Java tutorial
/* * Copyright (C) 2012 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.widget; import android.R; import android.animation.ValueAnimator; import android.annotation.IntDef; import android.annotation.NonNull; import android.annotation.Nullable; import android.annotation.UnsupportedAppUsage; import android.app.PendingIntent; import android.app.PendingIntent.CanceledException; import android.app.RemoteAction; import android.content.ClipData; import android.content.ClipData.Item; import android.content.Context; import android.content.Intent; import android.content.UndoManager; import android.content.UndoOperation; import android.content.UndoOwner; import android.content.pm.PackageManager; import android.content.pm.ResolveInfo; import android.content.res.TypedArray; import android.graphics.Canvas; import android.graphics.Color; import android.graphics.Matrix; import android.graphics.Paint; import android.graphics.Path; import android.graphics.Point; import android.graphics.PointF; import android.graphics.Rect; import android.graphics.RectF; import android.graphics.drawable.ColorDrawable; import android.graphics.drawable.Drawable; import android.os.Bundle; import android.os.LocaleList; import android.os.Parcel; import android.os.Parcelable; import android.os.ParcelableParcel; import android.os.SystemClock; import android.provider.Settings; import android.text.DynamicLayout; import android.text.Editable; import android.text.InputFilter; import android.text.InputType; import android.text.Layout; import android.text.ParcelableSpan; import android.text.Selection; import android.text.SpanWatcher; import android.text.Spannable; import android.text.SpannableStringBuilder; import android.text.Spanned; import android.text.StaticLayout; import android.text.TextUtils; import android.text.method.KeyListener; import android.text.method.MetaKeyKeyListener; import android.text.method.MovementMethod; import android.text.method.WordIterator; import android.text.style.EasyEditSpan; import android.text.style.SuggestionRangeSpan; import android.text.style.SuggestionSpan; import android.text.style.TextAppearanceSpan; import android.text.style.URLSpan; import android.util.ArraySet; import android.util.DisplayMetrics; import android.util.Log; import android.util.SparseArray; import android.view.ActionMode; import android.view.ActionMode.Callback; import android.view.ContextMenu; import android.view.ContextThemeWrapper; import android.view.DisplayListCanvas; import android.view.DragAndDropPermissions; import android.view.DragEvent; import android.view.Gravity; import android.view.HapticFeedbackConstants; import android.view.InputDevice; import android.view.LayoutInflater; import android.view.Menu; import android.view.MenuItem; import android.view.MotionEvent; import android.view.RenderNode; import android.view.SubMenu; import android.view.View; import android.view.View.DragShadowBuilder; import android.view.View.OnClickListener; import android.view.ViewConfiguration; import android.view.ViewGroup; import android.view.ViewGroup.LayoutParams; import android.view.ViewTreeObserver; import android.view.WindowManager; import android.view.accessibility.AccessibilityNodeInfo; import android.view.animation.LinearInterpolator; import android.view.inputmethod.CorrectionInfo; import android.view.inputmethod.CursorAnchorInfo; import android.view.inputmethod.EditorInfo; import android.view.inputmethod.ExtractedText; import android.view.inputmethod.ExtractedTextRequest; import android.view.inputmethod.InputConnection; import android.view.inputmethod.InputMethodManager; import android.view.textclassifier.TextClassification; import android.view.textclassifier.TextClassificationManager; import android.widget.AdapterView.OnItemClickListener; import android.widget.TextView.Drawables; import android.widget.TextView.OnEditorActionListener; import com.android.internal.annotations.VisibleForTesting; import com.android.internal.logging.MetricsLogger; import com.android.internal.logging.nano.MetricsProto.MetricsEvent; import com.android.internal.util.ArrayUtils; import com.android.internal.util.GrowingArrayUtils; import com.android.internal.util.Preconditions; import com.android.internal.view.FloatingActionMode; import com.android.internal.widget.EditableInputConnection; import java.lang.annotation.Retention; import java.lang.annotation.RetentionPolicy; import java.text.BreakIterator; import java.util.ArrayList; import java.util.Arrays; import java.util.Comparator; import java.util.HashMap; import java.util.List; import java.util.Map; /** * Helper class used by TextView to handle editable text views. * * @hide */ public class Editor { private static final String TAG = "Editor"; private static final boolean DEBUG_UNDO = false; // Specifies whether to use or not the magnifier when pressing the insertion or selection // handles. private static final boolean FLAG_USE_MAGNIFIER = true; static final int BLINK = 500; private static final int DRAG_SHADOW_MAX_TEXT_LENGTH = 20; private static final float LINE_SLOP_MULTIPLIER_FOR_HANDLEVIEWS = 0.5f; private static final int UNSET_X_VALUE = -1; private static final int UNSET_LINE = -1; // Tag used when the Editor maintains its own separate UndoManager. private static final String UNDO_OWNER_TAG = "Editor"; // Ordering constants used to place the Action Mode or context menu items in their menu. private static final int MENU_ITEM_ORDER_ASSIST = 0; private static final int MENU_ITEM_ORDER_UNDO = 2; private static final int MENU_ITEM_ORDER_REDO = 3; private static final int MENU_ITEM_ORDER_CUT = 4; private static final int MENU_ITEM_ORDER_COPY = 5; private static final int MENU_ITEM_ORDER_PASTE = 6; private static final int MENU_ITEM_ORDER_SHARE = 7; private static final int MENU_ITEM_ORDER_SELECT_ALL = 8; private static final int MENU_ITEM_ORDER_REPLACE = 9; private static final int MENU_ITEM_ORDER_AUTOFILL = 10; private static final int MENU_ITEM_ORDER_PASTE_AS_PLAIN_TEXT = 11; private static final int MENU_ITEM_ORDER_SECONDARY_ASSIST_ACTIONS_START = 50; private static final int MENU_ITEM_ORDER_PROCESS_TEXT_INTENT_ACTIONS_START = 100; @IntDef({ MagnifierHandleTrigger.SELECTION_START, MagnifierHandleTrigger.SELECTION_END, MagnifierHandleTrigger.INSERTION }) @Retention(RetentionPolicy.SOURCE) private @interface MagnifierHandleTrigger { int INSERTION = 0; int SELECTION_START = 1; int SELECTION_END = 2; } @IntDef({ TextActionMode.SELECTION, TextActionMode.INSERTION, TextActionMode.TEXT_LINK }) @interface TextActionMode { int SELECTION = 0; int INSERTION = 1; int TEXT_LINK = 2; } // Each Editor manages its own undo stack. private final UndoManager mUndoManager = new UndoManager(); private UndoOwner mUndoOwner = mUndoManager.getOwner(UNDO_OWNER_TAG, this); final UndoInputFilter mUndoInputFilter = new UndoInputFilter(this); boolean mAllowUndo = true; private final MetricsLogger mMetricsLogger = new MetricsLogger(); // Cursor Controllers. private InsertionPointCursorController mInsertionPointCursorController; SelectionModifierCursorController mSelectionModifierCursorController; // Action mode used when text is selected or when actions on an insertion cursor are triggered. private ActionMode mTextActionMode; @UnsupportedAppUsage private boolean mInsertionControllerEnabled; @UnsupportedAppUsage private boolean mSelectionControllerEnabled; private final boolean mHapticTextHandleEnabled; private final MagnifierMotionAnimator mMagnifierAnimator; private final Runnable mUpdateMagnifierRunnable = new Runnable() { @Override public void run() { mMagnifierAnimator.update(); } }; // Update the magnifier contents whenever anything in the view hierarchy is updated. // Note: this only captures UI thread-visible changes, so it's a known issue that an animating // VectorDrawable or Ripple animation will not trigger capture, since they're owned by // RenderThread. private final ViewTreeObserver.OnDrawListener mMagnifierOnDrawListener = new ViewTreeObserver.OnDrawListener() { @Override public void onDraw() { if (mMagnifierAnimator != null) { // Posting the method will ensure that updating the magnifier contents will // happen right after the rendering of the current frame. mTextView.post(mUpdateMagnifierRunnable); } } }; // Used to highlight a word when it is corrected by the IME private CorrectionHighlighter mCorrectionHighlighter; InputContentType mInputContentType; InputMethodState mInputMethodState; private static class TextRenderNode { // Render node has 3 recording states: // 1. Recorded operations are valid. // #needsRecord() returns false, but needsToBeShifted is false. // 2. Recorded operations are not valid, but just the position needed to be updated. // #needsRecord() returns false, but needsToBeShifted is true. // 3. Recorded operations are not valid. Need to record operations. #needsRecord() returns // true. RenderNode renderNode; boolean isDirty; // Becomes true when recorded operations can be reused, but the position has to be updated. boolean needsToBeShifted; public TextRenderNode(String name) { renderNode = RenderNode.create(name, null); isDirty = true; needsToBeShifted = true; } boolean needsRecord() { return isDirty || !renderNode.isValid(); } } private TextRenderNode[] mTextRenderNodes; boolean mFrozenWithFocus; boolean mSelectionMoved; boolean mTouchFocusSelected; KeyListener mKeyListener; int mInputType = EditorInfo.TYPE_NULL; boolean mDiscardNextActionUp; boolean mIgnoreActionUpEvent; @UnsupportedAppUsage private long mShowCursor; private boolean mRenderCursorRegardlessTiming; private Blink mBlink; boolean mCursorVisible = true; boolean mSelectAllOnFocus; boolean mTextIsSelectable; CharSequence mError; boolean mErrorWasChanged; private ErrorPopup mErrorPopup; /** * This flag is set if the TextView tries to display an error before it * is attached to the window (so its position is still unknown). * It causes the error to be shown later, when onAttachedToWindow() * is called. */ private boolean mShowErrorAfterAttach; boolean mInBatchEditControllers; @UnsupportedAppUsage boolean mShowSoftInputOnFocus = true; private boolean mPreserveSelection; private boolean mRestartActionModeOnNextRefresh; private boolean mRequestingLinkActionMode; private SelectionActionModeHelper mSelectionActionModeHelper; boolean mIsBeingLongClicked; private SuggestionsPopupWindow mSuggestionsPopupWindow; SuggestionRangeSpan mSuggestionRangeSpan; private Runnable mShowSuggestionRunnable; Drawable mDrawableForCursor = null; @UnsupportedAppUsage private Drawable mSelectHandleLeft; @UnsupportedAppUsage private Drawable mSelectHandleRight; @UnsupportedAppUsage private Drawable mSelectHandleCenter; // Global listener that detects changes in the global position of the TextView private PositionListener mPositionListener; private float mLastDownPositionX, mLastDownPositionY; private float mLastUpPositionX, mLastUpPositionY; private float mContextMenuAnchorX, mContextMenuAnchorY; Callback mCustomSelectionActionModeCallback; Callback mCustomInsertionActionModeCallback; // Set when this TextView gained focus with some text selected. Will start selection mode. @UnsupportedAppUsage boolean mCreatedWithASelection; // Indicates the current tap state (first tap, double tap, or triple click). private int mTapState = TAP_STATE_INITIAL; private long mLastTouchUpTime = 0; private static final int TAP_STATE_INITIAL = 0; private static final int TAP_STATE_FIRST_TAP = 1; private static final int TAP_STATE_DOUBLE_TAP = 2; // Only for mouse input. private static final int TAP_STATE_TRIPLE_CLICK = 3; // The button state as of the last time #onTouchEvent is called. private int mLastButtonState; private Runnable mInsertionActionModeRunnable; // The span controller helps monitoring the changes to which the Editor needs to react: // - EasyEditSpans, for which we have some UI to display on attach and on hide // - SelectionSpans, for which we need to call updateSelection if an IME is attached private SpanController mSpanController; private WordIterator mWordIterator; SpellChecker mSpellChecker; // This word iterator is set with text and used to determine word boundaries // when a user is selecting text. private WordIterator mWordIteratorWithText; // Indicate that the text in the word iterator needs to be updated. private boolean mUpdateWordIteratorText; private Rect mTempRect; private final TextView mTextView; final ProcessTextIntentActionsHandler mProcessTextIntentActionsHandler; private final CursorAnchorInfoNotifier mCursorAnchorInfoNotifier = new CursorAnchorInfoNotifier(); private final Runnable mShowFloatingToolbar = new Runnable() { @Override public void run() { if (mTextActionMode != null) { mTextActionMode.hide(0); // hide off. } } }; boolean mIsInsertionActionModeStartPending = false; private final SuggestionHelper mSuggestionHelper = new SuggestionHelper(); Editor(TextView textView) { mTextView = textView; // Synchronize the filter list, which places the undo input filter at the end. mTextView.setFilters(mTextView.getFilters()); mProcessTextIntentActionsHandler = new ProcessTextIntentActionsHandler(this); mHapticTextHandleEnabled = mTextView.getContext().getResources() .getBoolean(com.android.internal.R.bool.config_enableHapticTextHandle); if (FLAG_USE_MAGNIFIER) { mMagnifierAnimator = new MagnifierMotionAnimator(new Magnifier(mTextView)); } } ParcelableParcel saveInstanceState() { ParcelableParcel state = new ParcelableParcel(getClass().getClassLoader()); Parcel parcel = state.getParcel(); mUndoManager.saveInstanceState(parcel); mUndoInputFilter.saveInstanceState(parcel); return state; } void restoreInstanceState(ParcelableParcel state) { Parcel parcel = state.getParcel(); mUndoManager.restoreInstanceState(parcel, state.getClassLoader()); mUndoInputFilter.restoreInstanceState(parcel); // Re-associate this object as the owner of undo state. mUndoOwner = mUndoManager.getOwner(UNDO_OWNER_TAG, this); } /** * Forgets all undo and redo operations for this Editor. */ void forgetUndoRedo() { UndoOwner[] owners = { mUndoOwner }; mUndoManager.forgetUndos(owners, -1 /* all */); mUndoManager.forgetRedos(owners, -1 /* all */); } boolean canUndo() { UndoOwner[] owners = { mUndoOwner }; return mAllowUndo && mUndoManager.countUndos(owners) > 0; } boolean canRedo() { UndoOwner[] owners = { mUndoOwner }; return mAllowUndo && mUndoManager.countRedos(owners) > 0; } void undo() { if (!mAllowUndo) { return; } UndoOwner[] owners = { mUndoOwner }; mUndoManager.undo(owners, 1); // Undo 1 action. } void redo() { if (!mAllowUndo) { return; } UndoOwner[] owners = { mUndoOwner }; mUndoManager.redo(owners, 1); // Redo 1 action. } void replace() { if (mSuggestionsPopupWindow == null) { mSuggestionsPopupWindow = new SuggestionsPopupWindow(); } hideCursorAndSpanControllers(); mSuggestionsPopupWindow.show(); int middle = (mTextView.getSelectionStart() + mTextView.getSelectionEnd()) / 2; Selection.setSelection((Spannable) mTextView.getText(), middle); } void onAttachedToWindow() { if (mShowErrorAfterAttach) { showError(); mShowErrorAfterAttach = false; } final ViewTreeObserver observer = mTextView.getViewTreeObserver(); if (observer.isAlive()) { // No need to create the controller. // The get method will add the listener on controller creation. if (mInsertionPointCursorController != null) { observer.addOnTouchModeChangeListener(mInsertionPointCursorController); } if (mSelectionModifierCursorController != null) { mSelectionModifierCursorController.resetTouchOffsets(); observer.addOnTouchModeChangeListener(mSelectionModifierCursorController); } if (FLAG_USE_MAGNIFIER) { observer.addOnDrawListener(mMagnifierOnDrawListener); } } updateSpellCheckSpans(0, mTextView.getText().length(), true /* create the spell checker if needed */); if (mTextView.hasSelection()) { refreshTextActionMode(); } getPositionListener().addSubscriber(mCursorAnchorInfoNotifier, true); resumeBlink(); } void onDetachedFromWindow() { getPositionListener().removeSubscriber(mCursorAnchorInfoNotifier); if (mError != null) { hideError(); } suspendBlink(); if (mInsertionPointCursorController != null) { mInsertionPointCursorController.onDetached(); } if (mSelectionModifierCursorController != null) { mSelectionModifierCursorController.onDetached(); } if (mShowSuggestionRunnable != null) { mTextView.removeCallbacks(mShowSuggestionRunnable); } // Cancel the single tap delayed runnable. if (mInsertionActionModeRunnable != null) { mTextView.removeCallbacks(mInsertionActionModeRunnable); } mTextView.removeCallbacks(mShowFloatingToolbar); discardTextDisplayLists(); if (mSpellChecker != null) { mSpellChecker.closeSession(); // Forces the creation of a new SpellChecker next time this window is created. // Will handle the cases where the settings has been changed in the meantime. mSpellChecker = null; } if (FLAG_USE_MAGNIFIER) { final ViewTreeObserver observer = mTextView.getViewTreeObserver(); if (observer.isAlive()) { observer.removeOnDrawListener(mMagnifierOnDrawListener); } } hideCursorAndSpanControllers(); stopTextActionModeWithPreservingSelection(); } private void discardTextDisplayLists() { if (mTextRenderNodes != null) { for (int i = 0; i < mTextRenderNodes.length; i++) { RenderNode displayList = mTextRenderNodes[i] != null ? mTextRenderNodes[i].renderNode : null; if (displayList != null && displayList.isValid()) { displayList.discardDisplayList(); } } } } private void showError() { if (mTextView.getWindowToken() == null) { mShowErrorAfterAttach = true; return; } if (mErrorPopup == null) { LayoutInflater inflater = LayoutInflater.from(mTextView.getContext()); final TextView err = (TextView) inflater.inflate(com.android.internal.R.layout.textview_hint, null); final float scale = mTextView.getResources().getDisplayMetrics().density; mErrorPopup = new ErrorPopup(err, (int) (200 * scale + 0.5f), (int) (50 * scale + 0.5f)); mErrorPopup.setFocusable(false); // The user is entering text, so the input method is needed. We // don't want the popup to be displayed on top of it. mErrorPopup.setInputMethodMode(PopupWindow.INPUT_METHOD_NEEDED); } TextView tv = (TextView) mErrorPopup.getContentView(); chooseSize(mErrorPopup, mError, tv); tv.setText(mError); mErrorPopup.showAsDropDown(mTextView, getErrorX(), getErrorY(), Gravity.TOP | Gravity.LEFT); mErrorPopup.fixDirection(mErrorPopup.isAboveAnchor()); } public void setError(CharSequence error, Drawable icon) { mError = TextUtils.stringOrSpannedString(error); mErrorWasChanged = true; if (mError == null) { setErrorIcon(null); if (mErrorPopup != null) { if (mErrorPopup.isShowing()) { mErrorPopup.dismiss(); } mErrorPopup = null; } mShowErrorAfterAttach = false; } else { setErrorIcon(icon); if (mTextView.isFocused()) { showError(); } } } private void setErrorIcon(Drawable icon) { Drawables dr = mTextView.mDrawables; if (dr == null) { mTextView.mDrawables = dr = new Drawables(mTextView.getContext()); } dr.setErrorDrawable(icon, mTextView); mTextView.resetResolvedDrawables(); mTextView.invalidate(); mTextView.requestLayout(); } private void hideError() { if (mErrorPopup != null) { if (mErrorPopup.isShowing()) { mErrorPopup.dismiss(); } } mShowErrorAfterAttach = false; } /** * Returns the X offset to make the pointy top of the error point * at the middle of the error icon. */ private int getErrorX() { /* * The "25" is the distance between the point and the right edge * of the background */ final float scale = mTextView.getResources().getDisplayMetrics().density; final Drawables dr = mTextView.mDrawables; final int layoutDirection = mTextView.getLayoutDirection(); int errorX; int offset; switch (layoutDirection) { default: case View.LAYOUT_DIRECTION_LTR: offset = -(dr != null ? dr.mDrawableSizeRight : 0) / 2 + (int) (25 * scale + 0.5f); errorX = mTextView.getWidth() - mErrorPopup.getWidth() - mTextView.getPaddingRight() + offset; break; case View.LAYOUT_DIRECTION_RTL: offset = (dr != null ? dr.mDrawableSizeLeft : 0) / 2 - (int) (25 * scale + 0.5f); errorX = mTextView.getPaddingLeft() + offset; break; } return errorX; } /** * Returns the Y offset to make the pointy top of the error point * at the bottom of the error icon. */ private int getErrorY() { /* * Compound, not extended, because the icon is not clipped * if the text height is smaller. */ final int compoundPaddingTop = mTextView.getCompoundPaddingTop(); int vspace = mTextView.getBottom() - mTextView.getTop() - mTextView.getCompoundPaddingBottom() - compoundPaddingTop; final Drawables dr = mTextView.mDrawables; final int layoutDirection = mTextView.getLayoutDirection(); int height; switch (layoutDirection) { default: case View.LAYOUT_DIRECTION_LTR: height = (dr != null ? dr.mDrawableHeightRight : 0); break; case View.LAYOUT_DIRECTION_RTL: height = (dr != null ? dr.mDrawableHeightLeft : 0); break; } int icontop = compoundPaddingTop + (vspace - height) / 2; /* * The "2" is the distance between the point and the top edge * of the background. */ final float scale = mTextView.getResources().getDisplayMetrics().density; return icontop + height - mTextView.getHeight() - (int) (2 * scale + 0.5f); } void createInputContentTypeIfNeeded() { if (mInputContentType == null) { mInputContentType = new InputContentType(); } } void createInputMethodStateIfNeeded() { if (mInputMethodState == null) { mInputMethodState = new InputMethodState(); } } private boolean isCursorVisible() { // The default value is true, even when there is no associated Editor return mCursorVisible && mTextView.isTextEditable(); } boolean shouldRenderCursor() { if (!isCursorVisible()) { return false; } if (mRenderCursorRegardlessTiming) { return true; } final long showCursorDelta = SystemClock.uptimeMillis() - mShowCursor; return showCursorDelta % (2 * BLINK) < BLINK; } void prepareCursorControllers() { boolean windowSupportsHandles = false; ViewGroup.LayoutParams params = mTextView.getRootView().getLayoutParams(); if (params instanceof WindowManager.LayoutParams) { WindowManager.LayoutParams windowParams = (WindowManager.LayoutParams) params; windowSupportsHandles = windowParams.type < WindowManager.LayoutParams.FIRST_SUB_WINDOW || windowParams.type > WindowManager.LayoutParams.LAST_SUB_WINDOW; } boolean enabled = windowSupportsHandles && mTextView.getLayout() != null; mInsertionControllerEnabled = enabled && isCursorVisible(); mSelectionControllerEnabled = enabled && mTextView.textCanBeSelected(); if (!mInsertionControllerEnabled) { hideInsertionPointCursorController(); if (mInsertionPointCursorController != null) { mInsertionPointCursorController.onDetached(); mInsertionPointCursorController = null; } } if (!mSelectionControllerEnabled) { stopTextActionMode(); if (mSelectionModifierCursorController != null) { mSelectionModifierCursorController.onDetached(); mSelectionModifierCursorController = null; } } } void hideInsertionPointCursorController() { if (mInsertionPointCursorController != null) { mInsertionPointCursorController.hide(); } } /** * Hides the insertion and span controllers. */ void hideCursorAndSpanControllers() { hideCursorControllers(); hideSpanControllers(); } private void hideSpanControllers() { if (mSpanController != null) { mSpanController.hide(); } } private void hideCursorControllers() { // When mTextView is not ExtractEditText, we need to distinguish two kinds of focus-lost. // One is the true focus lost where suggestions pop-up (if any) should be dismissed, and the // other is an side effect of showing the suggestions pop-up itself. We use isShowingUp() // to distinguish one from the other. if (mSuggestionsPopupWindow != null && ((mTextView.isInExtractedMode()) || !mSuggestionsPopupWindow.isShowingUp())) { // Should be done before hide insertion point controller since it triggers a show of it mSuggestionsPopupWindow.hide(); } hideInsertionPointCursorController(); } /** * Create new SpellCheckSpans on the modified region. */ private void updateSpellCheckSpans(int start, int end, boolean createSpellChecker) { // Remove spans whose adjacent characters are text not punctuation mTextView.removeAdjacentSuggestionSpans(start); mTextView.removeAdjacentSuggestionSpans(end); if (mTextView.isTextEditable() && mTextView.isSuggestionsEnabled() && !