniboxEventRouter::OnInputEntered( profile_, match.template_url->GetExtensionId(), WideToUTF8(match.fill_into_edit.substr(prefix_length))); view_->RevertAll(); return; } if (template_url) { UserMetrics::RecordAction(UserMetricsAction("AcceptedKeyword"), profile_); template_url_model->IncrementUsageCount(template_url); } // NOTE: We purposefully don't increment the usage count of the default // search engine, if applicable; see comments in template_url.h. } if (disposition != NEW_BACKGROUND_TAB) { controller_->OnAutocompleteWillAccept(); view_->RevertAll(); // Revert the box to its unedited state } controller_->OnAutocompleteAccept(url, disposition, transition, alternate_nav_url); } bool AutocompleteEditModel::AcceptKeyword() { DCHECK(is_keyword_hint_ && !keyword_.empty()); view_->OnBeforePossibleChange(); view_->SetWindowTextAndCaretPos(std::wstring(), 0); is_keyword_hint_ = false; view_->OnAfterPossibleChange(); just_deleted_text_ = false; // OnAfterPossibleChange() erroneously sets this // since the edit contents have disappeared. It // doesn't really matter, but we clear it to be // consistent. UserMetrics::RecordAction(UserMetricsAction("AcceptedKeywordHint"), profile_); return true; } void AutocompleteEditModel::ClearKeyword(const std::wstring& visible_text) { view_->OnBeforePossibleChange(); const std::wstring window_text(keyword_ + visible_text); view_->SetWindowTextAndCaretPos(window_text.c_str(), keyword_.length()); keyword_.clear(); is_keyword_hint_ = false; view_->OnAfterPossibleChange(); just_deleted_text_ = true; // OnAfterPossibleChange() fails to clear this // since the edit contents have actually grown // longer. } bool AutocompleteEditModel::query_in_progress() const { return !popup_->autocomplete_controller()->done(); } const AutocompleteResult& AutocompleteEditModel::result() const { return popup_->autocomplete_controller()->result(); } void AutocompleteEditModel::OnSetFocus(bool control_down) { has_focus_ = true; control_key_state_ = control_down ? DOWN_WITHOUT_CHANGE : UP; NotificationService::current()->Notify( NotificationType::AUTOCOMPLETE_EDIT_FOCUSED, Source(this), NotificationService::NoDetails()); } void AutocompleteEditModel::OnKillFocus() { has_focus_ = false; control_key_state_ = UP; paste_state_ = NONE; // Like typing, killing focus "accepts" the temporary text as the user // text, because it makes little sense to have temporary text when the // popup is closed. InternalSetUserText(UserTextFromDisplayText(view_->GetText())); has_temporary_text_ = false; } bool AutocompleteEditModel::OnEscapeKeyPressed() { if (has_temporary_text_) { AutocompleteMatch match; popup_->InfoForCurrentSelection(&match, NULL); if (match.destination_url != original_url_) { // The user typed something, then selected a different item. Restore the // text they typed and change back to the default item. // NOTE: This purposefully does not reset paste_state_. just_deleted_text_ = false; has_temporary_text_ = false; popup_->ResetToDefaultMatch(); view_->OnRevertTemporaryText(); return true; } } // If the user wasn't editing, but merely had focus in the edit, allow // to be processed as an accelerator, so it can still be used to stop a load. // When the permanent text isn't all selected we still fall through to the // SelectAll() call below so users can arrow around in the text and then hit // to quickly replace all the text; this matches IE. if (!user_input_in_progress_ && view_->IsSelectAll()) return false; view_->RevertAll(); view_->SelectAll(true); return true; } void AutocompleteEditModel::OnControlKeyChanged(bool pressed) { // Don't change anything unless the key state is actually toggling. if (pressed == (control_key_state_ == UP)) { ControlKeyState old_state = control_key_state_; control_key_state_ = pressed ? DOWN_WITHOUT_CHANGE : UP; if ((control_key_state_ == DOWN_WITHOUT_CHANGE) && has_temporary_text_) { // Arrowing down and then hitting control accepts the temporary text as // the input text. InternalSetUserText(UserTextFromDisplayText(view_->GetText())); has_temporary_text_ = false; if (KeywordIsSelected()) AcceptKeyword(); } if ((old_state != DOWN_WITH_CHANGE) && popup_->IsOpen()) { // Autocomplete history provider results may change, so refresh the // popup. This will force user_input_in_progress_ to true, but if the // popup is open, that should have already been the case. view_->UpdatePopup(); } } } void AutocompleteEditModel::OnUpOrDownKeyPressed(int count) { // NOTE: This purposefully don't trigger any code