/* * Copyright (C) 2014 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 android.support.v7.widget; import android.content.Context; import android.content.res.TypedArray; import android.database.DataSetObserver; import android.graphics.Rect; import android.graphics.drawable.Drawable; import android.os.Build; import android.os.Handler; import android.os.SystemClock; import android.support.v4.text.TextUtilsCompat; import android.support.v4.view.MotionEventCompat; import android.support.v4.view.ViewPropertyAnimatorCompat; import android.support.v4.widget.ListViewAutoScrollHelper; import android.support.v4.widget.PopupWindowCompat; import android.support.v7.appcompat.R; import android.support.v7.internal.widget.AppCompatPopupWindow; import android.support.v7.internal.widget.ListViewCompat; import android.util.AttributeSet; import android.util.Log; import android.view.Gravity; import android.view.KeyEvent; import android.view.MotionEvent; import android.view.View; import android.view.View.MeasureSpec; import android.view.View.OnTouchListener; import android.view.ViewConfiguration; import android.view.ViewGroup; import android.view.ViewParent; import android.widget.AbsListView; import android.widget.AdapterView; import android.widget.LinearLayout; import android.widget.ListAdapter; import android.widget.ListView; import android.widget.PopupWindow; import java.lang.reflect.Method; import java.util.Locale; /** * Static library support version of the framework's {@link android.widget.ListPopupWindow}. * Used to write apps that run on platforms prior to Android L. When running * on Android L or above, this implementation is still used; it does not try * to switch to the framework's implementation. See the framework SDK * documentation for a class overview. * * @see android.widget.ListPopupWindow */ public class ListPopupWindow { private static final String TAG = "ListPopupWindow"; private static final boolean DEBUG = false; /** * This value controls the length of time that the user * must leave a pointer down without scrolling to expand * the autocomplete dropdown list to cover the IME. */ private static final int EXPAND_LIST_TIMEOUT = 250; private static Method sClipToWindowEnabledMethod; static { try { sClipToWindowEnabledMethod = PopupWindow.class.getDeclaredMethod( "setClipToScreenEnabled", boolean.class); } catch (NoSuchMethodException e) { Log.i(TAG, "Could not find method setClipToScreenEnabled() on PopupWindow. Oh well."); } } private Context mContext; private PopupWindow mPopup; private ListAdapter mAdapter; private DropDownListView mDropDownList; private int mDropDownHeight = ViewGroup.LayoutParams.WRAP_CONTENT; private int mDropDownWidth = ViewGroup.LayoutParams.WRAP_CONTENT; private int mDropDownHorizontalOffset; private int mDropDownVerticalOffset; private boolean mDropDownVerticalOffsetSet; private int mDropDownGravity = Gravity.NO_GRAVITY; private boolean mDropDownAlwaysVisible = false; private boolean mForceIgnoreOutsideTouch = false; int mListItemExpandMaximum = Integer.MAX_VALUE; private View mPromptView; private int mPromptPosition = POSITION_PROMPT_ABOVE; private DataSetObserver mObserver; private View mDropDownAnchorView; private Drawable mDropDownListHighlight; private AdapterView.OnItemClickListener mItemClickListener; private AdapterView.OnItemSelectedListener mItemSelectedListener; private final ResizePopupRunnable mResizePopupRunnable = new ResizePopupRunnable(); private final PopupTouchInterceptor mTouchInterceptor = new PopupTouchInterceptor(); private final PopupScrollListener mScrollListener = new PopupScrollListener(); private final ListSelectorHider mHideSelector = new ListSelectorHider(); private Runnable mShowDropDownRunnable; private Handler mHandler = new Handler(); private Rect mTempRect = new Rect(); private boolean mModal; private int mLayoutDirection; /** * The provided prompt view should appear above list content. * * @see #setPromptPosition(int) * @see #getPromptPosition() * @see #setPromptView(View) */ public static final int POSITION_PROMPT_ABOVE = 0; /** * The provided prompt view should appear below list content. * * @see #setPromptPosition(int) * @see #getPromptPosition() * @see #setPromptView(View) */ public static final int POSITION_PROMPT_BELOW = 1; /** * Alias for {@link ViewGroup.LayoutParams#MATCH_PARENT}. * If used to specify a popup width, the popup will match the width of the anchor view. * If used to specify a popup height, the popup will fill available space. */ public static final int MATCH_PARENT = ViewGroup.LayoutParams.MATCH_PARENT; /** * Alias for {@link ViewGroup.LayoutParams#WRAP_CONTENT}. * If used to specify a popup width, the popup will use the width of its content. */ public static final int WRAP_CONTENT = ViewGroup.LayoutParams.WRAP_CONTENT; /** * Mode for {@link #setInputMethodMode(int)}: the requirements for the * input method should be based on the focusability of the popup. That is * if it is focusable than it needs to work with the input method, else * it doesn't. */ public static final int INPUT_METHOD_FROM_FOCUSABLE = PopupWindow.INPUT_METHOD_FROM_FOCUSABLE; /** * Mode for {@link #setInputMethodMode(int)}: this popup always needs to * work with an input method, regardless of whether it is focusable. This * means that it will always be displayed so that the user can also operate * the input method while it is shown. */ public static final int INPUT_METHOD_NEEDED = PopupWindow.INPUT_METHOD_NEEDED; /** * Mode for {@link #setInputMethodMode(int)}: this popup never needs to * work with an input method, regardless of whether it is focusable. This * means that it will always be displayed to use as much space on the * screen as needed, regardless of whether this covers the input method. */ public static final int INPUT_METHOD_NOT_NEEDED = PopupWindow.INPUT_METHOD_NOT_NEEDED; /** * Create a new, empty popup window capable of displaying items from a ListAdapter. * Backgrounds should be set using {@link #setBackgroundDrawable(Drawable)}. * * @param context Context used for contained views. */ public ListPopupWindow(Context context) { this(context, null, R.attr.listPopupWindowStyle); } /** * Create a new, empty popup window capable of displaying items from a ListAdapter. * Backgrounds should be set using {@link #setBackgroundDrawable(Drawable)}. * * @param context Context used for contained views. * @param attrs Attributes from inflating parent views used to style the popup. */ public ListPopupWindow(Context context, AttributeSet attrs) { this(context, attrs, R.attr.listPopupWindowStyle); } /** * Create a new, empty popup window capable of displaying items from a ListAdapter. * Backgrounds should be set using {@link #setBackgroundDrawable(Drawable)}. * * @param context Context used for contained views. * @param attrs Attributes from inflating parent views used to style the popup. * @param defStyleAttr Default style attribute to use for popup content. */ public ListPopupWindow(Context context, AttributeSet attrs, int defStyleAttr) { this(context, attrs, defStyleAttr, 0); } /** * Create a new, empty popup window capable of displaying items from a ListAdapter. * Backgrounds should be set using {@link #setBackgroundDrawable(Drawable)}. * * @param context Context used for contained views. * @param attrs Attributes from inflating parent views used to style the popup. * @param defStyleAttr Style attribute to read for default styling of popup content. * @param defStyleRes Style resource ID to use for default styling of popup content. */ public ListPopupWindow(Context context, AttributeSet attrs, int defStyleAttr, int defStyleRes) { mContext = context; final TypedArray a = context.obtainStyledAttributes(attrs, R.styleable.ListPopupWindow, defStyleAttr, defStyleRes); mDropDownHorizontalOffset = a.getDimensionPixelOffset( R.styleable.ListPopupWindow_android_dropDownHorizontalOffset, 0); mDropDownVerticalOffset = a.getDimensionPixelOffset( R.styleable.ListPopupWindow_android_dropDownVerticalOffset, 0); if (mDropDownVerticalOffset != 0) { mDropDownVerticalOffsetSet = true; } a.recycle(); mPopup = new AppCompatPopupWindow(context, attrs, defStyleAttr); mPopup.setInputMethodMode(PopupWindow.INPUT_METHOD_NEEDED); // Set the default layout direction to match the default locale one final Locale locale = mContext.getResources().getConfiguration().locale; mLayoutDirection = TextUtilsCompat.getLayoutDirectionFromLocale(locale); } /** * Sets the adapter that provides the data and the views to represent the data * in this popup window. * * @param adapter The adapter to use to create this window's content. */ public void setAdapter(ListAdapter adapter) { if (mObserver == null) { mObserver = new PopupDataSetObserver(); } else if (mAdapter != null) { mAdapter.unregisterDataSetObserver(mObserver); } mAdapter = adapter; if (mAdapter != null) { adapter.registerDataSetObserver(mObserver); } if (mDropDownList != null) { mDropDownList.setAdapter(mAdapter); } } /** * Set where the optional prompt view should appear. The default is * {@link #POSITION_PROMPT_ABOVE}. * * @param position A position constant declaring where the prompt should be displayed. * * @see #POSITION_PROMPT_ABOVE * @see #POSITION_PROMPT_BELOW */ public void setPromptPosition(int position) { mPromptPosition = position; } /** * @return Where the optional prompt view should appear. * * @see #POSITION_PROMPT_ABOVE * @see #POSITION_PROMPT_BELOW */ public int getPromptPosition() { return mPromptPosition; } /** * Set whether this window should be modal when shown. * *

