/* * Copyright (C) 2006 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.android.internal.view.menu; import android.content.ComponentName; import android.content.Context; import android.content.Intent; import android.content.pm.PackageManager; import android.content.pm.ResolveInfo; import android.content.res.Configuration; import android.content.res.Resources; import android.graphics.drawable.Drawable; import android.os.Bundle; import android.os.Parcelable; import android.util.SparseArray; import android.view.ActionProvider; import android.view.ContextMenu.ContextMenuInfo; import android.view.KeyCharacterMap; import android.view.KeyEvent; import android.view.Menu; import android.view.MenuItem; import android.view.SubMenu; import android.view.View; import java.lang.ref.WeakReference; import java.util.ArrayList; import java.util.List; import java.util.concurrent.CopyOnWriteArrayList; /** * Implementation of the {@link android.view.Menu} interface for creating a * standard menu UI. */ public class MenuBuilder implements Menu { private static final String TAG = "MenuBuilder"; private static final String PRESENTER_KEY = "android:menu:presenters"; private static final String ACTION_VIEW_STATES_KEY = "android:menu:actionviewstates"; private static final String EXPANDED_ACTION_VIEW_ID = "android:menu:expandedactionview"; private static final int[] sCategoryToOrder = new int[] { 1, /* No category */ 4, /* CONTAINER */ 5, /* SYSTEM */ 3, /* SECONDARY */ 2, /* ALTERNATIVE */ 0, /* SELECTED_ALTERNATIVE */ }; private final Context mContext; private final Resources mResources; /** * Whether the shortcuts should be qwerty-accessible. Use isQwertyMode() * instead of accessing this directly. */ private boolean mQwertyMode; /** * Whether the shortcuts should be visible on menus. Use isShortcutsVisible() * instead of accessing this directly. */ private boolean mShortcutsVisible; /** * Callback that will receive the various menu-related events generated by * this class. Use getCallback to get a reference to the callback. */ private Callback mCallback; /** Contains all of the items for this menu */ private ArrayList mItems; /** Contains only the items that are currently visible. This will be created/refreshed from * {@link #getVisibleItems()} */ private ArrayList mVisibleItems; /** * Whether or not the items (or any one item's shown state) has changed since it was last * fetched from {@link #getVisibleItems()} */ private boolean mIsVisibleItemsStale; /** * Contains only the items that should appear in the Action Bar, if present. */ private ArrayList mActionItems; /** * Contains items that should NOT appear in the Action Bar, if present. */ private ArrayList mNonActionItems; /** * Whether or not the items (or any one item's action state) has changed since it was * last fetched. */ private boolean mIsActionItemsStale; /** * Default value for how added items should show in the action list. */ private int mDefaultShowAsAction = MenuItem.SHOW_AS_ACTION_NEVER; /** * Current use case is Context Menus: As Views populate the context menu, each one has * extra information that should be passed along. This is the current menu info that * should be set on all items added to this menu. */ private ContextMenuInfo mCurrentMenuInfo; /** Header title for menu types that have a header (context and submenus) */ CharSequence mHeaderTitle; /** Header icon for menu types that have a header and support icons (context) */ Drawable mHeaderIcon; /** Header custom view for menu types that have a header and support custom views (context) */ View mHeaderView; /** * Contains the state of the View hierarchy for all menu views when the menu * was frozen. */ private SparseArray mFrozenViewStates; /** * Prevents onItemsChanged from doing its junk, useful for batching commands * that may individually call onItemsChanged. */ private boolean mPreventDispatchingItemsChanged = false; private boolean mItemsChangedWhileDispatchPrevented = false; private boolean mOptionalIconsVisible = false; private boolean mIsClosing = false; private