(mTextView.isInExtractedMode())) { if (mSpellChecker == null && createSpellChecker) { mSpellChecker = new SpellChecker(mTextView); } if (mSpellChecker != null) { mSpellChecker.spellCheck(start, end); } } } void onScreenStateChanged(int screenState) { switch (screenState) { case View.SCREEN_STATE_ON: resumeBlink(); break; case View.SCREEN_STATE_OFF: suspendBlink(); break; } } private void suspendBlink() { if (mBlink != null) { mBlink.cancel(); } } private void resumeBlink() { if (mBlink != null) { mBlink.uncancel(); makeBlink(); } } void adjustInputType(boolean password, boolean passwordInputType, boolean webPasswordInputType, boolean numberPasswordInputType) { // mInputType has been set from inputType, possibly modified by mInputMethod. // Specialize mInputType to [web]password if we have a text class and the original input // type was a password. if ((mInputType & EditorInfo.TYPE_MASK_CLASS) == EditorInfo.TYPE_CLASS_TEXT) { if (password || passwordInputType) { mInputType = (mInputType & ~(EditorInfo.TYPE_MASK_VARIATION)) | EditorInfo.TYPE_TEXT_VARIATION_PASSWORD; } if (webPasswordInputType) { mInputType = (mInputType & ~(EditorInfo.TYPE_MASK_VARIATION)) | EditorInfo.TYPE_TEXT_VARIATION_WEB_PASSWORD; } } else if ((mInputType & EditorInfo.TYPE_MASK_CLASS) == EditorInfo.TYPE_CLASS_NUMBER) { if (numberPasswordInputType) { mInputType = (mInputType & ~(EditorInfo.TYPE_MASK_VARIATION)) | EditorInfo.TYPE_NUMBER_VARIATION_PASSWORD; } } } private void chooseSize(@NonNull PopupWindow pop, @NonNull CharSequence text, @NonNull TextView tv) { final int wid = tv.getPaddingLeft() + tv.getPaddingRight(); final int ht = tv.getPaddingTop() + tv.getPaddingBottom(); final int defaultWidthInPixels = mTextView.getResources() .getDimensionPixelSize(com.android.internal.R.dimen.textview_error_popup_default_width); final StaticLayout l = StaticLayout.Builder .obtain(text, 0, text.length(), tv.getPaint(), defaultWidthInPixels) .setUseLineSpacingFromFallbacks(tv.mUseFallbackLineSpacing).build(); float max = 0; for (int i = 0; i < l.getLineCount(); i++) { max = Math.max(max, l.getLineWidth(i)); } /* * Now set the popup size to be big enough for the text plus the border capped * to DEFAULT_MAX_POPUP_WIDTH */ pop.setWidth(wid + (int) Math.ceil(max)); pop.setHeight(ht + l.getHeight()); } void setFrame() { if (mErrorPopup != null) { TextView tv = (TextView) mErrorPopup.getContentView(); chooseSize(mErrorPopup, mError, tv); mErrorPopup.update(mTextView, getErrorX(), getErrorY(), mErrorPopup.getWidth(), mErrorPopup.getHeight()); } } private int getWordStart(int offset) { // FIXME - For this and similar methods we're not doing anything to check if there's // a LocaleSpan in the text, this may be something we should try handling or checking for. int retOffset = getWordIteratorWithText().prevBoundary(offset); if (getWordIteratorWithText().isOnPunctuation(retOffset)) { // On punctuation boundary or within group of punctuation, find punctuation start. retOffset = getWordIteratorWithText().getPunctuationBeginning(offset); } else { // Not on a punctuation boundary, find the word start. retOffset = getWordIteratorWithText().getPrevWordBeginningOnTwoWordsBoundary(offset); } if (retOffset == BreakIterator.DONE) { return offset; } return retOffset; } private int getWordEnd(int offset) { int retOffset = getWordIteratorWithText().nextBoundary(offset); if (getWordIteratorWithText().isAfterPunctuation(retOffset)) { // On punctuation boundary or within group of punctuation, find punctuation end. retOffset = getWordIteratorWithText().getPunctuationEnd(offset); } else { // Not on a punctuation boundary, find the word end. retOffset = getWordIteratorWithText().getNextWordEndOnTwoWordBoundary(offset); } if (retOffset == BreakIterator.DONE) { return offset; } return retOffset; } private boolean needsToSelectAllToSelectWordOrParagraph() { if (mTextView.hasPasswordTransformationMethod()) { // Always select all on a password field. // Cut/copy menu entries are not available for passwords, but being able to select all // is however useful to delete or paste to replace the entire content. return true; } int inputType = mTextView.getInputType(); int klass = inputType & InputType.TYPE_MASK_CLASS; int variation = inputType & InputType.TYPE_MASK_VARIATION; // Specific text field types: select the entire text for these if (klass == InputType.TYPE_CLASS_NUMBER || klass == InputType.TYPE_CLASS_PHONE || klass == InputType.TYPE_CLASS_DATETIME || variation == InputType.TYPE_TEXT_VARIATION_URI || variation == InputType.TYPE_TEXT_VARIATION_EMAIL_ADDRESS || variation == InputType.TYPE_TEXT_VARIATION_WEB_EMAIL_ADDRESS || variation == InputType.TYPE_TEXT_VARIATION_FILTER) { return true; } return false; } /** * Adjusts selection to the word under last touch offset. Return true if the operation was * successfully performed. */ boolean selectCurrentWord() { if (!mTextView.canSelectText()) { return false; } if (needsToSelectAllToSelectWordOrParagraph()) { return mTextView.selectAllText(); } long lastTouchOffsets = getLastTouchOffsets(); final int minOffset = TextUtils.unpackRangeStartFromLong(lastTouchOffsets); final int maxOffset = TextUtils.unpackRangeEndFromLong(lastTouchOffsets); // Safety check in case standard touch event handling has been bypassed if (minOffset < 0 || minOffset > mTextView.getText().length()) return false; if (maxOffset < 0 || maxOffset > mTextView.getText().length()) return false; int selectionStart, selectionEnd; // If a URLSpan (web address, email, phone...) is found at that position, select it. URLSpan[] urlSpans = ((Spanned) mTextView.getText()).getSpans(minOffset, maxOffset, URLSpan.class); if (urlSpans.length >= 1) { URLSpan urlSpan = urlSpans[0]; selectionStart = ((Spanned) mTextView.getText()).getSpanStart(urlSpan); selectionEnd = ((Spanned) mTextView.getText()).getSpanEnd(urlSpan); } else { // FIXME - We should check if there's a LocaleSpan in the text, this may be // something we should try handling or checking for. final WordIterator wordIterator = getWordIterator(); wordIterator.setCharSequence(mTextView.getText(), minOffset, maxOffset); selectionStart = wordIterator.getBeginning(minOffset); selectionEnd = wordIterator.getEnd(maxOffset); if (selectionStart == BreakIterator.DONE || selectionEnd == BreakIterator.DONE || selectionStart == selectionEnd) { // Possible when the word iterator does not properly handle the text's language long range = getCharClusterRange(minOffset); selectionStart = TextUtils.unpackRangeStartFromLong(range); selectionEnd = TextUtils.unpackRangeEndFromLong(range); } } Selection.setSelection((Spannable) mTextView.getText(), selectionStart, selectionEnd); return selectionEnd > selectionStart; } /** * Adjusts selection to the paragraph under last touch offset. Return true if the operation was * successfully performed. */ private boolean selectCurrentParagraph() { if (!mTextView.canSelectText()) { return false; } if (needsToSelectAllToSelectWordOrParagraph()) { return mTextView.selectAllText(); } long lastTouchOffsets = getLastTouchOffsets(); final int minLastTouchOffset = TextUtils.unpackRangeStartFromLong(lastTouchOffsets); final int maxLastTouchOffset = TextUtils.unpackRangeEndFromLong(lastTouchOffsets); final long paragraphsRange = getParagraphsRange(minLastTouchOffset, maxLastTouchOffset); final int start = TextUtils.unpackRangeStartFromLong(paragraphsRange); final int end = TextUtils.unpackRangeEndFromLong(paragraphsRange); if (start < end) { Selection.setSelection((Spannable) mTextView.getText(), start, end); return true; } return false; } /** * Get the minimum range of paragraphs that contains startOffset and endOffset. */ private long getParagraphsRange(int startOffset, int endOffset) { final Layout layout = mTextView.getLayout(); if (layout == null) { return TextUtils.packRangeInLong(-1, -1); } final CharSequence text = mTextView.getText(); int minLine = layout.getLineForOffset(startOffset); // Search paragraph start. while (minLine > 0) { final int prevLineEndOffset = layout.getLineEnd(minLine - 1); if (text.charAt(prevLineEndOffset - 1) == '\n') { break; } minLine--; } int maxLine = layout.getLineForOffset(endOffset); // Search paragraph end. while (maxLine < layout.getLineCount() - 1) { final int lineEndOffset = layout.getLineEnd(maxLine); if (text.charAt(lineEndOffset - 1) == '\n') { break; } maxLine++; } return TextUtils.packRangeInLong(layout.getLineStart(minLine), layout.getLineEnd(maxLine)); } void onLocaleChanged() { // Will be re-created on demand in getWordIterator and getWordIteratorWithText with the // proper new locale mWordIterator = null; mWordIteratorWithText = null; } public WordIterator getWordIterator() { if (mWordIterator == null) { mWordIterator = new WordIterator(mTextView.getTextServicesLocale()); } return mWordIterator; } private WordIterator getWordIteratorWithText() { if (mWordIteratorWithText == null) { mWordIteratorWithText = new WordIterator(mTextView.getTextServicesLocale()); mUpdateWordIteratorText = true; } if (mUpdateWordIteratorText) { // FIXME - Shouldn't copy all of the text as only the area of the text relevant // to the user's selection is needed. A possible solution would be to // copy some number N of characters near the selection and then when the // user approaches N then we'd do another copy of the next N characters. CharSequence text = mTextView.getText(); mWordIteratorWithText.setCharSequence(text, 0, text.length()); mUpdateWordIteratorText = false; } return mWordIteratorWithText; } private int getNextCursorOffset(int offset, boolean findAfterGivenOffset) { final Layout layout = mTextView.getLayout(); if (layout == null) return offset; return findAfterGivenOffset == layout.isRtlCharAt(offset) ? layout.getOffsetToLeftOf(offset) : layout.getOffsetToRightOf(offset); } private long getCharClusterRange(int offset) { final int textLength = mTextView.getText().length(); if (offset < textLength) { final int clusterEndOffset = getNextCursorOffset(offset, true); return TextUtils.packRangeInLong(getNextCursorOffset(clusterEndOffset, false), clusterEndOffset); } if (offset - 1 >= 0) { final int clusterStartOffset = getNextCursorOffset(offset, false); return TextUtils.packRangeInLong(clusterStartOffset, getNextCursorOffset(clusterStartOffset, true)); } return TextUtils.packRangeInLong(offset, offset); } private boolean touchPositionIsInSelection() { int selectionStart = mTextView.getSelectionStart(); int selectionEnd = mTextView.getSelectionEnd(); if (selectionStart == selectionEnd) { return false; } if (selectionStart > selectionEnd) { int tmp = selectionStart; selectionStart = selectionEnd; selectionEnd = tmp; Selection.setSelection((Spannable) mTextView.getText(), selectionStart, selectionEnd); } SelectionModifierCursorController selectionController = getSelectionController(); int minOffset = selectionController.getMinTouchOffset(); int maxOffset = selectionController.getMaxTouchOffset(); return ((minOffset >= selectionStart) && (maxOffset < selectionEnd)); } private PositionListener getPositionListener() { if (mPositionListener == null) { mPositionListener = new PositionListener(); } return mPositionListener; } private interface TextViewPositionListener { public void updatePosition(int parentPositionX, int parentPositionY, boolean parentPositionChanged, boolean parentScrolled); } private boolean isOffsetVisible(int offset) { Layout layout = mTextView.getLayout(); if (layout == null) return false; final int line = layout.getLineForOffset(offset); final int lineBottom = layout.getLineBottom(line); final int primaryHorizontal = (int) layout.getPrimaryHorizontal(offset); return mTextView.isPositionVisible(primaryHorizontal + mTextView.viewportToContentHorizontalOffset(), lineBottom + mTextView.viewportToContentVerticalOffset()); } /** Returns true if the screen coordinates position (x,y) corresponds to a character displayed * in the view. Returns false when the position is in the empty space of left/right of text. */ private boolean isPositionOnText(float x, float y) { Layout layout = mTextView.getLayout(); if (layout == null) return false; final int line = mTextView.getLineAtCoordinate(y); x = mTextView.convertToLocalHorizontalCoordinate(x); if (x < layout.getLineLeft(line)) return false; if (x > layout.getLineRight(line)) return false; return true; } private void startDragAndDrop() { getSelectionActionModeHelper().onSelectionDrag(); // TODO: Fix drag and drop in full screen extracted mode. if (mTextView.isInExtractedMode()) { return; } final int start = mTextView.getSelectionStart(); final int end = mTextView.getSelectionEnd(); CharSequence selectedText = mTextView.getTransformedText(start, end); ClipData data = ClipData.newPlainText(null, selectedText); DragLocalState localState = new DragLocalState(mTextView, start, end); mTextView.startDragAndDrop(data, getTextThumbnailBuilder(start, end), localState, View.DRAG_FLAG_GLOBAL); stopTextActionMode(); if (hasSelectionController()) { getSelectionController().resetTouchOffsets(); } } public boolean performLongClick(boolean handled) { // Long press in empty space moves cursor and starts the insertion action mode. if (!handled && !isPositionOnText(mLastDownPositionX, mLastDownPositionY) && mInsertionControllerEnabled) { final int offset = mTextView.getOffsetForPosition(mLastDownPositionX, mLastDownPositionY); Selection.setSelection((Spannable) mTextView.getText(), offset); getInsertionController().show(); mIsInsertionActionModeStartPending = true; handled = true; MetricsLogger.action(mTextView.getContext(), MetricsEvent.TEXT_LONGPRESS, TextViewMetrics.SUBTYPE_LONG_PRESS_OTHER); } if (!handled && mTextActionMode != null) { if (touchPositionIsInSelection()) { startDragAndDrop(); MetricsLogger.action(mTextView.getContext(), MetricsEvent.TEXT_LONGPRESS, TextViewMetrics.SUBTYPE_LONG_PRESS_DRAG_AND_DROP); } else { stopTextActionMode(); selectCurrentWordAndStartDrag(); MetricsLogger.action(mTextView.getContext(), MetricsEvent.TEXT_LONGPRESS, TextViewMetrics.SUBTYPE_LONG_PRESS_SELECTION); } handled = true; } // Start a new selection if (!handled) { handled = selectCurrentWordAndStartDrag(); if (handled) { MetricsLogger.action(mTextView.getContext(), MetricsEvent.TEXT_LONGPRESS, TextViewMetrics.SUBTYPE_LONG_PRESS_SELECTION); } } return handled; } float getLastUpPositionX() { return mLastUpPositionX; } float getLastUpPositionY() { return mLastUpPositionY; } private long getLastTouchOffsets() { SelectionModifierCursorController selectionController = getSelectionController(); final int minOffset = selectionController.getMinTouchOffset(); final int maxOffset = selectionController.getMaxTouchOffset(); return TextUtils.packRangeInLong(minOffset, maxOffset); } void onFocusChanged(boolean focused, int direction) { mShowCursor = SystemClock.uptimeMillis(); ensureEndedBatchEdit(); if (focused) { int selStart = mTextView.getSelectionStart(); int selEnd = mTextView.getSelectionEnd(); // SelectAllOnFocus fields are highlighted and not selected. Do not start text selection // mode for these, unless there was a specific selection already started. final boolean isFocusHighlighted = mSelectAllOnFocus && selStart == 0 && selEnd == mTextView.getText().length(); mCreatedWithASelection = mFrozenWithFocus && mTextView.hasSelection() && !isFocusHighlighted; if (!mFrozenWithFocus || (selStart < 0 || selEnd < 0)) { // If a tap was used to give focus to that view, move cursor at tap position. // Has to be done before onTakeFocus, which can be overloaded. final int lastTapPosition = getLastTapPosition(); if (lastTapPosition >= 0) { Selection.setSelection((Spannable) mTextView.getText(), lastTapPosition); } // Note this may have to be moved out of the Editor class MovementMethod mMovement = mTextView.getMovementMethod(); if (mMovement != null) { mMovement.onTakeFocus(mTextView, (Spannable) mTextView.getText(), direction); } // The DecorView does not have focus when the 'Done' ExtractEditText button is // pressed. Since it is the ViewAncestor's mView, it requests focus before // ExtractEditText clears focus, which gives focus to the ExtractEditText. // This special case ensure that we keep current selection in that case. // It would be better to know why the DecorView does not have focus at that time. if (((mTextView.isInExtractedMode()) || mSelectionMoved) && selStart >= 0 && selEnd >= 0) { /* * Someone intentionally set the selection, so let them * do whatever it is that they wanted to do instead of * the default on-focus behavior. We reset the selection * here instead of just skipping the onTakeFocus() call * because some movement methods do something other than * just setting the selection in theirs and we still * need to go through that path. */ Selection.setSelection((Spannable) mTextView.getText(), selStart, selEnd); } if (mSelectAllOnFocus) { mTextView.selectAllText(); } mTouchFocusSelected = true; } mFrozenWithFocus = false; mSelectionMoved = false; if (mError != null) { showError(); } makeBlink(); } else { if (mError != null) { hideError(); } // Don't leave us in the middle of a batch edit. mTextView.onEndBatchEdit(); if (mTextView.isInExtractedMode()) { hideCursorAndSpanControllers(); stopTextActionModeWithPreservingSelection(); } else { hideCursorAndSpanControllers(); if (mTextView.isTemporarilyDetached()) { stopTextActionModeWithPreservingSelection(); } else { stopTextActionMode(); } downgradeEasyCorrectionSpans(); } // No need to create the controller if (mSelectionModifierCursorController != null) { mSelectionModifierCursorController.resetTouchOffsets(); } ensureNoSelectionIfNonSelectable(); } } private void ensureNoSelectionIfNonSelectable() { // This could be the case if a TextLink has been tapped. if (!mTextView.textCanBeSelected() && mTextView.hasSelection()) { Selection.setSelection((Spannable) mTextView.getText(), mTextView.length(), mTextView.length()); } } /** * Downgrades to simple suggestions all the easy correction spans that are not a spell check * span. */ private void downgradeEasyCorrectionSpans() { CharSequence text = mTextView.getText(); if (text instanceof Spannable) { Spannable spannable = (Spannable) text; SuggestionSpan[] suggestionSpans = spannable.getSpans(0, spannable.length(), SuggestionSpan.class); for (int i = 0; i < suggestionSpans.length; i++) { int flags = suggestionSpans[i].getFlags(); if ((flags & SuggestionSpan.FLAG_EASY_CORRECT) != 0 && (flags & SuggestionSpan.FLAG_MISSPELLED) == 0) { flags &= ~SuggestionSpan.FLAG_EASY_CORRECT; suggestionSpans[i].setFlags(flags); } } } } void sendOnTextChanged(int start, int before, int after) { getSelectionActionModeHelper().onTextChanged(start, start + before); updateSpellCheckSpans(start, start + after, false); // Flip flag to indicate the word iterator needs to have the text reset. mUpdateWordIteratorText = true; // Hide the controllers as soon as text is modified (typing, procedural...) // We do not hide the span controllers, since they can be added when a new text is // inserted into the text view (voice IME). hideCursorControllers(); // Reset drag accelerator. if (mSelectionModifierCursorController != null) { mSelectionModifierCursorController.resetTouchOffsets(); } stopTextActionMode(); } private int getLastTapPosition() { // No need to create the controller at that point, no last tap position saved if (mSelectionModifierCursorController != null) { int lastTapPosition = mSelectionModifierCursorController.getMinTouchOffset(); if (lastTapPosition >= 0) { // Safety check, should not be possible. if (lastTapPosition > mTextView.getText().length()) { lastTapPosition = mTextView.getText().length(); } return lastTapPosition; } } return -1; } void onWindowFocusChanged(boolean hasWindowFocus) { if (hasWindowFocus) { if (mBlink != null) { mBlink.uncancel(); makeBlink(); } if (mTextView.hasSelection() && !extractedTextModeWillBeStarted()) { refreshTextActionMode(); } } else { if (mBlink != null) { mBlink.cancel(); } if (mInputContentType != null) { mInputContentType.enterDown = false; } // Order matters! Must be done before onParentLostFocus to rely on isShowingUp hideCursorAndSpanControllers(); stopTextActionModeWithPreservingSelection(); if (mSuggestionsPopupWindow != null) { mSuggestionsPopupWindow.onParentLostFocus(); } // Don't leave us in the middle of a batch edit. Same as in onFocusChanged ensureEndedBatchEdit(); ensureNoSelectionIfNonSelectable(); } } private void updateTapState(MotionEvent event) { final int action = event.getActionMasked(); if (action == MotionEvent.ACTION_DOWN) { final boolean isMouse = event.isFromSource(InputDevice.SOURCE_MOUSE); // Detect double tap and triple click. if (((mTapState == TAP_STATE_FIRST_TAP) || ((mTapState == TAP_STATE_DOUBLE_TAP) && isMouse)) && (SystemClock.uptimeMillis() - mLastTouchUpTime) <= ViewConfiguration.getDoubleTapTimeout()) { if (mTapState == TAP_STATE_FIRST_TAP) { mTapState = TAP_STATE_DOUBLE_TAP; } else { mTapState = TAP_STATE_TRIPLE_CLICK; } } else { mTapState = TAP_STATE_FIRST_TAP; } } if (action == MotionEvent.ACTION_UP) { mLastTouchUpTime = SystemClock.uptimeMillis(); } } private boolean shouldFilterOutTouchEvent(MotionEvent event) { if (!event.isFromSource(InputDevice.SOURCE_MOUSE)) { return false; } final boolean primaryButtonStateChanged = ((mLastButtonState ^ event.getButtonState()) & MotionEvent.BUTTON_PRIMARY) != 0; final int action = event.getActionMasked(); if ((action == MotionEvent.ACTION_DOWN || action == MotionEvent.ACTION_UP) && !primaryButtonStateChanged) { return true; } if (action == MotionEvent.ACTION_MOVE && !event.isButtonPressed(MotionEvent.BUTTON_PRIMARY)) { return true; } return false; } void onTouchEvent(MotionEvent event) { final boolean filterOutEvent = shouldFilterOutTouchEvent(event); mLastButtonState = event.getButtonState(); if (filterOutEvent) { if (event.getActionMasked() == MotionEvent.ACTION_UP) { mDiscardNextActionUp = true; } return; } updateTapState(event); updateFloatingToolbarVisibility(event); if (hasSelectionController()) { getSelectionController().onTouchEvent(event); } if (mShowSuggestionRunnable != null) { mTextView.removeCallbacks(mShowSuggestionRunnable); mShowSuggestionRunnable = null; } if (event.getActionMasked() == MotionEvent.ACTION_UP) { mLastUpPositionX = event.getX(); mLastUpPositionY = event.getY(); } if (event.getActionMasked() == MotionEvent.ACTION_DOWN) { mLastDownPositionX = event.getX(); mLastDownPositionY = event.getY(); // Reset this state; it will be re-set if super.onTouchEvent // causes focus to move to the view. mTouchFocusSelected = false; mIgnoreActionUpEvent = false; } } private void updateFloatingToolbarVisibility(MotionEvent event) { if (mTextActionMode != null) { switch (event.getActionMasked()) { case MotionEvent.ACTION_MOVE: hideFloatingToolbar(ActionMode.DEFAULT_HIDE_DURATION); break; case MotionEvent.ACTION_UP: // fall through case MotionEvent.ACTION_CANCEL: showFloatingToolbar(); } } } void hideFloatingToolbar(int duration) { if (mTextActionMode != null) { mTextView.removeCallbacks(mShowFloatingToolbar); mTextActionMode.hide(duration); } } private void showFloatingToolbar() { if (mTextActionMode != null) { // Delay "show" so it doesn't interfere with click confirmations // or double-clicks that could "dismiss" the floating toolbar. int delay = ViewConfiguration.getDoubleTapTimeout(); mTextView.postDelayed(mShowFloatingToolbar, delay); // This classifies the text and most likely returns before the toolbar is actually // shown. If not, it will update the toolbar with the result when classification // returns. We would rather not wait for a long running classification process. invalidateActionModeAsync(); } } public void beginBatchEdit() { mInBatchEditControllers = true; final InputMethodState ims = mInputMethodState; if (ims != null) { int nesting = ++ims.mBatchEditNesting; if (nesting == 1) { ims.mCursorChanged = false; ims.mChangedDelta = 0; if (ims.mContentChanged) { // We already have a pending change from somewhere else, // so turn this into a full update. ims.mChangedStart = 0; ims.mChangedEnd = mTextView.getText().length(); } else { ims.mChangedStart = EXTRACT_UNKNOWN; ims.mChangedEnd = EXTRACT_UNKNOWN; ims.mContentChanged = false; } mUndoInputFilter.beginBatchEdit(); mTextView.onBeginBatchEdit(); } } } public void endBatchEdit() { mInBatchEditControllers = false; final InputMethodState ims = mInputMethodState; if (ims != null) { int nesting = --ims.mBatchEditNesting; if (nesting == 0) { finishBatchEdit(ims); } } } void ensureEndedBatchEdit() { final InputMethodState ims = mInputMethodState; if (ims != null && ims.mBatchEditNesting != 0) { ims.mBatchEditNesting = 0; finishBatchEdit(ims); } } void finishBatchEdit(final InputMethodState ims) { mTextView.onEndBatchEdit(); mUndoInputFilter.endBatchEdit(); if (ims.mContentChanged || ims.mSelectionModeChanged) { mTextView.updateAfterEdit(); reportExtractedText(); } else if (ims.mCursorChanged) { // Cheesy way to get us to report the current cursor location. mTextView.invalidateCursor(); } // sendUpdateSelection knows to avoid sending if the selection did // not actually change. sendUpdateSelection(); // Show drag handles if they were blocked by batch edit mode. if (mTextActionMode != null) { final CursorController cursorController = mTextView.hasSelection() ? getSelectionController() : getInsertionController(); if (cursorController != null && !cursorController.isActive() && !cursorController.isCursorBeingModified()) { cursorController.show(); } } } static final int EXTRACT_NOTHING = -2; static final int EXTRACT_UNKNOWN = -1; boolean extractText(ExtractedTextRequest request, ExtractedText outText) { return extractTextInternal(request, EXTRACT_UNKNOWN, EXTRACT_UNKNOWN, EXTRACT_UNKNOWN, outText); } private boolean extractTextInternal(@Nullable ExtractedTextRequest request, int partialStartOffset, int partialEndOffset, int delta, @Nullable ExtractedText outText) { if (request == null || outText == null) { return false; } final CharSequence content = mTextView.getText(); if (content == null) { return false; } if (partialStartOffset != EXTRACT_NOTHING) { final int N = content.length(); if (partialStartOffset < 0) { outText.partialStartOffset = outText.partialEndOffset = -1; partialStartOffset = 0; partialEndOffset = N; } else { // Now use the delta to determine the actual amount of text // we need. partialEndOffset += delta; // Adjust offsets to ensure we contain full spans. if (content instanceof Spanned) { Spanned spanned = (Spanned) content; Object[] spans = spanned.getSpans(partialStartOffset, partialEndOffset, ParcelableSpan.class); int i = spans.length; while (i > 0) { i--; int j = spanned.getSpanStart(spans[i]); if (j < partialStartOffset) partialStartOffset = j; j = spanned.getSpanEnd(spans[i]); if (j > partialEndOffset) partialEndOffset = j; } } outText.partialStartOffset = partialStartOffset; outText.partialEndOffset = partialEndOffset - delta; if (partialStartOffset > N) { partialStartOffset = N; } else if (partialStartOffset < 0) { partialStartOffset = 0; } if (partialEndOffset > N) { partialEndOffset = N; } else if (partialEndOffset < 0) { partialEndOffset = 0; } } if ((request.flags & InputConnection.GET_TEXT_WITH_STYLES) != 0) { outText.text = content.subSequence(partialStartOffset, partialEndOffset); } else { outText.text = TextUtils.substring(content, partialStartOffset, partialEndOffset); } } else { outText.partialStartOffset = 0; outText.partialEndOffset = 0; outText.text = ""; } outText.flags = 0; if (MetaKeyKeyListener.getMetaState(content, MetaKeyKeyListener.META_SELECTING) != 0) { outText.flags |= ExtractedText.FLAG_SELECTING; } if (mTextView.isSingleLine()) { outText.flags |= ExtractedText.FLAG_SINGLE_LINE; } outText.startOffset = 0; outText.selectionStart = mTextView.getSelectionStart(); outText.selectionEnd = mTextView.getSelectionEnd(); outText.hint = mTextView.getHint(); return true; } boolean reportExtractedText() { final Editor.InputMethodState ims = mInputMethodState; if (ims == null) { return false; } final boolean wasContentChanged = ims.mContentChanged; if (!wasContentChanged && !ims.mSelectionModeChanged) { return false; } ims.mContentChanged = false; ims.mSelectionModeChanged = false; final ExtractedTextRequest req = ims.mExtractedTextRequest; if (req == null) { return false; } final InputMethodManager imm = InputMethodManager.peekInstance(); if (imm == null) { return false; } if (TextView.DEBUG_EXTRACT) { Log.v(TextView.LOG_TAG, "Retrieving extracted start=" + ims.mChangedStart + " end=" + ims.mChangedEnd + " delta=" + ims.mChangedDelta); } if (ims.mChangedStart < 0 && !wasContentChanged) { ims.mChangedStart = EXTRACT_NOTHING; } if (extractTextInternal(req, ims.mChangedStart, ims.mChangedEnd, ims.mChangedDelta, ims.mExtractedText)) { if (TextView.DEBUG_EXTRACT) { Log.v(TextView.LOG_TAG, "Reporting extracted start=" + ims.mExtractedText.partialStartOffset + " end=" + ims.mExtractedText.partialEndOffset + ": " + ims.mExtractedText.text); } imm.updateExtractedText(mTextView, req.token, ims.mExtractedText); ims.mChangedStart = EXTRACT_UNKNOWN; ims.mChangedEnd = EXTRACT_UNKNOWN; ims.mChangedDelta = 0; ims.mContentChanged = false; return true; } return false; } private void sendUpdateSelection() { if (null != mInputMethodState && mInputMethodState.mBatchEditNesting <= 0) { final InputMethodManager imm = InputMethodManager.peekInstance(); if (null != imm) { final int selectionStart = mTextView.getSelectionStart(); final int selectionEnd = mTextView.getSelectionEnd(); int candStart = -1; int candEnd = -1; if (mTextView.getText() instanceof Spannable) { final Spannable sp = (Spannable) mTextView.getText(); candStart = EditableInputConnection.getComposingSpanStart(sp); candEnd = EditableInputConnection.getComposingSpanEnd(sp); } // InputMethodManager#updateSelection skips sending the message if // none of the parameters have changed since the last time we called it. imm.updateSelection(mTextView, selectionStart, selectionEnd, candStart, candEnd); } } } void onDraw(Canvas canvas, Layout layout, Path highlight, Paint highlightPaint, int cursorOffsetVertical) { final int selectionStart = mTextView.getSelectionStart(); final int selectionEnd = mTextView.getSelectionEnd(); final InputMethodState ims = mInputMethodState; if (ims != null && ims.mBatchEditNesting == 0) { InputMethodManager imm = InputMethodManager.peekInstance(); if (imm != null) { if (imm.isActive(mTextView)) { if (ims.mContentChanged || ims.mSelectionModeChanged) { // We are in extract mode and the content has changed // in some way... just report complete new text to the // input method. reportExtractedText(); } } } } if (mCorrectionHighlighter != null) { mCorrectionHighlighter.draw(canvas, cursorOffsetVertical); } if (highlight != null && selectionStart == selectionEnd && mDrawableForCursor != null) { drawCursor(canvas, cursorOffsetVertical); // Rely on the drawable entirely, do not draw the cursor line. // Has to be done after the IMM related code above which relies on the highlight. highlight = null; } if (mSelectionActionModeHelper != null) { mSelectionActionModeHelper.onDraw(canvas); if (mSelectionActionModeHelper.isDrawingHighlight()) { highlight = null; } } if (mTextView.canHaveDisplayList() && canvas.isHardwareAccelerated()) { drawHardwareAccelerated(canvas, layout, highlight, highlightPaint, cursorOffsetVertical); } else { layout.draw(canvas, highlight, highlightPaint, cursorOffsetVertical); } } private void drawHardwareAccelerated(Canvas canvas, Layout layout, Path highlight, Paint highlightPaint, int cursorOffsetVertical) { final long lineRange = layout.getLineRangeForDraw(canvas); int firstLine = TextUtils.unpackRangeStartFromLong(lineRange); int lastLine = TextUtils.unpackRangeEndFromLong(lineRange); if (lastLine < 0) return; layout.drawBackground(canvas, highlight, highlightPaint, cursorOffsetVertical, firstLine, lastLine); if (layout instanceof DynamicLayout) { if (mTextRenderNodes == null) { mTextRenderNodes = ArrayUtils.emptyArray(TextRenderNode.class); } DynamicLayout dynamicLayout = (DynamicLayout) layout; int[] blockEndLines = dynamicLayout.getBlockEndLines(); int[] blockIndices = dynamicLayout.getBlockIndices(); final int numberOfBlocks = dynamicLayout.getNumberOfBlocks(); final int indexFirstChangedBlock = dynamicLayout.getIndexFirstChangedBlock(); final ArraySet<Integer> blockSet = dynamicLayout.getBlocksAlwaysNeedToBeRedrawn(); if (blockSet != null) { for (int i = 0; i < blockSet.size(); i++) { final int blockIndex = dynamicLayout.getBlockIndex(blockSet.valueAt(i)); if (blockIndex != DynamicLayout.INVALID_BLOCK_INDEX && mTextRenderNodes[blockIndex] != null) { mTextRenderNodes[blockIndex].needsToBeShifted = true; } } } int startBlock = Arrays.binarySearch(blockEndLines, 0, numberOfBlocks, firstLine); if (startBlock < 0) { startBlock = -(startBlock + 1); } startBlock = Math.min(indexFirstChangedBlock, startBlock); int startIndexToFindAvailableRenderNode = 0; int lastIndex = numberOfBlocks; for (int i = startBlock; i < numberOfBlocks; i++) { final int blockIndex = blockIndices[i]; if (i >= indexFirstChangedBlock && blockIndex != DynamicLayout.INVALID_BLOCK_INDEX && mTextRenderNodes[blockIndex] != null) { mTextRenderNodes[blockIndex].needsToBeShifted = true; } if (blockEndLines[i] < firstLine) { // Blocks in [indexFirstChangedBlock, firstLine) are not redrawn here. They will // be redrawn after they get scrolled into drawing range. continue; } startIndexToFindAvailableRenderNode = drawHardwareAcceleratedInner(canvas, layout, highlight, highlightPaint, cursorOffsetVertical, blockEndLines, blockIndices, i, numberOfBlocks, startIndexToFindAvailableRenderNode); if (blockEndLines[i] >= lastLine) { lastIndex = Math.max(indexFirstChangedBlock, i + 1); break; } } if (blockSet != null) { for (int i = 0; i < blockSet.size(); i++) { final int block = blockSet.valueAt(i); final int blockIndex = dynamicLayout.getBlockIndex(block); if (blockIndex == DynamicLayout.INVALID_BLOCK_INDEX || mTextRenderNodes[blockIndex] == null || mTextRenderNodes[blockIndex].needsToBeShifted) { startIndexToFindAvailableRenderNode = drawHardwareAcceleratedInner(canvas, layout, highlight, highlightPaint, cursorOffsetVertical, blockEndLines, blockIndices, block, numberOfBlocks, startIndexToFindAvailableRenderNode); } } } dynamicLayout.setIndexFirstChangedBlock(lastIndex); } else { // Boring layout is used for empty and hint text layout.drawText(canvas, firstLine, lastLine); } } private int drawHardwareAcceleratedInner(Canvas canvas, Layout layout, Path highlight, Paint highlightPaint, int cursorOffsetVertical, int[] blockEndLines, int[] blockIndices, int blockInfoIndex, int numberOfBlocks, int startIndexToFindAvailableRenderNode) { final int blockEndLine = blockEndLines[blockInfoIndex]; int blockIndex = blockIndices[blockInfoIndex]; final boolean blockIsInvalid = blockIndex == DynamicLayout.INVALID_BLOCK_INDEX; if (blockIsInvalid) { blockIndex = getAvailableDisplayListIndex(blockIndices, numberOfBlocks, startIndexToFindAvailableRenderNode); // Note how dynamic layout's internal block indices get updated from Editor blockIndices[blockInfoIndex] = blockIndex; if (mTextRenderNodes[blockIndex] != null) { mTextRenderNodes[blockIndex].isDirty = true; } startIndexToFindAvailableRenderNode = blockIndex + 1; } if (mTextRenderNodes[blockIndex] == null) { mTextRenderNodes[blockIndex] = new TextRenderNode("Text " + blockIndex); } final boolean blockDisplayListIsInvalid = mTextRenderNodes[blockIndex].needsRecord(); RenderNode blockDisplayList = mTextRenderNodes[blockIndex].renderNode; if (mTextRenderNodes[blockIndex].needsToBeShifted || blockDisplayListIsInvalid) { final int blockBeginLine = blockInfoIndex == 0 ? 0 : blockEndLines[blockInfoIndex - 1] + 1; final int top = layout.getLineTop(blockBeginLine); final int bottom = layout.getLineBottom(blockEndLine); int left = 0; int right = mTextView.getWidth(); if (mTextView.getHorizontallyScrolling()) { float min = Float.MAX_VALUE; float max = Float.MIN_VALUE; for (int line = blockBeginLine; line <= blockEndLine; line++) { min = Math.min(min, layout.getLineLeft(line)); max = Math.max(max, layout.getLineRight(line)); } left = (int) min; right = (int) (max + 0.5f); } // Rebuild display list if it is invalid if (blockDisplayListIsInvalid) { final DisplayListCanvas displayListCanvas = blockDisplayList.start(right - left, bottom - top); try { // drawText is always relative to TextView's origin, this translation // brings this range of text back to the top left corner of the viewport displayListCanvas.translate(-left, -top); layout.drawText(displayListCanvas, blockBeginLine, blockEndLine); mTextRenderNodes[blockIndex].isDirty = false; // No need to untranslate, previous context is popped after // drawDisplayList } finally { blockDisplayList.end(displayListCanvas); // Same as drawDisplayList below, handled by our TextView's parent blockDisplayList.setClipToBounds(false); } } // Valid display list only needs to update its drawing location. blockDisplayList.setLeftTopRightBottom(left, top, right, bottom); mTextRenderNodes[blockIndex].needsToBeShifted = false; } ((DisplayListCanvas) canvas).drawRenderNode(blockDisplayList); return startIndexToFindAvailableRenderNode; } private int getAvailableDisplayListIndex(int[] blockIndices, int numberOfBlocks, int searchStartIndex) { int length = mTextRenderNodes.length; for (int i = searchStartIndex; i < length; i++) { boolean blockIndexFound = false; for (int j = 0; j < numberOfBlocks; j++) { if (blockIndices[j] == i) { blockIndexFound = true; break; } } if (blockIndexFound) continue; return i; } // No available index found, the pool has to grow mTextRenderNodes = GrowingArrayUtils.append(mTextRenderNodes, length, null); return length; } private void drawCursor(Canvas canvas, int cursorOffsetVertical) { final boolean translate = cursorOffsetVertical != 0; if (translate) canvas.translate(0, cursorOffsetVertical); if (mDrawableForCursor != null) { mDrawableForCursor.draw(canvas); } if (translate) canvas.translate(0, -cursorOffsetVertical); } void invalidateHandlesAndActionMode() { if (mSelectionModifierCursorController != null) { mSelectionModifierCursorController.invalidateHandles(); } if (mInsertionPointCursorController != null) { mInsertionPointCursorController.invalidateHandle(); } if (mTextActionMode != null) { invalidateActionMode(); } } /** * Invalidates all the sub-display lists that overlap the specified character range */ void invalidateTextDisplayList(Layout layout, int start, int end) { if (mTextRenderNodes != null && layout instanceof DynamicLayout) { final int firstLine = layout.getLineForOffset(start); final int lastLine = layout.getLineForOffset(end); DynamicLayout dynamicLayout = (DynamicLayout) layout; int[] blockEndLines = dynamicLayout.getBlockEndLines(); int[] blockIndices = dynamicLayout.getBlockIndices(); final int numberOfBlocks = dynamicLayout.getNumberOfBlocks(); int i = 0; // Skip the blocks before firstLine while (i < numberOfBlocks) { if (blockEndLines[i] >= firstLine) break; i++; } // Invalidate all subsequent blocks until lastLine is passed while (i < numberOfBlocks) { final int blockIndex = blockIndices[i]; if (blockIndex != DynamicLayout.INVALID_BLOCK_INDEX) { mTextRenderNodes[blockIndex].isDirty = true; } if (blockEndLines[i] >= lastLine) break; i++; } } } @UnsupportedAppUsage void invalidateTextDisplayList() { if (mTextRenderNodes != null) { for (int i = 0; i < mTextRenderNodes.length; i++) { if (mTextRenderNodes[i] != null) mTextRenderNodes[i].isDirty = true; } } } void updateCursorPosition() { if (mTextView.mCursorDrawableRes == 0) { mDrawableForCursor = null; return; } final Layout layout = mTextView.getLayout(); final int offset = mTextView.getSelectionStart(); final int line = layout.getLineForOffset(offset); final int top = layout.getLineTop(line); final int bottom = layout.getLineBottomWithoutSpacing(line); final boolean clamped = layout.shouldClampCursor(line); updateCursorPosition(top, bottom, layout.getPrimaryHorizontal(offset, clamped)); } void refreshTextActionMode() { if (extractedTextModeWillBeStarted()) { mRestartActionModeOnNextRefresh = false; return; } final boolean hasSelection = mTextView.hasSelection(); final SelectionModifierCursorController selectionController = getSelectionController(); final InsertionPointCursorController insertionController = getInsertionController(); if ((selectionController != null && selectionController.isCursorBeingModified()) || (insertionController != null && insertionController.isCursorBeingModified())) { // ActionMode should be managed by the currently active cursor controller. mRestartActionModeOnNextRefresh = false; return; } if (hasSelection) { hideInsertionPointCursorController(); if (mTextActionMode == null) { if (mRestartActionModeOnNextRefresh) { // To avoid distraction, newly start action mode only when selection action // mode is being restarted. startSelectionActionModeAsync(false); } } else if (selectionController == null || !selectionController.isActive()) { // Insertion action mode is active. Avoid dismissing the selection. stopTextActionModeWithPreservingSelection(); startSelectionActionModeAsync(false); } else { mTextActionMode.invalidateContentRect(); } } else { // Insertion action mode is started only when insertion controller is explicitly // activated. if (insertionController == null || !insertionController.isActive()) { stopTextActionMode(); } else if (mTextActionMode != null) { mTextActionMode.invalidateContentRect(); } } mRestartActionModeOnNextRefresh = false; } /** * Start an Insertion action mode. */ void startInsertionActionMode() { if (mInsertionActionModeRunnable != null) { mTextView.removeCallbacks(mInsertionActionModeRunnable); } if (extractedTextModeWillBeStarted()) { return; } stopTextActionMode(); ActionMode.Callback actionModeCallback = new TextActionModeCallback(TextActionMode.INSERTION); mTextActionMode = mTextView.startActionMode(actionModeCallback, ActionMode.TYPE_FLOATING); if (mTextActionMode != null && getInsertionController() != null) { getInsertionController().show(); } } @NonNull TextView getTextView() { return mTextView; } @Nullable ActionMode getTextActionMode() { return mTextActionMode; } void setRestartActionModeOnNextRefresh(boolean value) { mRestartActionModeOnNextRefresh = value; } /** * Asynchronously starts a selection action mode using the TextClassifier. */ void startSelectionActionModeAsync(boolean adjustSelection) { getSelectionActionModeHelper().startSelectionActionModeAsync(adjustSelection); } void startLinkActionModeAsync(int start, int end) { if (!(mTextView.getText() instanceof Spannable)) { return; } stopTextActionMode(); mRequestingLinkActionMode = true; getSelectionActionModeHelper().startLinkActionModeAsync(start, end); } /** * Asynchronously invalidates an action mode using the TextClassifier. */ void invalidateActionModeAsync() { getSelectionActionModeHelper().invalidateActionModeAsync(); } /** * Synchronously invalidates an action mode without the TextClassifier. */ private void invalidateActionMode() { if (mTextActionMode != null) { mTextActionMode.invalidate(); } } private SelectionActionModeHelper getSelectionActionModeHelper() { if (mSelectionActionModeHelper == null) { mSelectionActionModeHelper = new SelectionActionModeHelper(this); } return mSelectionActionModeHelper; } /** * If the TextView allows text selection, selects the current word when no existing selection * was available and starts a drag. * * @return true if the drag was started. */ private boolean selectCurrentWordAndStartDrag() { if (mInsertionActionModeRunnable != null) { mTextView.removeCallbacks(mInsertionActionModeRunnable); } if (extractedTextModeWillBeStarted()) { return false; } if (!checkField()) { return false; } if (!mTextView.hasSelection() && !selectCurrentWord()) { // No selection and cannot select a word. return false; } stopTextActionModeWithPreservingSelection(); getSelectionController().enterDrag(SelectionModifierCursorController.DRAG_ACCELERATOR_MODE_WORD); return true; } /** * Checks whether a selection can be performed on the current TextView. * * @return true if a selection can be performed */ boolean checkField() { if (!mTextView.canSelectText() || !mTextView.requestFocus()) { Log.w(TextView.LOG_TAG, "TextView does not support text selection. Selection cancelled."); return false; } return true; } boolean startActionModeInternal(@TextActionMode int actionMode) { if (extractedTextModeWillBeStarted()) { return false; } if (mTextActionMode != null) { // Text action mode is already started invalidateActionMode(); return false; } if (actionMode != TextActionMode.TEXT_LINK && (!checkField() || !mTextView.hasSelection())) { return false; } ActionMode.Callback actionModeCallback = new TextActionModeCallback(actionMode); mTextActionMode = mTextView.startActionMode(actionModeCallback, ActionMode.TYPE_FLOATING); final boolean selectableText = mTextView.isTextEditable() || mTextView.isTextSelectable(); if (actionMode == TextActionMode.TEXT_LINK && !selectableText && mTextActionMode instanceof FloatingActionMode) { // Make the toolbar outside-touchable so that it can be dismissed when the user clicks // outside of it. ((FloatingActionMode) mTextActionMode).setOutsideTouchable(true, () -> stopTextActionMode()); } final boolean selectionStarted = mTextActionMode != null; if (selectionStarted && mTextView.isTextEditable() && !mTextView.isTextSelectable() && mShowSoftInputOnFocus) { // Show the IME to be able to replace text, except when selecting non editable text. final InputMethodManager imm = InputMethodManager.peekInstance(); if (imm != null) { imm.showSoftInput(mTextView, 0, null); } } return selectionStarted; } private boolean extractedTextModeWillBeStarted() { if (!(mTextView.isInExtractedMode())) { final InputMethodManager imm = InputMethodManager.peekInstance(); return imm != null && imm.isFullscreenMode(); } return false; } /** * @return <code>true</code> if it's reasonable to offer to show suggestions depending on * the current cursor position or selection range. This method is consistent with the * method to show suggestions {@link SuggestionsPopupWindow#updateSuggestions}. */ private boolean shouldOfferToShowSuggestions() { CharSequence text = mTextView.getText(); if (!(text instanceof Spannable)) return false; final Spannable spannable = (Spannable) text; final int selectionStart = mTextView.getSelectionStart(); final int selectionEnd = mTextView.getSelectionEnd(); final SuggestionSpan[] suggestionSpans = spannable.getSpans(selectionStart, selectionEnd, SuggestionSpan.class); if (suggestionSpans.length == 0) { return false; } if (selectionStart == selectionEnd) { // Spans overlap the cursor. for (int i = 0; i < suggestionSpans.length; i++) { if (suggestionSpans[i].getSuggestions().length > 0) { return true; } } return false; } int minSpanStart = mTextView.getText().length(); int maxSpanEnd = 0; int unionOfSpansCoveringSelectionStartStart = mTextView.getText().length(); int unionOfSpansCoveringSelectionStartEnd = 0; boolean hasValidSuggestions = false; for (int i = 0; i < suggestionSpans.length; i++) { final int spanStart = spannable.getSpanStart(suggestionSpans[i]); final int spanEnd = spannable.getSpanEnd(suggestionSpans[i]); minSpanStart = Math.min(minSpanStart, spanStart); maxSpanEnd = Math.max(maxSpanEnd, spanEnd); if (selectionStart < spanStart || selectionStart > spanEnd) { // The span doesn't cover the current selection start point. continue; } hasValidSuggestions = hasValidSuggestions || suggestionSpans[i].getSuggestions().length > 0; unionOfSpansCoveringSelectionStartStart = Math.min(unionOfSpansCoveringSelectionStartStart, spanStart); unionOfSpansCoveringSelectionStartEnd = Math.max(unionOfSpansCoveringSelectionStartEnd, spanEnd); } if (!hasValidSuggestions) { return false; } if (unionOfSpansCoveringSelectionStartStart >= unionOfSpansCoveringSelectionStartEnd) { // No spans cover the selection start point. return false; } if (minSpanStart < unionOfSpansCoveringSelectionStartStart || maxSpanEnd > unionOfSpansCoveringSelectionStartEnd) { // There is a span that is not covered by the union. In this case, we soouldn't offer // to show suggestions as it's confusing. return false; } return true; } /** * @return <code>true</code> if the cursor is inside an {@link SuggestionSpan} with * {@link SuggestionSpan#FLAG_EASY_CORRECT} set. */ private boolean isCursorInsideEasyCorrectionSpan() { Spannable spannable = (Spannable) mTextView.getText(); SuggestionSpan[] suggestionSpans = spannable.getSpans(mTextView.getSelectionStart(), mTextView.getSelectionEnd(), SuggestionSpan.class); for (int i = 0; i < suggestionSpans.length; i++) { if ((suggestionSpans[i].getFlags() & SuggestionSpan.FLAG_EASY_CORRECT) != 0) { return true; } } return false; } void onTouchUpEvent(MotionEvent event) { if (getSelectionActionModeHelper() .resetSelection(getTextView().getOffsetForPosition(event.getX(), event.getY()))) { return; } boolean selectAllGotFocus = mSelectAllOnFocus && mTextView.didTouchFocusSelect(); hideCursorAndSpanControllers(); stopTextActionMode(); CharSequence text = mTextView.getText(); if (!selectAllGotFocus && text.length() > 0) { // Move cursor final int offset = mTextView.getOffsetForPosition(event.getX(), event.getY()); final boolean shouldInsertCursor = !mRequestingLinkActionMode; if (shouldInsertCursor) { Selection.setSelection((Spannable) text, offset); if (mSpellChecker != null) { // When the cursor moves, the word that was typed may need spell check mSpellChecker.onSelectionChanged(); } } if (!extractedTextModeWillBeStarted()) { if (isCursorInsideEasyCorrectionSpan()) { // Cancel the single tap delayed runnable. if (mInsertionActionModeRunnable != null) { mTextView.removeCallbacks(mInsertionActionModeRunnable); } mShowSuggestionRunnable = this::replace; // removeCallbacks is performed on every touch mTextView.postDelayed(mShowSuggestionRunnable, ViewConfiguration.getDoubleTapTimeout()); } else if (hasInsertionController()) { if (shouldInsertCursor) { getInsertionController().show(); } else { getInsertionController().hide(); } } } } } protected void stopTextActionMode() { if (mTextActionMode != null) { // This will hide the mSelectionModifierCursorController mTextActionMode.finish(); } } private void stopTextActionModeWithPreservingSelection() { if (mTextActionMode != null) { mRestartActionModeOnNextRefresh = true; } mPreserveSelection = true; stopTextActionMode(); mPreserveSelection = false; } /** * @return True if this view supports insertion handles. */ boolean hasInsertionController() { return mInsertionControllerEnabled; } /** * @return True if this view supports selection handles. */ boolean hasSelectionController() { return mSelectionControllerEnabled; } private InsertionPointCursorController getInsertionController() { if (!mInsertionControllerEnabled) { return null; } if (mInsertionPointCursorController == null) { mInsertionPointCursorController = new InsertionPointCursorController(); final ViewTreeObserver observer = mTextView.getViewTreeObserver(); observer.addOnTouchModeChangeListener(mInsertionPointCursorController); } return mInsertionPointCursorController; } @Nullable SelectionModifierCursorController getSelectionController() { if (!mSelectionControllerEnabled) { return null; } if (mSelectionModifierCursorController == null) { mSelectionModifierCursorController = new SelectionModifierCursorController(); final ViewTreeObserver observer = mTextView.getViewTreeObserver(); observer.addOnTouchModeChangeListener(mSelectionModifierCursorController); } return mSelectionModifierCursorController; } @VisibleForTesting @Nullable public Drawable getCursorDrawable() { return mDrawableForCursor; } private void updateCursorPosition(int top, int bottom, float horizontal) { if (mDrawableForCursor == null) { mDrawableForCursor = mTextView.getContext().getDrawable(mTextView.mCursorDrawableRes); } final int left = clampHorizontalPosition(mDrawableForCursor, horizontal); final int width = mDrawableForCursor.getIntrinsicWidth(); mDrawableForCursor.setBounds(left, top - mTempRect.top, left + width, bottom + mTempRect.bottom); } /** * Return clamped position for the drawable. If the drawable is within the boundaries of the * view, then it is offset with the left padding of the cursor drawable. If the drawable is at * the beginning or the end of the text then its drawable edge is aligned with left or right of * the view boundary. If the drawable is null, horizontal parameter is aligned to left or right * of the view. * * @param drawable Drawable. Can be null. * @param horizontal Horizontal position for the drawable. * @return The clamped horizontal position for the drawable. */ private int clampHorizontalPosition(@Nullable final Drawable drawable, float horizontal) { horizontal = Math.max(0.5f, horizontal - 0.5f); if (mTempRect == null) mTempRect = new Rect(); int drawableWidth = 0; if (drawable != null) { drawable.getPadding(mTempRect); drawableWidth = drawable.getIntrinsicWidth(); } else { mTempRect.setEmpty(); } int scrollX = mTextView.getScrollX(); float horizontalDiff = horizontal - scrollX; int viewClippedWidth = mTextView.getWidth() - mTextView.getCompoundPaddingLeft() - mTextView.getCompoundPaddingRight(); final int left; if (horizontalDiff >= (viewClippedWidth - 1f)) { // at the rightmost position left = viewClippedWidth + scrollX - (drawableWidth - mTempRect.right); } else if (Math.abs(horizontalDiff) <= 1f || (TextUtils.isEmpty(mTextView.getText()) && (TextView.VERY_WIDE - scrollX) <= (viewClippedWidth + 1f) && horizontal <= 1f)) { // at the leftmost position left = scrollX - mTempRect.left; } else { left = (int) horizontal - mTempRect.left; } return left; } /** * Called by the framework in response to a text auto-correction (such as fixing a typo using a * a dictionary) from the current input method, provided by it calling * {@link InputConnection#commitCorrection} InputConnection.commitCorrection()}. The default * implementation flashes the background of the corrected word to provide feedback to the user. * * @param info The auto correct info about the text that was corrected. */ public void onCommitCorrection(CorrectionInfo info) { if (mCorrectionHighlighter == null) { mCorrectionHighlighter = new CorrectionHighlighter(); } else { mCorrectionHighlighter.invalidate(false); } mCorrectionHighlighter.highlight(info); mUndoInputFilter.freezeLastEdit(); } void onScrollChanged() { if (mPositionListener != null) { mPositionListener.onScrollChanged(); } if (mTextActionMode != null) { mTextActionMode.invalidateContentRect(); } } /** * @return True when the TextView isFocused and has a valid zero-length selection (cursor). */ private boolean shouldBlink() { if (!isCursorVisible() || !mTextView.isFocused()) return false; final int start = mTextView.getSelectionStart(); if (start < 0) return false; final int end = mTextView.getSelectionEnd(); if (end < 0) return false; return start == end; } void makeBlink() { if (shouldBlink()) { mShowCursor = SystemClock.uptimeMillis(); if (mBlink == null) mBlink = new Blink(); mTextView.removeCallbacks(mBlink); mTextView.postDelayed(mBlink, BLINK); } else { if (mBlink != null) mTextView.removeCallbacks(mBlink); } } private class Blink implements Runnable { private boolean mCancelled; public void run() { if (mCancelled) { return; } mTextView.removeCallbacks(this); if (shouldBlink()) { if (mTextView.getLayout() != null) { mTextView.invalidateCursorPath(); } mTextView.postDelayed(this, BLINK); } } void cancel() { if (!mCancelled) { mTextView.removeCallbacks(this); mCancelled = true; } } void uncancel() { mCancelled = false; } } private DragShadowBuilder getTextThumbnailBuilder(int start, int end) { TextView shadowView = (TextView) View.inflate(mTextView.getContext(), com.android.internal.R.layout.text_drag_thumbnail, null); if (shadowView == null) { throw new IllegalArgumentException("Unable to inflate text drag thumbnail"); } if (end - start > DRAG_SHADOW_MAX_TEXT_LENGTH) { final long range = getCharClusterRange(start + DRAG_SHADOW_MAX_TEXT_LENGTH); end = TextUtils.unpackRangeEndFromLong(range); } final CharSequence text = mTextView.getTransformedText(start, end); shadowView.setText(text); shadowView.setTextColor(mTextView.getTextColors()); shadowView.setTextAppearance(R.styleable.Theme_textAppearanceLarge); shadowView.setGravity(Gravity.CENTER); shadowView.setLayoutParams( new LayoutParams(ViewGroup.LayoutParams.WRAP_CONTENT, ViewGroup.LayoutParams.WRAP_CONTENT)); final int size = View.MeasureSpec.makeMeasureSpec(0, View.MeasureSpec.UNSPECIFIED); shadowView.measure(size, size); shadowView.layout(0, 0, shadowView.getMeasuredWidth(), shadowView.getMeasuredHeight()); shadowView.invalidate(); return new DragShadowBuilder(shadowView); } private static class DragLocalState { public TextView sourceTextView; public int start, end; public DragLocalState(TextView sourceTextView, int start, int end) { this.sourceTextView = sourceTextView; this.start = start; this.end = end; } } void onDrop(DragEvent event) { SpannableStringBuilder content = new SpannableStringBuilder(); final DragAndDropPermissions permissions = DragAndDropPermissions.obtain(event); if (permissions != null) { permissions.takeTransient(); } try { ClipData clipData = event.getClipData(); final int itemCount = clipData.getItemCount(); for (int i = 0; i < itemCount; i++) { Item item = clipData.getItemAt(i); content.append(item.coerceToStyledText(mTextView.getContext())); } } finally { if (permissions != null) { permissions.release(); } } mTextView.beginBatchEdit(); mUndoInputFilter.freezeLastEdit(); try { final int offset = mTextView.getOffsetForPosition(event.getX(), event.getY()); Object localState = event.getLocalState(); DragLocalState dragLocalState = null; if (localState instanceof DragLocalState) { dragLocalState = (DragLocalState) localState; } boolean dragDropIntoItself = dragLocalState != null && dragLocalState.sourceTextView == mTextView; if (dragDropIntoItself) { if (offset >= dragLocalState.start && offset < dragLocalState.end) { // A drop inside the original