If a popup window is modal, it will receive all touch and key input. * If the user touches outside the popup window's content area the popup window * will be dismissed. * * @param modal {@code true} if the popup window should be modal, {@code false} otherwise. */ public void setModal(boolean modal) { mModal = modal; mPopup.setFocusable(modal); } /** * Returns whether the popup window will be modal when shown. * * @return {@code true} if the popup window will be modal, {@code false} otherwise. */ public boolean isModal() { return mModal; } /** * Forces outside touches to be ignored. Normally if {@link #isDropDownAlwaysVisible()} is * false, we allow outside touch to dismiss the dropdown. If this is set to true, then we * ignore outside touch even when the drop down is not set to always visible. * * @hide Used only by AutoCompleteTextView to handle some internal special cases. */ public void setForceIgnoreOutsideTouch(boolean forceIgnoreOutsideTouch) { mForceIgnoreOutsideTouch = forceIgnoreOutsideTouch; } /** * Sets whether the drop-down should remain visible under certain conditions. * * The drop-down will occupy the entire screen below {@link #getAnchorView} regardless * of the size or content of the list. {@link #getBackground()} will fill any space * that is not used by the list. * * @param dropDownAlwaysVisible Whether to keep the drop-down visible. * * @hide Only used by AutoCompleteTextView under special conditions. */ public void setDropDownAlwaysVisible(boolean dropDownAlwaysVisible) { mDropDownAlwaysVisible = dropDownAlwaysVisible; } /** * @return Whether the drop-down is visible under special conditions. * * @hide Only used by AutoCompleteTextView under special conditions. */ public boolean isDropDownAlwaysVisible() { return mDropDownAlwaysVisible; } /** * Sets the operating mode for the soft input area. * * @param mode The desired mode, see * {@link android.view.WindowManager.LayoutParams#softInputMode} * for the full list * * @see android.view.WindowManager.LayoutParams#softInputMode * @see #getSoftInputMode() */ public void setSoftInputMode(int mode) { mPopup.setSoftInputMode(mode); } /** * Returns the current value in {@link #setSoftInputMode(int)}. * * @see #setSoftInputMode(int) * @see android.view.WindowManager.LayoutParams#softInputMode */ public int getSoftInputMode() { return mPopup.getSoftInputMode(); } /** * Sets a drawable to use as the list item selector. * * @param selector List selector drawable to use in the popup. */ public void setListSelector(Drawable selector) { mDropDownListHighlight = selector; } /** * @return The background drawable for the popup window. */ public Drawable getBackground() { return mPopup.getBackground(); } /** * Sets a drawable to be the background for the popup window. * * @param d A drawable to set as the background. */ public void setBackgroundDrawable(Drawable d) { mPopup.setBackgroundDrawable(d); } /** * Set an animation style to use when the popup window is shown or dismissed. * * @param animationStyle Animation style to use. */ public void setAnimationStyle(int animationStyle) { mPopup.setAnimationStyle(animationStyle); } /** * Returns the animation style that will be used when the popup window is shown or dismissed. * * @return Animation style that will be used. */ public int getAnimationStyle() { return mPopup.getAnimationStyle(); } /** * Returns the view that will be used to anchor this popup. * * @return The popup's anchor view */ public View getAnchorView() { return mDropDownAnchorView; } /** * Sets the popup's anchor view. This popup will always be positioned relative to the anchor * view when shown. * * @param anchor The view to use as an anchor. */ public void setAnchorView(View anchor) { mDropDownAnchorView = anchor; } /** * @return The horizontal offset of the popup from its anchor in pixels. */ public int getHorizontalOffset() { return mDropDownHorizontalOffset; } /** * Set the horizontal offset of this popup from its anchor view in pixels. * * @param offset The horizontal offset of the popup from its anchor. */ public void setHorizontalOffset(int offset) { mDropDownHorizontalOffset = offset; } /** * @return The vertical offset of the popup from its anchor in pixels. */ public int getVerticalOffset() { if (!mDropDownVerticalOffsetSet) { return 0; } return mDropDownVerticalOffset; } /** * Set the vertical offset of this popup from its anchor view in pixels. * * @param offset The vertical offset of the popup from its anchor. */ public void setVerticalOffset(int offset) { mDropDownVerticalOffset = offset; mDropDownVerticalOffsetSet = true; } /** * Set the gravity of the dropdown list. This is commonly used to * set gravity to START or END for alignment with the anchor. * * @param gravity Gravity value to use */ public void setDropDownGravity(int gravity) { mDropDownGravity = gravity; } /** * @return The width of the popup window in pixels. */ public int getWidth() { return mDropDownWidth; } /** * Sets the width of the popup window in pixels. Can also be {@link #MATCH_PARENT} * or {@link #WRAP_CONTENT}. * * @param width Width of the popup window. */ public void setWidth(int width) { mDropDownWidth = width; } /** * Sets the width of the popup window by the size of its content. The final width may be * larger to accommodate styled window dressing. * * @param width Desired width