ArrayList mTempShortcutItemList = new ArrayList(); private CopyOnWriteArrayList> mPresenters = new CopyOnWriteArrayList>(); /** * Currently expanded menu item; must be collapsed when we clear. */ private MenuItemImpl mExpandedItem; /** * Called by menu to notify of close and selection changes. */ public interface Callback { /** * Called when a menu item is selected. * @param menu The menu that is the parent of the item * @param item The menu item that is selected * @return whether the menu item selection was handled */ public boolean onMenuItemSelected(MenuBuilder menu, MenuItem item); /** * Called when the mode of the menu changes (for example, from icon to expanded). * * @param menu the menu that has changed modes */ public void onMenuModeChange(MenuBuilder menu); } /** * Called by menu items to execute their associated action */ public interface ItemInvoker { public boolean invokeItem(MenuItemImpl item); } public MenuBuilder(Context context) { mContext = context; mResources = context.getResources(); mItems = new ArrayList(); mVisibleItems = new ArrayList(); mIsVisibleItemsStale = true; mActionItems = new ArrayList(); mNonActionItems = new ArrayList(); mIsActionItemsStale = true; setShortcutsVisibleInner(true); } public MenuBuilder setDefaultShowAsAction(int defaultShowAsAction) { mDefaultShowAsAction = defaultShowAsAction; return this; } /** * Add a presenter to this menu. This will only hold a WeakReference; * you do not need to explicitly remove a presenter, but you can using * {@link #removeMenuPresenter(MenuPresenter)}. * * @param presenter The presenter to add */ public void addMenuPresenter(MenuPresenter presenter) { mPresenters.add(new WeakReference(presenter)); presenter.initForMenu(mContext, this); mIsActionItemsStale = true; } /** * Remove a presenter from this menu. That presenter will no longer * receive notifications of updates to this menu's data. * * @param presenter The presenter to remove */ public void removeMenuPresenter(MenuPresenter presenter) { for (WeakReference ref : mPresenters) { final MenuPresenter item = ref.get(); if (item == null || item == presenter) { mPresenters.remove(ref); } } } private void dispatchPresenterUpdate(boolean cleared) { if (mPresenters.isEmpty()) return; stopDispatchingItemsChanged(); for (WeakReference ref : mPresenters) { final MenuPresenter presenter = ref.get(); if (presenter == null) { mPresenters.remove(ref); } else { presenter.updateMenuView(cleared); } } startDispatchingItemsChanged(); } private boolean dispatchSubMenuSelected(SubMenuBuilder subMenu) { if (mPresenters.isEmpty()) return false; boolean result = false; for (WeakReference ref : mPresenters) { final MenuPresenter presenter = ref.get(); if (presenter == null) { mPresenters.remove(ref); } else if (!result) { result = presenter.onSubMenuSelected(subMenu); } } return result; } private void dispatchSaveInstanceState(Bundle outState) { if (mPresenters.isEmpty()) return; SparseArray presenterStates = new SparseArray(); for (WeakReference ref : mPresenters) { final MenuPresenter presenter = ref.get(); if (presenter == null) { mPresenters.remove(ref); } else { final int id = presenter.getId(); if (id > 0) { final Parcelable state = presenter.onSaveInstanceState(); if (state != null) { presenterStates.put(id, state); } } } } outState.putSparseParcelableArray(PRESENTER_KEY, presenterStates); } private void dispatchRestoreInstanceState(Bundle state) { SparseArray presenterStates = state.getSparseParcelableArray(PRESENTER_KEY); if (presenterStates == null || mPresenters.isEmpty()) return; for (WeakReference ref : mPresenters) { final MenuPresenter presenter = ref.get(); if (presenter == null) { mPresenters.remove(ref); } else { final int id = presenter.getId(); if (id > 0) { Parcelable parcel = presenterStates.get(id); if (parcel != null) { presenter.onRestoreInstanceState(parcel); } } } } } public void savePresenterStates(Bundle outState) { dispatchSaveInstanceState(outState); } public void restorePresenterStates(Bundle state) { dispatchRestoreInstanceState(state); } public