selection discards the drop. return; } } final int originalLength = mTextView.getText().length(); int min = offset; int max = offset; Selection.setSelection((Spannable) mTextView.getText(), max); mTextView.replaceText_internal(min, max, content); if (dragDropIntoItself) { int dragSourceStart = dragLocalState.start; int dragSourceEnd = dragLocalState.end; if (max <= dragSourceStart) { // Inserting text before selection has shifted positions final int shift = mTextView.getText().length() - originalLength; dragSourceStart += shift; dragSourceEnd += shift; } // Delete original selection mTextView.deleteText_internal(dragSourceStart, dragSourceEnd); // Make sure we do not leave two adjacent spaces. final int prevCharIdx = Math.max(0, dragSourceStart - 1); final int nextCharIdx = Math.min(mTextView.getText().length(), dragSourceStart + 1); if (nextCharIdx > prevCharIdx + 1) { CharSequence t = mTextView.getTransformedText(prevCharIdx, nextCharIdx); if (Character.isSpaceChar(t.charAt(0)) && Character.isSpaceChar(t.charAt(1))) { mTextView.deleteText_internal(prevCharIdx, prevCharIdx + 1); } } } } finally { mTextView.endBatchEdit(); mUndoInputFilter.freezeLastEdit(); } } public void addSpanWatchers(Spannable text) { final int textLength = text.length(); if (mKeyListener != null) { text.setSpan(mKeyListener, 0, textLength, Spanned.SPAN_INCLUSIVE_INCLUSIVE); } if (mSpanController == null) { mSpanController = new SpanController(); } text.setSpan(mSpanController, 0, textLength, Spanned.SPAN_INCLUSIVE_INCLUSIVE); } void setContextMenuAnchor(float x, float y) { mContextMenuAnchorX = x; mContextMenuAnchorY = y; } void onCreateContextMenu(ContextMenu menu) { if (mIsBeingLongClicked || Float.isNaN(mContextMenuAnchorX) || Float.isNaN(mContextMenuAnchorY)) { return; } final int offset = mTextView.getOffsetForPosition(mContextMenuAnchorX, mContextMenuAnchorY); if (offset == -1) { return; } stopTextActionModeWithPreservingSelection(); if (mTextView.canSelectText()) { final boolean isOnSelection = mTextView.hasSelection() && offset >= mTextView.getSelectionStart() && offset <= mTextView.getSelectionEnd(); if (!isOnSelection) { // Right clicked position is not on the selection. Remove the selection and move the // cursor to the right clicked position. Selection.setSelection((Spannable) mTextView.getText(), offset); stopTextActionMode(); } } if (shouldOfferToShowSuggestions()) { final SuggestionInfo[] suggestionInfoArray = new SuggestionInfo[SuggestionSpan.SUGGESTIONS_MAX_SIZE]; for (int i = 0; i < suggestionInfoArray.length; i++) { suggestionInfoArray[i] = new SuggestionInfo(); } final SubMenu subMenu = menu.addSubMenu(Menu.NONE, Menu.NONE, MENU_ITEM_ORDER_REPLACE, com.android.internal.R.string.replace); final int numItems = mSuggestionHelper.getSuggestionInfo(suggestionInfoArray, null); for (int i = 0; i < numItems; i++) { final SuggestionInfo info = suggestionInfoArray[i]; subMenu.add(Menu.NONE, Menu.NONE, i, info.mText) .setOnMenuItemClickListener(new MenuItem.OnMenuItemClickListener() { @Override public boolean onMenuItemClick(MenuItem item) { replaceWithSuggestion(info); return true; } }); } } menu.add(Menu.NONE, TextView.ID_UNDO, MENU_ITEM_ORDER_UNDO, com.android.internal.R.string.undo) .setAlphabeticShortcut('z').setOnMenuItemClickListener(mOnContextMenuItemClickListener) .setEnabled(mTextView.canUndo()); menu.add(Menu.NONE, TextView.ID_REDO, MENU_ITEM_ORDER_REDO, com.android.internal.R.string.redo) .setOnMenuItemClickListener(mOnContextMenuItemClickListener).setEnabled(mTextView.canRedo()); menu.add(Menu.NONE, TextView.ID_CUT, MENU_ITEM_ORDER_CUT, com.android.internal.R.string.cut) .setAlphabeticShortcut('x').setOnMenuItemClickListener(mOnContextMenuItemClickListener) .setEnabled(mTextView.canCut()); menu.add(Menu.NONE, TextView.ID_COPY, MENU_ITEM_ORDER_COPY, com.android.internal.R.string.copy) .setAlphabeticShortcut('c').setOnMenuItemClickListener(mOnContextMenuItemClickListener) .setEnabled(mTextView.canCopy()); menu.add(Menu.NONE, TextView.ID_PASTE, MENU_ITEM_ORDER_PASTE, com.android.internal.R.string.paste) .setAlphabeticShortcut('v').setEnabled(mTextView.canPaste()) .setOnMenuItemClickListener(mOnContextMenuItemClickListener); menu.add(Menu.NONE, TextView.ID_PASTE_AS_PLAIN_TEXT, MENU_ITEM_ORDER_PASTE_AS_PLAIN_TEXT, com.android.internal.R.string.paste_as_plain_text).setEnabled(mTextView.canPasteAsPlainText()) .setOnMenuItemClickListener(mOnContextMenuItemClickListener); menu.add(Menu.NONE, TextView.ID_SHARE, MENU_ITEM_ORDER_SHARE, com.android.internal.R.string.share) .setEnabled(mTextView.canShare()).setOnMenuItemClickListener(mOnContextMenuItemClickListener); menu.add(Menu.NONE, TextView.ID_SELECT_ALL, MENU_ITEM_ORDER_SELECT_ALL, com.android.internal.R.string.selectAll).setAlphabeticShortcut('a') .setEnabled(mTextView.canSelectAllText()) .setOnMenuItemClickListener(mOnContextMenuItemClickListener); menu.add(Menu.NONE, TextView.ID_AUTOFILL, MENU_ITEM_ORDER_AUTOFILL, android.R.string.autofill) .setEnabled(mTextView.canRequestAutofill()) .setOnMenuItemClickListener(mOnContextMenuItemClickListener); mPreserveSelection = true; } @Nullable private SuggestionSpan findEquivalentSuggestionSpan(@NonNull SuggestionSpanInfo suggestionSpanInfo) { final Editable editable = (Editable) mTextView.getText(); if (editable.getSpanStart(suggestionSpanInfo.mSuggestionSpan) >= 0) { // Exactly same span is found. return suggestionSpanInfo.mSuggestionSpan; } // Suggestion span couldn't be found. Try to find a suggestion span that has the same // contents. final SuggestionSpan[] suggestionSpans = editable.getSpans(suggestionSpanInfo.mSpanStart, suggestionSpanInfo.mSpanEnd, SuggestionSpan.class); for (final SuggestionSpan suggestionSpan : suggestionSpans) { final int start = editable.getSpanStart(suggestionSpan); if (start != suggestionSpanInfo.mSpanStart) { continue; } final int end = editable.getSpanEnd(suggestionSpan); if (end != suggestionSpanInfo.mSpanEnd) { continue; } if (suggestionSpan.equals(suggestionSpanInfo.mSuggestionSpan)) { return suggestionSpan; } } return null; } private void replaceWithSuggestion(@NonNull final SuggestionInfo suggestionInfo) { final SuggestionSpan targetSuggestionSpan = findEquivalentSuggestionSpan( suggestionInfo.mSuggestionSpanInfo); if (targetSuggestionSpan == null) { // Span has been removed return; } final Editable editable = (Editable) mTextView.getText(); final int spanStart = editable.getSpanStart(targetSuggestionSpan); final int spanEnd = editable.getSpanEnd(targetSuggestionSpan); if (spanStart < 0 || spanEnd <= spanStart) { // Span has been removed return; } final String originalText = TextUtils.substring(editable, spanStart, spanEnd); // SuggestionSpans are removed by replace: save them before SuggestionSpan[] suggestionSpans = editable.getSpans(spanStart, spanEnd, SuggestionSpan.class); final int length = suggestionSpans.length; int[] suggestionSpansStarts = new int[length]; int[] suggestionSpansEnds = new int[length]; int[] suggestionSpansFlags = new int[length]; for (int i = 0; i < length; i++) { final SuggestionSpan suggestionSpan = suggestionSpans[i]; suggestionSpansStarts[i] = editable.getSpanStart(suggestionSpan); suggestionSpansEnds[i] = editable.getSpanEnd(suggestionSpan); suggestionSpansFlags[i] = editable.getSpanFlags(suggestionSpan); // Remove potential misspelled flags int suggestionSpanFlags = suggestionSpan.getFlags(); if ((suggestionSpanFlags & SuggestionSpan.FLAG_MISSPELLED) != 0) { suggestionSpanFlags &= ~SuggestionSpan.FLAG_MISSPELLED; suggestionSpanFlags &= ~SuggestionSpan.FLAG_EASY_CORRECT; suggestionSpan.setFlags(suggestionSpanFlags); } } // Notify source IME of the suggestion pick. Do this before swapping texts. targetSuggestionSpan.notifySelection(mTextView.getContext(), originalText, suggestionInfo.mSuggestionIndex); // Swap text content between actual text and Suggestion span final int suggestionStart = suggestionInfo.mSuggestionStart; final int suggestionEnd = suggestionInfo.mSuggestionEnd; final String suggestion = suggestionInfo.mText.subSequence(suggestionStart, suggestionEnd).toString(); mTextView.replaceText_internal(spanStart, spanEnd, suggestion); String[] suggestions = targetSuggestionSpan.getSuggestions(); suggestions[suggestionInfo.mSuggestionIndex] = originalText; // Restore previous SuggestionSpans final int lengthDelta = suggestion.length() - (spanEnd - spanStart); for (int i = 0; i < length; i++) { // Only spans that include the modified region make sense after replacement // Spans partially included in the replaced region are removed, there is no // way to assign them a valid range after replacement if (suggestionSpansStarts[i] <= spanStart && suggestionSpansEnds[i] >= spanEnd) { mTextView.setSpan_internal(suggestionSpans[i], suggestionSpansStarts[i], suggestionSpansEnds[i] + lengthDelta, suggestionSpansFlags[i]); } } // Move cursor at the end of the replaced word final int newCursorPosition = spanEnd + lengthDelta; mTextView.setCursorPosition_internal(newCursorPosition, newCursorPosition); } private final MenuItem.OnMenuItemClickListener mOnContextMenuItemClickListener = new MenuItem.OnMenuItemClickListener() { @Override public boolean onMenuItemClick(MenuItem item) { if (mProcessTextIntentActionsHandler.performMenuItemAction(item)) { return true; } return mTextView.onTextContextMenuItem(item.getItemId()); } }; /** * Controls the {@link EasyEditSpan} monitoring when it is added, and when the related * pop-up should be displayed. * Also monitors {@link Selection} to call back to the attached input method. */ private class SpanController implements SpanWatcher { private static final int DISPLAY_TIMEOUT_MS = 3000; // 3 secs private EasyEditPopupWindow mPopupWindow; private Runnable mHidePopup; // This function is pure but inner classes can't have static functions private boolean isNonIntermediateSelectionSpan(final Spannable text, final Object span) { return (Selection.SELECTION_START == span || Selection.SELECTION_END == span) && (text.getSpanFlags(span) & Spanned.SPAN_INTERMEDIATE) == 0; } @Override public void onSpanAdded(Spannable text, Object span, int start, int end) { if (isNonIntermediateSelectionSpan(text, span)) { sendUpdateSelection(); } else if (span instanceof EasyEditSpan) { if (mPopupWindow == null) { mPopupWindow = new EasyEditPopupWindow(); mHidePopup = new Runnable() { @Override public void run() { hide(); } }; } // Make sure there is only at most one EasyEditSpan in the text if (mPopupWindow.mEasyEditSpan != null) { mPopupWindow.mEasyEditSpan.setDeleteEnabled(false); } mPopupWindow.setEasyEditSpan((EasyEditSpan) span); mPopupWindow.setOnDeleteListener(new EasyEditDeleteListener() { @Override public void onDeleteClick(EasyEditSpan span) { Editable editable = (Editable) mTextView.getText(); int start = editable.getSpanStart(span); int end = editable.getSpanEnd(span); if (start >= 0 && end >= 0) { sendEasySpanNotification(EasyEditSpan.TEXT_DELETED, span); mTextView.deleteText_internal(start, end); } editable.removeSpan(span); } }); if (mTextView.getWindowVisibility() != View.VISIBLE) { // The window is not visible yet, ignore the text change. return; } if (mTextView.getLayout() == null) { // The view has not been laid out yet, ignore the text change return; } if (extractedTextModeWillBeStarted()) { // The input is in extract mode. Do not handle the easy edit in // the original TextView, as the ExtractEditText will do return; } mPopupWindow.show(); mTextView.removeCallbacks(mHidePopup); mTextView.postDelayed(mHidePopup, DISPLAY_TIMEOUT_MS); } } @Override public void onSpanRemoved(Spannable text, Object span, int start, int end) { if (isNonIntermediateSelectionSpan(text, span)) { sendUpdateSelection(); } else if (mPopupWindow != null && span == mPopupWindow.mEasyEditSpan) { hide(); } } @Override public void onSpanChanged(Spannable text, Object span, int previousStart, int previousEnd, int newStart, int newEnd) { if (isNonIntermediateSelectionSpan(text, span)) { sendUpdateSelection(); } else if (mPopupWindow != null && span instanceof EasyEditSpan) { EasyEditSpan easyEditSpan = (EasyEditSpan) span; sendEasySpanNotification(EasyEditSpan.TEXT_MODIFIED, easyEditSpan); text.removeSpan(easyEditSpan); } } public void hide() { if (mPopupWindow != null) { mPopupWindow.hide(); mTextView.removeCallbacks(mHidePopup); } } private void sendEasySpanNotification(int textChangedType, EasyEditSpan span) { try { PendingIntent pendingIntent = span.getPendingIntent(); if (pendingIntent != null) { Intent intent = new Intent(); intent.putExtra(EasyEditSpan.EXTRA_TEXT_CHANGED_TYPE, textChangedType); pendingIntent.send(mTextView.getContext(), 0, intent); } } catch (CanceledException e) { // This should not happen, as we should try to send the intent only once. Log.w(TAG, "PendingIntent for notification cannot be sent", e); } } } /** * Listens for the delete event triggered by {@link EasyEditPopupWindow}. */ private interface EasyEditDeleteListener { /** * Clicks the delete pop-up. */ void onDeleteClick(EasyEditSpan span); } /** * Displays the actions associated to an {@link EasyEditSpan}. The pop-up is controlled * by {@link SpanController}. */ private class EasyEditPopupWindow extends PinnedPopupWindow implements OnClickListener { private static final int POPUP_TEXT_LAYOUT = com.android.internal.R.layout.text_edit_action_popup_text; private TextView mDeleteTextView; private EasyEditSpan mEasyEditSpan; private EasyEditDeleteListener mOnDeleteListener; @Override protected void createPopupWindow() { mPopupWindow = new PopupWindow(mTextView.getContext(), null, com.android.internal.R.attr.textSelectHandleWindowStyle); mPopupWindow.setInputMethodMode(PopupWindow.INPUT_METHOD_NOT_NEEDED); mPopupWindow.setClippingEnabled(true); } @Override protected void initContentView() { LinearLayout linearLayout = new LinearLayout(mTextView.getContext()); linearLayout.setOrientation(LinearLayout.HORIZONTAL); mContentView = linearLayout; mContentView.setBackgroundResource(com.android.internal.R.drawable.text_edit_side_paste_window); LayoutInflater inflater = (LayoutInflater) mTextView.getContext() .getSystemService(Context.LAYOUT_INFLATER_SERVICE); LayoutParams wrapContent = new LayoutParams(ViewGroup.LayoutParams.WRAP_CONTENT, ViewGroup.LayoutParams.WRAP_CONTENT); mDeleteTextView = (TextView) inflater.inflate(POPUP_TEXT_LAYOUT, null); mDeleteTextView.setLayoutParams(wrapContent); mDeleteTextView.setText(com.android.internal.R.string.delete); mDeleteTextView.setOnClickListener(this); mContentView.addView(mDeleteTextView); } public void setEasyEditSpan(EasyEditSpan easyEditSpan) { mEasyEditSpan = easyEditSpan; } private void setOnDeleteListener(EasyEditDeleteListener listener) { mOnDeleteListener = listener; } @Override public void onClick(View view) { if (view == mDeleteTextView && mEasyEditSpan != null && mEasyEditSpan.isDeleteEnabled() && mOnDeleteListener != null) { mOnDeleteListener.onDeleteClick(mEasyEditSpan); } } @Override public void hide() { if (mEasyEditSpan != null) { mEasyEditSpan.setDeleteEnabled(false); } mOnDeleteListener = null; super.hide(); } @Override protected int getTextOffset() { // Place the pop-up at the end of the span Editable editable = (Editable) mTextView.getText(); return editable.getSpanEnd(mEasyEditSpan); } @Override protected int getVerticalLocalPosition(int line) { final Layout layout = mTextView.getLayout(); return layout.getLineBottomWithoutSpacing(line); } @Override protected int clipVertically(int positionY) { // As we display the pop-up below the span, no vertical clipping is required. return positionY; } } private class PositionListener implements ViewTreeObserver.OnPreDrawListener { // 3 handles // 3 ActionPopup [replace, suggestion, easyedit] (suggestionsPopup first hides the others) // 1 CursorAnchorInfoNotifier private static final int MAXIMUM_NUMBER_OF_LISTENERS = 7; private TextViewPositionListener[] mPositionListeners = new TextViewPositionListener[MAXIMUM_NUMBER_OF_LISTENERS]; private boolean[] mCanMove = new boolean[MAXIMUM_NUMBER_OF_LISTENERS]; private boolean mPositionHasChanged = true; // Absolute position of the TextView with respect to its parent window private int mPositionX, mPositionY; private int mPositionXOnScreen, mPositionYOnScreen; private int mNumberOfListeners; private boolean mScrollHasChanged; final int[] mTempCoords = new int[2]; public void addSubscriber(TextViewPositionListener positionListener, boolean canMove) { if (mNumberOfListeners == 0) { updatePosition(); ViewTreeObserver vto = mTextView.getViewTreeObserver(); vto.addOnPreDrawListener(this); } int emptySlotIndex = -1; for (int i = 0; i < MAXIMUM_NUMBER_OF_LISTENERS; i++) { TextViewPositionListener listener = mPositionListeners[i]; if (listener == positionListener) { return; } else if (emptySlotIndex < 0 && listener == null) { emptySlotIndex = i; } } mPositionListeners[emptySlotIndex] = positionListener; mCanMove[emptySlotIndex] = canMove; mNumberOfListeners++; } public void removeSubscriber(TextViewPositionListener positionListener) { for (int i = 0; i < MAXIMUM_NUMBER_OF_LISTENERS; i++) { if (mPositionListeners[i] == positionListener) { mPositionListeners[i] = null; mNumberOfListeners--; break; } } if (mNumberOfListeners == 0) { ViewTreeObserver vto = mTextView.getViewTreeObserver(); vto.removeOnPreDrawListener(this); } } public int getPositionX() { return mPositionX; } public int getPositionY() { return mPositionY; } public int getPositionXOnScreen() { return mPositionXOnScreen; } public int getPositionYOnScreen() { return mPositionYOnScreen; } @Override public boolean onPreDraw() { updatePosition(); for (int i = 0; i < MAXIMUM_NUMBER_OF_LISTENERS; i++) { if (mPositionHasChanged || mScrollHasChanged || mCanMove[i]) { TextViewPositionListener positionListener = mPositionListeners[i]; if (positionListener != null) { positionListener.updatePosition(mPositionX, mPositionY, mPositionHasChanged, mScrollHasChanged); } } } mScrollHasChanged = false; return true; } private void updatePosition() { mTextView.getLocationInWindow(mTempCoords); mPositionHasChanged = mTempCoords[0] != mPositionX || mTempCoords[1] != mPositionY; mPositionX = mTempCoords[0]; mPositionY = mTempCoords[1]; mTextView.getLocationOnScreen(mTempCoords); mPositionXOnScreen = mTempCoords[0]; mPositionYOnScreen = mTempCoords[1]; } public void onScrollChanged() { mScrollHasChanged = true; } } private abstract class PinnedPopupWindow implements TextViewPositionListener { protected PopupWindow mPopupWindow; protected ViewGroup mContentView; int mPositionX, mPositionY; int mClippingLimitLeft, mClippingLimitRight; protected abstract void createPopupWindow(); protected abstract void initContentView(); protected abstract int getTextOffset(); protected abstract int getVerticalLocalPosition(int line); protected abstract int clipVertically(int positionY); protected void setUp() { } public PinnedPopupWindow() { // Due to calling subclass methods in base constructor, subclass constructor is not // called before subclass methods, e.g. createPopupWindow or initContentView. To give // a chance to initialize subclasses, call setUp() method here. // TODO: It is good to extract non trivial initialization code from constructor. setUp(); createPopupWindow(); mPopupWindow.setWindowLayoutType(WindowManager.LayoutParams.TYPE_APPLICATION_ABOVE_SUB_PANEL); mPopupWindow.setWidth(ViewGroup.LayoutParams.WRAP_CONTENT); mPopupWindow.setHeight(ViewGroup.LayoutParams.WRAP_CONTENT); initContentView(); LayoutParams wrapContent = new LayoutParams(ViewGroup.LayoutParams.WRAP_CONTENT, ViewGroup.LayoutParams.WRAP_CONTENT); mContentView.setLayoutParams(wrapContent); mPopupWindow.setContentView(mContentView); } public void show() { getPositionListener().addSubscriber(this, false /* offset is fixed */); computeLocalPosition(); final PositionListener positionListener = getPositionListener(); updatePosition(positionListener.getPositionX(), positionListener.getPositionY()); } protected void measureContent() { final DisplayMetrics displayMetrics = mTextView.getResources().getDisplayMetrics(); mContentView.measure( View.MeasureSpec.makeMeasureSpec(displayMetrics.widthPixels, View.MeasureSpec.AT_MOST), View.MeasureSpec.makeMeasureSpec(displayMetrics.heightPixels, View.MeasureSpec.AT_MOST)); } /* The popup window will be horizontally centered on the getTextOffset() and vertically * positioned according to viewportToContentHorizontalOffset. * * This method assumes that mContentView has properly been measured from its content. */ private void computeLocalPosition() { measureContent(); final int width = mContentView.getMeasuredWidth(); final int offset = getTextOffset(); mPositionX = (int) (mTextView.getLayout().getPrimaryHorizontal(offset) - width / 2.0f); mPositionX += mTextView.viewportToContentHorizontalOffset(); final int line = mTextView.getLayout().getLineForOffset(offset); mPositionY = getVerticalLocalPosition(line); mPositionY += mTextView.viewportToContentVerticalOffset(); } private void updatePosition(int parentPositionX, int parentPositionY) { int positionX = parentPositionX + mPositionX; int positionY = parentPositionY + mPositionY; positionY = clipVertically(positionY); // Horizontal clipping final DisplayMetrics displayMetrics = mTextView.getResources().getDisplayMetrics(); final int width = mContentView.getMeasuredWidth(); positionX = Math.min(displayMetrics.widthPixels - width + mClippingLimitRight, positionX); positionX = Math.max(-mClippingLimitLeft, positionX); if (isShowing()) { mPopupWindow.update(positionX, positionY, -1, -1); } else { mPopupWindow.showAtLocation(mTextView, Gravity.NO_GRAVITY, positionX, positionY); } } public void hide() { if (!isShowing()) { return; } mPopupWindow.dismiss(); getPositionListener().removeSubscriber(this); } @Override public void updatePosition(int parentPositionX, int parentPositionY, boolean parentPositionChanged, boolean parentScrolled) { // Either parentPositionChanged or parentScrolled is true, check if still visible if (isShowing() && isOffsetVisible(getTextOffset())) { if (parentScrolled) computeLocalPosition(); updatePosition(parentPositionX, parentPositionY); } else { hide(); } } public boolean isShowing() { return mPopupWindow.isShowing(); } } private static final class SuggestionInfo { // Range of actual suggestion within mText int mSuggestionStart, mSuggestionEnd; // The SuggestionSpan that this TextView represents final SuggestionSpanInfo mSuggestionSpanInfo = new SuggestionSpanInfo(); // The index of this suggestion inside suggestionSpan int mSuggestionIndex; final SpannableStringBuilder mText = new SpannableStringBuilder(); void clear() { mSuggestionSpanInfo.clear(); mText.clear(); } // Utility method to set attributes about a SuggestionSpan. void setSpanInfo(SuggestionSpan span, int spanStart, int spanEnd) { mSuggestionSpanInfo.mSuggestionSpan = span; mSuggestionSpanInfo.mSpanStart = spanStart; mSuggestionSpanInfo.mSpanEnd = spanEnd; } } private static final class SuggestionSpanInfo { // The SuggestionSpan; @Nullable SuggestionSpan mSuggestionSpan; // The SuggestionSpan start position int mSpanStart; // The SuggestionSpan end position int mSpanEnd; void clear() { mSuggestionSpan = null; } } private class SuggestionHelper { private final Comparator<SuggestionSpan> mSuggestionSpanComparator = new SuggestionSpanComparator(); private final HashMap<SuggestionSpan, Integer> mSpansLengths = new HashMap<SuggestionSpan, Integer>(); private class SuggestionSpanComparator implements Comparator<SuggestionSpan> { public int compare(SuggestionSpan span1, SuggestionSpan span2) { final int flag1 = span1.getFlags(); final int flag2 = span2.getFlags(); if (flag1 != flag2) { // The order here should match what is used in updateDrawState final boolean easy1 = (flag1 & SuggestionSpan.FLAG_EASY_CORRECT) != 0; final boolean easy2 = (flag2 & SuggestionSpan.FLAG_EASY_CORRECT) != 0; final boolean misspelled1 = (flag1 & SuggestionSpan.FLAG_MISSPELLED) != 0; final boolean misspelled2 = (flag2 & SuggestionSpan.FLAG_MISSPELLED) != 0; if (easy1 && !misspelled1) return -1; if (easy2 && !misspelled2) return 1; if (misspelled1) return -1; if (misspelled2) return 1; } return mSpansLengths.get(span1).intValue() - mSpansLengths.get(span2).intValue(); } } /** * Returns the suggestion spans that cover the current cursor position. The suggestion * spans are sorted according to the length of text that they are attached to. */ private SuggestionSpan[] getSortedSuggestionSpans() { int pos = mTextView.getSelectionStart(); Spannable spannable = (Spannable) mTextView.getText(); SuggestionSpan[] suggestionSpans = spannable.getSpans(pos, pos, SuggestionSpan.class); mSpansLengths.clear(); for (SuggestionSpan suggestionSpan : suggestionSpans) { int start = spannable.getSpanStart(suggestionSpan); int end = spannable.getSpanEnd(suggestionSpan); mSpansLengths.put(suggestionSpan, Integer.valueOf(end - start)); } // The suggestions are sorted according to their types (easy correction first, then // misspelled) and to the length of the text that they cover (shorter first). Arrays.sort(suggestionSpans, mSuggestionSpanComparator); mSpansLengths.clear(); return suggestionSpans; } /** * Gets the SuggestionInfo list that contains suggestion information at the current cursor * position. * * @param suggestionInfos SuggestionInfo array the results will be set. * @param misspelledSpanInfo a struct the misspelled SuggestionSpan info will be set. * @return the number of suggestions actually fetched. */ public int getSuggestionInfo(SuggestionInfo[] suggestionInfos, @Nullable SuggestionSpanInfo misspelledSpanInfo) { final Spannable spannable = (Spannable) mTextView.getText(); final SuggestionSpan[] suggestionSpans = getSortedSuggestionSpans(); final int nbSpans = suggestionSpans.length; if (nbSpans == 0) return 0; int numberOfSuggestions = 0; for (final SuggestionSpan suggestionSpan : suggestionSpans) { final int spanStart = spannable.getSpanStart(suggestionSpan); final int spanEnd = spannable.getSpanEnd(suggestionSpan); if (misspelledSpanInfo != null && (suggestionSpan.getFlags() & SuggestionSpan.FLAG_MISSPELLED) != 0) { misspelledSpanInfo.mSuggestionSpan = suggestionSpan; misspelledSpanInfo.mSpanStart = spanStart; misspelledSpanInfo.mSpanEnd = spanEnd; } final String[] suggestions = suggestionSpan.getSuggestions(); final int nbSuggestions = suggestions.length; suggestionLoop: for (int suggestionIndex = 0; suggestionIndex < nbSuggestions; suggestionIndex++) { final String suggestion = suggestions[suggestionIndex]; for (int i = 0; i < numberOfSuggestions; i++) { final SuggestionInfo otherSuggestionInfo = suggestionInfos[i]; if (otherSuggestionInfo.mText.toString().equals(suggestion)) { final int otherSpanStart = otherSuggestionInfo.mSuggestionSpanInfo.mSpanStart; final int otherSpanEnd = otherSuggestionInfo.mSuggestionSpanInfo.mSpanEnd; if (spanStart == otherSpanStart && spanEnd == otherSpanEnd) { continue suggestionLoop; } } } SuggestionInfo suggestionInfo = suggestionInfos[numberOfSuggestions]; suggestionInfo.setSpanInfo(suggestionSpan, spanStart, spanEnd); suggestionInfo.mSuggestionIndex = suggestionIndex; suggestionInfo.mSuggestionStart = 0; suggestionInfo.mSuggestionEnd = suggestion.length(); suggestionInfo.mText.replace(0, suggestionInfo.mText.length(), suggestion); numberOfSuggestions++; if (numberOfSuggestions >= suggestionInfos.length) { return numberOfSuggestions; } } } return numberOfSuggestions; } } @VisibleForTesting