of content in pixels. */ public void setContentWidth(int width) { Drawable popupBackground = mPopup.getBackground(); if (popupBackground != null) { popupBackground.getPadding(mTempRect); mDropDownWidth = mTempRect.left + mTempRect.right + width; } else { setWidth(width); } } /** * @return The height of the popup window in pixels. */ public int getHeight() { return mDropDownHeight; } /** * Sets the height of the popup window in pixels. Can also be {@link #MATCH_PARENT}. * * @param height Height of the popup window. */ public void setHeight(int height) { mDropDownHeight = height; } /** * Sets a listener to receive events when a list item is clicked. * * @param clickListener Listener to register * * @see ListView#setOnItemClickListener(android.widget.AdapterView.OnItemClickListener) */ public void setOnItemClickListener(AdapterView.OnItemClickListener clickListener) { mItemClickListener = clickListener; } /** * Sets a listener to receive events when a list item is selected. * * @param selectedListener Listener to register. * * @see ListView#setOnItemSelectedListener(android.widget.AdapterView.OnItemSelectedListener) */ public void setOnItemSelectedListener(AdapterView.OnItemSelectedListener selectedListener) { mItemSelectedListener = selectedListener; } /** * Set a view to act as a user prompt for this popup window. Where the prompt view will appear * is controlled by {@link #setPromptPosition(int)}. * * @param prompt View to use as an informational prompt. */ public void setPromptView(View prompt) { boolean showing = isShowing(); if (showing) { removePromptView(); } mPromptView = prompt; if (showing) { show(); } } /** * Post a {@link #show()} call to the UI thread. */ public void postShow() { mHandler.post(mShowDropDownRunnable); } /** * Show the popup list. If the list is already showing, this method * will recalculate the popup's size and position. */ public void show() { int height = buildDropDown(); int widthSpec = 0; int heightSpec = 0; boolean noInputMethod = isInputMethodNotNeeded(); if (mPopup.isShowing()) { if (mDropDownWidth == ViewGroup.LayoutParams.MATCH_PARENT) { // The call to PopupWindow's update method below can accept -1 for any // value you do not want to update. widthSpec = -1; } else if (mDropDownWidth == ViewGroup.LayoutParams.WRAP_CONTENT) { widthSpec = getAnchorView().getWidth(); } else { widthSpec = mDropDownWidth; } if (mDropDownHeight == ViewGroup.LayoutParams.MATCH_PARENT) { // The call to PopupWindow's update method below can accept -1 for any // value you do not want to update. heightSpec = noInputMethod ? height : ViewGroup.LayoutParams.MATCH_PARENT; if (noInputMethod) { mPopup.setWindowLayoutMode( mDropDownWidth == ViewGroup.LayoutParams.MATCH_PARENT ? ViewGroup.LayoutParams.MATCH_PARENT : 0, 0); } else { mPopup.setWindowLayoutMode( mDropDownWidth == ViewGroup.LayoutParams.MATCH_PARENT ? ViewGroup.LayoutParams.MATCH_PARENT : 0, ViewGroup.LayoutParams.MATCH_PARENT); } } else if (mDropDownHeight == ViewGroup.LayoutParams.WRAP_CONTENT) { heightSpec = height; } else { heightSpec = mDropDownHeight; } mPopup.setOutsideTouchable(!mForceIgnoreOutsideTouch && !mDropDownAlwaysVisible); mPopup.update(getAnchorView(), mDropDownHorizontalOffset, mDropDownVerticalOffset, widthSpec, heightSpec); } else { if (mDropDownWidth == ViewGroup.LayoutParams.MATCH_PARENT) { widthSpec = ViewGroup.LayoutParams.MATCH_PARENT; } else { if (mDropDownWidth == ViewGroup.LayoutParams.WRAP_CONTENT) { mPopup.setWidth(getAnchorView().getWidth()); } else { mPopup.setWidth(mDropDownWidth); } } if (mDropDownHeight == ViewGroup.LayoutParams.MATCH_PARENT) { heightSpec = ViewGroup.LayoutParams.MATCH_PARENT; } else { if (mDropDownHeight == ViewGroup.LayoutParams.WRAP_CONTENT) { mPopup.setHeight(height); } else { mPopup.setHeight(mDropDownHeight); } } mPopup.setWindowLayoutMode(widthSpec, heightSpec); setPopupClipToScreenEnabled(true); // use outside touchable to dismiss drop down when touching outside of it, so // only set this if the dropdown is not always visible mPopup.setOutsideTouchable(!mForceIgnoreOutsideTouch && !mDropDownAlwaysVisible); mPopup.setTouchInterceptor(mTouchInterceptor); PopupWindowCompat.showAsDropDown(mPopup, getAnchorView(), mDropDownHorizontalOffset, mDropDownVerticalOffset, mDropDownGravity); mDropDownList.setSelection(ListView.INVALID_POSITION); if (!mModal || mDropDownList.isInTouchMode()) { clearListSelection(); } if (!mModal) { mHandler.post(mHideSelector); } } } /** * Dismiss the popup window. */ public void dismiss() { mPopup.dismiss(); removePromptView(); mPopup.setContentView(null); mDropDownList = null; mHandler.removeCallbacks(mResizePopupRunnable); } /** * Set a listener to receive a callback when the popup is dismissed. * * @param listener Listener that will be notified when the popup is dismissed. */ public void setOnDismissListener(PopupWindow.OnDismissListener listener) { mPopup.setOnDismissListener(listener); } private void removePromptView() { if (mPromptView != null) { final ViewParent parent = mPromptView.getParent(); if (parent instanceof ViewGroup) { final ViewGroup group = (ViewGroup) parent; group.removeView(mPromptView); } } } /** * Control how the popup operates with an input method: one of * {@link #INPUT_METHOD_FROM_FOCUSABLE}, {@link #INPUT_METHOD_NEEDED}, * or {@link #INPUT_METHOD_NOT_NEEDED}. * *