void saveActionViewStates(Bundle outStates) { SparseArray viewStates = null; final int itemCount = size(); for (int i = 0; i < itemCount; i++) { final MenuItem item = getItem(i); final View v = item.getActionView(); if (v != null && v.getId() != View.NO_ID) { if (viewStates == null) { viewStates = new SparseArray(); } v.saveHierarchyState(viewStates); if (item.isActionViewExpanded()) { outStates.putInt(EXPANDED_ACTION_VIEW_ID, item.getItemId()); } } if (item.hasSubMenu()) { final SubMenuBuilder subMenu = (SubMenuBuilder) item.getSubMenu(); subMenu.saveActionViewStates(outStates); } } if (viewStates != null) { outStates.putSparseParcelableArray(getActionViewStatesKey(), viewStates); } } public void restoreActionViewStates(Bundle states) { if (states == null) { return; } SparseArray viewStates = states.getSparseParcelableArray( getActionViewStatesKey()); final int itemCount = size(); for (int i = 0; i < itemCount; i++) { final MenuItem item = getItem(i); final View v = item.getActionView(); if (v != null && v.getId() != View.NO_ID) { v.restoreHierarchyState(viewStates); } if (item.hasSubMenu()) { final SubMenuBuilder subMenu = (SubMenuBuilder) item.getSubMenu(); subMenu.restoreActionViewStates(states); } } final int expandedId = states.getInt(EXPANDED_ACTION_VIEW_ID); if (expandedId > 0) { MenuItem itemToExpand = findItem(expandedId); if (itemToExpand != null) { itemToExpand.expandActionView(); } } } protected String getActionViewStatesKey() { return ACTION_VIEW_STATES_KEY; } public void setCallback(Callback cb) { mCallback = cb; } /** * Adds an item to the menu. The other add methods funnel to this. */ private MenuItem addInternal(int group, int id, int categoryOrder, CharSequence title) { final int ordering = getOrdering(categoryOrder); final MenuItemImpl item = new MenuItemImpl(this, group, id, categoryOrder, ordering, title, mDefaultShowAsAction); if (mCurrentMenuInfo != null) { // Pass along the current menu info item.setMenuInfo(mCurrentMenuInfo); } mItems.add(findInsertIndex(mItems, ordering), item); onItemsChanged(true); return item; } public MenuItem add(CharSequence title) { return addInternal(0, 0, 0, title); } public MenuItem add(int titleRes) { return addInternal(0, 0, 0, mResources.getString(titleRes)); } public MenuItem add(int group, int id, int categoryOrder, CharSequence title) { return addInternal(group, id, categoryOrder, title); } public MenuItem add(int group, int id, int categoryOrder, int title) { return addInternal(group, id, categoryOrder, mResources.getString(title)); } public SubMenu addSubMenu(CharSequence title) { return addSubMenu(0, 0, 0, title); } public SubMenu addSubMenu(int titleRes) { return addSubMenu(0, 0, 0, mResources.getString(titleRes)); } public SubMenu addSubMenu(int group, int id, int categoryOrder, CharSequence title) { final MenuItemImpl item = (MenuItemImpl) addInternal(group, id, categoryOrder, title); final SubMenuBuilder subMenu = new SubMenuBuilder(mContext, this, item); item.setSubMenu(subMenu); return subMenu; } public SubMenu addSubMenu(int group, int id, int categoryOrder, int title) { return addSubMenu(group, id, categoryOrder, mResources.getString(title)); } public int addIntentOptions(int group, int id, int categoryOrder, ComponentName caller, Intent[] specifics, Intent intent, int flags, MenuItem[] outSpecificItems) { PackageManager pm = mContext.getPackageManager(); final List lri = pm.queryIntentActivityOptions(caller, specifics, intent, 0); final int N = lri != null ? lri.size() : 0; if ((flags & FLAG_APPEND_TO_GROUP) == 0) { removeGroup(group); } for (int i=0; i= 0) { outSpecificItems[ri.specificIndex] = item; } } return N; } public void removeItem(int id) { removeItemAtInt(findItemIndex(id), true); } public void removeGroup(int group) { final int i = findGroupIndex(group); if (i >= 0) { final int maxRemovable = mItems.size() - i; int numRemoved = 0; while ((numRemoved++ < maxRemovable) && (mItems.get(i).getGroupId() == group)) { // Don't force update for each one, this method will do it at the end