Java tutorial
/* * Copyright (C) 2006 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package android.widget; import static android.view.accessibility.AccessibilityNodeInfo.EXTRA_DATA_TEXT_CHARACTER_LOCATION_ARG_LENGTH; import static android.view.accessibility.AccessibilityNodeInfo.EXTRA_DATA_TEXT_CHARACTER_LOCATION_ARG_START_INDEX; import static android.view.accessibility.AccessibilityNodeInfo.EXTRA_DATA_TEXT_CHARACTER_LOCATION_KEY; import static android.view.inputmethod.CursorAnchorInfo.FLAG_HAS_VISIBLE_REGION; import android.R; import android.annotation.CheckResult; import android.annotation.ColorInt; import android.annotation.DrawableRes; import android.annotation.FloatRange; import android.annotation.IntDef; import android.annotation.IntRange; import android.annotation.NonNull; import android.annotation.Nullable; import android.annotation.Px; import android.annotation.Size; import android.annotation.StringRes; import android.annotation.StyleRes; import android.annotation.UnsupportedAppUsage; import android.annotation.XmlRes; import android.app.Activity; import android.app.PendingIntent; import android.app.assist.AssistStructure; import android.content.ClipData; import android.content.ClipDescription; import android.content.ClipboardManager; import android.content.Context; import android.content.Intent; import android.content.UndoManager; import android.content.res.ColorStateList; import android.content.res.CompatibilityInfo; import android.content.res.Configuration; import android.content.res.ResourceId; import android.content.res.Resources; import android.content.res.TypedArray; import android.content.res.XmlResourceParser; import android.graphics.BaseCanvas; import android.graphics.Canvas; import android.graphics.Insets; import android.graphics.Paint; import android.graphics.Paint.FontMetricsInt; import android.graphics.Path; import android.graphics.PorterDuff; import android.graphics.Rect; import android.graphics.RectF; import android.graphics.Typeface; import android.graphics.drawable.Drawable; import android.graphics.fonts.FontVariationAxis; import android.icu.text.DecimalFormatSymbols; import android.os.AsyncTask; import android.os.Build; import android.os.Build.VERSION_CODES; 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.BoringLayout; import android.text.DynamicLayout; import android.text.Editable; import android.text.GetChars; import android.text.GraphicsOperations; import android.text.InputFilter; import android.text.InputType; import android.text.Layout; import android.text.ParcelableSpan; import android.text.PrecomputedText; import android.text.Selection; import android.text.SpanWatcher; import android.text.Spannable; import android.text.SpannableStringBuilder; import android.text.Spanned; import android.text.SpannedString; import android.text.StaticLayout; import android.text.TextDirectionHeuristic; import android.text.TextDirectionHeuristics; import android.text.TextPaint; import android.text.TextUtils; import android.text.TextUtils.TruncateAt; import android.text.TextWatcher; import android.text.method.AllCapsTransformationMethod; import android.text.method.ArrowKeyMovementMethod; import android.text.method.DateKeyListener; import android.text.method.DateTimeKeyListener; import android.text.method.DialerKeyListener; import android.text.method.DigitsKeyListener; import android.text.method.KeyListener; import android.text.method.LinkMovementMethod; import android.text.method.MetaKeyKeyListener; import android.text.method.MovementMethod; import android.text.method.PasswordTransformationMethod; import android.text.method.SingleLineTransformationMethod; import android.text.method.TextKeyListener; import android.text.method.TimeKeyListener; import android.text.method.TransformationMethod; import android.text.method.TransformationMethod2; import android.text.method.WordIterator; import android.text.style.CharacterStyle; import android.text.style.ClickableSpan; import android.text.style.ParagraphStyle; import android.text.style.SpellCheckSpan; import android.text.style.SuggestionSpan; import android.text.style.URLSpan; import android.text.style.UpdateAppearance; import android.text.util.Linkify; import android.util.AttributeSet; import android.util.DisplayMetrics; import android.util.IntArray; import android.util.Log; import android.util.SparseIntArray; import android.util.TypedValue; import android.view.AccessibilityIterators.TextSegmentIterator; import android.view.ActionMode; import android.view.Choreographer; import android.view.ContextMenu; import android.view.DragEvent; import android.view.Gravity; import android.view.HapticFeedbackConstants; import android.view.InputDevice; import android.view.KeyCharacterMap; import android.view.KeyEvent; import android.view.MotionEvent; import android.view.PointerIcon; import android.view.View; import android.view.ViewConfiguration; import android.view.ViewDebug; import android.view.ViewGroup.LayoutParams; import android.view.ViewHierarchyEncoder; import android.view.ViewParent; import android.view.ViewRootImpl; import android.view.ViewStructure; import android.view.ViewTreeObserver; import android.view.accessibility.AccessibilityEvent; import android.view.accessibility.AccessibilityManager; import android.view.accessibility.AccessibilityNodeInfo; import android.view.animation.AnimationUtils; import android.view.autofill.AutofillManager; import android.view.autofill.AutofillValue; import android.view.inputmethod.BaseInputConnection; import android.view.inputmethod.CompletionInfo; 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.TextClassificationContext; import android.view.textclassifier.TextClassificationManager; import android.view.textclassifier.TextClassifier; import android.view.textclassifier.TextLinks; import android.view.textservice.SpellCheckerSubtype; import android.view.textservice.TextServicesManager; import android.widget.RemoteViews.RemoteView; 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.FastMath; import com.android.internal.util.Preconditions; import com.android.internal.widget.EditableInputConnection; import libcore.util.EmptyArray; import org.xmlpull.v1.XmlPullParserException; import java.io.IOException; import java.lang.annotation.Retention; import java.lang.annotation.RetentionPolicy; import java.lang.ref.WeakReference; import java.util.ArrayList; import java.util.Arrays; import java.util.Locale; import java.util.concurrent.CompletableFuture; import java.util.concurrent.TimeUnit; import java.util.function.Consumer; import java.util.function.Supplier; /** * A user interface element that displays text to the user. * To provide user-editable text, see {@link EditText}. * <p> * The following code sample shows a typical use, with an XML layout * and code to modify the contents of the text view: * </p> * <pre> * <LinearLayout xmlns:android="http://schemas.android.com/apk/res/android" android:layout_width="match_parent" android:layout_height="match_parent"> * <TextView * android:id="@+id/text_view_id" * android:layout_height="wrap_content" * android:layout_width="wrap_content" * android:text="@string/hello" /> * </LinearLayout> * </pre> * <p> * This code sample demonstrates how to modify the contents of the text view * defined in the previous XML layout: * </p> * <pre> * public class MainActivity extends Activity { * * protected void onCreate(Bundle savedInstanceState) { * super.onCreate(savedInstanceState); * setContentView(R.layout.activity_main); * final TextView helloTextView = (TextView) findViewById(R.id.text_view_id); * helloTextView.setText(R.string.user_greeting); * } * } * </pre> * <p> * To customize the appearance of TextView, see <a href="https://developer.android.com/guide/topics/ui/themes.html">Styles and Themes</a>. * </p> * <p> * <b>XML attributes</b> * <p> * See {@link android.R.styleable#TextView TextView Attributes}, * {@link android.R.styleable#View View Attributes} * * @attr ref android.R.styleable#TextView_text * @attr ref android.R.styleable#TextView_bufferType * @attr ref android.R.styleable#TextView_hint * @attr ref android.R.styleable#TextView_textColor * @attr ref android.R.styleable#TextView_textColorHighlight * @attr ref android.R.styleable#TextView_textColorHint * @attr ref android.R.styleable#TextView_textAppearance * @attr ref android.R.styleable#TextView_textColorLink * @attr ref android.R.styleable#TextView_textSize * @attr ref android.R.styleable#TextView_textScaleX * @attr ref android.R.styleable#TextView_fontFamily * @attr ref android.R.styleable#TextView_typeface * @attr ref android.R.styleable#TextView_textStyle * @attr ref android.R.styleable#TextView_cursorVisible * @attr ref android.R.styleable#TextView_maxLines * @attr ref android.R.styleable#TextView_maxHeight * @attr ref android.R.styleable#TextView_lines * @attr ref android.R.styleable#TextView_height * @attr ref android.R.styleable#TextView_minLines * @attr ref android.R.styleable#TextView_minHeight * @attr ref android.R.styleable#TextView_maxEms * @attr ref android.R.styleable#TextView_maxWidth * @attr ref android.R.styleable#TextView_ems * @attr ref android.R.styleable#TextView_width * @attr ref android.R.styleable#TextView_minEms * @attr ref android.R.styleable#TextView_minWidth * @attr ref android.R.styleable#TextView_gravity * @attr ref android.R.styleable#TextView_scrollHorizontally * @attr ref android.R.styleable#TextView_password * @attr ref android.R.styleable#TextView_singleLine * @attr ref android.R.styleable#TextView_selectAllOnFocus * @attr ref android.R.styleable#TextView_includeFontPadding * @attr ref android.R.styleable#TextView_maxLength * @attr ref android.R.styleable#TextView_shadowColor * @attr ref android.R.styleable#TextView_shadowDx * @attr ref android.R.styleable#TextView_shadowDy * @attr ref android.R.styleable#TextView_shadowRadius * @attr ref android.R.styleable#TextView_autoLink * @attr ref android.R.styleable#TextView_linksClickable * @attr ref android.R.styleable#TextView_numeric * @attr ref android.R.styleable#TextView_digits * @attr ref android.R.styleable#TextView_phoneNumber * @attr ref android.R.styleable#TextView_inputMethod * @attr ref android.R.styleable#TextView_capitalize * @attr ref android.R.styleable#TextView_autoText * @attr ref android.R.styleable#TextView_editable * @attr ref android.R.styleable#TextView_freezesText * @attr ref android.R.styleable#TextView_ellipsize * @attr ref android.R.styleable#TextView_drawableTop * @attr ref android.R.styleable#TextView_drawableBottom * @attr ref android.R.styleable#TextView_drawableRight * @attr ref android.R.styleable#TextView_drawableLeft * @attr ref android.R.styleable#TextView_drawableStart * @attr ref android.R.styleable#TextView_drawableEnd * @attr ref android.R.styleable#TextView_drawablePadding * @attr ref android.R.styleable#TextView_drawableTint * @attr ref android.R.styleable#TextView_drawableTintMode * @attr ref android.R.styleable#TextView_lineSpacingExtra * @attr ref android.R.styleable#TextView_lineSpacingMultiplier * @attr ref android.R.styleable#TextView_justificationMode * @attr ref android.R.styleable#TextView_marqueeRepeatLimit * @attr ref android.R.styleable#TextView_inputType * @attr ref android.R.styleable#TextView_imeOptions * @attr ref android.R.styleable#TextView_privateImeOptions * @attr ref android.R.styleable#TextView_imeActionLabel * @attr ref android.R.styleable#TextView_imeActionId * @attr ref android.R.styleable#TextView_editorExtras * @attr ref android.R.styleable#TextView_elegantTextHeight * @attr ref android.R.styleable#TextView_fallbackLineSpacing * @attr ref android.R.styleable#TextView_letterSpacing * @attr ref android.R.styleable#TextView_fontFeatureSettings * @attr ref android.R.styleable#TextView_breakStrategy * @attr ref android.R.styleable#TextView_hyphenationFrequency * @attr ref android.R.styleable#TextView_autoSizeTextType * @attr ref android.R.styleable#TextView_autoSizeMinTextSize * @attr ref android.R.styleable#TextView_autoSizeMaxTextSize * @attr ref android.R.styleable#TextView_autoSizeStepGranularity * @attr ref android.R.styleable#TextView_autoSizePresetSizes */ @RemoteView public class TextView extends View implements ViewTreeObserver.OnPreDrawListener { static final String LOG_TAG = "TextView"; static final boolean DEBUG_EXTRACT = false; private static final float[] TEMP_POSITION = new float[2]; // Enum for the "typeface" XML parameter. // TODO: How can we get this from the XML instead of hardcoding it here? /** @hide */ @IntDef(value = { DEFAULT_TYPEFACE, SANS, SERIF, MONOSPACE }) @Retention(RetentionPolicy.SOURCE) public @interface XMLTypefaceAttr { } private static final int DEFAULT_TYPEFACE = -1; private static final int SANS = 1; private static final int SERIF = 2; private static final int MONOSPACE = 3; // Enum for the "ellipsize" XML parameter. private static final int ELLIPSIZE_NOT_SET = -1; private static final int ELLIPSIZE_NONE = 0; private static final int ELLIPSIZE_START = 1; private static final int ELLIPSIZE_MIDDLE = 2; private static final int ELLIPSIZE_END = 3; private static final int ELLIPSIZE_MARQUEE = 4; // Bitfield for the "numeric" XML parameter. // TODO: How can we get this from the XML instead of hardcoding it here? private static final int SIGNED = 2; private static final int DECIMAL = 4; /** * Draw marquee text with fading edges as usual */ private static final int MARQUEE_FADE_NORMAL = 0; /** * Draw marquee text as ellipsize end while inactive instead of with the fade. * (Useful for devices where the fade can be expensive if overdone) */ private static final int MARQUEE_FADE_SWITCH_SHOW_ELLIPSIS = 1; /** * Draw marquee text with fading edges because it is currently active/animating. */ private static final int MARQUEE_FADE_SWITCH_SHOW_FADE = 2; @UnsupportedAppUsage private static final int LINES = 1; private static final int EMS = LINES; private static final int PIXELS = 2; private static final RectF TEMP_RECTF = new RectF(); /** @hide */ static final int VERY_WIDE = 1024 * 1024; // XXX should be much larger private static final int ANIMATED_SCROLL_GAP = 250; private static final InputFilter[] NO_FILTERS = new InputFilter[0]; private static final Spanned EMPTY_SPANNED = new SpannedString(""); private static final int CHANGE_WATCHER_PRIORITY = 100; // New state used to change background based on whether this TextView is multiline. private static final int[] MULTILINE_STATE_SET = { R.attr.state_multiline }; // Accessibility action to share selected text. private static final int ACCESSIBILITY_ACTION_SHARE = 0x10000000; /** * @hide */ // Accessibility action start id for "process text" actions. static final int ACCESSIBILITY_ACTION_PROCESS_TEXT_START_ID = 0x10000100; /** * @hide */ static final int PROCESS_TEXT_REQUEST_CODE = 100; /** * Return code of {@link #doKeyDown}. */ private static final int KEY_EVENT_NOT_HANDLED = 0; private static final int KEY_EVENT_HANDLED = -1; private static final int KEY_DOWN_HANDLED_BY_KEY_LISTENER = 1; private static final int KEY_DOWN_HANDLED_BY_MOVEMENT_METHOD = 2; private static final int FLOATING_TOOLBAR_SELECT_ALL_REFRESH_DELAY = 500; // System wide time for last cut, copy or text changed action. static long sLastCutCopyOrTextChangedTime; private ColorStateList mTextColor; private ColorStateList mHintTextColor; private ColorStateList mLinkTextColor; @ViewDebug.ExportedProperty(category = "text") @UnsupportedAppUsage private int mCurTextColor; @UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.P, trackingBug = 115609023) private int mCurHintTextColor; private boolean mFreezesText; @UnsupportedAppUsage private Editable.Factory mEditableFactory = Editable.Factory.getInstance(); @UnsupportedAppUsage private Spannable.Factory mSpannableFactory = Spannable.Factory.getInstance(); @UnsupportedAppUsage private float mShadowRadius; @UnsupportedAppUsage private float mShadowDx; @UnsupportedAppUsage private float mShadowDy; private int mShadowColor; private boolean mPreDrawRegistered; private boolean mPreDrawListenerDetached; private TextClassifier mTextClassifier; private TextClassifier mTextClassificationSession; // A flag to prevent repeated movements from escaping the enclosing text view. The idea here is // that if a user is holding down a movement key to traverse text, we shouldn't also traverse // the view hierarchy. On the other hand, if the user is using the movement key to traverse // views (i.e. the first movement was to traverse out of this view, or this view was traversed // into by the user holding the movement key down) then we shouldn't prevent the focus from // changing. private boolean mPreventDefaultMovement; private TextUtils.TruncateAt mEllipsize; static class Drawables { static final int LEFT = 0; static final int TOP = 1; static final int RIGHT = 2; static final int BOTTOM = 3; static final int DRAWABLE_NONE = -1; static final int DRAWABLE_RIGHT = 0; static final int DRAWABLE_LEFT = 1; final Rect mCompoundRect = new Rect(); final Drawable[] mShowing = new Drawable[4]; ColorStateList mTintList; PorterDuff.Mode mTintMode; boolean mHasTint; boolean mHasTintMode; Drawable mDrawableStart, mDrawableEnd, mDrawableError, mDrawableTemp; Drawable mDrawableLeftInitial, mDrawableRightInitial; boolean mIsRtlCompatibilityMode; boolean mOverride; int mDrawableSizeTop, mDrawableSizeBottom, mDrawableSizeLeft, mDrawableSizeRight, mDrawableSizeStart, mDrawableSizeEnd, mDrawableSizeError, mDrawableSizeTemp; int mDrawableWidthTop, mDrawableWidthBottom, mDrawableHeightLeft, mDrawableHeightRight, mDrawableHeightStart, mDrawableHeightEnd, mDrawableHeightError, mDrawableHeightTemp; int mDrawablePadding; int mDrawableSaved = DRAWABLE_NONE; public Drawables(Context context) { final int targetSdkVersion = context.getApplicationInfo().targetSdkVersion; mIsRtlCompatibilityMode = targetSdkVersion < VERSION_CODES.JELLY_BEAN_MR1 || !context.getApplicationInfo().hasRtlSupport(); mOverride = false; } /** * @return {@code true} if this object contains metadata that needs to * be retained, {@code false} otherwise */ public boolean hasMetadata() { return mDrawablePadding != 0 || mHasTintMode || mHasTint; } /** * Updates the list of displayed drawables to account for the current * layout direction. * * @param layoutDirection the current layout direction * @return {@code true} if the displayed drawables changed */ public boolean resolveWithLayoutDirection(int layoutDirection) { final Drawable previousLeft = mShowing[Drawables.LEFT]; final Drawable previousRight = mShowing[Drawables.RIGHT]; // First reset "left" and "right" drawables to their initial values mShowing[Drawables.LEFT] = mDrawableLeftInitial; mShowing[Drawables.RIGHT] = mDrawableRightInitial; if (mIsRtlCompatibilityMode) { // Use "start" drawable as "left" drawable if the "left" drawable was not defined if (mDrawableStart != null && mShowing[Drawables.LEFT] == null) { mShowing[Drawables.LEFT] = mDrawableStart; mDrawableSizeLeft = mDrawableSizeStart; mDrawableHeightLeft = mDrawableHeightStart; } // Use "end" drawable as "right" drawable if the "right" drawable was not defined if (mDrawableEnd != null && mShowing[Drawables.RIGHT] == null) { mShowing[Drawables.RIGHT] = mDrawableEnd; mDrawableSizeRight = mDrawableSizeEnd; mDrawableHeightRight = mDrawableHeightEnd; } } else { // JB-MR1+ normal case: "start" / "end" drawables are overriding "left" / "right" // drawable if and only if they have been defined switch (layoutDirection) { case LAYOUT_DIRECTION_RTL: if (mOverride) { mShowing[Drawables.RIGHT] = mDrawableStart; mDrawableSizeRight = mDrawableSizeStart; mDrawableHeightRight = mDrawableHeightStart; mShowing[Drawables.LEFT] = mDrawableEnd; mDrawableSizeLeft = mDrawableSizeEnd; mDrawableHeightLeft = mDrawableHeightEnd; } break; case LAYOUT_DIRECTION_LTR: default: if (mOverride) { mShowing[Drawables.LEFT] = mDrawableStart; mDrawableSizeLeft = mDrawableSizeStart; mDrawableHeightLeft = mDrawableHeightStart; mShowing[Drawables.RIGHT] = mDrawableEnd; mDrawableSizeRight = mDrawableSizeEnd; mDrawableHeightRight = mDrawableHeightEnd; } break; } } applyErrorDrawableIfNeeded(layoutDirection); return mShowing[Drawables.LEFT] != previousLeft || mShowing[Drawables.RIGHT] != previousRight; } public