If the popup is showing, calling this method will take effect only * the next time the popup is shown or through a manual call to the {@link #show()} * method.

* * @see #getInputMethodMode() * @see #show() */ public void setInputMethodMode(int mode) { mPopup.setInputMethodMode(mode); } /** * Return the current value in {@link #setInputMethodMode(int)}. * * @see #setInputMethodMode(int) */ public int getInputMethodMode() { return mPopup.getInputMethodMode(); } /** * Set the selected position of the list. * Only valid when {@link #isShowing()} == {@code true}. * * @param position List position to set as selected. */ public void setSelection(int position) { DropDownListView list = mDropDownList; if (isShowing() && list != null) { list.mListSelectionHidden = false; list.setSelection(position); if (Build.VERSION.SDK_INT >= 11) { if (list.getChoiceMode() != ListView.CHOICE_MODE_NONE) { list.setItemChecked(position, true); } } } } /** * Clear any current list selection. * Only valid when {@link #isShowing()} == {@code true}. */ public void clearListSelection() { final DropDownListView list = mDropDownList; if (list != null) { // WARNING: Please read the comment where mListSelectionHidden is declared list.mListSelectionHidden = true; //list.hideSelector(); list.requestLayout(); } } /** * @return {@code true} if the popup is currently showing, {@code false} otherwise. */ public boolean isShowing() { return mPopup.isShowing(); } /** * @return {@code true} if this popup is configured to assume the user does not need * to interact with the IME while it is showing, {@code false} otherwise. */ public boolean isInputMethodNotNeeded() { return mPopup.getInputMethodMode() == INPUT_METHOD_NOT_NEEDED; } /** * Perform an item click operation on the specified list adapter position. * * @param position Adapter position for performing the click * @return true if the click action could be performed, false if not. * (e.g. if the popup was not showing, this method would return false.) */ public boolean performItemClick(int position) { if (isShowing()) { if (mItemClickListener != null) { final DropDownListView list = mDropDownList; final View child = list.getChildAt(position - list.getFirstVisiblePosition()); final ListAdapter adapter = list.getAdapter(); mItemClickListener.onItemClick(list, child, position, adapter.getItemId(position)); } return true; } return false; } /** * @return The currently selected item or null if the popup is not showing. */ public Object getSelectedItem() { if (!isShowing()) { return null; } return mDropDownList.getSelectedItem(); } /** * @return The position of the currently selected item or {@link ListView#INVALID_POSITION} * if {@link #isShowing()} == {@code false}. * * @see ListView#getSelectedItemPosition() */ public int getSelectedItemPosition() { if (!isShowing()) { return ListView.INVALID_POSITION; } return mDropDownList.getSelectedItemPosition(); } /** * @return The ID of the currently selected item or {@link ListView#INVALID_ROW_ID} * if {@link #isShowing()} == {@code false}. * * @see ListView#getSelectedItemId() */ public long getSelectedItemId() { if (!isShowing()) { return ListView.INVALID_ROW_ID; } return mDropDownList.getSelectedItemId(); } /** * @return The View for the currently selected item or null if * {@link #isShowing()} == {@code false}. * * @see ListView#getSelectedView() */ public View getSelectedView() { if (!isShowing()) { return null; } return mDropDownList.getSelectedView(); } /** * @return The {@link ListView} displayed within the popup window. * Only valid when {@link #isShowing()} == {@code true}. */ public ListView getListView() { return mDropDownList; } /** * The maximum number of list items that can be visible and still have * the list expand when touched. * * @param max Max number of items that can be visible and still allow the list to expand. */ void setListItemExpandMax(int max) { mListItemExpandMaximum = max; } /** * Filter key down events. By forwarding key down events to this function, * views using non-modal ListPopupWindow can have it handle key selection of items. * * @param keyCode keyCode param passed to the host view's onKeyDown * @param event event param passed to the host view's onKeyDown * @return true if the event was handled, false if it was ignored. * * @see #setModal(boolean) */ public boolean onKeyDown(int keyCode, KeyEvent event) { // when the drop down is shown, we drive it directly if (isShowing()) { // the key events are forwarded to the list in the drop down view // note that ListView handles space but we don't want that to happen // also if selection is not currently in the drop down, then don't // let center or enter presses go there since that would cause it // to select one of its items if (keyCode != KeyEvent.KEYCODE_SPACE && (mDropDownList.getSelectedItemPosition() >= 0 || !isConfirmKey(keyCode))) { int curIndex = mDropDownList.getSelectedItemPosition(); boolean consumed; final boolean below = !mPopup.isAboveAnchor(); final ListAdapter adapter = mAdapter; boolean allEnabled; int firstItem = Integer.MAX_VALUE; int lastItem = Integer.MIN_VALUE; if (adapter != null) { allEnabled = adapter.areAllItemsEnabled(); firstItem = allEnabled ? 0 : mDropDownList.lookForSelectablePosition(0, true); lastItem = allEnabled ? adapter.getCount() - 1 : mDropDownList.lookForSelectablePosition(adapter.getCount() - 1, false); } if ((below && keyCode == KeyEvent.KEYCODE_DPAD_UP && curIndex <= firstItem) || (!below && keyCode == KeyEvent.KEYCODE_DPAD_DOWN && curIndex >= lastItem)) { // When the selection is at the top, we block the key // event to prevent focus from moving. clearListSelection(); mPopup.setInputMethodMode(PopupWindow.INPUT_METHOD_NEEDED); show(); return true; } else { // WARNING: Please read the comment where mListSelectionHidden // is declared mDropDownList.mListSelectionHidden = false; } consumed = mDropDownList.onKeyDown(keyCode, event); if (DEBUG) Log.v(TAG, "Key down: code=" + keyCode + " list consumed=" + consumed); if (consumed) { // If it handled the key event, then the user is // navigating in the list, so we should put it in front. mPopup.setInputMethodMode(PopupWindow.INPUT_METHOD_NOT_NEEDED); // Here's a little trick we need to do to make sure that // the list view is actually showing its focus indicator, // by ensuring it has focus and getting its window out // of touch mode. mDropDownList.requestFocusFromTouch(); show(); switch (keyCode) { // avoid passing the focus from the text view to the // next component case KeyEvent.KEYCODE_ENTER: case KeyEvent.KEYCODE_DPAD_CENTER: case KeyEvent.KEYCODE_DPAD_DOWN: case KeyEvent.KEYCODE_DPAD_UP: return true; } } else { if (below && keyCode == KeyEvent.KEYCODE_DPAD_DOWN) { // when the selection is at the bottom, we block the // event to avoid going to the next focusable widget if (curIndex == lastItem) { return true; } } else if (!below && keyCode == KeyEvent.KEYCODE_DPAD_UP && curIndex == firstItem) { return true; } } } } return false; } /** * Filter key down events. By forwarding key up events to this function, * views using non-modal ListPopupWindow can have it handle key selection of items. * * @param keyCode keyCode param passed to the host view's onKeyUp * @param event event param passed to the host view's onKeyUp * @return true if the event was handled, false if it was ignored. * * @see #setModal(boolean) */ public boolean onKeyUp(int keyCode, KeyEvent event) { if (isShowing() && mDropDownList.getSelectedItemPosition() >= 0) { boolean consumed = mDropDownList.onKeyUp(keyCode, event); if (consumed && isConfirmKey(keyCode)) { // if the list accepts the key events and the key event was a click, the text view // gets the selected item from the drop down as its content dismiss(); } return consumed; } return false; } /** * Filter pre-IME key events. By forwarding {@link View#onKeyPreIme(int, KeyEvent)} * events to this function, views using ListPopupWindow can have it dismiss the popup * when the back key is pressed. * * @param keyCode keyCode param passed to the host view's onKeyPreIme * @param event event param passed to the host view's onKeyPreIme * @return true if the event was handled, false if it was ignored. * * @see #setModal(boolean) */ public boolean onKeyPreIme(int keyCode, KeyEvent event) { if (keyCode == KeyEvent.KEYCODE_BACK && isShowing()) { // special case for the back key, we do not even try to send it // to the drop down list but instead, consume it immediately final View anchorView = mDropDownAnchorView; if (event.getAction() == KeyEvent.ACTION_DOWN && event.getRepeatCount() == 0) { KeyEvent.DispatcherState state = anchorView.getKeyDispatcherState(); if (state != null) { state.startTracking(event, this); } return true; } else if (event.getAction() == KeyEvent.ACTION_UP) { KeyEvent.DispatcherState state = anchorView.getKeyDispatcherState(); if (state != null) { state.handleUpEvent(event); } if (event.isTracking() && !event.isCanceled()) { dismiss(); return true; } } } return false; } /** * Returns an {@link OnTouchListener} that can be added to the source view * to implement drag-to-open behavior. Generally, the source view should be * the same view that was passed to {@link #setAnchorView}. *