that resets paste_state_. if (!popup_->IsOpen()) { if (!query_in_progress()) { // The popup is neither open nor working on a query already. So, start an // autocomplete query for the current text. This also sets // user_input_in_progress_ to true, which we want: if the user has started // to interact with the popup, changing the permanent_text_ shouldn't // change the displayed text. // Note: This does not force the popup to open immediately. // TODO(pkasting): We should, in fact, force this particular query to open // the popup immediately. if (!user_input_in_progress_) InternalSetUserText(permanent_text_); view_->UpdatePopup(); } else { // TODO(pkasting): The popup is working on a query but is not open. We // should force it to open immediately. } } else { // The popup is open, so the user should be able to interact with it // normally. popup_->Move(count); } } void AutocompleteEditModel::OnPopupDataChanged( const std::wstring& text, GURL* destination_for_temporary_text_change, const std::wstring& keyword, bool is_keyword_hint) { // Update keyword/hint-related local state. bool keyword_state_changed = (keyword_ != keyword) || ((is_keyword_hint_ != is_keyword_hint) && !keyword.empty()); if (keyword_state_changed) { keyword_ = keyword; is_keyword_hint_ = is_keyword_hint; // |is_keyword_hint_| should always be false if |keyword_| is empty. DCHECK(!keyword_.empty() || !is_keyword_hint_); } // Handle changes to temporary text. if (destination_for_temporary_text_change != NULL) { const bool save_original_selection = !has_temporary_text_; if (save_original_selection) { // Save the original selection and URL so it can be reverted later. has_temporary_text_ = true; original_url_ = *destination_for_temporary_text_change; inline_autocomplete_text_.clear(); } if (control_key_state_ == DOWN_WITHOUT_CHANGE) { // Arrowing around the popup cancels control-enter. control_key_state_ = DOWN_WITH_CHANGE; // Now things are a bit screwy: the desired_tld has changed, but if we // update the popup, the new order of entries won't match the old, so the // user's selection gets screwy; and if we don't update the popup, and the // user reverts, then the selected item will be as if control is still // pressed, even though maybe it isn't any more. There is no obvious // right answer here :( } view_->OnTemporaryTextMaybeChanged(DisplayTextFromUserText(text), save_original_selection); return; } // All cases that can result in |has_temporary_text_| being set should have // been handled by the conditional above. DCHECK(!has_temporary_text_); inline_autocomplete_text_ = text; if (view_->OnInlineAutocompleteTextMaybeChanged( DisplayTextFromUserText(user_text_ + inline_autocomplete_text_), DisplayTextFromUserText(user_text_).length())) return; // All other code paths that return invoke OnChanged. We need to invoke // OnChanged in case the destination url changed (as could happen when control // is toggled). controller_->OnChanged(); } bool AutocompleteEditModel::OnAfterPossibleChange( const std::wstring& new_text, bool selection_differs, bool text_differs, bool just_deleted_text, bool allow_keyword_ui_change) { // Update the paste state as appropriate: if we're just finishing a paste // that replaced all the text, preserve that information; otherwise, if we've // made some other edit, clear paste tracking. if (paste_state_ == PASTING) paste_state_ = PASTED; else if (text_differs) paste_state_ = NONE; // Modifying the selection counts as accepting the autocompleted text. const bool user_text_changed = text_differs || (selection_differs && !inline_autocomplete_text_.empty()); // If something has changed while the control key is down, prevent // "ctrl-enter" until the control key is released. When we do this, we need // to update the popup if it's open, since the desired_tld will have changed. if ((text_differs || selection_differs) && (control_key_state_ == DOWN_WITHOUT_CHANGE)) { control_key_state_ = DOWN_WITH_CHANGE; if (!text_differs && !popup_->IsOpen()) return false; // Don't open the popup for no reason. } else if (!user_text_changed) { return false; } // If the user text has not changed, we do not want to change the model's // state associated with the text. Otherwise, we can get surprising behavior // where the autocompleted text unexpectedly reappears, e.g. crbug.com/55983 if (user_text_changed) { const std::wstring new_user_text = UserTextFromDisplayText(new_text); // Try to accept the current keyword if the user only typed a space at the // end of