void setErrorDrawable(Drawable dr, TextView tv) { if (mDrawableError != dr && mDrawableError != null) { mDrawableError.setCallback(null); } mDrawableError = dr; if (mDrawableError != null) { final Rect compoundRect = mCompoundRect; final int[] state = tv.getDrawableState(); mDrawableError.setState(state); mDrawableError.copyBounds(compoundRect); mDrawableError.setCallback(tv); mDrawableSizeError = compoundRect.width(); mDrawableHeightError = compoundRect.height(); } else { mDrawableSizeError = mDrawableHeightError = 0; } } private void applyErrorDrawableIfNeeded(int layoutDirection) { // first restore the initial state if needed switch (mDrawableSaved) { case DRAWABLE_LEFT: mShowing[Drawables.LEFT] = mDrawableTemp; mDrawableSizeLeft = mDrawableSizeTemp; mDrawableHeightLeft = mDrawableHeightTemp; break; case DRAWABLE_RIGHT: mShowing[Drawables.RIGHT] = mDrawableTemp; mDrawableSizeRight = mDrawableSizeTemp; mDrawableHeightRight = mDrawableHeightTemp; break; case DRAWABLE_NONE: default: } // then, if needed, assign the Error drawable to the correct location if (mDrawableError != null) { switch (layoutDirection) { case LAYOUT_DIRECTION_RTL: mDrawableSaved = DRAWABLE_LEFT; mDrawableTemp = mShowing[Drawables.LEFT]; mDrawableSizeTemp = mDrawableSizeLeft; mDrawableHeightTemp = mDrawableHeightLeft; mShowing[Drawables.LEFT] = mDrawableError; mDrawableSizeLeft = mDrawableSizeError; mDrawableHeightLeft = mDrawableHeightError; break; case LAYOUT_DIRECTION_LTR: default: mDrawableSaved = DRAWABLE_RIGHT; mDrawableTemp = mShowing[Drawables.RIGHT]; mDrawableSizeTemp = mDrawableSizeRight; mDrawableHeightTemp = mDrawableHeightRight; mShowing[Drawables.RIGHT] = mDrawableError; mDrawableSizeRight = mDrawableSizeError; mDrawableHeightRight = mDrawableHeightError; break; } } } } @UnsupportedAppUsage Drawables mDrawables; @UnsupportedAppUsage private CharWrapper mCharWrapper; @UnsupportedAppUsage private Marquee mMarquee; @UnsupportedAppUsage private boolean mRestartMarquee; private int mMarqueeRepeatLimit = 3; private int mLastLayoutDirection = -1; /** * On some devices the fading edges add a performance penalty if used * extensively in the same layout. This mode indicates how the marquee * is currently being shown, if applicable. (mEllipsize will == MARQUEE) */ @UnsupportedAppUsage private int mMarqueeFadeMode = MARQUEE_FADE_NORMAL; /** * When mMarqueeFadeMode is not MARQUEE_FADE_NORMAL, this stores * the layout that should be used when the mode switches. */ @UnsupportedAppUsage private Layout mSavedMarqueeModeLayout; // Do not update following mText/mSpannable/mPrecomputed except for setTextInternal() @ViewDebug.ExportedProperty(category = "text") @UnsupportedAppUsage private @Nullable CharSequence mText; private @Nullable Spannable mSpannable; private @Nullable PrecomputedText mPrecomputed; @UnsupportedAppUsage private CharSequence mTransformed; @UnsupportedAppUsage private BufferType mBufferType = BufferType.NORMAL; private CharSequence mHint; @UnsupportedAppUsage private Layout mHintLayout; private MovementMethod mMovement; private TransformationMethod mTransformation; @UnsupportedAppUsage private boolean mAllowTransformationLengthChange; @UnsupportedAppUsage private ChangeWatcher mChangeWatcher; @UnsupportedAppUsage private ArrayList<TextWatcher> mListeners; // display attributes @UnsupportedAppUsage private final TextPaint mTextPaint; @UnsupportedAppUsage private boolean mUserSetTextScaleX; @UnsupportedAppUsage private Layout mLayout; private boolean mLocalesChanged = false; // True if setKeyListener() has been explicitly called private boolean mListenerChanged = false; // True if internationalized input should be used for numbers and date and time. private final boolean mUseInternationalizedInput; // True if fallback fonts that end up getting used should be allowed to affect line spacing. /* package */ boolean mUseFallbackLineSpacing; @ViewDebug.ExportedProperty(category = "text") @UnsupportedAppUsage private int mGravity = Gravity.TOP | Gravity.START; @UnsupportedAppUsage private boolean mHorizontallyScrolling; private int mAutoLinkMask; private boolean mLinksClickable = true; @UnsupportedAppUsage private float mSpacingMult = 1.0f; @UnsupportedAppUsage private float mSpacingAdd = 0.0f; private int mBreakStrategy; private int mHyphenationFrequency; private int mJustificationMode; @UnsupportedAppUsage private int mMaximum = Integer.MAX_VALUE; @UnsupportedAppUsage private int mMaxMode = LINES; @UnsupportedAppUsage private int mMinimum = 0; @UnsupportedAppUsage private int mMinMode = LINES; @UnsupportedAppUsage private int mOldMaximum = mMaximum; @UnsupportedAppUsage private int mOldMaxMode = mMaxMode; @UnsupportedAppUsage private int mMaxWidth = Integer.MAX_VALUE; @UnsupportedAppUsage private int mMaxWidthMode = PIXELS; @UnsupportedAppUsage private int mMinWidth = 0; @UnsupportedAppUsage private int mMinWidthMode = PIXELS; @UnsupportedAppUsage private boolean mSingleLine; @UnsupportedAppUsage private int mDesiredHeightAtMeasure = -1; @UnsupportedAppUsage private boolean mIncludePad = true; private int mDeferScroll = -1; // tmp primitives, so we don't alloc them on each draw private Rect mTempRect; private long mLastScroll; private Scroller mScroller; private TextPaint mTempTextPaint; @UnsupportedAppUsage private BoringLayout.Metrics mBoring; @UnsupportedAppUsage private BoringLayout.Metrics mHintBoring; @UnsupportedAppUsage private BoringLayout mSavedLayout; @UnsupportedAppUsage private BoringLayout mSavedHintLayout; @UnsupportedAppUsage private TextDirectionHeuristic mTextDir; private InputFilter[] mFilters = NO_FILTERS; private volatile Locale mCurrentSpellCheckerLocaleCache; // It is possible to have a selection even when mEditor is null (programmatically set, like when // a link is pressed). These highlight-related fields do not go in mEditor. @UnsupportedAppUsage int mHighlightColor = 0x6633B5E5; private Path mHighlightPath; @UnsupportedAppUsage private final Paint mHighlightPaint; @UnsupportedAppUsage private boolean mHighlightPathBogus = true; // Although these fields are specific to editable text, they are not added to Editor because // they are defined by the TextView's style and are theme-dependent. @UnsupportedAppUsage int mCursorDrawableRes; // These six fields, could be moved to Editor, since we know their default values and we // could condition the creation of the Editor to a non standard value. This is however // brittle since the hardcoded values here (such as // com.android.internal.R.drawable.text_select_handle_left) would have to be updated if the // default style is modified. @UnsupportedAppUsage int mTextSelectHandleLeftRes; @UnsupportedAppUsage int mTextSelectHandleRightRes; @UnsupportedAppUsage int mTextSelectHandleRes; int mTextEditSuggestionItemLayout; int mTextEditSuggestionContainerLayout; int mTextEditSuggestionHighlightStyle; /** * {@link EditText} specific data, created on demand when one of the Editor fields is used. * See {@link #createEditorIfNeeded()}. */ @UnsupportedAppUsage private Editor mEditor; private static final int DEVICE_PROVISIONED_UNKNOWN = 0; private static final int DEVICE_PROVISIONED_NO = 1; private static final int DEVICE_PROVISIONED_YES = 2; /** * Some special options such as sharing selected text should only be shown if the device * is provisioned. Only check the provisioned state once for a given view instance. */ private int mDeviceProvisionedState = DEVICE_PROVISIONED_UNKNOWN; /** * The TextView does not auto-size text (default). */ public static final int AUTO_SIZE_TEXT_TYPE_NONE = 0; /** * The TextView scales text size both horizontally and vertically to fit within the * container. */ public static final int AUTO_SIZE_TEXT_TYPE_UNIFORM = 1; /** @hide */ @IntDef(prefix = { "AUTO_SIZE_TEXT_TYPE_" }, value = { AUTO_SIZE_TEXT_TYPE_NONE, AUTO_SIZE_TEXT_TYPE_UNIFORM }) @Retention(RetentionPolicy.SOURCE) public @interface AutoSizeTextType { } // Default minimum size for auto-sizing text in scaled pixels. private static final int DEFAULT_AUTO_SIZE_MIN_TEXT_SIZE_IN_SP = 12; // Default maximum size for auto-sizing text in scaled pixels. private static final int DEFAULT_AUTO_SIZE_MAX_TEXT_SIZE_IN_SP = 112; // Default value for the step size in pixels. private static final int DEFAULT_AUTO_SIZE_GRANULARITY_IN_PX = 1; // Use this to specify that any of the auto-size configuration int values have not been set. private static final float UNSET_AUTO_SIZE_UNIFORM_CONFIGURATION_VALUE = -1f; // Auto-size text type. private int mAutoSizeTextType = AUTO_SIZE_TEXT_TYPE_NONE; // Specify if auto-size text is needed. private boolean mNeedsAutoSizeText = false; // Step size for auto-sizing in pixels. private float mAutoSizeStepGranularityInPx = UNSET_AUTO_SIZE_UNIFORM_CONFIGURATION_VALUE; // Minimum text size for auto-sizing in pixels. private float mAutoSizeMinTextSizeInPx = UNSET_AUTO_SIZE_UNIFORM_CONFIGURATION_VALUE; // Maximum text size for auto-sizing in pixels. private float mAutoSizeMaxTextSizeInPx = UNSET_AUTO_SIZE_UNIFORM_CONFIGURATION_VALUE; // Contains a (specified or computed) distinct sorted set of text sizes in pixels to pick from // when auto-sizing text. private int[] mAutoSizeTextSizesInPx = EmptyArray.INT; // Specifies whether auto-size should use the provided auto size steps set or if it should // build the steps set using mAutoSizeMinTextSizeInPx, mAutoSizeMaxTextSizeInPx and // mAutoSizeStepGranularityInPx. private boolean mHasPresetAutoSizeValues = false; // Autofill-related attributes // // Indicates whether the text was set statically or dynamically, so it can be used to // sanitize autofill requests. private boolean mTextSetFromXmlOrResourceId = false; // Resource id used to set the text. private @StringRes int mTextId = ResourceId.ID_NULL; // Last value used on AFM.notifyValueChanged(), used to optimize autofill workflow by avoiding // calls when the value did not change private CharSequence mLastValueSentToAutofillManager; // // End of autofill-related attributes /** * Kick-start the font cache for the zygote process (to pay the cost