* When the listener is set on a view, touching that view and dragging * outside of its bounds will open the popup window. Lifting will select the * currently touched list item. *

* Example usage: * 

     * ListPopupWindow myPopup = new ListPopupWindow(context);
     * myPopup.setAnchor(myAnchor);
     * OnTouchListener dragListener = myPopup.createDragToOpenListener(myAnchor);
     * myAnchor.setOnTouchListener(dragListener);
     *
* * @param src the view on which the resulting listener will be set * @return a touch listener that controls drag-to-open behavior */ public OnTouchListener createDragToOpenListener(View src) { return new ForwardingListener(src) { @Override public ListPopupWindow getPopup() { return ListPopupWindow.this; } }; } /** *

Builds the popup window's content and returns the height the popup * should have. Returns -1 when the content already exists.

* * @return the content's height or -1 if content already exists */ private int buildDropDown() { ViewGroup dropDownView; int otherHeights = 0; if (mDropDownList == null) { Context context = mContext; /** * This Runnable exists for the sole purpose of checking if the view layout has got * completed and if so call showDropDown to display the drop down. This is used to show * the drop down as soon as possible after user opens up the search dialog, without * waiting for the normal UI pipeline to do it's job which is slower than this method. */ mShowDropDownRunnable = new Runnable() { public void run() { // View layout should be all done before displaying the drop down. View view = getAnchorView(); if (view != null && view.getWindowToken() != null) { show(); } } }; mDropDownList = new DropDownListView(context, !mModal); if (mDropDownListHighlight != null) { mDropDownList.setSelector(mDropDownListHighlight); } mDropDownList.setAdapter(mAdapter); mDropDownList.setOnItemClickListener(mItemClickListener); mDropDownList.setFocusable(true); mDropDownList.setFocusableInTouchMode(true); mDropDownList.setOnItemSelectedListener(new AdapterView.OnItemSelectedListener() { public void onItemSelected(AdapterView parent, View view, int position, long id) { if (position != -1) { DropDownListView dropDownList = mDropDownList; if (dropDownList != null) { dropDownList.mListSelectionHidden = false; } } } public void onNothingSelected(AdapterView parent) { } }); mDropDownList.setOnScrollListener(mScrollListener); if (mItemSelectedListener != null) { mDropDownList.setOnItemSelectedListener(mItemSelectedListener); } dropDownView = mDropDownList; View hintView = mPromptView; if (hintView != null) { // if a hint has been specified, we accomodate more space for it and // add a text view in the drop down menu, at the bottom of the list LinearLayout hintContainer = new LinearLayout(context); hintContainer.setOrientation(LinearLayout.VERTICAL); LinearLayout.LayoutParams hintParams = new LinearLayout.LayoutParams( ViewGroup.LayoutParams.MATCH_PARENT, 0, 1.0f ); switch (mPromptPosition) { case POSITION_PROMPT_BELOW: hintContainer.addView(dropDownView, hintParams); hintContainer.addView(hintView); break; case POSITION_PROMPT_ABOVE: hintContainer.addView(hintView); hintContainer.addView(dropDownView, hintParams); break; default: Log.e(TAG, "Invalid hint position " + mPromptPosition); break; } // measure the hint's height to find how much more vertical space // we need to add to the drop down's height int widthSpec = MeasureSpec.makeMeasureSpec(mDropDownWidth, MeasureSpec.AT_MOST); int heightSpec = MeasureSpec.UNSPECIFIED; hintView.measure(widthSpec, heightSpec); hintParams = (LinearLayout.LayoutParams) hintView.getLayoutParams(); otherHeights = hintView.getMeasuredHeight() + hintParams.topMargin + hintParams.bottomMargin; dropDownView = hintContainer; } mPopup.setContentView(dropDownView); } else { dropDownView = (ViewGroup) mPopup.getContentView(); final View view = mPromptView; if (view != null) { LinearLayout.LayoutParams hintParams = (LinearLayout.LayoutParams) view.getLayoutParams(); otherHeights = view.getMeasuredHeight() + hintParams.topMargin + hintParams.bottomMargin; } } // getMaxAvailableHeight() subtracts the padding, so we put it back // to get the available height for the whole window int padding = 0; Drawable background = mPopup.getBackground(); if (background != null) { background.getPadding(mTempRect); padding = mTempRect.top + mTempRect.bottom; // If we don't have an explicit vertical offset, determine one from the window // background so that content will line up. if (!mDropDownVerticalOffsetSet) { mDropDownVerticalOffset = -mTempRect.top; } } else { mTempRect.setEmpty(); } // Max height available on the screen for a popup. boolean ignoreBottomDecorations = mPopup.getInputMethodMode() == PopupWindow.INPUT_METHOD_NOT_NEEDED; final int maxHeight = mPopup.getMaxAvailableHeight( getAnchorView(), mDropDownVerticalOffset /*, ignoreBottomDecorations*/); if (mDropDownAlwaysVisible || mDropDownHeight == ViewGroup.LayoutParams.MATCH_PARENT) { return maxHeight + padding; } final int childWidthSpec; switch (mDropDownWidth) { case ViewGroup.LayoutParams.WRAP_CONTENT: childWidthSpec = MeasureSpec.makeMeasureSpec( mContext.getResources().getDisplayMetrics().widthPixels - (mTempRect.left + mTempRect.right), MeasureSpec.AT_MOST); break; case ViewGroup.LayoutParams.MATCH_PARENT: childWidthSpec = MeasureSpec.makeMeasureSpec( mContext.getResources().getDisplayMetrics().widthPixels - (mTempRect.left + mTempRect.right), MeasureSpec.EXACTLY); break; default: childWidthSpec = MeasureSpec.makeMeasureSpec(mDropDownWidth, MeasureSpec.EXACTLY); break; } final int listContent = mDropDownList.measureHeightOfChildrenCompat(childWidthSpec, 0, DropDownListView.NO_POSITION, maxHeight - otherHeights, -1); // add padding only if the list has items in it, that way we don't show // the popup if it is not needed if (listContent > 0) otherHeights += padding; return listContent + otherHeights; } /** * Abstract class that forwards touch events to a {@link ListPopupWindow}. * * @hide */ public static abstract class ForwardingListener implements View.OnTouchListener { /** Scaled touch slop, used for detecting movement outside bounds. */ private final float mScaledTouchSlop; /** Timeout before disallowing intercept on the source's parent. */ private final int mTapTimeout; /** Timeout before accepting a long-press to start forwarding. */ private final int mLongPressTimeout; /** Source view from which events are forwarded. */ private final View mSrc; /** Runnable used to prevent conflicts with scrolling parents. */ private Runnable mDisallowIntercept; /** Runnable used to trigger forwarding on long-press. */ private Runnable mTriggerLongPress; /** Whether this listener is currently forwarding touch events. */ private boolean mForwarding; /** * Whether forwarding was initiated by a long-press. If so, we won't * force the window to dismiss when the touch stream ends. */ private boolean mWasLongPress; /** The id of the first pointer down in the current event stream. */ private int mActivePointerId; /** * Temporary Matrix instance */ private final int[] mTmpLocation = new int[2]; public ForwardingListener(View src) { mSrc = src; mScaledTouchSlop = ViewConfiguration.get(src.getContext()).getScaledTouchSlop(); mTapTimeout = ViewConfiguration.getTapTimeout(); // Use a medium-press timeout. Halfway between tap and long-press. mLongPressTimeout = (mTapTimeout + ViewConfiguration.getLongPressTimeout()) / 2; } /** * Returns the popup to which this listener is forwarding events. *

* Override this to return the correct popup. If the popup is displayed * asynchronously, you may also need to override * {@link #onForwardingStopped} to prevent premature cancelation of * forwarding. * * @return the popup to which this listener is forwarding events */ public abstract ListPopupWindow getPopup(); @Override public boolean onTouch(View v, MotionEvent event) { final boolean wasForwarding = mForwarding; final boolean forwarding; if (wasForwarding) { if (mWasLongPress) { // If we started forwarding as a result of a long-press, // just silently stop forwarding events so that the window // stays open. forwarding = onTouchForwarded(event); } else { forwarding = onTouchForwarded(event) || !onForwardingStopped(); } } else { forwarding = onTouchObserved(event) && onForwardingStarted(); if (forwarding) { // Make sure we cancel any ongoing source event stream. final long now = SystemClock.uptimeMillis(); final MotionEvent e = MotionEvent.obtain(now, now, MotionEvent.ACTION_CANCEL, 0.0f, 0.0f, 0); mSrc.onTouchEvent(e); e.recycle(); } } mForwarding = forwarding; return forwarding || wasForwarding; } /** * Called when forwarding would like to start.