removeItemAtInt(i, false); } // Notify menu views onItemsChanged(true); } } /** * Remove the item at the given index and optionally forces menu views to * update. * * @param index The index of the item to be removed. If this index is * invalid an exception is thrown. * @param updateChildrenOnMenuViews Whether to force update on menu views. * Please make sure you eventually call this after your batch of * removals. */ private void removeItemAtInt(int index, boolean updateChildrenOnMenuViews) { if ((index < 0) || (index >= mItems.size())) return; mItems.remove(index); if (updateChildrenOnMenuViews) onItemsChanged(true); } public void removeItemAt(int index) { removeItemAtInt(index, true); } public void clearAll() { mPreventDispatchingItemsChanged = true; clear(); clearHeader(); mPreventDispatchingItemsChanged = false; mItemsChangedWhileDispatchPrevented = false; onItemsChanged(true); } public void clear() { if (mExpandedItem != null) { collapseItemActionView(mExpandedItem); } mItems.clear(); onItemsChanged(true); } void setExclusiveItemChecked(MenuItem item) { final int group = item.getGroupId(); final int N = mItems.size(); for (int i = 0; i < N; i++) { MenuItemImpl curItem = mItems.get(i); if (curItem.getGroupId() == group) { if (!curItem.isExclusiveCheckable()) continue; if (!curItem.isCheckable()) continue; // Check the item meant to be checked, uncheck the others (that are in the group) curItem.setCheckedInt(curItem == item); } } } public void setGroupCheckable(int group, boolean checkable, boolean exclusive) { final int N = mItems.size(); for (int i = 0; i < N; i++) { MenuItemImpl item = mItems.get(i); if (item.getGroupId() == group) { item.setExclusiveCheckable(exclusive); item.setCheckable(checkable); } } } public void setGroupVisible(int group, boolean visible) { final int N = mItems.size(); // We handle the notification of items being changed ourselves, so we use setVisibleInt rather // than setVisible and at the end notify of items being changed boolean changedAtLeastOneItem = false; for (int i = 0; i < N; i++) { MenuItemImpl item = mItems.get(i); if (item.getGroupId() == group) { if (item.setVisibleInt(visible)) changedAtLeastOneItem = true; } } if (changedAtLeastOneItem) onItemsChanged(true); } public void setGroupEnabled(int group, boolean enabled) { final int N = mItems.size(); for (int i = 0; i < N; i++) { MenuItemImpl item = mItems.get(i); if (item.getGroupId() == group) { item.setEnabled(enabled); } } } public boolean hasVisibleItems() { final int size = size(); for (int i = 0; i < size; i++) { MenuItemImpl item = mItems.get(i); if (item.isVisible()) { return true; } } return false; } public MenuItem findItem(int id) { final int size = size(); for (int i = 0; i < size; i++) { MenuItemImpl item = mItems.get(i); if (item.getItemId() == id) { return item; } else if (item.hasSubMenu()) { MenuItem possibleItem = item.getSubMenu().findItem(id); if (possibleItem != null) { return possibleItem; } } } return null; } public int findItemIndex(int id) { final int size = size(); for (int i = 0; i < size; i++) { MenuItemImpl item = mItems.get(i); if (item.getItemId() == id) { return i; } } return -1; } public int findGroupIndex(int group) { return findGroupIndex(group, 0); } public int findGroupIndex(int group, int start) { final int size = size(); if (start < 0) { start = 0; } for (int i = start; i < size; i++) { final MenuItemImpl item = mItems.get(i); if (item.getGroupId() == group) { return i; } } return -1; } public int size() { return mItems.size(); } /** {@inheritDoc} */ public MenuItem getItem(int index) { return mItems.get(index); } public boolean isShortcutKey(int keyCode, KeyEvent event) { return findItemWithShortcutForKey(keyCode, event) != null; } public void setQwertyMode(boolean isQwerty) { mQwertyMode = isQwerty; onItemsChanged(false); } /** * Returns the ordering across all items. This will grab the category from * the upper bits, find out how to order the category with respect to other * categories, and combine it with the lower bits. * * @param categoryOrder The