public class SuggestionsPopupWindow extends PinnedPopupWindow implements OnItemClickListener { private static final int MAX_NUMBER_SUGGESTIONS = SuggestionSpan.SUGGESTIONS_MAX_SIZE; // Key of intent extras for inserting new word into user dictionary. private static final String USER_DICTIONARY_EXTRA_WORD = "word"; private static final String USER_DICTIONARY_EXTRA_LOCALE = "locale"; private SuggestionInfo[] mSuggestionInfos; private int mNumberOfSuggestions; private boolean mCursorWasVisibleBeforeSuggestions; private boolean mIsShowingUp = false; private SuggestionAdapter mSuggestionsAdapter; private TextAppearanceSpan mHighlightSpan; // TODO: Make mHighlightSpan final. private TextView mAddToDictionaryButton; private TextView mDeleteButton; private ListView mSuggestionListView; private final SuggestionSpanInfo mMisspelledSpanInfo = new SuggestionSpanInfo(); private int mContainerMarginWidth; private int mContainerMarginTop; private LinearLayout mContainerView; private Context mContext; // TODO: Make mContext final. private class CustomPopupWindow extends PopupWindow { @Override public void dismiss() { if (!isShowing()) { return; } super.dismiss(); getPositionListener().removeSubscriber(SuggestionsPopupWindow.this); // Safe cast since show() checks that mTextView.getText() is an Editable ((Spannable) mTextView.getText()).removeSpan(mSuggestionRangeSpan); mTextView.setCursorVisible(mCursorWasVisibleBeforeSuggestions); if (hasInsertionController() && !extractedTextModeWillBeStarted()) { getInsertionController().show(); } } } public SuggestionsPopupWindow() { mCursorWasVisibleBeforeSuggestions = mCursorVisible; } @Override protected void setUp() { mContext = applyDefaultTheme(mTextView.getContext()); mHighlightSpan = new TextAppearanceSpan(mContext, mTextView.mTextEditSuggestionHighlightStyle); } private Context applyDefaultTheme(Context originalContext) { TypedArray a = originalContext .obtainStyledAttributes(new int[] { com.android.internal.R.attr.isLightTheme }); boolean isLightTheme = a.getBoolean(0, true); int themeId = isLightTheme ? R.style.ThemeOverlay_Material_Light : R.style.ThemeOverlay_Material_Dark; a.recycle(); return new ContextThemeWrapper(originalContext, themeId); } @Override protected void createPopupWindow() { mPopupWindow = new CustomPopupWindow(); mPopupWindow.setInputMethodMode(PopupWindow.INPUT_METHOD_NOT_NEEDED); mPopupWindow.setBackgroundDrawable(new ColorDrawable(Color.TRANSPARENT)); mPopupWindow.setFocusable(true); mPopupWindow.setClippingEnabled(false); } @Override protected void initContentView() { final LayoutInflater inflater = (LayoutInflater) mContext .getSystemService(Context.LAYOUT_INFLATER_SERVICE); mContentView = (ViewGroup) inflater.inflate(mTextView.mTextEditSuggestionContainerLayout, null); mContainerView = (LinearLayout) mContentView .findViewById(com.android.internal.R.id.suggestionWindowContainer); ViewGroup.MarginLayoutParams lp = (ViewGroup.MarginLayoutParams) mContainerView.getLayoutParams(); mContainerMarginWidth = lp.leftMargin + lp.rightMargin; mContainerMarginTop = lp.topMargin; mClippingLimitLeft = lp.leftMargin; mClippingLimitRight = lp.rightMargin; mSuggestionListView = (ListView) mContentView .findViewById(com.android.internal.R.id.suggestionContainer); mSuggestionsAdapter = new SuggestionAdapter(); mSuggestionListView.setAdapter(mSuggestionsAdapter); mSuggestionListView.setOnItemClickListener(this); // Inflate the suggestion items once and for all. mSuggestionInfos = new SuggestionInfo[MAX_NUMBER_SUGGESTIONS]; for (int i = 0; i < mSuggestionInfos.length; i++) { mSuggestionInfos[i] = new SuggestionInfo(); } mAddToDictionaryButton = (TextView) mContentView .findViewById(com.android.internal.R.id.addToDictionaryButton); mAddToDictionaryButton.setOnClickListener(new View.OnClickListener() { public void onClick(View v) { final SuggestionSpan misspelledSpan = findEquivalentSuggestionSpan(mMisspelledSpanInfo); if (misspelledSpan == null) { // Span has been removed. return; } final Editable editable = (Editable) mTextView.getText(); final int spanStart = editable.getSpanStart(misspelledSpan); final int spanEnd = editable.getSpanEnd(misspelledSpan); if (spanStart < 0 || spanEnd <= spanStart) { return; } final String originalText = TextUtils.substring(editable, spanStart, spanEnd); final Intent intent = new Intent(Settings.ACTION_USER_DICTIONARY_INSERT); intent.putExtra(USER_DICTIONARY_EXTRA_WORD, originalText); intent.putExtra(USER_DICTIONARY_EXTRA_LOCALE, mTextView.getTextServicesLocale().toString()); intent.setFlags(intent.getFlags() | Intent.FLAG_ACTIVITY_NEW_TASK); mTextView.getContext().startActivity(intent); // There is no way to know if the word was indeed added. Re-check. // TODO The ExtractEditText should remove the span in the original text instead editable.removeSpan(mMisspelledSpanInfo.mSuggestionSpan); Selection.setSelection(editable, spanEnd); updateSpellCheckSpans(spanStart, spanEnd, false); hideWithCleanUp(); } }); mDeleteButton = (TextView) mContentView.findViewById(com.android.internal.R.id.deleteButton); mDeleteButton.setOnClickListener(new View.OnClickListener() { public void onClick(View v) { final Editable editable = (Editable) mTextView.getText(); final int spanUnionStart = editable.getSpanStart(mSuggestionRangeSpan); int spanUnionEnd = editable.getSpanEnd(mSuggestionRangeSpan); if (spanUnionStart >= 0 && spanUnionEnd > spanUnionStart) { // Do not leave two adjacent spaces after deletion, or one at beginning of // text if (spanUnionEnd < editable.length() && Character.isSpaceChar(editable.charAt(spanUnionEnd)) && (spanUnionStart == 0 || Character.isSpaceChar(editable.charAt(spanUnionStart - 1)))) { spanUnionEnd = spanUnionEnd + 1; } mTextView.deleteText_internal(spanUnionStart, spanUnionEnd); } hideWithCleanUp(); } }); } public boolean isShowingUp() { return mIsShowingUp; } public void onParentLostFocus() { mIsShowingUp = false; } private class SuggestionAdapter extends BaseAdapter { private LayoutInflater mInflater = (LayoutInflater) mContext .getSystemService(Context.LAYOUT_INFLATER_SERVICE); @Override public int getCount() { return mNumberOfSuggestions; } @Override public Object getItem(int position) { return mSuggestionInfos[position]; } @Override public long getItemId(int position) { return position; } @Override public View getView(int position, View convertView, ViewGroup parent) { TextView textView = (TextView) convertView; if (textView == null) { textView = (TextView) mInflater.inflate(mTextView.mTextEditSuggestionItemLayout, parent, false); } final SuggestionInfo suggestionInfo = mSuggestionInfos[position]; textView.setText(suggestionInfo.mText); return textView; } } @VisibleForTesting public ViewGroup getContentViewForTesting() { return mContentView; } @Override public void show() { if (!(mTextView.getText() instanceof Editable)) return; if (extractedTextModeWillBeStarted()) { return; } if (updateSuggestions()) { mCursorWasVisibleBeforeSuggestions = mCursorVisible; mTextView.setCursorVisible(false); mIsShowingUp = true; super.show(); } mSuggestionListView.setVisibility(mNumberOfSuggestions == 0 ? View.GONE : View.VISIBLE); } @Override protected void measureContent() { final DisplayMetrics displayMetrics = mTextView.getResources().getDisplayMetrics(); final int horizontalMeasure = View.MeasureSpec.makeMeasureSpec(displayMetrics.widthPixels, View.MeasureSpec.AT_MOST); final int verticalMeasure = View.MeasureSpec.makeMeasureSpec(displayMetrics.heightPixels, View.MeasureSpec.AT_MOST); int width = 0; View view = null; for (int i = 0; i < mNumberOfSuggestions; i++) { view = mSuggestionsAdapter.getView(i, view, mContentView); view.getLayoutParams().width = LayoutParams.WRAP_CONTENT; view.measure(horizontalMeasure, verticalMeasure); width = Math.max(width, view.getMeasuredWidth()); } if (mAddToDictionaryButton.getVisibility() != View.GONE) { mAddToDictionaryButton.measure(horizontalMeasure, verticalMeasure); width = Math.max(width, mAddToDictionaryButton.getMeasuredWidth()); } mDeleteButton.measure(horizontalMeasure, verticalMeasure); width = Math.max(width, mDeleteButton.getMeasuredWidth()); width += mContainerView.getPaddingLeft() + mContainerView.getPaddingRight() + mContainerMarginWidth; // Enforce the width based on actual text widths mContentView.measure(View.MeasureSpec.makeMeasureSpec(width, View.MeasureSpec.EXACTLY), verticalMeasure); Drawable popupBackground = mPopupWindow.getBackground(); if (popupBackground != null) { if (mTempRect == null) mTempRect = new Rect(); popupBackground.getPadding(mTempRect); width += mTempRect.left + mTempRect.right; } mPopupWindow.setWidth(width); } @Override protected int getTextOffset() { return (mTextView.getSelectionStart() + mTextView.getSelectionStart()) / 2; } @Override protected int getVerticalLocalPosition(int line) { final Layout layout = mTextView.getLayout(); return layout.getLineBottomWithoutSpacing(line) - mContainerMarginTop; } @Override protected int clipVertically(int positionY) { final int height = mContentView.getMeasuredHeight(); final DisplayMetrics displayMetrics = mTextView.getResources().getDisplayMetrics(); return Math.min(positionY, displayMetrics.heightPixels - height); } private void hideWithCleanUp() { for (final SuggestionInfo info : mSuggestionInfos) { info.clear(); } mMisspelledSpanInfo.clear(); hide(); } private boolean updateSuggestions() { Spannable spannable = (Spannable) mTextView.getText(); mNumberOfSuggestions = mSuggestionHelper.getSuggestionInfo(mSuggestionInfos, mMisspelledSpanInfo); if (mNumberOfSuggestions == 0 && mMisspelledSpanInfo.mSuggestionSpan == null) { return false; } int spanUnionStart = mTextView.getText().length(); int spanUnionEnd = 0; for (int i = 0; i < mNumberOfSuggestions; i++) { final SuggestionSpanInfo spanInfo = mSuggestionInfos[i].mSuggestionSpanInfo; spanUnionStart = Math.min(spanUnionStart, spanInfo.mSpanStart); spanUnionEnd = Math.max(spanUnionEnd, spanInfo.mSpanEnd); } if (mMisspelledSpanInfo.mSuggestionSpan != null) { spanUnionStart = Math.min(spanUnionStart, mMisspelledSpanInfo.mSpanStart); spanUnionEnd = Math.max(spanUnionEnd, mMisspelledSpanInfo.mSpanEnd); } for (int i = 0; i < mNumberOfSuggestions; i++) { highlightTextDifferences(mSuggestionInfos[i], spanUnionStart, spanUnionEnd); } // Make "Add to dictionary" item visible if there is a span with the misspelled flag int addToDictionaryButtonVisibility = View.GONE; if (mMisspelledSpanInfo.mSuggestionSpan != null) { if (mMisspelledSpanInfo.mSpanStart >= 0 && mMisspelledSpanInfo.mSpanEnd > mMisspelledSpanInfo.mSpanStart) { addToDictionaryButtonVisibility = View.VISIBLE; } } mAddToDictionaryButton.setVisibility(addToDictionaryButtonVisibility); if (mSuggestionRangeSpan == null) mSuggestionRangeSpan = new SuggestionRangeSpan(); final int underlineColor; if (mNumberOfSuggestions != 0) { underlineColor = mSuggestionInfos[0].mSuggestionSpanInfo.mSuggestionSpan.getUnderlineColor(); } else { underlineColor = mMisspelledSpanInfo.mSuggestionSpan.getUnderlineColor(); } if (underlineColor == 0) { // Fallback on the default highlight color when the first span does not provide one mSuggestionRangeSpan.setBackgroundColor(mTextView.mHighlightColor); } else { final float BACKGROUND_TRANSPARENCY = 0.4f; final int newAlpha = (int) (Color.alpha(underlineColor) * BACKGROUND_TRANSPARENCY); mSuggestionRangeSpan.setBackgroundColor((underlineColor & 0x00FFFFFF) + (newAlpha << 24)); } spannable.setSpan(mSuggestionRangeSpan, spanUnionStart, spanUnionEnd, Spanned.SPAN_EXCLUSIVE_EXCLUSIVE); mSuggestionsAdapter.notifyDataSetChanged(); return true; } private void highlightTextDifferences(SuggestionInfo suggestionInfo, int unionStart, int unionEnd) { final Spannable text = (Spannable) mTextView.getText(); final int spanStart = suggestionInfo.mSuggestionSpanInfo.mSpanStart; final int spanEnd = suggestionInfo.mSuggestionSpanInfo.mSpanEnd; // Adjust the start/end of the suggestion span suggestionInfo.mSuggestionStart = spanStart - unionStart; suggestionInfo.mSuggestionEnd = suggestionInfo.mSuggestionStart + suggestionInfo.mText.length(); suggestionInfo.mText.setSpan(mHighlightSpan, 0, suggestionInfo.mText.length(), Spanned.SPAN_EXCLUSIVE_EXCLUSIVE); // Add the text before and after the span. final String textAsString = text.toString(); suggestionInfo.mText.insert(0, textAsString.substring(unionStart, spanStart)); suggestionInfo.mText.append(textAsString.substring(spanEnd, unionEnd)); } @Override public void onItemClick(AdapterView<?> parent, View view, int position, long id) { SuggestionInfo suggestionInfo = mSuggestionInfos[position]; replaceWithSuggestion(suggestionInfo); hideWithCleanUp(); } } /** * An ActionMode Callback class that is used to provide actions while in text insertion or * selection mode. * * The default callback provides a subset of Select All, Cut, Copy, Paste, Share and Replace * actions, depending on which of these this TextView supports and the current selection. */ private class TextActionModeCallback extends ActionMode.Callback2 { private final Path mSelectionPath = new Path(); private final RectF mSelectionBounds = new RectF(); private final boolean mHasSelection; private final int mHandleHeight; private final Map<MenuItem, OnClickListener> mAssistClickHandlers = new HashMap<>(); TextActionModeCallback(@TextActionMode int mode) { mHasSelection = mode == TextActionMode.SELECTION || (mTextIsSelectable && mode == TextActionMode.TEXT_LINK); if (mHasSelection) { SelectionModifierCursorController selectionController = getSelectionController(); if (selectionController.mStartHandle == null) { // As these are for initializing selectionController, hide() must be called. selectionController.initDrawables(); selectionController.initHandles(); selectionController.hide(); } mHandleHeight = Math.max(mSelectHandleLeft.getMinimumHeight(), mSelectHandleRight.getMinimumHeight()); } else { InsertionPointCursorController insertionController = getInsertionController(); if (insertionController != null) { insertionController.getHandle(); mHandleHeight = mSelectHandleCenter.getMinimumHeight(); } else { mHandleHeight = 0; } } } @Override public boolean onCreateActionMode(ActionMode mode, Menu menu) { mAssistClickHandlers.clear(); mode.setTitle(null); mode.setSubtitle(null); mode.setTitleOptionalHint(true); populateMenuWithItems(menu); Callback customCallback = getCustomCallback(); if (customCallback != null) { if (!customCallback.onCreateActionMode(mode, menu)) { // The custom mode can choose to cancel the action mode, dismiss selection. Selection.setSelection((Spannable) mTextView.getText(), mTextView.getSelectionEnd()); return false; } } if (mTextView.canProcessText()) { mProcessTextIntentActionsHandler.onInitializeMenu(menu); } if (mHasSelection && !mTextView.hasTransientState()) { mTextView.setHasTransientState(true); } return true; } private Callback getCustomCallback() { return mHasSelection ? mCustomSelectionActionModeCallback : mCustomInsertionActionModeCallback; } private void populateMenuWithItems(Menu menu) { if (mTextView.canCut()) { menu.add(Menu.NONE, TextView.ID_CUT, MENU_ITEM_ORDER_CUT, com.android.internal.R.string.cut) .setAlphabeticShortcut('x').setShowAsAction(MenuItem.SHOW_AS_ACTION_ALWAYS); } if (mTextView.canCopy()) { menu.add(Menu.NONE, TextView.ID_COPY, MENU_ITEM_ORDER_COPY, com.android.internal.R.string.copy) .setAlphabeticShortcut('c').setShowAsAction(MenuItem.SHOW_AS_ACTION_ALWAYS); } if (mTextView.canPaste()) { menu.add(Menu.NONE, TextView.ID_PASTE, MENU_ITEM_ORDER_PASTE, com.android.internal.R.string.paste) .setAlphabeticShortcut('v').setShowAsAction(MenuItem.SHOW_AS_ACTION_ALWAYS); } if (mTextView.canShare()) { menu.add(Menu.NONE, TextView.ID_SHARE, MENU_ITEM_ORDER_SHARE, com.android.internal.R.string.share) .setShowAsAction(MenuItem.SHOW_AS_ACTION_IF_ROOM); } if (mTextView.canRequestAutofill()) { final String selected = mTextView.getSelectedText(); if (selected == null || selected.isEmpty()) { menu.add(Menu.NONE, TextView.ID_AUTOFILL, MENU_ITEM_ORDER_AUTOFILL, com.android.internal.R.string.autofill).setShowAsAction(MenuItem.SHOW_AS_ACTION_NEVER); } } if (mTextView.canPasteAsPlainText()) { menu.add(Menu.NONE, TextView.ID_PASTE_AS_PLAIN_TEXT, MENU_ITEM_ORDER_PASTE_AS_PLAIN_TEXT, com.android.internal.R.string.paste_as_plain_text) .setShowAsAction(MenuItem.SHOW_AS_ACTION_IF_ROOM); } updateSelectAllItem(menu); updateReplaceItem(menu); updateAssistMenuItems(menu); } @Override public boolean onPrepareActionMode(ActionMode mode, Menu menu) { updateSelectAllItem(menu); updateReplaceItem(menu); updateAssistMenuItems(menu); Callback customCallback = getCustomCallback(); if (customCallback != null) { return customCallback.onPrepareActionMode(mode, menu); } return true; } private void updateSelectAllItem(Menu menu) { boolean canSelectAll = mTextView.canSelectAllText(); boolean selectAllItemExists = menu.findItem(TextView.ID_SELECT_ALL) != null; if (canSelectAll && !selectAllItemExists) { menu.add(Menu.NONE, TextView.ID_SELECT_ALL, MENU_ITEM_ORDER_SELECT_ALL, com.android.internal.R.string.selectAll).setShowAsAction(MenuItem.SHOW_AS_ACTION_IF_ROOM); } else if (!canSelectAll && selectAllItemExists) { menu.removeItem(TextView.ID_SELECT_ALL); } } private void updateReplaceItem(Menu menu) { boolean canReplace = mTextView.isSuggestionsEnabled() && shouldOfferToShowSuggestions(); boolean replaceItemExists = menu.findItem(TextView.ID_REPLACE) != null; if (canReplace && !replaceItemExists) { menu.add(Menu.NONE, TextView.ID_REPLACE, MENU_ITEM_ORDER_REPLACE, com.android.internal.R.string.replace).setShowAsAction(MenuItem.SHOW_AS_ACTION_IF_ROOM); } else if (!canReplace && replaceItemExists) { menu.removeItem(TextView.ID_REPLACE); } } private void updateAssistMenuItems(Menu menu) { clearAssistMenuItems(menu); if (!shouldEnableAssistMenuItems()) { return; } final TextClassification textClassification = getSelectionActionModeHelper().getTextClassification(); if (textClassification == null) { return; } if (!textClassification.getActions().isEmpty()) { // Primary assist action (Always shown). final MenuItem item = addAssistMenuItem(menu, textClassification.getActions().get(0), TextView.ID_ASSIST, MENU_ITEM_ORDER_ASSIST, MenuItem.SHOW_AS_ACTION_ALWAYS); item.setIntent(textClassification.getIntent()); } else if (hasLegacyAssistItem(textClassification)) { // Legacy primary assist action (Always shown). final MenuItem item = menu .add(TextView.ID_ASSIST, TextView.ID_ASSIST, MENU_ITEM_ORDER_ASSIST, textClassification.getLabel()) .setIcon(textClassification.getIcon()).setIntent(textClassification.getIntent()); item.setShowAsAction(MenuItem.SHOW_AS_ACTION_ALWAYS); mAssistClickHandlers.put(item, TextClassification.createIntentOnClickListener(TextClassification.createPendingIntent( mTextView.getContext(), textClassification.getIntent(), createAssistMenuItemPendingIntentRequestCode()))); } final int count = textClassification.getActions().size(); for (int i = 1; i < count; i++) { // Secondary assist action (Never shown). addAssistMenuItem(menu, textClassification.getActions().get(i), Menu.NONE, MENU_ITEM_ORDER_SECONDARY_ASSIST_ACTIONS_START + i - 1, MenuItem.SHOW_AS_ACTION_NEVER); } } private MenuItem addAssistMenuItem(Menu menu, RemoteAction action, int intemId, int order, int showAsAction) { final MenuItem item = menu.add(TextView.ID_ASSIST, intemId, order, action.getTitle()) .setContentDescription(action.getContentDescription()); if (action.shouldShowIcon()) { item.setIcon(action.getIcon().loadDrawable(mTextView.getContext())); } item.setShowAsAction(showAsAction); mAssistClickHandlers.put(item, TextClassification.createIntentOnClickListener(action.getActionIntent())); return item; } private void clearAssistMenuItems(Menu menu) { int i = 0; while (i < menu.size()) { final MenuItem menuItem = menu.getItem(i); if (menuItem.getGroupId() == TextView.ID_ASSIST) { menu.removeItem(menuItem.getItemId()); continue; } i++; } } private boolean hasLegacyAssistItem(TextClassification classification) { // Check whether we have the UI data and and action. return (classification.getIcon() != null || !TextUtils.isEmpty(classification.getLabel())) && (classification.getIntent() != null || classification.getOnClickListener() != null); } private boolean onAssistMenuItemClicked(MenuItem assistMenuItem) { Preconditions.checkArgument(assistMenuItem.getGroupId() == TextView.ID_ASSIST); final TextClassification textClassification = getSelectionActionModeHelper().getTextClassification(); if (!shouldEnableAssistMenuItems() || textClassification == null) { // No textClassification result to handle the click. Eat the click. return true; } OnClickListener onClickListener = mAssistClickHandlers.get(assistMenuItem); if (onClickListener == null) { final Intent intent = assistMenuItem.getIntent(); if (intent != null) { onClickListener = TextClassification.createIntentOnClickListener( TextClassification.createPendingIntent(mTextView.getContext(), intent, createAssistMenuItemPendingIntentRequestCode())); } } if (onClickListener != null) { onClickListener.onClick(mTextView); stopTextActionMode(); } // We tried our best. return true; } private int createAssistMenuItemPendingIntentRequestCode() { return mTextView.hasSelection() ? mTextView.getText().subSequence(mTextView.getSelectionStart(), mTextView.getSelectionEnd()) .hashCode() : 0; } private boolean shouldEnableAssistMenuItems() { return mTextView.isDeviceProvisioned() && TextClassificationManager.getSettings(mTextView.getContext()).isSmartTextShareEnabled(); } @Override public boolean onActionItemClicked(ActionMode mode, MenuItem item) { getSelectionActionModeHelper().onSelectionAction(item.getItemId()); if (mProcessTextIntentActionsHandler.performMenuItemAction(item)) { return true; } Callback customCallback = getCustomCallback(); if (customCallback != null && customCallback.onActionItemClicked(mode, item)) { return true; } if (item.getGroupId() == TextView.ID_ASSIST && onAssistMenuItemClicked(item)) { return true; } return mTextView.onTextContextMenuItem(item.getItemId()); } @Override public void onDestroyActionMode(ActionMode mode) { // Clear mTextActionMode not to recursively destroy action mode by clearing selection. getSelectionActionModeHelper().onDestroyActionMode(); mTextActionMode = null; Callback customCallback = getCustomCallback(); if (customCallback != null) { customCallback.onDestroyActionMode(mode); } if (!mPreserveSelection) { /* * Leave current selection when we tentatively destroy action mode for the * selection. If we're detaching from a window, we'll bring back the selection * mode when (if) we get reattached. */ Selection.setSelection((Spannable) mTextView.getText(), mTextView.getSelectionEnd()); } if (mSelectionModifierCursorController != null) { mSelectionModifierCursorController.hide(); } mAssistClickHandlers.clear(); mRequestingLinkActionMode = false; } @Override public void onGetContentRect(ActionMode mode, View view, Rect outRect) { if (!view.equals(mTextView) || mTextView.getLayout() == null) { super.onGetContentRect(mode, view, outRect); return; } if (mTextView.getSelectionStart() != mTextView.getSelectionEnd()) { // We have a selection. mSelectionPath.reset(); mTextView.getLayout().getSelectionPath(mTextView.getSelectionStart(), mTextView.getSelectionEnd(), mSelectionPath); mSelectionPath.computeBounds(mSelectionBounds, true); mSelectionBounds.bottom += mHandleHeight; } else { // We have a cursor. Layout layout = mTextView.getLayout(); int line = layout.getLineForOffset(mTextView.getSelectionStart()); float primaryHorizontal = clampHorizontalPosition(null, layout.getPrimaryHorizontal(mTextView.getSelectionStart())); mSelectionBounds.set(primaryHorizontal, layout.getLineTop(line), primaryHorizontal, layout.getLineBottom(line) + mHandleHeight); } // Take TextView's padding and scroll into account. int textHorizontalOffset = mTextView.viewportToContentHorizontalOffset(); int textVerticalOffset = mTextView.viewportToContentVerticalOffset(); outRect.set((int) Math.floor(mSelectionBounds.left + textHorizontalOffset), (int) Math.floor(mSelectionBounds.top + textVerticalOffset), (int) Math.ceil(mSelectionBounds.right + textHorizontalOffset), (int) Math.ceil(mSelectionBounds.bottom + textVerticalOffset)); } } /** * A listener to call {@link InputMethodManager#updateCursorAnchorInfo(View, CursorAnchorInfo)} * while the input method is requesting the cursor/anchor position. Does nothing as long as * {@link InputMethodManager#isWatchingCursor(View)} returns false. */ private final class CursorAnchorInfoNotifier implements TextViewPositionListener { final CursorAnchorInfo.Builder mSelectionInfoBuilder = new CursorAnchorInfo.Builder(); final int[] mTmpIntOffset = new int[2]; final Matrix mViewToScreenMatrix = new Matrix(); @Override public void updatePosition(int parentPositionX, int parentPositionY, boolean parentPositionChanged, boolean parentScrolled) { final InputMethodState ims = mInputMethodState; if (ims == null || ims.mBatchEditNesting > 0) { return; } final InputMethodManager imm = InputMethodManager.peekInstance(); if (null == imm) { return; } if (!imm.isActive(mTextView)) { return; } // Skip if the IME has not requested the cursor/anchor position. if (!imm.isCursorAnchorInfoEnabled()) { return; } Layout layout = mTextView.getLayout(); if (layout == null) { return; } final CursorAnchorInfo.Builder builder = mSelectionInfoBuilder; builder.reset(); final int selectionStart = mTextView.getSelectionStart(); builder.setSelectionRange(selectionStart, mTextView.getSelectionEnd()); // Construct transformation matrix from view local coordinates to screen coordinates. mViewToScreenMatrix.set(mTextView.getMatrix()); mTextView.getLocationOnScreen(mTmpIntOffset); mViewToScreenMatrix.postTranslate(mTmpIntOffset[0], mTmpIntOffset[1]); builder.setMatrix(mViewToScreenMatrix); final float viewportToContentHorizontalOffset = mTextView.viewportToContentHorizontalOffset(); final float viewportToContentVerticalOffset = mTextView.viewportToContentVerticalOffset(); final CharSequence text = mTextView.getText(); if (text instanceof Spannable) { final Spannable sp = (Spannable) text; int composingTextStart = EditableInputConnection.getComposingSpanStart(sp); int composingTextEnd = EditableInputConnection.getComposingSpanEnd(sp); if (composingTextEnd < composingTextStart) { final int temp = composingTextEnd; composingTextEnd = composingTextStart; composingTextStart = temp; } final boolean hasComposingText = (0 <= composingTextStart) && (composingTextStart < composingTextEnd); if (hasComposingText) { final CharSequence composingText = text.subSequence(composingTextStart, composingTextEnd); builder.setComposingText(composingTextStart, composingText); mTextView.populateCharacterBounds(builder, composingTextStart, composingTextEnd, viewportToContentHorizontalOffset, viewportToContentVerticalOffset); } } // Treat selectionStart as the insertion point. if (0 <= selectionStart) { final int offset = selectionStart; final int line = layout.getLineForOffset(offset); final float insertionMarkerX = layout.getPrimaryHorizontal(offset) + viewportToContentHorizontalOffset; final float insertionMarkerTop = layout.getLineTop(line) + viewportToContentVerticalOffset; final float insertionMarkerBaseline = layout.getLineBaseline(line) + viewportToContentVerticalOffset; final float insertionMarkerBottom = layout.getLineBottomWithoutSpacing(line) + viewportToContentVerticalOffset; final