content. Model's state and popup will be updated when the keyword // is accepted. So we just need to return false here. if (allow_keyword_ui_change && !selection_differs && MaybeAcceptKeywordBySpace(new_user_text)) return false; InternalSetUserText(new_user_text); has_temporary_text_ = false; // Track when the user has deleted text so we won't allow inline // autocomplete. just_deleted_text_ = just_deleted_text; } view_->UpdatePopup(); return true; } void AutocompleteEditModel::PopupBoundsChangedTo(const gfx::Rect& bounds) { controller_->OnPopupBoundsChanged(bounds); } // Return true if the suggestion type warrants a TCP/IP preconnection. // i.e., it is now highly likely that the user will select the related domain. static bool IsPreconnectable(AutocompleteMatch::Type type) { UMA_HISTOGRAM_ENUMERATION("Autocomplete.MatchType", type, AutocompleteMatch::NUM_TYPES); switch (type) { // Matches using the user's default search engine. case AutocompleteMatch::SEARCH_WHAT_YOU_TYPED: case AutocompleteMatch::SEARCH_HISTORY: case AutocompleteMatch::SEARCH_SUGGEST: // A match that uses a non-default search engine (e.g. for tab-to-search). case AutocompleteMatch::SEARCH_OTHER_ENGINE: return true; default: return false; } } void AutocompleteEditModel::Observe(NotificationType type, const NotificationSource& source, const NotificationDetails& details) { DCHECK_EQ(NotificationType::AUTOCOMPLETE_CONTROLLER_DEFAULT_MATCH_UPDATED, type.value); std::wstring inline_autocomplete_text; std::wstring keyword; bool is_keyword_hint = false; const AutocompleteResult* result = Details(details).ptr(); const AutocompleteResult::const_iterator match(result->default_match()); if (match != result->end()) { if ((match->inline_autocomplete_offset != std::wstring::npos) && (match->inline_autocomplete_offset < match->fill_into_edit.length())) { inline_autocomplete_text = match->fill_into_edit.substr(match->inline_autocomplete_offset); } if (!match->destination_url.SchemeIs(chrome::kExtensionScheme)) { // Warm up DNS Prefetch cache, or preconnect to a search service. chrome_browser_net::AnticipateOmniboxUrl(match->destination_url, IsPreconnectable(match->type)); } // We could prefetch the alternate nav URL, if any, but because there // can be many of these as a user types an initial series of characters, // the OS DNS cache could suffer eviction problems for minimal gain. is_keyword_hint = popup_->GetKeywordForMatch(*match, &keyword); } OnPopupDataChanged(inline_autocomplete_text, NULL, keyword, is_keyword_hint); } void AutocompleteEditModel::InternalSetUserText(const std::wstring& text) { user_text_ = text; just_deleted_text_ = false; inline_autocomplete_text_.clear(); } bool AutocompleteEditModel::KeywordIsSelected() const { return !is_keyword_hint_ && !keyword_.empty(); } std::wstring AutocompleteEditModel::DisplayTextFromUserText( const std::wstring& text) const { return KeywordIsSelected() ? KeywordProvider::SplitReplacementStringFromInput(text, false) : text; } std::wstring AutocompleteEditModel::UserTextFromDisplayText( const std::wstring& text) const { return KeywordIsSelected() ? (keyword_ + L" " + text) : text; } void AutocompleteEditModel::GetInfoForCurrentText( AutocompleteMatch* match, GURL* alternate_nav_url) const { if (popup_->IsOpen() || query_in_progress()) { popup_->InfoForCurrentSelection(match, alternate_nav_url); } else { profile_->GetAutocompleteClassifier()->Classify( UserTextFromDisplayText(view_->GetText()), GetDesiredTLD(), true, match, alternate_nav_url); } } bool AutocompleteEditModel::GetURLForText(const std::wstring& text, GURL* url) const { GURL parsed_url; const AutocompleteInput::Type type = AutocompleteInput::Parse( UserTextFromDisplayText(text), std::wstring(), NULL, NULL, &parsed_url); if (type != AutocompleteInput::URL) return false; *url = parsed_url; return true; } bool AutocompleteEditModel::MaybeAcceptKeywordBySpace( const std::wstring& new_user_text) { return (paste_state_ == NONE) && is_keyword_hint_ && !keyword_.empty() && inline_autocomplete_text_.empty() && !user_text_.empty() && (new_user_text.length() == user_text_.length() + 1) && !new_user_text.compare(0, user_text_.length(), user_text_) && IsSpaceCharForAcceptingKeyword(new_user_text[user_text_.length()]) && !IsWhitespace(user_text_[user_text_.length() - 1]) && AcceptKeyword(); } // static bool AutocompleteEditModel::IsSpaceCharForAcceptingKeyword(wchar_t c) { switch (c) { case 0x0020: // Space case 0x3000: // Ideographic Space return true; default: return false; } }