category order for a particular item (if it has * not been or/add with a category, the default category is * assumed). * @return An ordering integer that can be used to order this item across * all the items (even from other categories). */ private static int getOrdering(int categoryOrder) { final int index = (categoryOrder & CATEGORY_MASK) >> CATEGORY_SHIFT; if (index < 0 || index >= sCategoryToOrder.length) { throw new IllegalArgumentException("order does not contain a valid category."); } return (sCategoryToOrder[index] << CATEGORY_SHIFT) | (categoryOrder & USER_MASK); } /** * @return whether the menu shortcuts are in qwerty mode or not */ boolean isQwertyMode() { return mQwertyMode; } /** * Sets whether the shortcuts should be visible on menus. Devices without hardware * key input will never make shortcuts visible even if this method is passed 'true'. * * @param shortcutsVisible Whether shortcuts should be visible (if true and a * menu item does not have a shortcut defined, that item will * still NOT show a shortcut) */ public void setShortcutsVisible(boolean shortcutsVisible) { if (mShortcutsVisible == shortcutsVisible) return; setShortcutsVisibleInner(shortcutsVisible); onItemsChanged(false); } private void setShortcutsVisibleInner(boolean shortcutsVisible) { mShortcutsVisible = shortcutsVisible && mResources.getConfiguration().keyboard != Configuration.KEYBOARD_NOKEYS && mResources.getBoolean( com.android.internal.R.bool.config_showMenuShortcutsWhenKeyboardPresent); } /** * @return Whether shortcuts should be visible on menus. */ public boolean isShortcutsVisible() { return mShortcutsVisible; } Resources getResources() { return mResources; } public Context getContext() { return mContext; } boolean dispatchMenuItemSelected(MenuBuilder menu, MenuItem item) { return mCallback != null && mCallback.onMenuItemSelected(menu, item); } /** * Dispatch a mode change event to this menu's callback. */ public void changeMenuMode() { if (mCallback != null) { mCallback.onMenuModeChange(this); } } private static int findInsertIndex(ArrayList items, int ordering) { for (int i = items.size() - 1; i >= 0; i--) { MenuItemImpl item = items.get(i); if (item.getOrdering() <= ordering) { return i + 1; } } return 0; } public boolean performShortcut(int keyCode, KeyEvent event, int flags) { final MenuItemImpl item = findItemWithShortcutForKey(keyCode, event); boolean handled = false; if (item != null) { handled = performItemAction(item, flags); } if ((flags & FLAG_ALWAYS_PERFORM_CLOSE) != 0) { close(true); } return handled; } /* * This function will return all the menu and sub-menu items that can * be directly (the shortcut directly corresponds) and indirectly * (the ALT-enabled char corresponds to the shortcut) associated * with the keyCode. */ void findItemsWithShortcutForKey(List items, int keyCode, KeyEvent event) { final boolean qwerty = isQwertyMode(); final int metaState = event.getMetaState(); final KeyCharacterMap.KeyData possibleChars = new KeyCharacterMap.KeyData(); // Get the chars associated with the keyCode (i.e using any chording combo) final boolean isKeyCodeMapped = event.getKeyData(possibleChars); // The delete key is not mapped to '\b' so we treat it specially if (!isKeyCodeMapped && (keyCode != KeyEvent.KEYCODE_DEL)) { return; } // Look for an item whose shortcut is this key. final int N = mItems.size(); for (int i = 0; i < N; i++) { MenuItemImpl item = mItems.get(i); if (item.hasSubMenu()) { ((MenuBuilder)item.getSubMenu()).findItemsWithShortcutForKey(items, keyCode, event); } final char shortcutChar = qwerty ? item.getAlphabeticShortcut() : item.getNumericShortcut(); if (((metaState & (KeyEvent.META_SHIFT_ON | KeyEvent.META_SYM_ON)) == 0) && (shortcutChar != 0) && (shortcutChar == possibleChars.meta[0] || shortcutChar == possibleChars.meta[2] || (qwerty && shortcutChar == '\b' && keyCode == KeyEvent.KEYCODE_DEL)) && item.isEnabled()) { items.add(item); } } } /* * We want to return the menu item associated with the key, but if there is no * ambiguity (i.e. there is only one menu