boolean isTopVisible = mTextView.isPositionVisible(insertionMarkerX, insertionMarkerTop); final boolean isBottomVisible = mTextView.isPositionVisible(insertionMarkerX, insertionMarkerBottom); int insertionMarkerFlags = 0; if (isTopVisible || isBottomVisible) { insertionMarkerFlags |= CursorAnchorInfo.FLAG_HAS_VISIBLE_REGION; } if (!isTopVisible || !isBottomVisible) { insertionMarkerFlags |= CursorAnchorInfo.FLAG_HAS_INVISIBLE_REGION; } if (layout.isRtlCharAt(offset)) { insertionMarkerFlags |= CursorAnchorInfo.FLAG_IS_RTL; } builder.setInsertionMarkerLocation(insertionMarkerX, insertionMarkerTop, insertionMarkerBaseline, insertionMarkerBottom, insertionMarkerFlags); } imm.updateCursorAnchorInfo(mTextView, builder.build()); } } private static class MagnifierMotionAnimator { private static final long DURATION = 100 /* miliseconds */; // The magnifier being animated. private final Magnifier mMagnifier; // A value animator used to animate the magnifier. private final ValueAnimator mAnimator; // Whether the magnifier is currently visible. private boolean mMagnifierIsShowing; // The coordinates of the magnifier when the currently running animation started. private float mAnimationStartX; private float mAnimationStartY; // The coordinates of the magnifier in the latest animation frame. private float mAnimationCurrentX; private float mAnimationCurrentY; // The latest coordinates the motion animator was asked to #show() the magnifier at. private float mLastX; private float mLastY; private MagnifierMotionAnimator(final Magnifier magnifier) { mMagnifier = magnifier; // Prepare the animator used to run the motion animation. mAnimator = ValueAnimator.ofFloat(0, 1); mAnimator.setDuration(DURATION); mAnimator.setInterpolator(new LinearInterpolator()); mAnimator.addUpdateListener((animation) -> { // Interpolate to find the current position of the magnifier. mAnimationCurrentX = mAnimationStartX + (mLastX - mAnimationStartX) * animation.getAnimatedFraction(); mAnimationCurrentY = mAnimationStartY + (mLastY - mAnimationStartY) * animation.getAnimatedFraction(); mMagnifier.show(mAnimationCurrentX, mAnimationCurrentY); }); } /** * Shows the magnifier at a new position. * If the y coordinate is different from the previous y coordinate * (probably corresponding to a line jump in the text), a short * animation is added to the jump. */ private void show(final float x, final float y) { final boolean startNewAnimation = mMagnifierIsShowing && y != mLastY; if (startNewAnimation) { if (mAnimator.isRunning()) { mAnimator.cancel(); mAnimationStartX = mAnimationCurrentX; mAnimationStartY = mAnimationCurrentY; } else { mAnimationStartX = mLastX; mAnimationStartY = mLastY; } mAnimator.start(); } else { if (!mAnimator.isRunning()) { mMagnifier.show(x, y); } } mLastX = x; mLastY = y; mMagnifierIsShowing = true; } /** * Updates the content of the magnifier. */ private void update() { mMagnifier.update(); } /** * Dismisses the magnifier, or does nothing if it is already dismissed. */ private void dismiss() { mMagnifier.dismiss(); mAnimator.cancel(); mMagnifierIsShowing = false; } } @VisibleForTesting public abstract class HandleView extends View implements TextViewPositionListener { protected Drawable mDrawable; protected Drawable mDrawableLtr; protected Drawable mDrawableRtl; private final PopupWindow mContainer; // Position with respect to the parent TextView private int mPositionX, mPositionY; private boolean mIsDragging; // Offset from touch position to mPosition private float mTouchToWindowOffsetX, mTouchToWindowOffsetY; protected int mHotspotX; protected int mHorizontalGravity; // Offsets the hotspot point up, so that cursor is not hidden by the finger when moving up private float mTouchOffsetY; // Where the touch position should be on the handle to ensure a maximum cursor visibility private float mIdealVerticalOffset; // Parent's (TextView) previous position in window private int mLastParentX, mLastParentY; // Parent's (TextView) previous position on screen private int mLastParentXOnScreen, mLastParentYOnScreen; // Previous text character offset protected int mPreviousOffset = -1; // Previous text character offset private boolean mPositionHasChanged = true; // Minimum touch target size for handles private int mMinSize; // Indicates the line of text that the handle is on. protected int mPrevLine = UNSET_LINE; // Indicates the line of text that the user was touching. This can differ from mPrevLine // when selecting text when the handles jump to the end / start of words which may be on // a different line. protected int mPreviousLineTouched = UNSET_LINE; private HandleView(Drawable drawableLtr, Drawable drawableRtl, final int id) { super(mTextView.getContext()); setId(id); mContainer = new PopupWindow(mTextView.getContext(), null, com.android.internal.R.attr.textSelectHandleWindowStyle); mContainer.setSplitTouchEnabled(true); mContainer.setClippingEnabled(false); mContainer.setWindowLayoutType(WindowManager.LayoutParams.TYPE_APPLICATION_SUB_PANEL); mContainer.setWidth(ViewGroup.LayoutParams.WRAP_CONTENT); mContainer.setHeight(ViewGroup.LayoutParams.WRAP_CONTENT); mContainer.setContentView(this); mDrawableLtr = drawableLtr; mDrawableRtl = drawableRtl; mMinSize = mTextView.getContext().getResources() .getDimensionPixelSize(com.android.internal.R.dimen.text_handle_min_size); updateDrawable(); final int handleHeight = getPreferredHeight(); mTouchOffsetY = -0.3f * handleHeight; mIdealVerticalOffset = 0.7f * handleHeight; } public float getIdealVerticalOffset() { return mIdealVerticalOffset; } protected void updateDrawable() { if (mIsDragging) { // Don't update drawable during dragging. return; } final Layout layout = mTextView.getLayout(); if (layout == null) { return; } final int offset = getCurrentCursorOffset(); final boolean isRtlCharAtOffset = isAtRtlRun(layout, offset); final Drawable oldDrawable = mDrawable; mDrawable = isRtlCharAtOffset ? mDrawableRtl : mDrawableLtr; mHotspotX = getHotspotX(mDrawable, isRtlCharAtOffset); mHorizontalGravity = getHorizontalGravity(isRtlCharAtOffset); if (oldDrawable != mDrawable && isShowing()) { // Update popup window position. mPositionX = getCursorHorizontalPosition(layout, offset) - mHotspotX - getHorizontalOffset() + getCursorOffset(); mPositionX += mTextView.viewportToContentHorizontalOffset(); mPositionHasChanged = true; updatePosition(mLastParentX, mLastParentY, false, false); postInvalidate(); } } protected abstract int getHotspotX(Drawable drawable, boolean isRtlRun); protected abstract int getHorizontalGravity(boolean isRtlRun); // Touch-up filter: number of previous positions remembered private static final int HISTORY_SIZE = 5; private static final int TOUCH_UP_FILTER_DELAY_AFTER = 150; private static final int TOUCH_UP_FILTER_DELAY_BEFORE = 350; private final long[] mPreviousOffsetsTimes = new long[HISTORY_SIZE]; private final int[] mPreviousOffsets = new int[HISTORY_SIZE]; private int mPreviousOffsetIndex = 0; private int mNumberPreviousOffsets = 0; private void startTouchUpFilter(int offset) { mNumberPreviousOffsets = 0; addPositionToTouchUpFilter(offset); } private void addPositionToTouchUpFilter(int offset) { mPreviousOffsetIndex = (mPreviousOffsetIndex + 1) % HISTORY_SIZE; mPreviousOffsets[mPreviousOffsetIndex] = offset; mPreviousOffsetsTimes[mPreviousOffsetIndex] = SystemClock.uptimeMillis(); mNumberPreviousOffsets++; } private void filterOnTouchUp(boolean fromTouchScreen) { final long now = SystemClock.uptimeMillis(); int i = 0; int index = mPreviousOffsetIndex; final int iMax = Math.min(mNumberPreviousOffsets, HISTORY_SIZE); while (i < iMax && (now - mPreviousOffsetsTimes[index]) < TOUCH_UP_FILTER_DELAY_AFTER) { i++; index = (mPreviousOffsetIndex - i + HISTORY_SIZE) % HISTORY_SIZE; } if (i > 0 && i < iMax && (now - mPreviousOffsetsTimes[index]) > TOUCH_UP_FILTER_DELAY_BEFORE) { positionAtCursorOffset(mPreviousOffsets[index], false, fromTouchScreen); } } public boolean offsetHasBeenChanged() { return mNumberPreviousOffsets > 1; } @Override protected void onMeasure(int widthMeasureSpec, int heightMeasureSpec) { setMeasuredDimension(getPreferredWidth(), getPreferredHeight()); } @Override public void invalidate() { super.invalidate(); if (isShowing()) { positionAtCursorOffset(getCurrentCursorOffset(), true, false); } }; private int getPreferredWidth() { return Math.max(mDrawable.getIntrinsicWidth(), mMinSize); } private int getPreferredHeight() { return Math.max(mDrawable.getIntrinsicHeight(), mMinSize); } public void show() { if (isShowing()) return; getPositionListener().addSubscriber(this, true /* local position may change */); // Make sure the offset is always considered new, even when focusing at same position mPreviousOffset = -1; positionAtCursorOffset(getCurrentCursorOffset(), false, false); } protected void dismiss() { mIsDragging = false; mContainer.dismiss(); onDetached(); } public void hide() { dismiss(); getPositionListener().removeSubscriber(this); } public boolean isShowing() { return mContainer.isShowing(); } private boolean shouldShow() { // A dragging handle should always be shown. if (mIsDragging) { return true; } if (mTextView.isInBatchEditMode()) { return false; } return mTextView.isPositionVisible(mPositionX + mHotspotX + getHorizontalOffset(), mPositionY); } private void setVisible(final boolean visible) { mContainer.getContentView().setVisibility(visible ? VISIBLE : INVISIBLE); } public abstract int getCurrentCursorOffset(); protected abstract void updateSelection(int offset); protected abstract void updatePosition(float x, float y, boolean fromTouchScreen); @MagnifierHandleTrigger protected abstract int getMagnifierHandleTrigger(); protected boolean isAtRtlRun(@NonNull Layout layout, int offset) { return layout.isRtlCharAt(offset); } @VisibleForTesting public float getHorizontal(@NonNull Layout layout, int offset) { return layout.getPrimaryHorizontal(offset); } protected int getOffsetAtCoordinate(@NonNull Layout layout, int line, float x) { return mTextView.getOffsetAtCoordinate(line, x); } /** * @param offset Cursor offset. Must be in [-1, length]. * @param forceUpdatePosition whether to force update the position. This should be true * when If the parent has been scrolled, for example. * @param fromTouchScreen {@code true} if the cursor is moved with motion events from the * touch screen. */ protected void positionAtCursorOffset(int offset, boolean forceUpdatePosition, boolean fromTouchScreen) { // A HandleView relies on the layout, which may be nulled by external methods Layout layout = mTextView.getLayout(); if (layout == null) { // Will update controllers' state, hiding them and stopping selection mode if needed prepareCursorControllers(); return; } layout = mTextView.getLayout(); boolean offsetChanged = offset != mPreviousOffset; if (offsetChanged || forceUpdatePosition) { if (offsetChanged) { updateSelection(offset); if (fromTouchScreen && mHapticTextHandleEnabled) { mTextView.performHapticFeedback(HapticFeedbackConstants.TEXT_HANDLE_MOVE); } addPositionToTouchUpFilter(offset); } final int line = layout.getLineForOffset(offset); mPrevLine = line; mPositionX = getCursorHorizontalPosition(layout, offset) - mHotspotX - getHorizontalOffset() + getCursorOffset(); mPositionY = layout.getLineBottomWithoutSpacing(line); // Take TextView's padding and scroll into account. mPositionX += mTextView.viewportToContentHorizontalOffset(); mPositionY += mTextView.viewportToContentVerticalOffset(); mPreviousOffset = offset; mPositionHasChanged = true; } } /** * Return the clamped horizontal position for the cursor. * * @param layout Text layout. * @param offset Character offset for the cursor. * @return The clamped horizontal position for the cursor. */ int getCursorHorizontalPosition(Layout layout, int offset) { return (int) (getHorizontal(layout, offset) - 0.5f); } @Override public void updatePosition(int parentPositionX, int parentPositionY, boolean parentPositionChanged, boolean parentScrolled) { positionAtCursorOffset(getCurrentCursorOffset(), parentScrolled, false); if (parentPositionChanged || mPositionHasChanged) { if (mIsDragging) { // Update touchToWindow offset in case of parent scrolling while dragging if (parentPositionX != mLastParentX || parentPositionY != mLastParentY) { mTouchToWindowOffsetX += parentPositionX - mLastParentX; mTouchToWindowOffsetY += parentPositionY - mLastParentY; mLastParentX = parentPositionX; mLastParentY = parentPositionY; } onHandleMoved(); } if (shouldShow()) { // Transform to the window coordinates to follow the view tranformation. final int[] pts = { mPositionX + mHotspotX + getHorizontalOffset(), mPositionY }; mTextView.transformFromViewToWindowSpace(pts); pts[0] -= mHotspotX + getHorizontalOffset(); if (isShowing()) { mContainer.update(pts[0], pts[1], -1, -1); } else { mContainer.showAtLocation(mTextView, Gravity.NO_GRAVITY, pts[0], pts[1]); } } else { if (isShowing()) { dismiss(); } } mPositionHasChanged = false; } } @Override protected void onDraw(Canvas c) { final int drawWidth = mDrawable.getIntrinsicWidth(); final int left = getHorizontalOffset(); mDrawable.setBounds(left, 0, left + drawWidth, mDrawable.getIntrinsicHeight()); mDrawable.draw(c); } private int getHorizontalOffset() { final int width = getPreferredWidth(); final int drawWidth = mDrawable.getIntrinsicWidth(); final int left; switch (mHorizontalGravity) { case Gravity.LEFT: left = 0; break; default: case Gravity.CENTER: left = (width - drawWidth) / 2; break; case Gravity.RIGHT: left = width - drawWidth; break; } return left; } protected int getCursorOffset() { return 0; } private boolean tooLargeTextForMagnifier() { final float magnifierContentHeight = Math .round(mMagnifierAnimator.mMagnifier.getHeight() / mMagnifierAnimator.mMagnifier.getZoom()); final Paint.FontMetrics fontMetrics = mTextView.getPaint().getFontMetrics(); final float glyphHeight = fontMetrics.descent - fontMetrics.ascent; return glyphHeight > magnifierContentHeight; } /** * Computes the position where the magnifier should be shown, relative to * {@code mTextView}, and writes them to {@code showPosInView}. Also decides * whether the magnifier should be shown or dismissed after this touch event. * @return Whether the magnifier should be shown at the computed coordinates or dismissed. */ private boolean obtainMagnifierShowCoordinates(@NonNull final MotionEvent event, final PointF showPosInView) { final int trigger = getMagnifierHandleTrigger(); final int offset; final int otherHandleOffset; switch (trigger) { case MagnifierHandleTrigger.INSERTION: offset = mTextView.getSelectionStart(); otherHandleOffset = -1; break; case MagnifierHandleTrigger.SELECTION_START: offset = mTextView.getSelectionStart(); otherHandleOffset = mTextView.getSelectionEnd(); break; case MagnifierHandleTrigger.SELECTION_END: offset = mTextView.getSelectionEnd(); otherHandleOffset = mTextView.getSelectionStart(); break; default: offset = -1; otherHandleOffset = -1; break; } if (offset == -1) { return false; } final Layout layout = mTextView.getLayout(); final int lineNumber = layout.getLineForOffset(offset); // Compute whether the selection handles are currently on the same line, and, // in this particular case, whether the selected text is right to left. final boolean sameLineSelection = otherHandleOffset != -1 && lineNumber == layout.getLineForOffset(otherHandleOffset); final boolean rtl = sameLineSelection && (offset < otherHandleOffset) != (getHorizontal(mTextView.getLayout(), offset) < getHorizontal(mTextView.getLayout(), otherHandleOffset)); // Horizontally move the magnifier smoothly, clamp inside the current line / selection. final int[] textViewLocationOnScreen = new int[2]; mTextView.getLocationOnScreen(textViewLocationOnScreen); final float touchXInView = event.getRawX() - textViewLocationOnScreen[0]; float leftBound = mTextView.getTotalPaddingLeft() - mTextView.getScrollX(); float rightBound = mTextView.getTotalPaddingLeft() - mTextView.getScrollX(); if (sameLineSelection && ((trigger == MagnifierHandleTrigger.SELECTION_END) ^ rtl)) { leftBound += getHorizontal(mTextView.getLayout(), otherHandleOffset); } else { leftBound += mTextView.getLayout().getLineLeft(lineNumber); } if (sameLineSelection && ((trigger == MagnifierHandleTrigger.SELECTION_START) ^ rtl)) { rightBound += getHorizontal(mTextView.getLayout(), otherHandleOffset); } else { rightBound += mTextView.getLayout().getLineRight(lineNumber); } final float contentWidth = Math .round(mMagnifierAnimator.mMagnifier.getWidth() / mMagnifierAnimator.mMagnifier.getZoom()); if (touchXInView < leftBound - contentWidth / 2 || touchXInView > rightBound + contentWidth / 2) { // The touch is too far from the current line / selection, so hide the magnifier. return false; } showPosInView.x = Math.max(leftBound, Math.min(rightBound, touchXInView)); // Vertically snap to middle of current line. showPosInView.y = (mTextView.getLayout().getLineTop(lineNumber) + mTextView.getLayout().getLineBottom(lineNumber)) / 2.0f + mTextView.getTotalPaddingTop() - mTextView.getScrollY(); return true; } private boolean handleOverlapsMagnifier(@NonNull final HandleView handle, @NonNull final Rect magnifierRect) { final PopupWindow window = handle.mContainer; if (!window.hasDecorView()) { return false; } final Rect handleRect = new Rect(window.getDecorViewLayoutParams().x, window.getDecorViewLayoutParams().y, window.getDecorViewLayoutParams().x + window.getContentView().getWidth(), window.getDecorViewLayoutParams().y + window.getContentView().getHeight()); return Rect.intersects(handleRect, magnifierRect); } private @Nullable HandleView getOtherSelectionHandle() { final SelectionModifierCursorController controller = getSelectionController(); if (controller == null || !controller.isActive()) { return null; } return controller.mStartHandle != this ? controller.mStartHandle : controller.mEndHandle; } private final Magnifier.Callback mHandlesVisibilityCallback = new Magnifier.Callback() { @Override public void onOperationComplete() { final Point magnifierTopLeft = mMagnifierAnimator.mMagnifier.getWindowCoords(); if (magnifierTopLeft == null) { return; } final Rect magnifierRect = new Rect(magnifierTopLeft.x, magnifierTopLeft.y, magnifierTopLeft.x + mMagnifierAnimator.mMagnifier.getWidth(), magnifierTopLeft.y + mMagnifierAnimator.mMagnifier.getHeight()); setVisible(!handleOverlapsMagnifier(HandleView.this, magnifierRect)); final HandleView otherHandle = getOtherSelectionHandle(); if (otherHandle != null) { otherHandle.setVisible(!handleOverlapsMagnifier(otherHandle, magnifierRect)); } } }; protected final void updateMagnifier(@NonNull final MotionEvent event) { if (mMagnifierAnimator == null) { return; } final PointF showPosInView = new PointF(); final boolean shouldShow = !tooLargeTextForMagnifier() && obtainMagnifierShowCoordinates(event, showPosInView); if (shouldShow) { // Make the cursor visible and stop blinking. mRenderCursorRegardlessTiming = true; mTextView.invalidateCursorPath(); suspendBlink(); mMagnifierAnimator.mMagnifier.setOnOperationCompleteCallback(mHandlesVisibilityCallback); mMagnifierAnimator.show(showPosInView.x, showPosInView.y); } else { dismissMagnifier(); } } protected final void dismissMagnifier() { if (mMagnifierAnimator != null) { mMagnifierAnimator.dismiss(); mRenderCursorRegardlessTiming = false; resumeBlink(); setVisible(true); final HandleView otherHandle = getOtherSelectionHandle(); if (otherHandle != null) { otherHandle.setVisible(true); } } } @Override public boolean onTouchEvent(MotionEvent ev) { updateFloatingToolbarVisibility(ev); switch (ev.getActionMasked()) { case MotionEvent.ACTION_DOWN: { startTouchUpFilter(getCurrentCursorOffset()); final PositionListener positionListener = getPositionListener(); mLastParentX = positionListener.getPositionX(); mLastParentY = positionListener.getPositionY(); mLastParentXOnScreen = positionListener.getPositionXOnScreen(); mLastParentYOnScreen = positionListener.getPositionYOnScreen(); final float xInWindow = ev.getRawX() - mLastParentXOnScreen + mLastParentX; final float yInWindow = ev.getRawY() - mLastParentYOnScreen + mLastParentY; mTouchToWindowOffsetX = xInWindow - mPositionX; mTouchToWindowOffsetY = yInWindow - mPositionY; mIsDragging = true; mPreviousLineTouched = UNSET_LINE; break; } case MotionEvent.ACTION_MOVE: { final float xInWindow = ev.getRawX() - mLastParentXOnScreen + mLastParentX; final float yInWindow = ev.getRawY() - mLastParentYOnScreen + mLastParentY; // Vertical hysteresis: vertical down movement tends to snap to ideal offset final float previousVerticalOffset = mTouchToWindowOffsetY - mLastParentY; final float currentVerticalOffset = yInWindow - mPositionY - mLastParentY; float newVerticalOffset; if (previousVerticalOffset < mIdealVerticalOffset) { newVerticalOffset = Math.min(currentVerticalOffset, mIdealVerticalOffset); newVerticalOffset = Math.max(newVerticalOffset, previousVerticalOffset); } else { newVerticalOffset = Math.max(currentVerticalOffset, mIdealVerticalOffset); newVerticalOffset = Math.min(newVerticalOffset, previousVerticalOffset); } mTouchToWindowOffsetY = newVerticalOffset + mLastParentY; final float newPosX = xInWindow - mTouchToWindowOffsetX + mHotspotX + getHorizontalOffset(); final float newPosY = yInWindow - mTouchToWindowOffsetY + mTouchOffsetY; updatePosition(newPosX, newPosY, ev.isFromSource(InputDevice.SOURCE_TOUCHSCREEN)); break; } case MotionEvent.ACTION_UP: filterOnTouchUp(ev.isFromSource(InputDevice.SOURCE_TOUCHSCREEN)); // Fall through. case MotionEvent.ACTION_CANCEL: mIsDragging = false; updateDrawable(); break; } return true; } public boolean isDragging() { return mIsDragging; } void onHandleMoved() { } public void onDetached() { } } private class InsertionHandleView extends HandleView { private static final int DELAY_BEFORE_HANDLE_FADES_OUT = 4000; private static final int RECENT_CUT_COPY_DURATION = 15 * 1000; // seconds // Used to detect taps on the insertion handle, which will affect the insertion action mode private float mDownPositionX, mDownPositionY; private Runnable mHider; public InsertionHandleView(Drawable drawable) { super(drawable, drawable, com.android.internal.R.id.insertion_handle); } @Override public void show() { super.show(); final long durationSinceCutOrCopy = SystemClock.uptimeMillis() - TextView.sLastCutCopyOrTextChangedTime; // Cancel the single tap delayed runnable. if (mInsertionActionModeRunnable != null && ((mTapState == TAP_STATE_DOUBLE_TAP) || (mTapState == TAP_STATE_TRIPLE_CLICK) || isCursorInsideEasyCorrectionSpan())) { mTextView.removeCallbacks(mInsertionActionModeRunnable); } // Prepare and schedule the single tap runnable to run exactly after the double tap // timeout has passed. if ((mTapState != TAP_STATE_DOUBLE_TAP) && (mTapState != TAP_STATE_TRIPLE_CLICK) && !isCursorInsideEasyCorrectionSpan() && (durationSinceCutOrCopy < RECENT_CUT_COPY_DURATION)) { if (mTextActionMode == null) { if (mInsertionActionModeRunnable == null) { mInsertionActionModeRunnable = new Runnable() { @Override public void run() { startInsertionActionMode(); } }; } mTextView.postDelayed(mInsertionActionModeRunnable, ViewConfiguration.getDoubleTapTimeout() + 1); } } hideAfterDelay(); } private void hideAfterDelay() { if (mHider == null) { mHider = new Runnable() { public void run() { hide(); } }; } else { removeHiderCallback(); } mTextView.postDelayed(mHider, DELAY_BEFORE_HANDLE_FADES_OUT); } private void removeHiderCallback() { if (mHider != null) { mTextView.removeCallbacks(mHider); } } @Override protected int getHotspotX(Drawable drawable, boolean isRtlRun) { return drawable.getIntrinsicWidth() / 2; } @Override protected int getHorizontalGravity(boolean isRtlRun) { return Gravity.CENTER_HORIZONTAL; } @Override protected int getCursorOffset() { int offset = super.getCursorOffset(); if (mDrawableForCursor != null) { mDrawableForCursor.getPadding(mTempRect); offset += (mDrawableForCursor.getIntrinsicWidth() - mTempRect.left - mTempRect.right) / 2; } return offset; } @Override int getCursorHorizontalPosition(Layout layout, int offset) { if (mDrawableForCursor != null) { final float horizontal = getHorizontal(layout, offset); return clampHorizontalPosition(mDrawableForCursor, horizontal) + mTempRect.left; } return super.getCursorHorizontalPosition(layout, offset); } @Override public boolean onTouchEvent(MotionEvent ev) { final boolean result = super.onTouchEvent(ev); switch (ev.getActionMasked()) { case MotionEvent.ACTION_DOWN: mDownPositionX = ev.getRawX(); mDownPositionY = ev.getRawY(); updateMagnifier(ev); break; case MotionEvent.ACTION_MOVE: updateMagnifier(ev); break; case MotionEvent.ACTION_UP: if (!offsetHasBeenChanged()) { final float deltaX = mDownPositionX - ev.getRawX(); final float deltaY = mDownPositionY - ev.getRawY(); final float distanceSquared = deltaX * deltaX + deltaY * deltaY; final ViewConfiguration viewConfiguration = ViewConfiguration.get(mTextView.getContext()); final int touchSlop = viewConfiguration.getScaledTouchSlop(); if (distanceSquared < touchSlop * touchSlop) { // Tapping on the handle toggles the insertion action mode. if (mTextActionMode != null) { stopTextActionMode(); } else { startInsertionActionMode(); } } } else { if (mTextActionMode != null) { mTextActionMode.invalidateContentRect(); } } // Fall through. case MotionEvent.ACTION_CANCEL: hideAfterDelay(); dismissMagnifier(); break; default: break; } return result; } @Override public int getCurrentCursorOffset() { return mTextView.getSelectionStart(); } @Override public void updateSelection(int offset) { Selection.setSelection((Spannable) mTextView.getText(), offset); } @Override protected void updatePosition(float x, float y, boolean fromTouchScreen) { Layout layout = mTextView.getLayout(); int offset; if (layout != null) { if (mPreviousLineTouched == UNSET_LINE) { mPreviousLineTouched = mTextView.getLineAtCoordinate(y); } int currLine = getCurrentLineAdjustedForSlop(layout, mPreviousLineTouched, y); offset = getOffsetAtCoordinate(layout, currLine, x); mPreviousLineTouched = currLine; } else { offset = -1; } positionAtCursorOffset(offset, false, fromTouchScreen); if (mTextActionMode != null) { invalidateActionMode(); } } @Override void onHandleMoved() { super.onHandleMoved(); removeHiderCallback(); } @Override public void onDetached() { super.onDetached(); removeHiderCallback(); } @Override @MagnifierHandleTrigger protected int getMagnifierHandleTrigger() { return MagnifierHandleTrigger.INSERTION; } } @Retention(RetentionPolicy.SOURCE) @IntDef(prefix = { "HANDLE_TYPE_" }, value = { HANDLE_TYPE_SELECTION_START, HANDLE_TYPE_SELECTION_END }) public @interface HandleType { } public static final int HANDLE_TYPE_SELECTION_START = 0; public static final int HANDLE_TYPE_SELECTION_END = 1; /** For selection handles */ @VisibleForTesting public final class SelectionHandleView extends HandleView { // Indicates the handle type, selection start (HANDLE_TYPE_SELECTION_START) or selection // end (HANDLE_TYPE_SELECTION_END). @HandleType private final int mHandleType; // Indicates whether the cursor is making adjustments within a word. private boolean mInWord = false; // Difference between touch position and word boundary position. private float mTouchWordDelta; // X value of the previous updatePosition call. private float mPrevX; // Indicates if the handle has moved a boundary between LTR and RTL text. private boolean