By default, this will show the popup * returned by {@link #getPopup()}. It may be overridden to perform another action, like * clicking the source view or preparing the popup before showing it. * * @return true to start forwarding, false otherwise */ protected boolean onForwardingStarted() { final ListPopupWindow popup = getPopup(); if (popup != null && !popup.isShowing()) { popup.show(); } return true; } /** * Called when forwarding would like to stop.

By default, this will dismiss the popup * returned by {@link #getPopup()}. It may be overridden to perform some other action. * * @return true to stop forwarding, false otherwise */ protected boolean onForwardingStopped() { final ListPopupWindow popup = getPopup(); if (popup != null && popup.isShowing()) { popup.dismiss(); } return true; } /** * Observes motion events and determines when to start forwarding. * * @param srcEvent motion event in source view coordinates * @return true to start forwarding motion events, false otherwise */ private boolean onTouchObserved(MotionEvent srcEvent) { final View src = mSrc; if (!src.isEnabled()) { return false; } final int actionMasked = MotionEventCompat.getActionMasked(srcEvent); switch (actionMasked) { case MotionEvent.ACTION_DOWN: mActivePointerId = srcEvent.getPointerId(0); mWasLongPress = false; if (mDisallowIntercept == null) { mDisallowIntercept = new DisallowIntercept(); } src.postDelayed(mDisallowIntercept, mTapTimeout); if (mTriggerLongPress == null) { mTriggerLongPress = new TriggerLongPress(); } src.postDelayed(mTriggerLongPress, mLongPressTimeout); break; case MotionEvent.ACTION_MOVE: final int activePointerIndex = srcEvent.findPointerIndex(mActivePointerId); if (activePointerIndex >= 0) { final float x = srcEvent.getX(activePointerIndex); final float y = srcEvent.getY(activePointerIndex); if (!pointInView(src, x, y, mScaledTouchSlop)) { clearCallbacks(); // Don't let the parent intercept our events. src.getParent().requestDisallowInterceptTouchEvent(true); return true; } } break; case MotionEvent.ACTION_CANCEL: case MotionEvent.ACTION_UP: clearCallbacks(); break; } return false; } private void clearCallbacks() { if (mTriggerLongPress != null) { mSrc.removeCallbacks(mTriggerLongPress); } if (mDisallowIntercept != null) { mSrc.removeCallbacks(mDisallowIntercept); } } private void onLongPress() { clearCallbacks(); final View src = mSrc; if (!src.isEnabled()) { return; } if (!onForwardingStarted()) { return; } // Don't let the parent intercept our events. mSrc.getParent().requestDisallowInterceptTouchEvent(true); // Make sure we cancel any ongoing source event stream. final long now = SystemClock.uptimeMillis(); final MotionEvent e = MotionEvent.obtain(now, now, MotionEvent.ACTION_CANCEL, 0, 0, 0); mSrc.onTouchEvent(e); e.recycle(); mForwarding = true; mWasLongPress = true; } /** * Handled forwarded motion events and determines when to stop forwarding. * * @param srcEvent motion event in source view coordinates * @return true to continue forwarding motion events, false to cancel */ private boolean onTouchForwarded(MotionEvent srcEvent) { final View src = mSrc; final ListPopupWindow popup = getPopup(); if (popup == null || !popup.isShowing()) { return false; } final DropDownListView dst = popup.mDropDownList; if (dst == null || !dst.isShown()) { return false; } // Convert event to destination-local coordinates. final MotionEvent dstEvent = MotionEvent.obtainNoHistory(srcEvent); toGlobalMotionEvent(src, dstEvent); toLocalMotionEvent(dst, dstEvent); // Forward converted event to destination view, then recycle it. final boolean handled = dst.onForwardedEvent(dstEvent, mActivePointerId); dstEvent.recycle(); // Always cancel forwarding when the touch stream ends. final int action = MotionEventCompat.getActionMasked(srcEvent); final boolean keepForwarding = action != MotionEvent.ACTION_UP && action != MotionEvent.ACTION_CANCEL; return handled && keepForwarding; } private static boolean pointInView(View view, float localX, float localY, float slop) { return localX >= -slop && localY >= -slop && localX < ((view.getRight() - view.getLeft()) + slop) && localY < ((view.getBottom() - view.getTop()) + slop); } /** * Emulates View.toLocalMotionEvent(). This implementation does not handle transformations * (scaleX, scaleY, etc). */ private boolean toLocalMotionEvent(View view, MotionEvent event) { final int[] loc = mTmpLocation; view.getLocationOnScreen(loc); event.offsetLocation(-loc[0], -loc[1]); return true; } /** * Emulates View.toGlobalMotionEvent(). This implementation does not handle transformations * (scaleX, scaleY, etc). */ private boolean toGlobalMotionEvent(View view, MotionEvent event) { final int[] loc = mTmpLocation; view.getLocationOnScreen(loc); event.offsetLocation(loc[0], loc[1]); return true; } private class DisallowIntercept implements Runnable { @Override public void run() { final ViewParent parent = mSrc.getParent(); parent.requestDisallowInterceptTouchEvent(true); } } private class TriggerLongPress implements Runnable { @Override public void run() { onLongPress(); } } } /** *

Wrapper class for a ListView. This wrapper can hijack the focus to * make sure the list uses the appropriate drawables and states when * displayed on screen within a drop down. The focus is never actually * passed to the drop down in this mode; the list only looks focused.

*/ private static class DropDownListView extends ListViewCompat { /* * WARNING: This is a workaround for a touch mode issue. * * Touch mode is propagated lazily to windows. This causes problems in * the following scenario: * - Type something in the AutoCompleteTextView and get some results * - Move down with the d-pad to select an item in the list * - Move up with the d-pad until the selection disappears * - Type more text in the AutoCompleteTextView *using the soft keyboard* * and get new results; you are now in touch mode * - The selection comes back on the first item in the list, even though * the list is supposed to be in touch mode * * Using the soft keyboard triggers the touch mode change but that change * is propagated to our window only after the first list layout, therefore * after the list attempts to resurrect the selection. * * The trick to work around this issue is to pretend the list is in touch * mode when we know that the selection should not appear, that is when * we know the user moved the selection away from the list. * * This boolean is set to true whenever we explicitly hide the list's * selection and reset to false whenever we know the user moved the * selection back to the list. * * When this boolean is true, isInTouchMode() returns true, otherwise it * returns super.isInTouchMode(). */ private boolean mListSelectionHidden; /** * True if this wrapper should fake focus. */ private boolean mHijackFocus; /** Whether to force drawing of the pressed state selector. */ private boolean mDrawsInPressedState; /** Current drag-to-open click animation, if any. */ private ViewPropertyAnimatorCompat mClickAnimation; /** Helper for drag-to-open auto scrolling. */ private ListViewAutoScrollHelper mScrollHelper; /** *

Creates a new list view wrapper.