item corresponding to the key) we want * to return it even if it's not an exact match; this allow the user to * _not_ use the ALT key for example, making the use of shortcuts slightly more * user-friendly. An example is on the G1, '!' and '1' are on the same key, and * in Gmail, Menu+1 will trigger Menu+! (the actual shortcut). * * On the other hand, if two (or more) shortcuts corresponds to the same key, * we have to only return the exact match. */ MenuItemImpl findItemWithShortcutForKey(int keyCode, KeyEvent event) { // Get all items that can be associated directly or indirectly with the keyCode ArrayList items = mTempShortcutItemList; items.clear(); findItemsWithShortcutForKey(items, keyCode, event); if (items.isEmpty()) { return null; } final int metaState = event.getMetaState(); final KeyCharacterMap.KeyData possibleChars = new KeyCharacterMap.KeyData(); // Get the chars associated with the keyCode (i.e using any chording combo) event.getKeyData(possibleChars); // If we have only one element, we can safely returns it final int size = items.size(); if (size == 1) { return items.get(0); } final boolean qwerty = isQwertyMode(); // If we found more than one item associated with the key, // we have to return the exact match for (int i = 0; i < size; i++) { final MenuItemImpl item = items.get(i); final char shortcutChar = qwerty ? item.getAlphabeticShortcut() : item.getNumericShortcut(); if ((shortcutChar == possibleChars.meta[0] && (metaState & KeyEvent.META_ALT_ON) == 0) || (shortcutChar == possibleChars.meta[2] && (metaState & KeyEvent.META_ALT_ON) != 0) || (qwerty && shortcutChar == '\b' && keyCode == KeyEvent.KEYCODE_DEL)) { return item; } } return null; } public boolean performIdentifierAction(int id, int flags) { // Look for an item whose identifier is the id. return performItemAction(findItem(id), flags); } public boolean performItemAction(MenuItem item, int flags) { MenuItemImpl itemImpl = (MenuItemImpl) item; if (itemImpl == null || !itemImpl.isEnabled()) { return false; } boolean invoked = itemImpl.invoke(); if (itemImpl.hasCollapsibleActionView()) { invoked |= itemImpl.expandActionView(); if (invoked) close(true); } else if (item.hasSubMenu()) { close(false); final SubMenuBuilder subMenu = (SubMenuBuilder) item.getSubMenu(); final ActionProvider provider = item.getActionProvider(); if (provider != null && provider.hasSubMenu()) { provider.onPrepareSubMenu(subMenu); } invoked |= dispatchSubMenuSelected(subMenu); if (!invoked) close(true); } else { if ((flags & FLAG_PERFORM_NO_CLOSE) == 0) { close(true); } } return invoked; } /** * Closes the visible menu. * * @param allMenusAreClosing Whether the menus are completely closing (true), * or whether there is another menu coming in this menu's place * (false). For example, if the menu is closing because a * sub menu is about to be shown, allMenusAreClosing * is false. */ final void close(boolean allMenusAreClosing) { if (mIsClosing) return; mIsClosing = true; for (WeakReference ref : mPresenters) { final MenuPresenter presenter = ref.get(); if (presenter == null) { mPresenters.remove(ref); } else { presenter.onCloseMenu(this, allMenusAreClosing); } } mIsClosing = false; } /** {@inheritDoc} */ public void close() { close(true); } /** * Called when an item is added or removed. * * @param structureChanged true if the menu structure changed, * false if only item properties changed. * (Visibility is a structural property since it affects layout.) */ void onItemsChanged(boolean structureChanged) { if (!mPreventDispatchingItemsChanged) { if (structureChanged) { mIsVisibleItemsStale = true; mIsActionItemsStale = true; } dispatchPresenterUpdate(structureChanged); } else { mItemsChangedWhileDispatchPrevented = true; } } /** * Stop dispatching item changed events to presenters until * {@link #startDispatchingItemsChanged()} is called. Useful when * many menu operations are going to be performed as a batch. */ public void stopDispatchingItemsChanged() { if (!mPreventDispatchingItemsChanged) { mPreventDispatchingItemsChanged = true; mItemsChangedWhileDispatchPrevented = false; } } public void startDispatchingItemsChanged() { mPreventDispatchingItemsChanged = false; if (mItemsChangedWhileDispatchPrevented) { mItemsChangedWhileDispatchPrevented = false; onItemsChanged(true); } } /** * Called by {@link MenuItemImpl} when its visible flag is changed. * @param item The item that has gone through a visibility change. */ void onItemVisibleChanged(MenuItemImpl item) { // Notify of items being changed mIsVisibleItemsStale = true; onItemsChanged(true); } /** * Called by {@link MenuItemImpl} when its action request status is changed. * @param item The item that has gone through a change in action request status. */ void onItemActionRequestChanged(MenuItemImpl item) { // Notify of items being changed mIsActionItemsStale = true; onItemsChanged(true); } ArrayList getVisibleItems() { if (!mIsVisibleItemsStale) return mVisibleItems; // Refresh the visible items mVisibleItems.clear(); final int itemsSize = mItems.size(); MenuItemImpl item; for (int i = 0; i < itemsSize; i++) { item = mItems.get(i); if (item.isVisible()) mVisibleItems.add(item); } mIsVisibleItemsStale = false; mIsActionItemsStale = true; return mVisibleItems; } /** * This method determines which menu items get to be 'action items' that will appear * in an action bar and which items should be 'overflow items' in a secondary menu. * The rules are as follows: * *

Items are considered for inclusion in the order specified within the menu. * There is a limit of mMaxActionItems as a total count, optionally including the overflow * menu button itself. This is a soft limit; if an item shares a group ID with an item * previously included as an action item, the new item will stay with its group and become * an action item itself even if it breaks the max item count limit. This is done to * limit the conceptual complexity of the items presented within an action bar. Only a few * unrelated concepts should be presented to the user in this space, and groups are treated * as a single concept. * *

There is also a hard limit of consumed measurable space: mActionWidthLimit. This * limit may be broken by a single item that exceeds the remaining space, but no further * items may be added. If an item that is part of a group cannot fit within the remaining * measured width, the entire group will be demoted to overflow. This is done to ensure room * for navigation and other affordances in the action bar as well as reduce general UI clutter. * *

The space freed by demoting a full group cannot be consumed by future menu items. * Once items begin to overflow, all future items become overflow items as well. This is * to avoid inadvertent reordering that may break the app's intended design. */ public void flagActionItems() { if (!mIsActionItemsStale) { return; } // Presenters flag action items as needed. boolean flagged = false; for (WeakReference ref : mPresenters) { final MenuPresenter presenter = ref.get(); if (presenter == null) { mPresenters.remove(ref); } else { flagged |= presenter.flagActionItems(); } } if (flagged) { mActionItems.clear(); mNonActionItems.clear(); ArrayList visibleItems = getVisibleItems(); final int itemsSize = visibleItems.size(); for (int i = 0; i < itemsSize; i++) { MenuItemImpl item = visibleItems.get(i); if (item.isActionButton()) { mActionItems.add(item); } else { mNonActionItems.add(item); } } } else { // Nobody flagged anything, everything is a non-action item. // (This happens during a first pass with no action-item presenters.) mActionItems.clear(); mNonActionItems.clear(); mNonActionItems.addAll(getVisibleItems()); } mIsActionItemsStale = false; } ArrayList getActionItems() { flagActionItems(); return mActionItems; } ArrayList getNonActionItems() { flagActionItems(); return mNonActionItems; } public void clearHeader() { mHeaderIcon = null; mHeaderTitle = null; mHeaderView = null; onItemsChanged(false); } private void setHeaderInternal(final int titleRes, final CharSequence title, final int iconRes, final Drawable icon, final View view) { final Resources