mLanguageDirectionChanged = false; // Distance from edge of horizontally scrolling text view // to use to switch to character mode. private final float mTextViewEdgeSlop; // Used to save text view location. private final int[] mTextViewLocation = new int[2]; public SelectionHandleView(Drawable drawableLtr, Drawable drawableRtl, int id, @HandleType int handleType) { super(drawableLtr, drawableRtl, id); mHandleType = handleType; ViewConfiguration viewConfiguration = ViewConfiguration.get(mTextView.getContext()); mTextViewEdgeSlop = viewConfiguration.getScaledTouchSlop() * 4; } private boolean isStartHandle() { return mHandleType == HANDLE_TYPE_SELECTION_START; } @Override protected int getHotspotX(Drawable drawable, boolean isRtlRun) { if (isRtlRun == isStartHandle()) { return drawable.getIntrinsicWidth() / 4; } else { return (drawable.getIntrinsicWidth() * 3) / 4; } } @Override protected int getHorizontalGravity(boolean isRtlRun) { return (isRtlRun == isStartHandle()) ? Gravity.LEFT : Gravity.RIGHT; } @Override public int getCurrentCursorOffset() { return isStartHandle() ? mTextView.getSelectionStart() : mTextView.getSelectionEnd(); } @Override protected void updateSelection(int offset) { if (isStartHandle()) { Selection.setSelection((Spannable) mTextView.getText(), offset, mTextView.getSelectionEnd()); } else { Selection.setSelection((Spannable) mTextView.getText(), mTextView.getSelectionStart(), offset); } updateDrawable(); if (mTextActionMode != null) { invalidateActionMode(); } } @Override protected void updatePosition(float x, float y, boolean fromTouchScreen) { final Layout layout = mTextView.getLayout(); if (layout == null) { // HandleView will deal appropriately in positionAtCursorOffset when // layout is null. positionAndAdjustForCrossingHandles(mTextView.getOffsetForPosition(x, y), fromTouchScreen); return; } if (mPreviousLineTouched == UNSET_LINE) { mPreviousLineTouched = mTextView.getLineAtCoordinate(y); } boolean positionCursor = false; final int anotherHandleOffset = isStartHandle() ? mTextView.getSelectionEnd() : mTextView.getSelectionStart(); int currLine = getCurrentLineAdjustedForSlop(layout, mPreviousLineTouched, y); int initialOffset = getOffsetAtCoordinate(layout, currLine, x); if (isStartHandle() && initialOffset >= anotherHandleOffset || !isStartHandle() && initialOffset <= anotherHandleOffset) { // Handles have crossed, bound it to the first selected line and // adjust by word / char as normal. currLine = layout.getLineForOffset(anotherHandleOffset); initialOffset = getOffsetAtCoordinate(layout, currLine, x); } int offset = initialOffset; final int wordEnd = getWordEnd(offset); final int wordStart = getWordStart(offset); if (mPrevX == UNSET_X_VALUE) { mPrevX = x; } final int currentOffset = getCurrentCursorOffset(); final boolean rtlAtCurrentOffset = isAtRtlRun(layout, currentOffset); final boolean atRtl = isAtRtlRun(layout, offset); final boolean isLvlBoundary = layout.isLevelBoundary(offset); // We can't determine if the user is expanding or shrinking the selection if they're // on a bi-di boundary, so until they've moved past the boundary we'll just place // the cursor at the current position. if (isLvlBoundary || (rtlAtCurrentOffset && !atRtl) || (!rtlAtCurrentOffset && atRtl)) { // We're on a boundary or this is the first direction change -- just update // to the current position. mLanguageDirectionChanged = true; mTouchWordDelta = 0.0f; positionAndAdjustForCrossingHandles(offset, fromTouchScreen); return; } else if (mLanguageDirectionChanged && !isLvlBoundary) { // We've just moved past the boundary so update the position. After this we can // figure out if the user is expanding or shrinking to go by word or character. positionAndAdjustForCrossingHandles(offset, fromTouchScreen); mTouchWordDelta = 0.0f; mLanguageDirectionChanged = false; return; } boolean isExpanding; final float xDiff = x - mPrevX; if (isStartHandle()) { isExpanding = currLine < mPreviousLineTouched; } else { isExpanding = currLine > mPreviousLineTouched; } if (atRtl == isStartHandle()) { isExpanding |= xDiff > 0; } else { isExpanding |= xDiff < 0; } if (mTextView.getHorizontallyScrolling()) { if (positionNearEdgeOfScrollingView(x, atRtl) && ((isStartHandle() && mTextView.getScrollX() != 0) || (!isStartHandle() && mTextView.canScrollHorizontally(atRtl ? -1 : 1))) && ((isExpanding && ((isStartHandle() && offset < currentOffset) || (!isStartHandle() && offset > currentOffset))) || !isExpanding)) { // If we're expanding ensure that the offset is actually expanding compared to // the current offset, if the handle snapped to the word, the finger position // may be out of sync and we don't want the selection to jump back. mTouchWordDelta = 0.0f; final int nextOffset = (atRtl == isStartHandle()) ? layout.getOffsetToRightOf(mPreviousOffset) : layout.getOffsetToLeftOf(mPreviousOffset); positionAndAdjustForCrossingHandles(nextOffset, fromTouchScreen); return; } } if (isExpanding) { // User is increasing the selection. int wordBoundary = isStartHandle() ? wordStart : wordEnd; final boolean snapToWord = (!mInWord || (isStartHandle() ? currLine < mPrevLine : currLine > mPrevLine)) && atRtl == isAtRtlRun(layout, wordBoundary); if (snapToWord) { // Sometimes words can be broken across lines (Chinese, hyphenation). // We still snap to the word boundary but we only use the letters on the // current line to determine if the user is far enough into the word to snap. if (layout.getLineForOffset(wordBoundary) != currLine) { wordBoundary = isStartHandle() ? layout.getLineStart(currLine) : layout.getLineEnd(currLine); } final int offsetThresholdToSnap = isStartHandle() ? wordEnd - ((wordEnd - wordBoundary) / 2) : wordStart + ((wordBoundary - wordStart) / 2); if (isStartHandle() && (offset <= offsetThresholdToSnap || currLine < mPrevLine)) { // User is far enough into the word or on a different line so we expand by // word. offset = wordStart; } else if (!isStartHandle() && (offset >= offsetThresholdToSnap || currLine > mPrevLine)) { // User is far enough into the word or on a different line so we expand by // word. offset = wordEnd; } else { offset = mPreviousOffset; } } if ((isStartHandle() && offset < initialOffset) || (!isStartHandle() && offset > initialOffset)) { final float adjustedX = getHorizontal(layout, offset); mTouchWordDelta = mTextView.convertToLocalHorizontalCoordinate(x) - adjustedX; } else { mTouchWordDelta = 0.0f; } positionCursor = true; } else { final int adjustedOffset = getOffsetAtCoordinate(layout, currLine, x - mTouchWordDelta); final boolean shrinking = isStartHandle() ? adjustedOffset > mPreviousOffset || currLine > mPrevLine : adjustedOffset < mPreviousOffset || currLine < mPrevLine; if (shrinking) { // User is shrinking the selection. if (currLine != mPrevLine) { // We're on a different line, so we'll snap to word boundaries. offset = isStartHandle() ? wordStart : wordEnd; if ((isStartHandle() && offset < initialOffset) || (!isStartHandle() && offset > initialOffset)) { final float adjustedX = getHorizontal(layout, offset); mTouchWordDelta = mTextView.convertToLocalHorizontalCoordinate(x) - adjustedX; } else { mTouchWordDelta = 0.0f; } } else { offset = adjustedOffset; } positionCursor = true; } else if ((isStartHandle() && adjustedOffset < mPreviousOffset) || (!isStartHandle() && adjustedOffset > mPreviousOffset)) { // Handle has jumped to the word boundary, and the user is moving // their finger towards the handle, the delta should be updated. mTouchWordDelta = mTextView.convertToLocalHorizontalCoordinate(x) - getHorizontal(layout, mPreviousOffset); } } if (positionCursor) { mPreviousLineTouched = currLine; positionAndAdjustForCrossingHandles(offset, fromTouchScreen); } mPrevX = x; } @Override protected void positionAtCursorOffset(int offset, boolean forceUpdatePosition, boolean fromTouchScreen) { super.positionAtCursorOffset(offset, forceUpdatePosition, fromTouchScreen); mInWord = (offset != -1) && !getWordIteratorWithText().isBoundary(offset); } @Override public boolean onTouchEvent(MotionEvent event) { boolean superResult = super.onTouchEvent(event); switch (event.getActionMasked()) { case MotionEvent.ACTION_DOWN: // Reset the touch word offset and x value when the user // re-engages the handle. mTouchWordDelta = 0.0f; mPrevX = UNSET_X_VALUE; updateMagnifier(event); break; case MotionEvent.ACTION_MOVE: updateMagnifier(event); break; case MotionEvent.ACTION_UP: case MotionEvent.ACTION_CANCEL: dismissMagnifier(); break; } return superResult; } private void positionAndAdjustForCrossingHandles(int offset, boolean fromTouchScreen) { final int anotherHandleOffset = isStartHandle() ? mTextView.getSelectionEnd() : mTextView.getSelectionStart(); if ((isStartHandle() && offset >= anotherHandleOffset) || (!isStartHandle() && offset <= anotherHandleOffset)) { mTouchWordDelta = 0.0f; final Layout layout = mTextView.getLayout(); if (layout != null && offset != anotherHandleOffset) { final float horiz = getHorizontal(layout, offset); final float anotherHandleHoriz = getHorizontal(layout, anotherHandleOffset, !isStartHandle()); final float currentHoriz = getHorizontal(layout, mPreviousOffset); if (currentHoriz < anotherHandleHoriz && horiz < anotherHandleHoriz || currentHoriz > anotherHandleHoriz && horiz > anotherHandleHoriz) { // This handle passes another one as it crossed a direction boundary. // Don't minimize the selection, but keep the handle at the run boundary. final int currentOffset = getCurrentCursorOffset(); final int offsetToGetRunRange = isStartHandle() ? currentOffset : Math.max(currentOffset - 1, 0); final long range = layout.getRunRange(offsetToGetRunRange); if (isStartHandle()) { offset = TextUtils.unpackRangeStartFromLong(range); } else { offset = TextUtils.unpackRangeEndFromLong(range); } positionAtCursorOffset(offset, false, fromTouchScreen); return; } } // Handles can not cross and selection is at least one character. offset = getNextCursorOffset(anotherHandleOffset, !isStartHandle()); } positionAtCursorOffset(offset, false, fromTouchScreen); } private boolean positionNearEdgeOfScrollingView(float x, boolean atRtl) { mTextView.getLocationOnScreen(mTextViewLocation); boolean nearEdge; if (atRtl == isStartHandle()) { int rightEdge = mTextViewLocation[0] + mTextView.getWidth() - mTextView.getPaddingRight(); nearEdge = x > rightEdge - mTextViewEdgeSlop; } else { int leftEdge = mTextViewLocation[0] + mTextView.getPaddingLeft(); nearEdge = x < leftEdge + mTextViewEdgeSlop; } return nearEdge; } @Override protected boolean isAtRtlRun(@NonNull Layout layout, int offset) { final int offsetToCheck = isStartHandle() ? offset : Math.max(offset - 1, 0); return layout.isRtlCharAt(offsetToCheck); } @Override public float getHorizontal(@NonNull Layout layout, int offset) { return getHorizontal(layout, offset, isStartHandle()); } private float getHorizontal(@NonNull Layout layout, int offset, boolean startHandle) { final int line = layout.getLineForOffset(offset); final int offsetToCheck = startHandle ? offset : Math.max(offset - 1, 0); final boolean isRtlChar = layout.isRtlCharAt(offsetToCheck); final boolean isRtlParagraph = layout.getParagraphDirection(line) == -1; return (isRtlChar == isRtlParagraph) ? layout.getPrimaryHorizontal(offset) : layout.getSecondaryHorizontal(offset); } @Override protected int getOffsetAtCoordinate(@NonNull Layout layout, int line, float x) { final float localX = mTextView.convertToLocalHorizontalCoordinate(x); final int primaryOffset = layout.getOffsetForHorizontal(line, localX, true); if (!layout.isLevelBoundary(primaryOffset)) { return primaryOffset; } final int secondaryOffset = layout.getOffsetForHorizontal(line, localX, false); final int currentOffset = getCurrentCursorOffset(); final int primaryDiff = Math.abs(primaryOffset - currentOffset); final int secondaryDiff = Math.abs(secondaryOffset - currentOffset); if (primaryDiff < secondaryDiff) { return primaryOffset; } else if (primaryDiff > secondaryDiff) { return secondaryOffset; } else { final int offsetToCheck = isStartHandle() ? currentOffset : Math.max(currentOffset - 1, 0); final boolean isRtlChar = layout.isRtlCharAt(offsetToCheck); final boolean isRtlParagraph = layout.getParagraphDirection(line) == -1; return isRtlChar == isRtlParagraph ? primaryOffset : secondaryOffset; } } @MagnifierHandleTrigger protected int getMagnifierHandleTrigger() { return isStartHandle() ? MagnifierHandleTrigger.SELECTION_START : MagnifierHandleTrigger.SELECTION_END; } } private int getCurrentLineAdjustedForSlop(Layout layout, int prevLine, float y) { final int trueLine = mTextView.getLineAtCoordinate(y); if (layout == null || prevLine > layout.getLineCount() || layout.getLineCount() <= 0 || prevLine < 0) { // Invalid parameters, just return whatever line is at y. return trueLine; } if (Math.abs(trueLine - prevLine) >= 2) { // Only stick to lines if we're within a line of the previous selection. return trueLine; } final float verticalOffset = mTextView.viewportToContentVerticalOffset(); final int lineCount = layout.getLineCount(); final float slop = mTextView.getLineHeight() * LINE_SLOP_MULTIPLIER_FOR_HANDLEVIEWS; final float firstLineTop = layout.getLineTop(0) + verticalOffset; final float prevLineTop = layout.getLineTop(prevLine) + verticalOffset; final float yTopBound = Math.max(prevLineTop - slop, firstLineTop + slop); final float lastLineBottom = layout.getLineBottom(lineCount - 1) + verticalOffset; final float prevLineBottom = layout.getLineBottom(prevLine) + verticalOffset; final float yBottomBound = Math.min(prevLineBottom + slop, lastLineBottom - slop); // Determine if we've moved lines based on y position and previous line. int currLine; if (y <= yTopBound) { currLine = Math.max(prevLine - 1, 0); } else if (y >= yBottomBound) { currLine = Math.min(prevLine + 1, lineCount - 1); } else { currLine = prevLine; } return currLine; } /** * A CursorController instance can be used to control a cursor in the text. */ private interface CursorController extends ViewTreeObserver.OnTouchModeChangeListener { /** * Makes the cursor controller visible on screen. * See also {@link #hide()}. */ public void show(); /** * Hide the cursor controller from screen. * See also {@link #show()}. */ public void hide(); /** * Called when the view is detached from window. Perform house keeping task, such as * stopping Runnable thread that would otherwise keep a reference on the context, thus * preventing the activity from being recycled. */ public void onDetached(); public boolean isCursorBeingModified(); public boolean isActive(); } private class InsertionPointCursorController implements CursorController { private InsertionHandleView mHandle; public void show() { getHandle().show(); if (mSelectionModifierCursorController != null) { mSelectionModifierCursorController.hide(); } } public void hide() { if (mHandle != null) { mHandle.hide(); } } public void onTouchModeChanged(boolean isInTouchMode) { if (!isInTouchMode) { hide(); } } private InsertionHandleView getHandle() { if (mSelectHandleCenter == null) { mSelectHandleCenter = mTextView.getContext().getDrawable(mTextView.mTextSelectHandleRes); } if (mHandle == null) { mHandle = new InsertionHandleView(mSelectHandleCenter); } return mHandle; } @Override public void onDetached() { final ViewTreeObserver observer = mTextView.getViewTreeObserver(); observer.removeOnTouchModeChangeListener(this); if (mHandle != null) mHandle.onDetached(); } @Override public boolean isCursorBeingModified() { return mHandle != null && mHandle.isDragging(); } @Override public boolean isActive() { return mHandle != null && mHandle.isShowing(); } public void invalidateHandle() { if (mHandle != null) { mHandle.invalidate(); } } } class SelectionModifierCursorController implements CursorController { // The cursor controller handles, lazily created when shown. private SelectionHandleView mStartHandle; private SelectionHandleView mEndHandle; // The offsets of that last touch down event. Remembered to start selection there. private int mMinTouchOffset, mMaxTouchOffset; private float mDownPositionX, mDownPositionY; private boolean mGestureStayedInTapRegion; // Where the user first starts the drag motion. private int mStartOffset = -1; private boolean mHaventMovedEnoughToStartDrag; // The line that a selection happened most recently with the drag accelerator. private int mLineSelectionIsOn = -1; // Whether the drag accelerator has selected past the initial line. private boolean mSwitchedLines = false; // Indicates the drag accelerator mode that the user is currently using. private int mDragAcceleratorMode = DRAG_ACCELERATOR_MODE_INACTIVE; // Drag accelerator is inactive. private static final int DRAG_ACCELERATOR_MODE_INACTIVE = 0; // Character based selection by dragging. Only for mouse. private static final int DRAG_ACCELERATOR_MODE_CHARACTER = 1; // Word based selection by dragging. Enabled after long pressing or double tapping. private static final int DRAG_ACCELERATOR_MODE_WORD = 2; // Paragraph based selection by dragging. Enabled after mouse triple click. private static final int DRAG_ACCELERATOR_MODE_PARAGRAPH = 3; SelectionModifierCursorController() { resetTouchOffsets(); } public void show() { if (mTextView.isInBatchEditMode()) { return; } initDrawables(); initHandles(); } private void initDrawables() { if (mSelectHandleLeft == null) { mSelectHandleLeft = mTextView.getContext().getDrawable(mTextView.mTextSelectHandleLeftRes); } if (mSelectHandleRight == null) { mSelectHandleRight = mTextView.getContext().getDrawable(mTextView.mTextSelectHandleRightRes); } } private void initHandles() { // Lazy object creation has to be done before updatePosition() is called. if (mStartHandle == null) { mStartHandle = new SelectionHandleView(mSelectHandleLeft, mSelectHandleRight, com.android.internal.R.id.selection_start_handle, HANDLE_TYPE_SELECTION_START); } if (mEndHandle == null) { mEndHandle = new SelectionHandleView(mSelectHandleRight, mSelectHandleLeft, com.android.internal.R.id.selection_end_handle, HANDLE_TYPE_SELECTION_END); } mStartHandle.show(); mEndHandle.show(); hideInsertionPointCursorController(); } public void hide() { if (mStartHandle != null) mStartHandle.hide(); if (mEndHandle != null) mEndHandle.hide(); } public void enterDrag(int dragAcceleratorMode) { // Just need to init the handles / hide insertion cursor. show(); mDragAcceleratorMode = dragAcceleratorMode; // Start location of selection. mStartOffset = mTextView.getOffsetForPosition(mLastDownPositionX, mLastDownPositionY); mLineSelectionIsOn = mTextView.getLineAtCoordinate(mLastDownPositionY); // Don't show the handles until user has lifted finger. hide(); // This stops scrolling parents from intercepting the touch event, allowing // the user to continue dragging across the screen to select text; TextView will // scroll as necessary. mTextView.getParent().requestDisallowInterceptTouchEvent(true); mTextView.cancelLongPress(); } public void onTouchEvent(MotionEvent event) { // This is done even when the View does not have focus, so that long presses can start // selection and tap can move cursor from this tap position. final float eventX = event.getX(); final float eventY = event.getY(); final boolean isMouse = event.isFromSource(InputDevice.SOURCE_MOUSE); switch (event.getActionMasked()) { case MotionEvent.ACTION_DOWN: if (extractedTextModeWillBeStarted()) { // Prevent duplicating the selection handles until the mode starts. hide(); } else { // Remember finger down position, to be able to start selection from there. mMinTouchOffset = mMaxTouchOffset = mTextView.getOffsetForPosition(eventX, eventY); // Double tap detection if (mGestureStayedInTapRegion) { if (mTapState == TAP_STATE_DOUBLE_TAP || mTapState == TAP_STATE_TRIPLE_CLICK) { final float deltaX = eventX - mDownPositionX; final float deltaY = eventY - mDownPositionY; final float distanceSquared = deltaX * deltaX + deltaY * deltaY; ViewConfiguration viewConfiguration = ViewConfiguration.get(mTextView.getContext()); int doubleTapSlop = viewConfiguration.getScaledDoubleTapSlop(); boolean stayedInArea = distanceSquared < doubleTapSlop * doubleTapSlop; if (stayedInArea && (isMouse || isPositionOnText(eventX, eventY))) { if (mTapState == TAP_STATE_DOUBLE_TAP) { selectCurrentWordAndStartDrag(); } else if (mTapState == TAP_STATE_TRIPLE_CLICK) { selectCurrentParagraphAndStartDrag(); } mDiscardNextActionUp = true; } } } mDownPositionX = eventX; mDownPositionY = eventY; mGestureStayedInTapRegion = true; mHaventMovedEnoughToStartDrag = true; } break; case MotionEvent.ACTION_POINTER_DOWN: case MotionEvent.ACTION_POINTER_UP: // Handle multi-point gestures. Keep min and max offset positions. // Only activated for devices that correctly handle multi-touch. if (mTextView.getContext().getPackageManager() .hasSystemFeature(PackageManager.FEATURE_TOUCHSCREEN_MULTITOUCH_DISTINCT)) { updateMinAndMaxOffsets(event); } break; case MotionEvent.ACTION_MOVE: final ViewConfiguration viewConfig = ViewConfiguration.get(mTextView.getContext()); final int touchSlop = viewConfig.getScaledTouchSlop(); if (mGestureStayedInTapRegion || mHaventMovedEnoughToStartDrag) { final float deltaX = eventX - mDownPositionX; final float deltaY = eventY - mDownPositionY; final float distanceSquared = deltaX * deltaX + deltaY * deltaY; if (mGestureStayedInTapRegion) { int doubleTapTouchSlop = viewConfig.getScaledDoubleTapTouchSlop(); mGestureStayedInTapRegion = distanceSquared <= doubleTapTouchSlop * doubleTapTouchSlop; } if (mHaventMovedEnoughToStartDrag) { // We don't start dragging until the user has moved enough. mHaventMovedEnoughToStartDrag = distanceSquared <= touchSlop * touchSlop; } } if (isMouse && !isDragAcceleratorActive()) { final int offset = mTextView.getOffsetForPosition(eventX, eventY); if (mTextView.hasSelection() && (!mHaventMovedEnoughToStartDrag || mStartOffset != offset) && offset >= mTextView.getSelectionStart() && offset <= mTextView.getSelectionEnd()) { startDragAndDrop(); break; } if (mStartOffset != offset) { // Start character based drag accelerator. stopTextActionMode(); enterDrag(DRAG_ACCELERATOR_MODE_CHARACTER); mDiscardNextActionUp = true; mHaventMovedEnoughToStartDrag = false; } } if (mStartHandle != null && mStartHandle.isShowing()) { // Don't do the drag if the handles are showing already. break; } updateSelection(event); break; case MotionEvent.ACTION_UP: if (!isDragAcceleratorActive()) { break; } updateSelection(event); // No longer dragging to select text, let the parent intercept events. mTextView.getParent().requestDisallowInterceptTouchEvent(false); // No longer the first dragging motion, reset. resetDragAcceleratorState(); if (mTextView.hasSelection()) { // Drag selection should not be adjusted by the text classifier. startSelectionActionModeAsync(mHaventMovedEnoughToStartDrag); } break; } } private void updateSelection(MotionEvent event) { if (mTextView.getLayout() != null) { switch (mDragAcceleratorMode) { case DRAG_ACCELERATOR_MODE_CHARACTER: updateCharacterBasedSelection(event); break; case DRAG_ACCELERATOR_MODE_WORD: updateWordBasedSelection(event); break; case DRAG_ACCELERATOR_MODE_PARAGRAPH: updateParagraphBasedSelection(event); break; } } } /** * If the TextView allows text selection, selects the current paragraph and starts a drag. * * @return true if the drag was started. */ private boolean selectCurrentParagraphAndStartDrag() { if (mInsertionActionModeRunnable != null) { mTextView.removeCallbacks(mInsertionActionModeRunnable); } stopTextActionMode(); if (!selectCurrentParagraph()) { return false; } enterDrag(SelectionModifierCursorController.DRAG_ACCELERATOR_MODE_PARAGRAPH); return true; } private void updateCharacterBasedSelection(MotionEvent event) { final int offset = mTextView.getOffsetForPosition(event.getX(), event.getY()); updateSelectionInternal(mStartOffset, offset, event.isFromSource(InputDevice.SOURCE_TOUCHSCREEN)); } private void updateWordBasedSelection(MotionEvent event) { if (mHaventMovedEnoughToStartDrag) { return; } final boolean isMouse = event.isFromSource(InputDevice.SOURCE_MOUSE); final ViewConfiguration viewConfig = ViewConfiguration.get(mTextView.getContext()); final float eventX = event.getX(); final float eventY = event.getY(); final int currLine; if (isMouse) { // No need to offset the y coordinate for mouse input. currLine = mTextView.getLineAtCoordinate(eventY); } else { float y = eventY; if (mSwitchedLines) { // Offset the finger by the same vertical offset as the handles. // This improves visibility of the content being selected by // shifting the finger below the content, this is applied once // the user has switched lines. final int touchSlop = viewConfig.getScaledTouchSlop(); final float fingerOffset = (mStartHandle != null) ? mStartHandle.getIdealVerticalOffset() : touchSlop; y = eventY - fingerOffset; } currLine = getCurrentLineAdjustedForSlop(mTextView.getLayout(), mLineSelectionIsOn, y); if (!mSwitchedLines && currLine != mLineSelectionIsOn) { // Break early here, we want to offset the finger position from // the selection highlight, once the user moved their finger // to a different line we should apply the offset and *not* switch // lines until recomputing the position with the finger offset. mSwitchedLines = true; return; } } int startOffset; int offset = mTextView.getOffsetAtCoordinate(currLine, eventX); // Snap to word boundaries. if (mStartOffset < offset) { // Expanding with end handle. offset = getWordEnd(offset); startOffset = getWordStart(mStartOffset); } else { // Expanding with start handle. offset = getWordStart(offset); startOffset = getWordEnd(mStartOffset); if (startOffset == offset) { offset = getNextCursorOffset(offset, false); } } mLineSelectionIsOn = currLine; updateSelectionInternal(startOffset, offset, event.isFromSource(InputDevice.SOURCE_TOUCHSCREEN)); } private void updateParagraphBasedSelection(MotionEvent event) { final int offset = mTextView.getOffsetForPosition(event.getX(), event.getY()); final int start = Math.min(offset, mStartOffset); final int end = Math.max(offset, mStartOffset); final long paragraphsRange = getParagraphsRange(start, end); final int selectionStart = TextUtils.unpackRangeStartFromLong(paragraphsRange); final int selectionEnd = TextUtils.unpackRangeEndFromLong(paragraphsRange); updateSelectionInternal(selectionStart, selectionEnd, event.isFromSource(InputDevice.SOURCE_TOUCHSCREEN)); } private void updateSelectionInternal(int selectionStart, int selectionEnd, boolean fromTouchScreen) { final boolean performHapticFeedback = fromTouchScreen && mHapticTextHandleEnabled && ((mTextView.getSelectionStart() != selectionStart) || (mTextView.getSelectionEnd() != selectionEnd)); Selection.setSelection((Spannable) mTextView.getText(), selectionStart, selectionEnd); if (performHapticFeedback) { mTextView.performHapticFeedback(HapticFeedbackConstants.TEXT_HANDLE_MOVE); } } /** * @param event */ private void updateMinAndMaxOffsets(MotionEvent event) { int pointerCount = event.getPointerCount(); for (int index = 0; index < pointerCount; index++) { int offset = mTextView.getOffsetForPosition(event.getX(index), event.getY(index)); if (offset < mMinTouchOffset) mMinTouchOffset = offset; if (offset > mMaxTouchOffset) mMaxTouchOffset = offset; } } public int getMinTouchOffset() { return mMinTouchOffset; } public int getMaxTouchOffset() { return mMaxTouchOffset; } public void resetTouchOffsets() { mMinTouchOffset = mMaxTouchOffset = -1; resetDragAcceleratorState(); } private void resetDragAcceleratorState() { mStartOffset = -1; mDragAcceleratorMode = DRAG_ACCELERATOR_MODE_INACTIVE; mSwitchedLines = false; final int selectionStart = mTextView.getSelectionStart(); final int selectionEnd = mTextView.getSelectionEnd(); if (selectionStart < 0 || selectionEnd < 0) { Selection.removeSelection((Spannable) mTextView.getText()); } else if (selectionStart > selectionEnd) { Selection.setSelection((Spannable) mTextView.getText(), selectionEnd, selectionStart); } } /** * @return true iff this controller is currently used to move the selection start. */ public boolean isSelectionStartDragged() { return mStartHandle != null && mStartHandle.isDragging(); } @Override public boolean isCursorBeingModified() { return isDragAcceleratorActive() || isSelectionStartDragged() || (mEndHandle != null && mEndHandle.isDragging()); } /** * @return true if the user is selecting text using the drag accelerator. */ public boolean isDragAcceleratorActive() { return mDragAcceleratorMode != DRAG_ACCELERATOR_MODE_INACTIVE; } public void onTouchModeChanged(boolean isInTouchMode) { if (!isInTouchMode) { hide(); } } @Override public void onDetached() { final ViewTreeObserver observer = mTextView.getViewTreeObserver(); observer.removeOnTouchModeChangeListener(this); if (mStartHandle != null) mStartHandle.onDetached(); if (mEndHandle != null) mEndHandle.onDetached(); } @Override public boolean isActive() { return mStartHandle != null && mStartHandle.isShowing(); } public void invalidateHandles() { if (mStartHandle != null) { mStartHandle.invalidate(); } if (mEndHandle != null) { mEndHandle.invalidate(); } } } private class CorrectionHighlighter { private final Path mPath = new Path(); private final Paint mPaint = new Paint(Paint.ANTI_ALIAS_FLAG); private int mStart, mEnd; private long mFadingStartTime; private RectF mTempRectF; private static final int FADE_OUT_DURATION = 400; public CorrectionHighlighter() { mPaint.setCompatibilityScaling(mTextView.getResources().getCompatibilityInfo().applicationScale); mPaint.setStyle(Paint.Style.FILL); } public void highlight(CorrectionInfo info) { mStart = info.getOffset(); mEnd = mStart + info.getNewText().length(); mFadingStartTime = SystemClock.uptimeMillis(); if (mStart < 0 || mEnd < 0) { stopAnimation(); } } public void draw(Canvas canvas, int cursorOffsetVertical) { if (updatePath() && updatePaint()) { if (cursorOffsetVertical != 0) { canvas.translate(0, cursorOffsetVertical); } canvas.drawPath(mPath, mPaint); if (cursorOffsetVertical != 0) { canvas.translate(0, -cursorOffsetVertical); } invalidate(true); // TODO invalidate cursor region only } else { stopAnimation(); invalidate(false); // TODO invalidate cursor region only } } private boolean updatePaint() { final long duration = SystemClock.uptimeMillis() - mFadingStartTime; if (duration > FADE_OUT_DURATION) return false; final float coef = 1.0f - (float) duration / FADE_OUT_DURATION; final int highlightColorAlpha = Color.alpha(mTextView.mHighlightColor); final int color = (mTextView.mHighlightColor & 0x00FFFFFF) + ((int) (highlightColorAlpha * coef) << 24); mPaint.setColor(color); return true; } private boolean updatePath() { final Layout layout = mTextView.getLayout(); if (layout == null) return false; // Update in case text is edited while the animation is run final int length = mTextView.getText().length(); int start = Math.min(length, mStart); int end = Math.min(length, mEnd); mPath.reset(); layout.getSelectionPath(start, end, mPath); return true; } private void invalidate(boolean delayed) { if (mTextView.getLayout() == null) return; if (mTempRectF == null) mTempRectF = new RectF(); mPath.computeBounds(mTempRectF, false); int left = mTextView.getCompoundPaddingLeft(); int top = mTextView.getExtendedPaddingTop() + mTextView.getVerticalOffset(true); if (delayed) { mTextView.postInvalidateOnAnimation(left + (int) mTempRectF.left, top + (int) mTempRectF.top, left + (int) mTempRectF.right, top + (int) mTempRectF.bottom); } else { mTextView.postInvalidate((int) mTempRectF.left, (int) mTempRectF.top, (int) mTempRectF.right, (int) mTempRectF.bottom); } } private void stopAnimation() { Editor.this.mCorrectionHighlighter = null; } } private static class ErrorPopup extends PopupWindow { private boolean mAbove = false; private final TextView mView; private int mPopupInlineErrorBackgroundId = 0; private int mPopupInlineErrorAboveBackgroundId = 0; ErrorPopup(TextView v, int width, int height) { super(v, width, height); mView = v; // Make sure the TextView has a background set as it will be used the first time it is // shown and positioned. Initialized with below background, which should have // dimensions identical to the above version for this to work (and is more likely). mPopupInlineErrorBackgroundId = getResourceId(mPopupInlineErrorBackgroundId, com.android.internal.R.styleable.Theme_errorMessageBackground); mView.setBackgroundResource(mPopupInlineErrorBackgroundId); } void fixDirection(boolean above) { mAbove = above; if (above) { mPopupInlineErrorAboveBackgroundId = getResourceId(mPopupInlineErrorAboveBackgroundId, com.android.internal.R.styleable.Theme_errorMessageAboveBackground); } else { mPopupInlineErrorBackgroundId = getResourceId(mPopupInlineErrorBackgroundId, com.android.internal.R.styleable.Theme_errorMessageBackground); } mView.setBackgroundResource(above ? mPopupInlineErrorAboveBackgroundId : mPopupInlineErrorBackgroundId); } private int getResourceId(int currentId, int index) { if (currentId == 0) { TypedArray styledAttributes = mView.getContext().obtainStyledAttributes(R.styleable.Theme); currentId = styledAttributes.getResourceId(index, 0); styledAttributes.recycle(); } return currentId; } @Override public void update(int x, int y, int w, int h, boolean force) { super.update(x, y, w, h, force); boolean above = isAboveAnchor(); if (above != mAbove) { fixDirection(above); } } } static class InputContentType { int imeOptions = EditorInfo.IME_NULL; @UnsupportedAppUsage String privateImeOptions; CharSequence imeActionLabel; int imeActionId; Bundle extras; OnEditorActionListener onEditorActionListener; boolean enterDown; LocaleList imeHintLocales; } static class InputMethodState { ExtractedTextRequest mExtractedTextRequest; final ExtractedText mExtractedText = new ExtractedText(); int mBatchEditNesting; boolean mCursorChanged; boolean mSelectionModeChanged; boolean mContentChanged; int mChangedStart, mChangedEnd, mChangedDelta; } /** * @return True iff (start, end) is a valid range within the text. */ private static boolean isValidRange(CharSequence text, int start, int end) { return 0 <= start && start <= end && end <= text.length(); } @VisibleForTesting public SuggestionsPopupWindow getSuggestionsPopupWindowForTesting() { return mSuggestionsPopupWindow; } /** * An InputFilter that monitors text input to maintain undo history. It does not modify the * text being typed (and hence always returns null from the filter() method). * * TODO: Make this span aware. */ public static class UndoInputFilter implements InputFilter { private final Editor mEditor; // Whether the current filter pass is directly caused by an end-user text edit. private boolean mIsUserEdit; // Whether the text field is handling an IME composition. Must be parceled in case the user // rotates the screen during composition. private boolean mHasComposition; // Whether the user is expanding or shortening the text private boolean mExpanding; // Whether the previous edit operation was in the current batch edit. private boolean mPreviousOperationWasInSameBatchEdit; public UndoInputFilter(Editor editor) { mEditor = editor; } public void saveInstanceState(Parcel parcel) { parcel.writeInt(mIsUserEdit ? 1 : 0); parcel.writeInt(mHasComposition ? 1 : 0); parcel.writeInt(mExpanding ? 1 : 0); parcel.writeInt(mPreviousOperationWasInSameBatchEdit ? 1 : 0); } public void restoreInstanceState(Parcel parcel) { mIsUserEdit = parcel.readInt() != 0; mHasComposition = parcel.readInt() != 0; mExpanding = parcel.readInt() != 0; mPreviousOperationWasInSameBatchEdit = parcel.readInt() != 0; } /** * Signals that a user-triggered edit is starting. */ public void beginBatchEdit() { if (DEBUG_UNDO) Log.d(TAG, "beginBatchEdit"); mIsUserEdit = true; } public void endBatchEdit() { if (DEBUG_UNDO) Log.d(TAG, "endBatchEdit"); mIsUserEdit = false; mPreviousOperationWasInSameBatchEdit = false; } @Override public CharSequence filter(CharSequence source, int start, int end, Spanned dest, int dstart, int dend) { if (DEBUG_UNDO) { Log.d(TAG, "filter: source=" + source + " (" + start + "-" + end + ") " + "dest=" + dest + " (" + dstart + "-" + dend + ")"); } // Check to see if this edit should be tracked for undo. if (!canUndoEdit(source, start, end, dest, dstart, dend)) { return null; } final boolean hadComposition = mHasComposition; mHasComposition = isComposition(source); final boolean wasExpanding = mExpanding; boolean shouldCreateSeparateState = false; if ((end - start) != (dend - dstart)) { mExpanding = (end - start) > (dend - dstart); if (hadComposition && mExpanding != wasExpanding) { shouldCreateSeparateState = true; } } // Handle edit. handleEdit(source, start, end, dest, dstart, dend, shouldCreateSeparateState); return null; } void freezeLastEdit() { mEditor.mUndoManager.beginUpdate("Edit text"); EditOperation lastEdit = getLastEdit(); if (lastEdit != null) { lastEdit.mFrozen = true; } mEditor.mUndoManager.endUpdate(); } @Retention(RetentionPolicy.SOURCE) @IntDef(prefix = { "MERGE_EDIT_MODE_" }, value = { MERGE_EDIT_MODE_FORCE_MERGE, MERGE_EDIT_MODE_NEVER_MERGE, MERGE_EDIT_MODE_NORMAL }) private @interface MergeMode { } private static final int MERGE_EDIT_MODE_FORCE_MERGE = 0; private static final int MERGE_EDIT_MODE_NEVER_MERGE = 1; /** Use {@link EditOperation#mergeWith} to merge */ private static final int MERGE_EDIT_MODE_NORMAL = 2; private void handleEdit(CharSequence source, int start, int end, Spanned dest, int dstart, int dend, boolean shouldCreateSeparateState) { // An application may install a TextWatcher to provide additional modifications after // the initial input filters run (e.g. a credit card formatter that adds spaces to a // string). This results in multiple filter() calls for what the user considers to be // a single operation. Always undo the whole set of changes in one step. @MergeMode final int mergeMode; if (isInTextWatcher() || mPreviousOperationWasInSameBatchEdit) { mergeMode = MERGE_EDIT_MODE_FORCE_MERGE; } else if (shouldCreateSeparateState) { mergeMode = MERGE_EDIT_MODE_NEVER_MERGE; } else { mergeMode = MERGE_EDIT_MODE_NORMAL; } // Build a new operation with all the information from this edit. String newText = TextUtils.substring(source, start, end); String oldText = TextUtils.substring(dest, dstart, dend); EditOperation edit = new EditOperation(mEditor, oldText, dstart, newText, mHasComposition); if (mHasComposition && TextUtils.equals(edit.mNewText, edit.mOldText)) { return; } recordEdit(edit, mergeMode); } private EditOperation getLastEdit() { final UndoManager um = mEditor.mUndoManager; return um.getLastOperation(EditOperation.class, mEditor.mUndoOwner, UndoManager.MERGE_MODE_UNIQUE); } /** * Fetches the last undo operation and checks to see if a new edit should be merged into it. * If forceMerge is true then the new edit is always merged. */ private void recordEdit(EditOperation edit, @MergeMode int mergeMode) { // Fetch the last edit operation and attempt to merge in the new edit. final UndoManager um = mEditor.mUndoManager; um.beginUpdate("Edit text"); EditOperation lastEdit = getLastEdit(); if (lastEdit == null) { // Add this as the first edit. if (DEBUG_UNDO) Log.d(TAG, "filter: adding first op " + edit); um.addOperation(edit, UndoManager.MERGE_MODE_NONE); } else if (mergeMode == MERGE_EDIT_MODE_FORCE_MERGE) { // Forced merges take priority because they could be the result of a non-user-edit // change and this case should not create a new undo operation. if (DEBUG_UNDO) Log.d(TAG, "filter: force merge " + edit); lastEdit.forceMergeWith(edit); } else if (!mIsUserEdit) { // An application directly modified the Editable outside of a text edit. Treat this // as a new change and don't attempt to merge. if (DEBUG_UNDO) Log.d(TAG, "non-user edit, new op " + edit); um.commitState(mEditor.mUndoOwner); um.addOperation(edit, UndoManager.MERGE_MODE_NONE); } else if (mergeMode == MERGE_EDIT_MODE_NORMAL && lastEdit.mergeWith(edit)) { // Merge succeeded, nothing else to do. if (DEBUG_UNDO) Log.d(TAG, "filter: merge succeeded, created " + lastEdit); } else { // Could not merge with the last edit, so commit the last edit and add this edit. if (DEBUG_UNDO) Log.d(TAG, "filter: merge failed, adding " + edit); um.commitState(mEditor.mUndoOwner); um.addOperation(edit, UndoManager.MERGE_MODE_NONE); } mPreviousOperationWasInSameBatchEdit = mIsUserEdit; um.endUpdate(); } private boolean canUndoEdit(CharSequence source, int start, int end, Spanned dest, int dstart, int dend) { if (!mEditor.mAllowUndo) { if (DEBUG_UNDO) Log.d(TAG, "filter: undo is disabled"); return false; } if (mEditor.mUndoManager.isInUndo()) { if (DEBUG_UNDO) Log.d(TAG, "filter: skipping, currently performing undo/redo"); return false; } // Text filters run before input operations are applied. However, some input operations // are invalid and will throw exceptions when applied. This is common in tests. Don't // attempt to undo invalid operations. if (!isValidRange(source, start, end) || !isValidRange(dest, dstart, dend)) { if (DEBUG_UNDO) Log.d(TAG, "filter: invalid op"); return false; } // Earlier filters can rewrite input to be a no-op, for example due to a length limit // on an input field. Skip no-op changes. if (start == end && dstart == dend) { if (DEBUG_UNDO) Log.d(TAG, "filter: skipping no-op"); return false; } return true; } private static boolean isComposition(CharSequence source) { if (!(source instanceof Spannable)) { return false; } // This is a composition edit if the source has a non-zero-length composing span. Spannable text = (Spannable) source; int composeBegin = EditableInputConnection.getComposingSpanStart(text); int composeEnd = EditableInputConnection.getComposingSpanEnd(text); return composeBegin < composeEnd; } private boolean isInTextWatcher() { CharSequence text = mEditor.mTextView.getText(); return (text instanceof SpannableStringBuilder) && ((SpannableStringBuilder) text).getTextWatcherDepth() > 0; } } /** * An operation to undo a single "edit" to a text view. */ public static class EditOperation extends UndoOperation<Editor> { private static final int TYPE_INSERT = 0; private static final int TYPE_DELETE = 1; private static final int TYPE_REPLACE = 2; private int mType; private String mOldText; private String mNewText; private int mStart; private int mOldCursorPos; private int mNewCursorPos; private boolean mFrozen; private boolean mIsComposition; /** * Constructs an edit operation from a text input operation on editor that replaces the * oldText starting at dstart with newText. */ public EditOperation(Editor editor, String oldText, int dstart, String newText, boolean isComposition) { super(editor.mUndoOwner); mOldText = oldText; mNewText = newText; // Determine the type of the edit. if (mNewText.length() > 0 && mOldText.length() == 0) { mType = TYPE_INSERT; } else if (mNewText.length() == 0 && mOldText.length() > 0) { mType = TYPE_DELETE; } else { mType = TYPE_REPLACE; } mStart = dstart; // Store cursor data. mOldCursorPos = editor.mTextView.getSelectionStart(); mNewCursorPos = dstart + mNewText.length(); mIsComposition = isComposition; } public EditOperation(Parcel src, ClassLoader loader) { super(src, loader); mType = src.readInt(); mOldText = src.readString(); mNewText = src.readString(); mStart = src.readInt(); mOldCursorPos = src.readInt(); mNewCursorPos = src.readInt(); mFrozen = src.readInt() == 1; mIsComposition = src.readInt() == 1; } @Override public void writeToParcel(Parcel dest, int flags) { dest.writeInt(mType); dest.writeString(mOldText); dest.writeString(mNewText); dest.writeInt(mStart); dest.writeInt(mOldCursorPos); dest.writeInt(mNewCursorPos); dest.writeInt(mFrozen ? 1 : 0); dest.writeInt(mIsComposition ? 1 : 0); } private int getNewTextEnd() { return mStart + mNewText.length(); } private int getOldTextEnd() { return mStart + mOldText.length(); } @Override public void commit() { } @Override public void undo() { if (DEBUG_UNDO) Log.d(TAG, "undo"); // Remove the new text and insert the old. Editor editor = getOwnerData(); Editable text = (Editable) editor.mTextView.getText(); modifyText(text, mStart, getNewTextEnd(), mOldText, mStart, mOldCursorPos); } @Override public void redo() { if (DEBUG_UNDO) Log.d(TAG, "redo"); // Remove the old text and insert the new. Editor editor = getOwnerData(); Editable text = (Editable) editor.mTextView.getText(); modifyText(text, mStart, getOldTextEnd(), mNewText, mStart, mNewCursorPos); } /** * Attempts to merge this existing operation with a new edit. * @param edit The new edit operation. * @return If the merge succeeded, returns true. Otherwise returns false and leaves this * object unchanged. */ private boolean mergeWith(EditOperation edit) { if (DEBUG_UNDO) { Log.d(TAG, "mergeWith old " + this); Log.d(TAG, "mergeWith new " + edit); } if (mFrozen) { return false; } switch (mType) { case TYPE_INSERT: return mergeInsertWith(edit); case TYPE_DELETE: return mergeDeleteWith(edit); case TYPE_REPLACE: return mergeReplaceWith(edit); default: return false; } } private boolean mergeInsertWith(EditOperation edit) { if (edit.mType == TYPE_INSERT) { // Merge insertions that are contiguous even when it's frozen. if (getNewTextEnd() != edit.mStart) { return false; } mNewText += edit.mNewText; mNewCursorPos = edit.mNewCursorPos; mFrozen = edit.mFrozen; mIsComposition = edit.mIsComposition; return true; } if (mIsComposition && edit.mType == TYPE_REPLACE && mStart <= edit.mStart && getNewTextEnd() >= edit.getOldTextEnd()) { // Merge insertion with replace as they can be single insertion. mNewText = mNewText.substring(0, edit.mStart - mStart) + edit.mNewText + mNewText.substring(edit.getOldTextEnd() - mStart, mNewText.length()); mNewCursorPos = edit.mNewCursorPos; mIsComposition = edit.mIsComposition; return true; } return false; } // TODO: Support forward delete. private boolean mergeDeleteWith(EditOperation edit) { // Only merge continuous deletes. if (edit.mType != TYPE_DELETE) { return false; } // Only merge deletions that are contiguous. if (mStart != edit.getOldTextEnd()) { return false; } mStart = edit.mStart; mOldText = edit.mOldText + mOldText; mNewCursorPos = edit.mNewCursorPos; mIsComposition = edit.mIsComposition; return true; } private boolean mergeReplaceWith(EditOperation edit) { if (edit.mType == TYPE_INSERT && getNewTextEnd() == edit.mStart) { // Merge with adjacent insert. mNewText += edit.mNewText; mNewCursorPos = edit.mNewCursorPos; return true; } if (!mIsComposition) { return false; } if (edit.mType == TYPE_DELETE && mStart <= edit.mStart && getNewTextEnd() >= edit.getOldTextEnd()) { // Merge with delete as they can be single operation. mNewText = mNewText.substring(0, edit.mStart - mStart) + mNewText.substring(edit.getOldTextEnd() - mStart, mNewText.length()); if (mNewText.isEmpty()) { mType = TYPE_DELETE; } mNewCursorPos = edit.mNewCursorPos; mIsComposition = edit.mIsComposition; return true; } if (edit.mType == TYPE_REPLACE && mStart == edit.mStart && TextUtils.equals(mNewText, edit.mOldText)) { // Merge with the replace that replaces the same region. mNewText = edit.mNewText; mNewCursorPos = edit.mNewCursorPos; mIsComposition = edit.mIsComposition; return true; } return false; } /** * Forcibly creates a single merged edit operation by simulating the entire text * contents being replaced. */ public void forceMergeWith(EditOperation edit) { if (DEBUG_UNDO) Log.d(TAG, "forceMerge"); if (mergeWith(edit)) { return; } Editor editor = getOwnerData(); // Copy the text of the current field. // NOTE: Using StringBuilder instead of SpannableStringBuilder would be somewhat faster, // but would require two parallel implementations of modifyText() because Editable and // StringBuilder do not share an interface for replace/delete/insert. Editable editable = (Editable) editor.mTextView.getText(); Editable originalText = new SpannableStringBuilder(editable.toString()); // Roll back the last operation. modifyText(originalText, mStart, getNewTextEnd(), mOldText, mStart, mOldCursorPos); // Clone the text again and apply the new operation. Editable finalText = new SpannableStringBuilder(editable.toString()); modifyText(finalText, edit.mStart, edit.getOldTextEnd(), edit.mNewText, edit.mStart, edit.mNewCursorPos); // Convert this operation into a replace operation. mType = TYPE_REPLACE; mNewText = finalText.toString(); mOldText = originalText.toString(); mStart = 0; mNewCursorPos = edit.mNewCursorPos; mIsComposition = edit.mIsComposition; // mOldCursorPos is unchanged. } private static void modifyText(Editable text, int deleteFrom, int deleteTo, CharSequence newText, int newTextInsertAt, int newCursorPos) { // Apply the edit if it is still valid. if (isValidRange(text, deleteFrom, deleteTo) && newTextInsertAt <= text.length() - (deleteTo - deleteFrom)) { if (deleteFrom != deleteTo) { text.delete(deleteFrom, deleteTo); } if (newText.length() != 0) { text.insert(newTextInsertAt, newText); } } // Restore the cursor position. If there wasn't an old cursor (newCursorPos == -1) then // don't explicitly set it and rely on SpannableStringBuilder to position it. // TODO: Select all the text that was undone. if (0 <= newCursorPos && newCursorPos <= text.length()) { Selection.setSelection(text, newCursorPos); } } private String getTypeString() { switch (mType) { case TYPE_INSERT: return "insert"; case TYPE_DELETE: return "delete"; case TYPE_REPLACE: return "replace"; default: return ""; } } @Override public String toString() { return "[mType=" + getTypeString() + ", " + "mOldText=" + mOldText + ", " + "mNewText=" + mNewText + ", " + "mStart=" + mStart + ", " + "mOldCursorPos=" + mOldCursorPos + ", " + "mNewCursorPos=" + mNewCursorPos + ", " + "mFrozen=" + mFrozen + ", " + "mIsComposition=" + mIsComposition + "]"; } public static final Parcelable.ClassLoaderCreator<EditOperation> CREATOR = new Parcelable.ClassLoaderCreator<EditOperation>() { @Override public EditOperation createFromParcel(Parcel in) { return new EditOperation(in, null); } @Override public EditOperation createFromParcel(Parcel in, ClassLoader loader) { return new EditOperation(in, loader); } @Override public EditOperation[] newArray(int size) { return new EditOperation[size]; } }; } /** * A helper for enabling and handling "PROCESS_TEXT" menu actions. * These allow external applications to plug into currently selected text. */ static final class ProcessTextIntentActionsHandler { private final Editor mEditor; private final TextView mTextView; private final Context mContext; private final PackageManager mPackageManager; private final String mPackageName; private final SparseArray<Intent> mAccessibilityIntents = new SparseArray<>(); private final SparseArray<AccessibilityNodeInfo.AccessibilityAction> mAccessibilityActions = new SparseArray<>(); private final List<ResolveInfo> mSupportedActivities = new ArrayList<>(); private ProcessTextIntentActionsHandler(Editor editor) { mEditor = Preconditions.checkNotNull(editor); mTextView = Preconditions.checkNotNull(mEditor.mTextView); mContext = Preconditions.checkNotNull(mTextView.getContext()); mPackageManager = Preconditions.checkNotNull(mContext.getPackageManager()); mPackageName = Preconditions.checkNotNull(mContext.getPackageName()); } /** * Adds "PROCESS_TEXT" menu items to the specified menu. */ public void onInitializeMenu(Menu menu) { loadSupportedActivities(); final int size = mSupportedActivities.size(); for (int i = 0; i < size; i++) { final ResolveInfo resolveInfo = mSupportedActivities.get(i); menu.add(Menu.NONE, Menu.NONE, Editor.MENU_ITEM_ORDER_PROCESS_TEXT_INTENT_ACTIONS_START + i, getLabel(resolveInfo)).setIntent(createProcessTextIntentForResolveInfo(resolveInfo)) .setShowAsAction(MenuItem.SHOW_AS_ACTION_NEVER); } } /** * Performs a "PROCESS_TEXT" action if there is one associated with the specified * menu item. * * @return True if the action was performed, false otherwise. */ public boolean performMenuItemAction(MenuItem item) { return fireIntent(item.getIntent()); } /** * Initializes and caches "PROCESS_TEXT" accessibility actions. */ public void initializeAccessibilityActions() { mAccessibilityIntents.clear(); mAccessibilityActions.clear(); int i = 0; loadSupportedActivities(); for (ResolveInfo resolveInfo : mSupportedActivities) { int actionId = TextView.ACCESSIBILITY_ACTION_PROCESS_TEXT_START_ID + i++; mAccessibilityActions.put(actionId, new AccessibilityNodeInfo.AccessibilityAction(actionId, getLabel(resolveInfo))); mAccessibilityIntents.put(actionId, createProcessTextIntentForResolveInfo(resolveInfo)); } } /** * Adds "PROCESS_TEXT" accessibility actions to the specified accessibility node info. * NOTE: This needs a prior call to {@link #initializeAccessibilityActions()} to make the * latest accessibility actions available for this call. */ public void onInitializeAccessibilityNodeInfo(AccessibilityNodeInfo nodeInfo) { for (int i = 0; i < mAccessibilityActions.size(); i++) { nodeInfo.addAction(mAccessibilityActions.valueAt(i)); } } /** * Performs a "PROCESS_TEXT" action if there is one associated with the specified * accessibility action id. * * @return True if the action was performed, false otherwise. */ public boolean performAccessibilityAction(int actionId) { return fireIntent(mAccessibilityIntents.get(actionId)); } private boolean fireIntent(Intent intent) { if (intent != null && Intent.ACTION_PROCESS_TEXT.equals(intent.getAction())) { String selectedText = mTextView.getSelectedText(); selectedText = TextUtils.trimToParcelableSize(selectedText); intent.putExtra(Intent.EXTRA_PROCESS_TEXT, selectedText); mEditor.mPreserveSelection = true; mTextView.startActivityForResult(intent, TextView.PROCESS_TEXT_REQUEST_CODE); return true; } return false; } private void loadSupportedActivities() { mSupportedActivities.clear(); if (!mContext.canStartActivityForResult()) { return; } PackageManager packageManager = mTextView.getContext().getPackageManager(); List<ResolveInfo> unfiltered = packageManager.queryIntentActivities(createProcessTextIntent(), 0); for (ResolveInfo info : unfiltered) { if (isSupportedActivity(info)) { mSupportedActivities.add(info); } } } private boolean isSupportedActivity(ResolveInfo info) { return mPackageName.equals(info.activityInfo.packageName) || info.activityInfo.exported && (info.activityInfo.permission == null || mContext.checkSelfPermission( info.activityInfo.permission) == PackageManager.PERMISSION_GRANTED); } private Intent createProcessTextIntentForResolveInfo(ResolveInfo info) { return createProcessTextIntent() .putExtra(Intent.EXTRA_PROCESS_TEXT_READONLY, !mTextView.isTextEditable()) .setClassName(info.activityInfo.packageName, info.activityInfo.name); } private Intent createProcessTextIntent() { return new Intent().setAction(Intent.ACTION_PROCESS_TEXT).setType("text/plain"); } private CharSequence getLabel(ResolveInfo resolveInfo) { return resolveInfo.loadLabel(mPackageManager); } } }