* * @param context this view's context */ public DropDownListView(Context context, boolean hijackFocus) { super(context, null, R.attr.dropDownListViewStyle); mHijackFocus = hijackFocus; setCacheColorHint(0); // Transparent, since the background drawable could be anything. } /** * Handles forwarded events. * * @param activePointerId id of the pointer that activated forwarding * @return whether the event was handled */ public boolean onForwardedEvent(MotionEvent event, int activePointerId) { boolean handledEvent = true; boolean clearPressedItem = false; final int actionMasked = MotionEventCompat.getActionMasked(event); switch (actionMasked) { case MotionEvent.ACTION_CANCEL: handledEvent = false; break; case MotionEvent.ACTION_UP: handledEvent = false; // $FALL-THROUGH$ case MotionEvent.ACTION_MOVE: final int activeIndex = event.findPointerIndex(activePointerId); if (activeIndex < 0) { handledEvent = false; break; } final int x = (int) event.getX(activeIndex); final int y = (int) event.getY(activeIndex); final int position = pointToPosition(x, y); if (position == INVALID_POSITION) { clearPressedItem = true; break; } final View child = getChildAt(position - getFirstVisiblePosition()); setPressedItem(child, position, x, y); handledEvent = true; if (actionMasked == MotionEvent.ACTION_UP) { clickPressedItem(child, position); } break; } // Failure to handle the event cancels forwarding. if (!handledEvent || clearPressedItem) { clearPressedItem(); } // Manage automatic scrolling. if (handledEvent) { if (mScrollHelper == null) { mScrollHelper = new ListViewAutoScrollHelper(this); } mScrollHelper.setEnabled(true); mScrollHelper.onTouch(this, event); } else if (mScrollHelper != null) { mScrollHelper.setEnabled(false); } return handledEvent; } /** * Starts an alpha animation on the selector. When the animation ends, * the list performs a click on the item. */ private void clickPressedItem(final View child, final int position) { final long id = getItemIdAtPosition(position); performItemClick(child, position, id); } private void clearPressedItem() { mDrawsInPressedState = false; setPressed(false); // This will call through to updateSelectorState() drawableStateChanged(); if (mClickAnimation != null) { mClickAnimation.cancel(); mClickAnimation = null; } } private void setPressedItem(View child, int position, float x, float y) { mDrawsInPressedState = true; // Ordering is essential. First update the pressed state and layout // the children. This will ensure the selector actually gets drawn. setPressed(true); layoutChildren(); // Ensure that keyboard focus starts from the last touched position. setSelection(position); positionSelectorLikeTouchCompat(position, child, x, y); // This needs some explanation. We need to disable the selector for this next call // due to the way that ListViewCompat works. Otherwise both ListView and ListViewCompat // will draw the selector and bad things happen. setSelectorEnabled(false); // Refresh the drawable state to reflect the new pressed state, // which will also update the selector state. refreshDrawableState(); } @Override protected boolean touchModeDrawsInPressedStateCompat() { return mDrawsInPressedState || super.touchModeDrawsInPressedStateCompat(); } @Override public boolean isInTouchMode() { // WARNING: Please read the comment where mListSelectionHidden is declared return (mHijackFocus && mListSelectionHidden) || super.isInTouchMode(); } /** *

Returns the focus state in the drop down.

* * @return true always if hijacking focus */ @Override public boolean hasWindowFocus() { return mHijackFocus || super.hasWindowFocus(); } /** *

Returns the focus state in the drop down.

* * @return true always if hijacking focus */ @Override public boolean isFocused() { return mHijackFocus || super.isFocused(); } /** *

Returns the focus state in the drop down.

* * @return true always if hijacking focus */ @Override public boolean hasFocus() { return mHijackFocus || super.hasFocus(); } } private class PopupDataSetObserver extends DataSetObserver { @Override public void onChanged() { if (isShowing()) { // Resize the popup to fit new content show(); } } @Override public void onInvalidated() { dismiss(); } } private class ListSelectorHider implements Runnable { public void run() { clearListSelection(); } } private class ResizePopupRunnable implements Runnable { public void run() { if (mDropDownList != null && mDropDownList.getCount() > mDropDownList.getChildCount() && mDropDownList.getChildCount() <= mListItemExpandMaximum) { mPopup.setInputMethodMode(PopupWindow.INPUT_METHOD_NOT_NEEDED); show(); } } } private class PopupTouchInterceptor implements OnTouchListener { public boolean onTouch(View v, MotionEvent event) { final int action = event.getAction(); final int x = (int) event.getX(); final int y = (int) event.getY(); if (action == MotionEvent.ACTION_DOWN && mPopup != null && mPopup.isShowing() && (x >= 0 && x < mPopup.getWidth() && y >= 0 && y < mPopup.getHeight())) { mHandler.postDelayed(mResizePopupRunnable, EXPAND_LIST_TIMEOUT); } else if (action == MotionEvent.ACTION_UP) { mHandler.removeCallbacks(mResizePopupRunnable); } return false; } } private class PopupScrollListener implements ListView.OnScrollListener { public void onScroll(AbsListView view, int firstVisibleItem, int visibleItemCount, int totalItemCount) { } public void onScrollStateChanged(AbsListView view, int scrollState) { if (scrollState == SCROLL_STATE_TOUCH_SCROLL && !isInputMethodNotNeeded() && mPopup.getContentView() != null) { mHandler.removeCallbacks(mResizePopupRunnable); mResizePopupRunnable.run(); } } } private static boolean isConfirmKey(int keyCode) { return keyCode == KeyEvent.KEYCODE_ENTER || keyCode == KeyEvent.KEYCODE_DPAD_CENTER; } private void setPopupClipToScreenEnabled(boolean clip) { if (sClipToWindowEnabledMethod != null) { try { sClipToWindowEnabledMethod.invoke(mPopup, clip); } catch (Exception e) { Log.i(TAG, "Could not call setClipToScreenEnabled() on PopupWindow. Oh well."); } } } }