of * initializing freetype for our default font only once). * @hide */ public static void preloadFontCache() { Paint p = new Paint(); p.setAntiAlias(true); // Ensure that the Typeface is loaded here. // Typically, Typeface is preloaded by zygote but not on all devices, e.g. Android Auto. // So, sets Typeface.DEFAULT explicitly here for ensuring that the Typeface is loaded here // since Paint.measureText can not be called without Typeface static initializer. p.setTypeface(Typeface.DEFAULT); // We don't care about the result, just the side-effect of measuring. p.measureText("H"); } /** * Interface definition for a callback to be invoked when an action is * performed on the editor. */ public interface OnEditorActionListener { /** * Called when an action is being performed. * * @param v The view that was clicked. * @param actionId Identifier of the action. This will be either the * identifier you supplied, or {@link EditorInfo#IME_NULL * EditorInfo.IME_NULL} if being called due to the enter key * being pressed. * @param event If triggered by an enter key, this is the event; * otherwise, this is null. * @return Return true if you have consumed the action, else false. */ boolean onEditorAction(TextView v, int actionId, KeyEvent event); } public TextView(Context context) { this(context, null); } public TextView(Context context, @Nullable AttributeSet attrs) { this(context, attrs, com.android.internal.R.attr.textViewStyle); } public TextView(Context context, @Nullable AttributeSet attrs, int defStyleAttr) { this(context, attrs, defStyleAttr, 0); } @SuppressWarnings("deprecation") public TextView(Context context, @Nullable AttributeSet attrs, int defStyleAttr, int defStyleRes) { super(context, attrs, defStyleAttr, defStyleRes); // TextView is important by default, unless app developer overrode attribute. if (getImportantForAutofill() == IMPORTANT_FOR_AUTOFILL_AUTO) { setImportantForAutofill(IMPORTANT_FOR_AUTOFILL_YES); } setTextInternal(""); final Resources res = getResources(); final CompatibilityInfo compat = res.getCompatibilityInfo(); mTextPaint = new TextPaint(Paint.ANTI_ALIAS_FLAG); mTextPaint.density = res.getDisplayMetrics().density; mTextPaint.setCompatibilityScaling(compat.applicationScale); mHighlightPaint = new Paint(Paint.ANTI_ALIAS_FLAG); mHighlightPaint.setCompatibilityScaling(compat.applicationScale); mMovement = getDefaultMovementMethod(); mTransformation = null; final TextAppearanceAttributes attributes = new TextAppearanceAttributes(); attributes.mTextColor = ColorStateList.valueOf(0xFF000000); attributes.mTextSize = 15; mBreakStrategy = Layout.BREAK_STRATEGY_SIMPLE; mHyphenationFrequency = Layout.HYPHENATION_FREQUENCY_NONE; mJustificationMode = Layout.JUSTIFICATION_MODE_NONE; final Resources.Theme theme = context.getTheme(); /* * Look the appearance up without checking first if it exists because * almost every TextView has one and it greatly simplifies the logic * to be able to parse the appearance first and then let specific tags * for this View override it. */ TypedArray a = theme.obtainStyledAttributes(attrs, com.android.internal.R.styleable.TextViewAppearance, defStyleAttr, defStyleRes); TypedArray appearance = null; int ap = a.getResourceId(com.android.internal.R.styleable.TextViewAppearance_textAppearance, -1); a.recycle(); if (ap != -1) { appearance = theme.obtainStyledAttributes(ap, com.android.internal.R.styleable.TextAppearance); } if (appearance != null) { readTextAppearance(context, appearance, attributes, false /* styleArray */); attributes.mFontFamilyExplicit = false; appearance.recycle(); } boolean editable = getDefaultEditable(); CharSequence inputMethod = null; int numeric = 0; CharSequence digits = null; boolean phone = false; boolean autotext = false; int autocap = -1; int buffertype = 0; boolean selectallonfocus = false; Drawable drawableLeft = null, drawableTop = null, drawableRight = null, drawableBottom = null, drawableStart = null, drawableEnd = null; ColorStateList drawableTint = null; PorterDuff.Mode drawableTintMode = null; int drawablePadding = 0; int ellipsize = ELLIPSIZE_NOT_SET; boolean singleLine = false; int maxlength = -1; CharSequence text = ""; CharSequence hint = null; boolean password = false; float autoSizeMinTextSizeInPx = UNSET_AUTO_SIZE_UNIFORM_CONFIGURATION_VALUE; float autoSizeMaxTextSizeInPx = UNSET_AUTO_SIZE_UNIFORM_CONFIGURATION_VALUE; float autoSizeStepGranularityInPx = UNSET_AUTO_SIZE_UNIFORM_CONFIGURATION_VALUE; int inputType = EditorInfo.TYPE_NULL; a = theme.obtainStyledAttributes(attrs, com.android.internal.R.styleable.TextView, defStyleAttr, defStyleRes); int firstBaselineToTopHeight = -1; int lastBaselineToBottomHeight = -1; int lineHeight = -1; readTextAppearance(context, a, attributes, true /* styleArray */); int n = a.getIndexCount(); // Must set id in a temporary variable because it will be reset by setText() boolean textIsSetFromXml = false; for (int i = 0; i < n; i++) { int attr = a.getIndex(i); switch (attr) { case com.android.internal.R.styleable.TextView_editable: editable = a.getBoolean(attr, editable); break; case com.android.internal.R.styleable.TextView_inputMethod: inputMethod = a.getText(attr); break; case com.android.internal.R.styleable.TextView_numeric: numeric = a.getInt(attr, numeric); break; case com.android.internal.R.styleable.TextView_digits: digits = a.getText(attr); break; case com.android.internal.R.styleable.TextView_phoneNumber: phone = a.getBoolean(attr, phone); break; case com.android.internal.R.styleable.TextView_autoText: autotext = a.getBoolean(attr, autotext); break; case com.android.internal.R.styleable.TextView_capitalize: autocap = a.getInt(attr, autocap); break; case com.android.internal.R.styleable.TextView_bufferType: buffertype = a.getInt(attr, buffertype); break; case com.android.internal.R.styleable.TextView_selectAllOnFocus: selectallonfocus = a.getBoolean(attr, selectallonfocus); break; case com.android.internal.R.styleable.TextView_autoLink: mAutoLinkMask = a.getInt(attr, 0); break; case com.android.internal.R.styleable.TextView_linksClickable: mLinksClickable = a.getBoolean(attr, true); break; case com.android.internal.R.styleable.TextView_drawableLeft: drawableLeft = a.getDrawable(attr); break; case com.android.internal.R.styleable.TextView_drawableTop: drawableTop = a.getDrawable(attr); break; case com.android.internal.R.styleable.TextView_drawableRight: drawableRight = a.getDrawable(attr); break; case com.android.internal.R.styleable.TextView_drawableBottom: drawableBottom = a.getDrawable(attr); break; case com.android.internal.R.styleable.TextView_drawableStart: drawableStart = a.getDrawable(attr); break; case com.android.internal.R.styleable.TextView_drawableEnd: drawableEnd = a.getDrawable(attr); break; case com.android.internal.R.styleable.TextView_drawableTint: drawableTint = a.getColorStateList(attr); break; case com.android.internal.R.styleable.TextView_drawableTintMode: drawableTintMode = Drawable.parseTintMode(a.getInt(attr, -1), drawableTintMode); break; case com.android.internal.R.styleable.TextView_drawablePadding: drawablePadding = a.getDimensionPixelSize(attr, drawablePadding); break; case com.android.internal.R.styleable.TextView_maxLines: setMaxLines(a.getInt(attr, -1)); break; case com.android.internal.R.styleable.TextView_maxHeight: setMaxHeight(a.getDimensionPixelSize(attr, -1)); break; case com.android.internal.R.styleable.TextView_lines: setLines(a.getInt(attr, -1)); break; case com.android.internal.R.styleable.TextView_height: setHeight(a.getDimensionPixelSize(attr, -1)); break; case com.android.internal.R.styleable.TextView_minLines: setMinLines(a.getInt(attr, -1)); break; case com.android.internal.R.styleable.TextView_minHeight: setMinHeight(a.getDimensionPixelSize(attr, -1)); break; case com.android.internal.R.styleable.TextView_maxEms: setMaxEms(a.getInt(attr, -1)); break; case com.android.internal.R.styleable.TextView_maxWidth: setMaxWidth(a.getDimensionPixelSize(attr, -1)); break; case com.android.internal.R.styleable.TextView_ems: setEms(a.getInt(attr, -1)); break; case com.android.internal.R.styleable.TextView_width: setWidth(a.getDimensionPixelSize(attr, -1)); break; case com.android.internal.R.styleable.TextView_minEms: setMinEms(a.getInt(attr, -1)); break; case com.android.internal.R.styleable.TextView_minWidth: setMinWidth(a.getDimensionPixelSize(attr, -1)); break; case com.android.internal.R.styleable.TextView_gravity: setGravity(a.getInt(attr, -1)); break; case com.android.internal.R.styleable.TextView_hint: hint = a.getText(attr); break; case com.android.internal.R.styleable.TextView_text: textIsSetFromXml = true; mTextId = a.getResourceId(attr, ResourceId.ID_NULL); text = a.getText(attr); break; case com.android.internal.R.styleable.TextView_scrollHorizontally: if (a.getBoolean(attr, false)) { setHorizontallyScrolling(true); } break; case com.android.internal.R.styleable.TextView_singleLine: singleLine = a.getBoolean(attr, singleLine); break; case com.android.internal.R.styleable.TextView_ellipsize: ellipsize = a.getInt(attr, ellipsize); break; case com.android.internal.R.styleable.TextView_marqueeRepeatLimit: setMarqueeRepeatLimit(a.getInt(attr, mMarqueeRepeatLimit)); break; case com.android.internal.R.styleable.TextView_includeFontPadding: if (!a.getBoolean(attr, true)) { setIncludeFontPadding(false); } break; case com.android.internal.R.styleable.TextView_cursorVisible: if (!a.getBoolean(attr, true)) { setCursorVisible(false); } break; case com.android.internal.R.styleable.TextView_maxLength: maxlength = a.getInt(attr, -1); break; case com.android.internal.R.styleable.TextView_textScaleX: setTextScaleX(a.getFloat(attr, 1.0f)); break; case com.android.internal.R.styleable.TextView_freezesText: mFreezesText = a.getBoolean(attr, false); break; case com.android.internal.R.styleable.TextView_enabled: setEnabled(a.getBoolean(attr, isEnabled())); break; case com.android.internal.R.styleable.TextView_password: password = a.getBoolean(attr, password); break; case com.android.internal.R.styleable.TextView_lineSpacingExtra: mSpacingAdd = a.getDimensionPixelSize(attr, (int) mSpacingAdd); break; case com.android.internal.R.styleable.TextView_lineSpacingMultiplier: mSpacingMult = a.getFloat(attr, mSpacingMult); break; case com.android.internal.R.styleable.TextView_inputType: inputType = a.getInt(attr, EditorInfo.TYPE_NULL); break; case com.android.internal.R.styleable.TextView_allowUndo: createEditorIfNeeded(); mEditor.mAllowUndo = a.getBoolean(attr, true); break; case com.android.internal.R.styleable.TextView_imeOptions: createEditorIfNeeded(); mEditor.createInputContentTypeIfNeeded(); mEditor.mInputContentType.imeOptions = a.getInt(attr, mEditor.mInputContentType.imeOptions); break; case com.android.internal.R.styleable.TextView_imeActionLabel: createEditorIfNeeded(); mEditor.createInputContentTypeIfNeeded(); mEditor.mInputContentType.imeActionLabel = a.getText(attr); break; case com.android.internal.R.styleable.TextView_imeActionId: createEditorIfNeeded(); mEditor.createInputContentTypeIfNeeded(); mEditor.mInputContentType.imeActionId = a.getInt(attr, mEditor.mInputContentType.imeActionId); break; case com.android.internal.R.styleable.TextView_privateImeOptions: setPrivateImeOptions(a.getString(attr)); break; case com.android.internal.R.styleable.TextView_editorExtras: try { setInputExtras(a.getResourceId(attr, 0)); } catch (XmlPullParserException e) { Log.w(LOG_TAG, "Failure reading input extras", e); } catch (IOException e) { Log.w(LOG_TAG, "Failure reading input extras", e); } break; case com.android.internal.R.styleable.TextView_textCursorDrawable: mCursorDrawableRes = a.getResourceId(attr, 0); break; case com.android.internal.R.styleable.TextView_textSelectHandleLeft: mTextSelectHandleLeftRes = a.getResourceId(attr, 0); break; case com.android.internal.R.styleable.TextView_textSelectHandleRight: mTextSelectHandleRightRes = a.getResourceId(attr, 0); break; case com.android.internal.R.styleable.TextView_textSelectHandle: mTextSelectHandleRes = a.getResourceId(attr, 0); break; case com.android.internal.R.styleable.TextView_textEditSuggestionItemLayout: mTextEditSuggestionItemLayout = a.getResourceId(attr, 0); break; case com.android.internal.R.styleable.TextView_textEditSuggestionContainerLayout: mTextEditSuggestionContainerLayout = a.getResourceId(attr, 0); break; case com.android.internal.R.styleable.TextView_textEditSuggestionHighlightStyle: mTextEditSuggestionHighlightStyle = a.getResourceId(attr, 0); break; case com.android.internal.R.styleable.TextView_textIsSelectable: setTextIsSelectable(a.getBoolean(attr, false)); break; case com.android.internal.R.styleable.TextView_breakStrategy: mBreakStrategy = a.getInt(attr, Layout.BREAK_STRATEGY_SIMPLE); break; case com.android.internal.R.styleable.TextView_hyphenationFrequency: mHyphenationFrequency = a.getInt(attr, Layout.HYPHENATION_FREQUENCY_NONE); break; case com.android.internal.R.styleable.TextView_autoSizeTextType: mAutoSizeTextType = a.getInt(attr, AUTO_SIZE_TEXT_TYPE_NONE); break; case com.android.internal.R.styleable.TextView_autoSizeStepGranularity: autoSizeStepGranularityInPx = a.getDimension(attr, UNSET_AUTO_SIZE_UNIFORM_CONFIGURATION_VALUE); break; case com.android.internal.R.styleable.TextView_autoSizeMinTextSize: autoSizeMinTextSizeInPx = a.getDimension(attr, UNSET_AUTO_SIZE_UNIFORM_CONFIGURATION_VALUE); break; case com.android.internal.R.styleable.TextView_autoSizeMaxTextSize: autoSizeMaxTextSizeInPx = a.getDimension(attr, UNSET_AUTO_SIZE_UNIFORM_CONFIGURATION_VALUE); break; case com.android.internal.R.styleable.TextView_autoSizePresetSizes: final int autoSizeStepSizeArrayResId = a.getResourceId(attr, 0); if (autoSizeStepSizeArrayResId > 0) { final TypedArray autoSizePresetTextSizes = a.getResources() .obtainTypedArray(autoSizeStepSizeArrayResId); setupAutoSizeUniformPresetSizes(autoSizePresetTextSizes); autoSizePresetTextSizes.recycle(); } break; case com.android.internal.R.styleable.TextView_justificationMode: mJustificationMode = a.getInt(attr, Layout.JUSTIFICATION_MODE_NONE); break; case com.android.internal.R.styleable.TextView_firstBaselineToTopHeight: firstBaselineToTopHeight = a.getDimensionPixelSize(attr, -1); break; case com.android.internal.R.styleable.TextView_lastBaselineToBottomHeight: lastBaselineToBottomHeight = a.getDimensionPixelSize(attr, -1); break; case com.android.internal.R.styleable.TextView_lineHeight: lineHeight = a.getDimensionPixelSize(attr, -1); break; } } a.recycle(); BufferType bufferType = BufferType.EDITABLE; final int variation = inputType & (EditorInfo.TYPE_MASK_CLASS | EditorInfo.TYPE_MASK_VARIATION); final boolean passwordInputType = variation == (EditorInfo.TYPE_CLASS_TEXT | EditorInfo.TYPE_TEXT_VARIATION_PASSWORD); final boolean webPasswordInputType = variation == (EditorInfo.TYPE_CLASS_TEXT | EditorInfo.TYPE_TEXT_VARIATION_WEB_PASSWORD); final boolean numberPasswordInputType = variation == (EditorInfo.TYPE_CLASS_NUMBER | EditorInfo.TYPE_NUMBER_VARIATION_PASSWORD); final int targetSdkVersion = context.getApplicationInfo().targetSdkVersion; mUseInternationalizedInput = targetSdkVersion >= VERSION_CODES.O; mUseFallbackLineSpacing = targetSdkVersion >= VERSION_CODES.P; if (inputMethod != null) { Class<?> c; try { c = Class.forName(inputMethod.toString()); } catch (ClassNotFoundException ex) { throw new RuntimeException(ex); } try { createEditorIfNeeded(); mEditor.mKeyListener = (KeyListener) c.newInstance(); } catch (InstantiationException ex) { throw new RuntimeException(ex); } catch (IllegalAccessException ex) { throw new RuntimeException(ex); } try { mEditor.mInputType = inputType != EditorInfo.TYPE_NULL ? inputType : mEditor.mKeyListener.getInputType(); } catch (IncompatibleClassChangeError e) { mEditor.mInputType = EditorInfo.TYPE_CLASS_TEXT; } } else if (digits != null) { createEditorIfNeeded(); mEditor.mKeyListener = DigitsKeyListener.getInstance(digits.toString()); // If no input type was specified, we will default to generic // text, since we can't tell the IME about the set of digits // that was selected. mEditor.mInputType = inputType != EditorInfo.TYPE_NULL ? inputType : EditorInfo.TYPE_CLASS_TEXT; } else if (inputType != EditorInfo.TYPE_NULL) { setInputType(inputType, true); // If set, the input type overrides what was set using the deprecated singleLine flag. singleLine = !isMultilineInputType(inputType); } else if (phone) { createEditorIfNeeded(); mEditor.mKeyListener = DialerKeyListener.getInstance(); mEditor.mInputType = inputType = EditorInfo.TYPE_CLASS_PHONE; } else if (numeric != 0) { createEditorIfNeeded(); mEditor.mKeyListener = DigitsKeyListener.getInstance(null, // locale (numeric & SIGNED) != 0, (numeric & DECIMAL) != 0); inputType = mEditor.mKeyListener.getInputType(); mEditor.mInputType = inputType; } else if (autotext || autocap != -1) { TextKeyListener.Capitalize cap; inputType = EditorInfo.TYPE_CLASS_TEXT; switch (autocap) { case 1: cap = TextKeyListener.Capitalize.SENTENCES; inputType |= EditorInfo.TYPE_TEXT_FLAG_CAP_SENTENCES; break; case 2: cap = TextKeyListener.Capitalize.WORDS; inputType |= EditorInfo.TYPE_TEXT_FLAG_CAP_WORDS; break; case 3: cap = TextKeyListener.Capitalize.CHARACTERS; inputType |= EditorInfo.TYPE_TEXT_FLAG_CAP_CHARACTERS; break; default: cap = TextKeyListener.Capitalize.NONE; break; } createEditorIfNeeded(); mEditor.mKeyListener = TextKeyListener.getInstance(autotext, cap); mEditor.mInputType = inputType; } else if (editable) { createEditorIfNeeded(); mEditor.mKeyListener = TextKeyListener.getInstance(); mEditor.mInputType = EditorInfo.TYPE_CLASS_TEXT; } else if (isTextSelectable()) { // Prevent text changes from keyboard. if (mEditor != null) { mEditor.mKeyListener = null; mEditor.mInputType = EditorInfo.TYPE_NULL; } bufferType = BufferType.SPANNABLE; // So that selection can be changed using arrow keys and touch is handled. setMovementMethod(ArrowKeyMovementMethod.getInstance()); } else { if (mEditor != null) mEditor.mKeyListener = null; switch (buffertype) { case 0: bufferType = BufferType.NORMAL; break; case 1: bufferType = BufferType.SPANNABLE; break; case 2: bufferType = BufferType.EDITABLE; break; } } if (mEditor != null) { mEditor.adjustInputType(password, passwordInputType, webPasswordInputType, numberPasswordInputType); } if (selectallonfocus) { createEditorIfNeeded(); mEditor.mSelectAllOnFocus = true; if (bufferType == BufferType.NORMAL) { bufferType = BufferType.SPANNABLE; } } // Set up the tint (if needed) before setting the drawables so that it // gets applied correctly. if (drawableTint != null || drawableTintMode != null) { if (mDrawables == null) { mDrawables = new Drawables(context); } if (drawableTint != null) { mDrawables.mTintList = drawableTint; mDrawables.mHasTint = true; } if (drawableTintMode != null) { mDrawables.mTintMode = drawableTintMode; mDrawables.mHasTintMode = true; } } // This call will save the initial left/right drawables setCompoundDrawablesWithIntrinsicBounds(drawableLeft, drawableTop, drawableRight, drawableBottom); setRelativeDrawablesIfNeeded(drawableStart, drawableEnd); setCompoundDrawablePadding(drawablePadding); // Same as setSingleLine(), but make sure the transformation method and the maximum number // of lines of height are unchanged for multi-line TextViews. setInputTypeSingleLine(singleLine); applySingleLine(singleLine, singleLine, singleLine); if (singleLine && getKeyListener() == null && ellipsize == ELLIPSIZE_NOT_SET) { ellipsize = ELLIPSIZE_END; } switch (ellipsize) { case ELLIPSIZE_START: setEllipsize(TextUtils.TruncateAt.START); break; case ELLIPSIZE_MIDDLE: setEllipsize(TextUtils.TruncateAt.MIDDLE); break; case ELLIPSIZE_END: setEllipsize(TextUtils.TruncateAt.END); break; case ELLIPSIZE_MARQUEE: if (ViewConfiguration.get(context).isFadingMarqueeEnabled()) { setHorizontalFadingEdgeEnabled(true); mMarqueeFadeMode = MARQUEE_FADE_NORMAL; } else { setHorizontalFadingEdgeEnabled(false); mMarqueeFadeMode = MARQUEE_FADE_SWITCH_SHOW_ELLIPSIS; } setEllipsize(TextUtils.TruncateAt.MARQUEE); break; } final boolean isPassword = password || passwordInputType || webPasswordInputType || numberPasswordInputType; final boolean isMonospaceEnforced = isPassword || (mEditor != null && (mEditor.mInputType & (EditorInfo.TYPE_MASK_CLASS | EditorInfo.TYPE_MASK_VARIATION)) == (EditorInfo.TYPE_CLASS_TEXT | EditorInfo.TYPE_TEXT_VARIATION_PASSWORD)); if (isMonospaceEnforced) { attributes.mTypefaceIndex = MONOSPACE; } applyTextAppearance(attributes); if (isPassword) { setTransformationMethod(PasswordTransformationMethod.getInstance()); } if (maxlength >= 0) { setFilters(new InputFilter[] { new InputFilter.LengthFilter(maxlength) }); } else { setFilters(NO_FILTERS); } setText(text, bufferType); if (textIsSetFromXml) { mTextSetFromXmlOrResourceId = true; } if (hint != null) setHint(hint); /* * Views are not normally clickable unless specified to be. * However, TextViews that have input or movement methods *are* * clickable by default. By setting clickable here, we implicitly set focusable as well * if not overridden by the developer. */ a = context.obtainStyledAttributes(attrs, com.android.internal.R.styleable.View, defStyleAttr, defStyleRes); boolean canInputOrMove = (mMovement != null || getKeyListener() != null); boolean clickable = canInputOrMove || isClickable(); boolean longClickable = canInputOrMove || isLongClickable(); int focusable = getFocusable(); n = a.getIndexCount(); for (int i = 0; i < n; i++) { int attr = a.getIndex(i); switch (attr) { case com.android.internal.R.styleable.View_focusable: TypedValue val = new TypedValue(); if (a.getValue(attr, val)) { focusable = (val.type == TypedValue.TYPE_INT_BOOLEAN) ? (val.data == 0 ? NOT_FOCUSABLE : FOCUSABLE) : val.data; } break; case com.android.internal.R.styleable.View_clickable: clickable = a.getBoolean(attr, clickable); break; case com.android.internal.R.styleable.View_longClickable: longClickable = a.getBoolean(attr, longClickable); break; } } a.recycle(); // Some apps were relying on the undefined behavior of focusable winning over // focusableInTouchMode != focusable in TextViews if both were specified in XML (usually // when starting with EditText and setting only focusable=false). To keep those apps from // breaking, re-apply the focusable attribute here. if (focusable != getFocusable()) { setFocusable(focusable); } setClickable(clickable); setLongClickable(longClickable); if (mEditor != null) mEditor.prepareCursorControllers(); // If not explicitly specified this view is important for accessibility. if (getImportantForAccessibility() == IMPORTANT_FOR_ACCESSIBILITY_AUTO) { setImportantForAccessibility(IMPORTANT_FOR_ACCESSIBILITY_YES); } if (supportsAutoSizeText()) { if (mAutoSizeTextType == AUTO_SIZE_TEXT_TYPE_UNIFORM) { // If uniform auto-size has been specified but preset values have not been set then // replace the auto-size configuration values that have not been specified with the // defaults. if (!mHasPresetAutoSizeValues) { final DisplayMetrics displayMetrics = getResources().getDisplayMetrics(); if (autoSizeMinTextSizeInPx == UNSET_AUTO_SIZE_UNIFORM_CONFIGURATION_VALUE) { autoSizeMinTextSizeInPx = TypedValue.applyDimension(TypedValue.COMPLEX_UNIT_SP, DEFAULT_AUTO_SIZE_MIN_TEXT_SIZE_IN_SP, displayMetrics); } if (autoSizeMaxTextSizeInPx == UNSET_AUTO_SIZE_UNIFORM_CONFIGURATION_VALUE) { autoSizeMaxTextSizeInPx = TypedValue.applyDimension(TypedValue.COMPLEX_UNIT_SP, DEFAULT_AUTO_SIZE_MAX_TEXT_SIZE_IN_SP, displayMetrics); } if (autoSizeStepGranularityInPx == UNSET_AUTO_SIZE_UNIFORM_CONFIGURATION_VALUE) { autoSizeStepGranularityInPx = DEFAULT_AUTO_SIZE_GRANULARITY_IN_PX; } validateAndSetAutoSizeTextTypeUniformConfiguration(autoSizeMinTextSizeInPx, autoSizeMaxTextSizeInPx, autoSizeStepGranularityInPx); } setupAutoSizeText(); } } else { mAutoSizeTextType = AUTO_SIZE_TEXT_TYPE_NONE; } if (firstBaselineToTopHeight >= 0) { setFirstBaselineToTopHeight(firstBaselineToTopHeight); } if (lastBaselineToBottomHeight >= 0) { setLastBaselineToBottomHeight(lastBaselineToBottomHeight); } if (lineHeight >= 0) { setLineHeight(lineHeight); } } // Update mText and mPrecomputed private void setTextInternal(@Nullable CharSequence text) { mText = text; mSpannable = (text instanceof Spannable) ? (Spannable) text : null; mPrecomputed = (text instanceof PrecomputedText) ? (PrecomputedText) text : null; } /** * Specify whether this widget should automatically scale the text to try to perfectly fit * within the layout bounds by using the default auto-size configuration. * * @param autoSizeTextType the type of auto-size. Must be one of * {@link TextView#AUTO_SIZE_TEXT_TYPE_NONE} or * {@link TextView#AUTO_SIZE_TEXT_TYPE_UNIFORM} * * @throws IllegalArgumentException if <code>autoSizeTextType</code> is none of the types above. * * @attr ref android.R.styleable#TextView_autoSizeTextType * * @see #getAutoSizeTextType() */ public void setAutoSizeTextTypeWithDefaults(@AutoSizeTextType int autoSizeTextType) { if (supportsAutoSizeText()) { switch (autoSizeTextType) { case AUTO_SIZE_TEXT_TYPE_NONE: clearAutoSizeConfiguration(); break; case AUTO_SIZE_TEXT_TYPE_UNIFORM: final DisplayMetrics displayMetrics = getResources().getDisplayMetrics(); final float autoSizeMinTextSizeInPx = TypedValue.applyDimension(TypedValue.COMPLEX_UNIT_SP, DEFAULT_AUTO_SIZE_MIN_TEXT_SIZE_IN_SP, displayMetrics); final float autoSizeMaxTextSizeInPx = TypedValue.applyDimension(TypedValue.COMPLEX_UNIT_SP, DEFAULT_AUTO_SIZE_MAX_TEXT_SIZE_IN_SP, displayMetrics); validateAndSetAutoSizeTextTypeUniformConfiguration(autoSizeMinTextSizeInPx, autoSizeMaxTextSizeInPx, DEFAULT_AUTO_SIZE_GRANULARITY_IN_PX); if (setupAutoSizeText()) { autoSizeText(); invalidate(); } break; default: throw new IllegalArgumentException("Unknown auto-size text type: " + autoSizeTextType); } } } /** * Specify whether this widget should automatically scale the text to try to perfectly fit * within the layout bounds. If all the configuration params are valid the type of auto-size is * set to {@link #AUTO_SIZE_TEXT_TYPE_UNIFORM}. * * @param autoSizeMinTextSize the minimum text size available for auto-size * @param autoSizeMaxTextSize the maximum text size available for auto-size * @param autoSizeStepGranularity the auto-size step granularity. It is used in conjunction with * the minimum and maximum text size in order to build the set of * text sizes the system uses to choose from when auto-sizing * @param unit the desired dimension unit for all sizes above. See {@link TypedValue} for the * possible dimension units * * @throws IllegalArgumentException if any of the configuration params are invalid. * * @attr ref android.R.styleable#TextView_autoSizeTextType * @attr ref android.R.styleable#TextView_autoSizeMinTextSize * @attr ref android.R.styleable#TextView_autoSizeMaxTextSize * @attr ref android.R.styleable#TextView_autoSizeStepGranularity * * @see #setAutoSizeTextTypeWithDefaults(int) * @see #setAutoSizeTextTypeUniformWithPresetSizes(int[], int) * @see #getAutoSizeMinTextSize() * @see #getAutoSizeMaxTextSize() * @see #getAutoSizeStepGranularity() * @see #getAutoSizeTextAvailableSizes() */ public void setAutoSizeTextTypeUniformWithConfiguration(int autoSizeMinTextSize, int autoSizeMaxTextSize, int autoSizeStepGranularity, int unit) { if (supportsAutoSizeText()) { final DisplayMetrics displayMetrics = getResources().getDisplayMetrics(); final float autoSizeMinTextSizeInPx = TypedValue.applyDimension(unit, autoSizeMinTextSize, displayMetrics); final float autoSizeMaxTextSizeInPx = TypedValue.applyDimension(unit, autoSizeMaxTextSize, displayMetrics); final float autoSizeStepGranularityInPx = TypedValue.applyDimension(unit, autoSizeStepGranularity, displayMetrics); validateAndSetAutoSizeTextTypeUniformConfiguration(autoSizeMinTextSizeInPx, autoSizeMaxTextSizeInPx, autoSizeStepGranularityInPx); if (setupAutoSizeText()) { autoSizeText(); invalidate(); } } } /** * Specify whether this widget should automatically scale the text to try to perfectly fit * within the layout bounds. If at least one value from the <code>presetSizes</code> is valid * then the type of auto-size is set to {@link #AUTO_SIZE_TEXT_TYPE_UNIFORM}. * * @param presetSizes an {@code int} array of sizes in pixels * @param unit the desired dimension unit for the preset sizes above. See {@link TypedValue} for * the possible dimension units * * @throws IllegalArgumentException if all of the <code>presetSizes</code> are invalid. * * @attr ref android.R.styleable#TextView_autoSizeTextType * @attr ref android.R.styleable#TextView_autoSizePresetSizes * * @see #setAutoSizeTextTypeWithDefaults(int) * @see #setAutoSizeTextTypeUniformWithConfiguration(int, int, int, int) * @see #getAutoSizeMinTextSize() * @see #getAutoSizeMaxTextSize() * @see #getAutoSizeTextAvailableSizes() */ public void setAutoSizeTextTypeUniformWithPresetSizes(@NonNull int[] presetSizes, int unit) { if (supportsAutoSizeText()) { final int presetSizesLength = presetSizes.length; if (presetSizesLength > 0) { int[] presetSizesInPx = new int[presetSizesLength]; if (unit == TypedValue.COMPLEX_UNIT_PX) { presetSizesInPx = Arrays.copyOf(presetSizes, presetSizesLength); } else { final DisplayMetrics displayMetrics = getResources().getDisplayMetrics(); // Convert all to sizes to pixels. for (int i = 0; i < presetSizesLength; i++) { presetSizesInPx[i] = Math .round(TypedValue.applyDimension(unit, presetSizes[i], displayMetrics)); } } mAutoSizeTextSizesInPx = cleanupAutoSizePresetSizes(presetSizesInPx); if (!setupAutoSizeUniformPresetSizesConfiguration()) { throw new IllegalArgumentException( "None of the preset sizes is valid: " + Arrays.toString(presetSizes)); } } else { mHasPresetAutoSizeValues = false; } if (setupAutoSizeText()) { autoSizeText(); invalidate(); } } } /** * Returns the type of auto-size set for this widget. * * @return an {@code int} corresponding to one of the auto-size types: * {@link TextView#AUTO_SIZE_TEXT_TYPE_NONE} or * {@link TextView#AUTO_SIZE_TEXT_TYPE_UNIFORM} * * @attr ref android.R.styleable#TextView_autoSizeTextType * * @see #setAutoSizeTextTypeWithDefaults(int) * @see #setAutoSizeTextTypeUniformWithConfiguration(int, int, int, int) * @see #setAutoSizeTextTypeUniformWithPresetSizes(int[], int) */ @AutoSizeTextType public int getAutoSizeTextType() { return