r = getResources(); if (view != null) { mHeaderView = view; // If using a custom view, then the title and icon aren't used mHeaderTitle = null; mHeaderIcon = null; } else { if (titleRes > 0) { mHeaderTitle = r.getText(titleRes); } else if (title != null) { mHeaderTitle = title; } if (iconRes > 0) { mHeaderIcon = r.getDrawable(iconRes); } else if (icon != null) { mHeaderIcon = icon; } // If using the title or icon, then a custom view isn't used mHeaderView = null; } // Notify of change onItemsChanged(false); } /** * Sets the header's title. This replaces the header view. Called by the * builder-style methods of subclasses. * * @param title The new title. * @return This MenuBuilder so additional setters can be called. */ protected MenuBuilder setHeaderTitleInt(CharSequence title) { setHeaderInternal(0, title, 0, null, null); return this; } /** * Sets the header's title. This replaces the header view. Called by the * builder-style methods of subclasses. * * @param titleRes The new title (as a resource ID). * @return This MenuBuilder so additional setters can be called. */ protected MenuBuilder setHeaderTitleInt(int titleRes) { setHeaderInternal(titleRes, null, 0, null, null); return this; } /** * Sets the header's icon. This replaces the header view. Called by the * builder-style methods of subclasses. * * @param icon The new icon. * @return This MenuBuilder so additional setters can be called. */ protected MenuBuilder setHeaderIconInt(Drawable icon) { setHeaderInternal(0, null, 0, icon, null); return this; } /** * Sets the header's icon. This replaces the header view. Called by the * builder-style methods of subclasses. * * @param iconRes The new icon (as a resource ID). * @return This MenuBuilder so additional setters can be called. */ protected MenuBuilder setHeaderIconInt(int iconRes) { setHeaderInternal(0, null, iconRes, null, null); return this; } /** * Sets the header's view. This replaces the title and icon. Called by the * builder-style methods of subclasses. * * @param view The new view. * @return This MenuBuilder so additional setters can be called. */ protected MenuBuilder setHeaderViewInt(View view) { setHeaderInternal(0, null, 0, null, view); return this; } public CharSequence getHeaderTitle() { return mHeaderTitle; } public Drawable getHeaderIcon() { return mHeaderIcon; } public View getHeaderView() { return mHeaderView; } /** * Gets the root menu (if this is a submenu, find its root menu). * @return The root menu. */ public MenuBuilder getRootMenu() { return this; } /** * Sets the current menu info that is set on all items added to this menu * (until this is called again with different menu info, in which case that * one will be added to all subsequent item additions). * * @param menuInfo The extra menu information to add. */ public void setCurrentMenuInfo(ContextMenuInfo menuInfo) { mCurrentMenuInfo = menuInfo; } void setOptionalIconsVisible(boolean visible) { mOptionalIconsVisible = visible; } boolean getOptionalIconsVisible() { return mOptionalIconsVisible; } public boolean expandItemActionView(MenuItemImpl item) { if (mPresenters.isEmpty()) return false; boolean expanded = false; stopDispatchingItemsChanged(); for (WeakReference ref : mPresenters) { final MenuPresenter presenter = ref.get(); if (presenter == null) { mPresenters.remove(ref); } else if ((expanded = presenter.expandItemActionView(this, item))) { break; } } startDispatchingItemsChanged(); if (expanded) { mExpandedItem = item; } return expanded; } public boolean collapseItemActionView(MenuItemImpl item) { if (mPresenters.isEmpty() || mExpandedItem != item) return false; boolean collapsed = false; stopDispatchingItemsChanged(); for (WeakReference ref : mPresenters) { final MenuPresenter presenter = ref.get(); if (presenter == null) { mPresenters.remove(ref); } else if ((collapsed = presenter.collapseItemActionView(this, item))) { break; } } startDispatchingItemsChanged(); if (collapsed) { mExpandedItem = null; } return collapsed; } public MenuItemImpl getExpandedItem() { return mExpandedItem; } }