mAutoSizeTextType; } /** * @return the current auto-size step granularity in pixels. * * @attr ref android.R.styleable#TextView_autoSizeStepGranularity * * @see #setAutoSizeTextTypeUniformWithConfiguration(int, int, int, int) */ public int getAutoSizeStepGranularity() { return Math.round(mAutoSizeStepGranularityInPx); } /** * @return the current auto-size minimum text size in pixels (the default is 12sp). Note that * if auto-size has not been configured this function returns {@code -1}. * * @attr ref android.R.styleable#TextView_autoSizeMinTextSize * * @see #setAutoSizeTextTypeUniformWithConfiguration(int, int, int, int) * @see #setAutoSizeTextTypeUniformWithPresetSizes(int[], int) */ public int getAutoSizeMinTextSize() { return Math.round(mAutoSizeMinTextSizeInPx); } /** * @return the current auto-size maximum text size in pixels (the default is 112sp). Note that * if auto-size has not been configured this function returns {@code -1}. * * @attr ref android.R.styleable#TextView_autoSizeMaxTextSize * * @see #setAutoSizeTextTypeUniformWithConfiguration(int, int, int, int) * @see #setAutoSizeTextTypeUniformWithPresetSizes(int[], int) */ public int getAutoSizeMaxTextSize() { return Math.round(mAutoSizeMaxTextSizeInPx); } /** * @return the current auto-size {@code int} sizes array (in pixels). * * @see #setAutoSizeTextTypeUniformWithConfiguration(int, int, int, int) * @see #setAutoSizeTextTypeUniformWithPresetSizes(int[], int) */ public int[] getAutoSizeTextAvailableSizes() { return mAutoSizeTextSizesInPx; } private void setupAutoSizeUniformPresetSizes(TypedArray textSizes) { final int textSizesLength = textSizes.length(); final int[] parsedSizes = new int[textSizesLength]; if (textSizesLength > 0) { for (int i = 0; i < textSizesLength; i++) { parsedSizes[i] = textSizes.getDimensionPixelSize(i, -1); } mAutoSizeTextSizesInPx = cleanupAutoSizePresetSizes(parsedSizes); setupAutoSizeUniformPresetSizesConfiguration(); } } private boolean setupAutoSizeUniformPresetSizesConfiguration() { final int sizesLength = mAutoSizeTextSizesInPx.length; mHasPresetAutoSizeValues = sizesLength > 0; if (mHasPresetAutoSizeValues) { mAutoSizeTextType = AUTO_SIZE_TEXT_TYPE_UNIFORM; mAutoSizeMinTextSizeInPx = mAutoSizeTextSizesInPx[0]; mAutoSizeMaxTextSizeInPx = mAutoSizeTextSizesInPx[sizesLength - 1]; mAutoSizeStepGranularityInPx = UNSET_AUTO_SIZE_UNIFORM_CONFIGURATION_VALUE; } return mHasPresetAutoSizeValues; } /** * If all params are valid then save the auto-size configuration. * * @throws IllegalArgumentException if any of the params are invalid */ private void validateAndSetAutoSizeTextTypeUniformConfiguration(float autoSizeMinTextSizeInPx, float autoSizeMaxTextSizeInPx, float autoSizeStepGranularityInPx) { // First validate. if (autoSizeMinTextSizeInPx <= 0) { throw new IllegalArgumentException( "Minimum auto-size text size (" + autoSizeMinTextSizeInPx + "px) is less or equal to (0px)"); } if (autoSizeMaxTextSizeInPx <= autoSizeMinTextSizeInPx) { throw new IllegalArgumentException("Maximum auto-size text size (" + autoSizeMaxTextSizeInPx + "px) is less or equal to minimum auto-size " + "text size (" + autoSizeMinTextSizeInPx + "px)"); } if (autoSizeStepGranularityInPx <= 0) { throw new IllegalArgumentException("The auto-size step granularity (" + autoSizeStepGranularityInPx + "px) is less or equal to (0px)"); } // All good, persist the configuration. mAutoSizeTextType = AUTO_SIZE_TEXT_TYPE_UNIFORM; mAutoSizeMinTextSizeInPx = autoSizeMinTextSizeInPx; mAutoSizeMaxTextSizeInPx = autoSizeMaxTextSizeInPx; mAutoSizeStepGranularityInPx = autoSizeStepGranularityInPx; mHasPresetAutoSizeValues = false; } private void clearAutoSizeConfiguration() { mAutoSizeTextType = AUTO_SIZE_TEXT_TYPE_NONE; mAutoSizeMinTextSizeInPx = UNSET_AUTO_SIZE_UNIFORM_CONFIGURATION_VALUE; mAutoSizeMaxTextSizeInPx = UNSET_AUTO_SIZE_UNIFORM_CONFIGURATION_VALUE; mAutoSizeStepGranularityInPx = UNSET_AUTO_SIZE_UNIFORM_CONFIGURATION_VALUE; mAutoSizeTextSizesInPx = EmptyArray.INT; mNeedsAutoSizeText = false; } // Returns distinct sorted positive values. private int[] cleanupAutoSizePresetSizes(int[] presetValues) { final int presetValuesLength = presetValues.length; if (presetValuesLength == 0) { return presetValues; } Arrays.sort(presetValues); final IntArray uniqueValidSizes = new IntArray(); for (int i = 0; i < presetValuesLength; i++) { final int currentPresetValue = presetValues[i]; if (currentPresetValue > 0 && uniqueValidSizes.binarySearch(currentPresetValue) < 0) { uniqueValidSizes.add(currentPresetValue); } } return presetValuesLength == uniqueValidSizes.size() ? presetValues : uniqueValidSizes.toArray(); } private boolean setupAutoSizeText() { if (supportsAutoSizeText() && mAutoSizeTextType == AUTO_SIZE_TEXT_TYPE_UNIFORM) { // Calculate the sizes set based on minimum size, maximum size and step size if we do // not have a predefined set of sizes or if the current sizes array is empty. if (!mHasPresetAutoSizeValues || mAutoSizeTextSizesInPx.length == 0) { final int autoSizeValuesLength = ((int) Math.floor( (mAutoSizeMaxTextSizeInPx - mAutoSizeMinTextSizeInPx) / mAutoSizeStepGranularityInPx)) + 1; final int[] autoSizeTextSizesInPx = new int[autoSizeValuesLength]; for (int i = 0; i < autoSizeValuesLength; i++) { autoSizeTextSizesInPx[i] = Math .round(mAutoSizeMinTextSizeInPx + (i * mAutoSizeStepGranularityInPx)); } mAutoSizeTextSizesInPx = cleanupAutoSizePresetSizes(autoSizeTextSizesInPx); } mNeedsAutoSizeText = true; } else { mNeedsAutoSizeText = false; } return mNeedsAutoSizeText; } private int[] parseDimensionArray(TypedArray dimens) { if (dimens == null) { return null; } int[] result = new int[dimens.length()]; for (int i = 0; i < result.length; i++) { result[i] = dimens.getDimensionPixelSize(i, 0); } return result; } /** * @hide */ @Override public void onActivityResult(int requestCode, int resultCode, Intent data) { if (requestCode == PROCESS_TEXT_REQUEST_CODE) { if (resultCode == Activity.RESULT_OK && data != null) { CharSequence result = data.getCharSequenceExtra(Intent.EXTRA_PROCESS_TEXT); if (result != null) { if (isTextEditable()) { replaceSelectionWithText(result); if (mEditor != null) { mEditor.refreshTextActionMode(); } } else { if (result.length() > 0) { Toast.makeText(getContext(), String.valueOf(result), Toast.LENGTH_LONG).show(); } } } } else if (mSpannable != null) { // Reset the selection. Selection.setSelection(mSpannable, getSelectionEnd()); } } } /** * Sets the Typeface taking into account the given attributes. * * @param typeface a typeface * @param familyName family name string, e.g. "serif" * @param typefaceIndex an index of the typeface enum, e.g. SANS, SERIF. * @param style a typeface style * @param weight a weight value for the Typeface or -1 if not specified. */ private void setTypefaceFromAttrs(@Nullable Typeface typeface, @Nullable String familyName, @XMLTypefaceAttr int typefaceIndex, @Typeface.Style int style, @IntRange(from = -1, to = Typeface.MAX_WEIGHT) int weight) { if (typeface == null && familyName != null) { // Lookup normal Typeface from system font map. final Typeface normalTypeface = Typeface.create(familyName, Typeface.NORMAL); resolveStyleAndSetTypeface(normalTypeface, style, weight); } else if (typeface != null) { resolveStyleAndSetTypeface(typeface, style, weight); } else { // both typeface and familyName is null. switch (typefaceIndex) { case SANS: resolveStyleAndSetTypeface(Typeface.SANS_SERIF, style, weight); break; case SERIF: resolveStyleAndSetTypeface(Typeface.SERIF, style, weight); break; case MONOSPACE: resolveStyleAndSetTypeface(Typeface.MONOSPACE, style, weight); break; case DEFAULT_TYPEFACE: default: resolveStyleAndSetTypeface(null, style, weight); break; } } } private void resolveStyleAndSetTypeface(@NonNull Typeface typeface, @Typeface.Style int style, @IntRange(from = -1, to = Typeface.MAX_WEIGHT) int weight) { if (weight >= 0) { weight = Math.min(Typeface.MAX_WEIGHT, weight); final boolean italic = (style & Typeface.ITALIC) != 0; setTypeface(Typeface.create(typeface, weight, italic)); } else { setTypeface(typeface, style); } } private void setRelativeDrawablesIfNeeded(Drawable start, Drawable end) { boolean hasRelativeDrawables = (start != null) || (end != null); if (hasRelativeDrawables) { Drawables dr = mDrawables; if (dr == null) { mDrawables = dr = new Drawables(getContext()); } mDrawables.mOverride = true; final Rect compoundRect = dr.mCompoundRect; int[] state = getDrawableState(); if (start != null) { start.setBounds(0, 0, start.getIntrinsicWidth(), start.getIntrinsicHeight()); start.setState(state); start.copyBounds(compoundRect); start.setCallback(this); dr.mDrawableStart = start; dr.mDrawableSizeStart = compoundRect.width(); dr.mDrawableHeightStart = compoundRect.height(); } else { dr.mDrawableSizeStart = dr.mDrawableHeightStart = 0; } if (end != null) { end.setBounds(0, 0, end.getIntrinsicWidth(), end.getIntrinsicHeight()); end.setState(state); end.copyBounds(compoundRect); end.setCallback(this); dr.mDrawableEnd = end; dr.mDrawableSizeEnd = compoundRect.width(); dr.mDrawableHeightEnd = compoundRect.height(); } else { dr.mDrawableSizeEnd = dr.mDrawableHeightEnd = 0; } resetResolvedDrawables(); resolveDrawables(); applyCompoundDrawableTint(); } } @android.view.RemotableViewMethod @Override public void setEnabled(boolean enabled) { if (enabled == isEnabled()) { return; } if (!enabled) { // Hide the soft input if the currently active TextView is disabled InputMethodManager imm = InputMethodManager.peekInstance(); if (imm != null && imm.isActive(this)) { imm.hideSoftInputFromWindow(getWindowToken(), 0); } } super.setEnabled(enabled); if (enabled) { // Make sure IME is updated with current editor info. InputMethodManager imm = InputMethodManager.peekInstance(); if (imm != null) imm.restartInput(this); } // Will change text color if (mEditor != null) { mEditor.invalidateTextDisplayList(); mEditor.prepareCursorControllers(); // start or stop the cursor blinking as appropriate mEditor.makeBlink(); } } /** * Sets the typeface and style in which the text should be displayed, * and turns on the fake bold and italic bits in the Paint if the * Typeface that you provided does not have all the bits in the * style that you specified. * * @attr ref android.R.styleable#TextView_typeface * @attr ref android.R.styleable#TextView_textStyle */ public void setTypeface(@Nullable Typeface tf, @Typeface.Style int style) { if (style > 0) { if (tf == null) { tf = Typeface.defaultFromStyle(style); } else { tf = Typeface.create(tf, style); } setTypeface(tf); // now compute what (if any) algorithmic styling is needed int typefaceStyle = tf != null ? tf.getStyle() : 0; int need = style & ~typefaceStyle; mTextPaint.setFakeBoldText((need & Typeface.BOLD) != 0); mTextPaint.setTextSkewX((need & Typeface.ITALIC) != 0 ? -0.25f : 0); } else { mTextPaint.setFakeBoldText(false); mTextPaint.setTextSkewX(0); setTypeface(tf); } } /** * Subclasses override this to specify that they have a KeyListener * by default even if not specifically called for in the XML options. */ protected boolean getDefaultEditable() { return false; } /** * Subclasses override this to specify a default movement method. */ protected MovementMethod getDefaultMovementMethod() { return null; } /** * Return the text that TextView is displaying. If {@link #setText(CharSequence)} was called * with an argument of {@link android.widget.TextView.BufferType#SPANNABLE BufferType.SPANNABLE} * or {@link android.widget.TextView.BufferType#EDITABLE BufferType.EDITABLE}, you can cast * the return value from this method to Spannable or Editable, respectively. * * <p>The content of the return value should not be modified. If you want a modifiable one, you * should make your own copy first.</p> * * @return The text displayed by the text view. * @attr ref android.R.styleable#TextView_text */ @ViewDebug.CapturedViewProperty public CharSequence getText() { return mText; } /** * Returns the length, in characters, of the text managed by this TextView * @return The length of the text managed by the TextView in characters. */ public int length() { return mText.length(); } /** * Return the text that TextView is displaying as an Editable object. If the text is not * editable, null is returned. * * @see #getText */ public Editable getEditableText() { return (mText instanceof Editable) ? (Editable) mText : null; } /** * Gets the vertical distance between lines of text, in pixels. * Note that markup within the text can cause individual lines * to be taller or shorter than this height, and the layout may * contain additional first-or last-line padding. * @return The height of one standard line in pixels. */ public int getLineHeight() { return FastMath.round(mTextPaint.getFontMetricsInt(null) * mSpacingMult + mSpacingAdd); } /** * Gets the {@link android.text.Layout} that is currently being used to display the text. * This value can be null if the text or width has recently changed. * @return The Layout that is currently being used to display the text. */ public final Layout getLayout() { return mLayout; } /** * @return the {@link android.text.Layout} that is currently being used to * display the hint text. This can be null. */ @UnsupportedAppUsage final Layout getHintLayout() { return mHintLayout; } /** * Retrieve the {@link android.content.UndoManager} that is currently associated * with this TextView. By default there is no associated UndoManager, so null * is returned. One can be associated with the TextView through * {@link #setUndoManager(android.content.UndoManager, String)} * * @hide */ public final UndoManager getUndoManager() { // TODO: Consider supporting a global undo manager. throw new UnsupportedOperationException("not implemented"); } /** * @hide */ @VisibleForTesting public final Editor getEditorForTesting() { return mEditor; } /** * Associate an {@link android.content.UndoManager} with this TextView. Once * done, all edit operations on the TextView will result in appropriate * {@link android.content.UndoOperation} objects pushed on the given UndoManager's * stack. * * @param undoManager The {@link android.content.UndoManager} to associate with * this TextView, or null to clear any existing association. * @param tag String tag identifying this particular TextView owner in the * UndoManager. This is used to keep the correct association with the * {@link android.content.UndoOwner} of any operations inside of the UndoManager. * * @hide */ public final void setUndoManager(UndoManager undoManager, String tag) { // TODO: Consider supporting a global undo manager. An implementation will need to: // * createEditorIfNeeded() // * Promote to BufferType.EDITABLE if needed. // * Update the UndoManager and UndoOwner. // Likewise it will need to be able to restore the default UndoManager. throw new UnsupportedOperationException("not implemented"); } /** * Gets the current {@link KeyListener} for the TextView. * This will frequently be null for non-EditText TextViews. * @return the current key listener for this TextView. * * @attr ref android.R.styleable#TextView_numeric * @attr ref android.R.styleable#TextView_digits * @attr ref android.R.styleable#TextView_phoneNumber * @attr ref android.R.styleable#TextView_inputMethod * @attr ref android.R.styleable#TextView_capitalize * @attr ref android.R.styleable#TextView_autoText */ public final KeyListener getKeyListener() { return mEditor == null ? null : mEditor.mKeyListener; } /** * Sets the key listener to be used with this TextView. This can be null * to disallow user input. Note that this method has significant and * subtle interactions with soft keyboards and other input method: * see {@link KeyListener#getInputType() KeyListener.getInputType()} * for important details. Calling this method will replace the current * content type of the text view with the content type returned by the * key listener. * <p> * Be warned that if you want a TextView with a key listener or movement * method not to be focusable, or if you want a TextView without a * key listener or movement method to be focusable, you must call * {@link #setFocusable} again after calling this to get the focusability * back the way you want it. * * @attr ref android.R.styleable#TextView_numeric * @attr ref android.R.styleable#TextView_digits * @attr ref android.R.styleable#TextView_phoneNumber * @attr ref android.R.styleable#TextView_inputMethod * @attr ref android.R.styleable#TextView_capitalize * @attr ref android.R.styleable#TextView_autoText */ public void setKeyListener(KeyListener input) { mListenerChanged = true; setKeyListenerOnly(input); fixFocusableAndClickableSettings(); if (input != null) { createEditorIfNeeded(); setInputTypeFromEditor(); } else { if (mEditor != null) mEditor.mInputType = EditorInfo.TYPE_NULL; } InputMethodManager imm = InputMethodManager.peekInstance(); if (imm != null) imm.restartInput(this); } private void setInputTypeFromEditor() { try { mEditor.mInputType = mEditor.mKeyListener.getInputType(); } catch (IncompatibleClassChangeError e) { mEditor.mInputType = EditorInfo.TYPE_CLASS_TEXT; } // Change inputType, without affecting transformation. // No need to applySingleLine since mSingleLine is unchanged. setInputTypeSingleLine(mSingleLine); } private void setKeyListenerOnly(KeyListener input) { if (mEditor == null && input == null) return; // null is the default value createEditorIfNeeded(); if (mEditor.mKeyListener != input) { mEditor.mKeyListener = input; if (input != null && !(mText instanceof Editable)) { setText(mText); } setFilters((Editable) mText, mFilters); } } /** * Gets the {@link android.text.method.MovementMethod} being used for this TextView, * which provides positioning, scrolling, and text selection functionality. * This will frequently be null for non-EditText TextViews. * @return the movement method being used for this TextView. * @see android.text.method.MovementMethod */ public final MovementMethod getMovementMethod() { return mMovement; } /** * Sets the {@link android.text.method.MovementMethod} for handling arrow key movement * for this TextView. This can be null to disallow using the arrow keys to move the * cursor or scroll the view. * <p> * Be warned that if you want a TextView with a key listener or movement * method not to be focusable, or if you want a TextView without a * key listener or movement method to be focusable, you must call * {@link #setFocusable} again after calling this to get the focusability * back the way you want it. */ public final void setMovementMethod(MovementMethod movement) { if (mMovement != movement) { mMovement = movement; if (movement != null && mSpannable == null) { setText(mText); } fixFocusableAndClickableSettings(); // SelectionModifierCursorController depends on textCanBeSelected, which depends on // mMovement if (mEditor != null) mEditor.prepareCursorControllers(); } } private void fixFocusableAndClickableSettings() { if (mMovement != null || (mEditor != null && mEditor.mKeyListener != null)) { setFocusable(FOCUSABLE); setClickable(true); setLongClickable(true); } else { setFocusable(FOCUSABLE_AUTO); setClickable(false); setLongClickable(false); } } /** * Gets the current {@link android.text.method.TransformationMethod} for the TextView. * This is frequently null, except for single-line and password fields. * @return the current transformation method for this TextView. * * @attr ref android.R.styleable#TextView_password * @attr ref android.R.styleable#TextView_singleLine */ public final TransformationMethod getTransformationMethod() { return mTransformation; } /** * Sets the transformation that is applied to the text that this * TextView is displaying. * * @attr ref android.R.styleable#TextView_password * @attr ref android.R.styleable#TextView_singleLine */ public final void setTransformationMethod(TransformationMethod method) { if (method == mTransformation) { // Avoid the setText() below if the transformation is // the same. return; } if (mTransformation != null) { if (mSpannable != null) { mSpannable.removeSpan(mTransformation); } } mTransformation = method; if (method instanceof TransformationMethod2) { TransformationMethod2 method2 = (TransformationMethod2) method; mAllowTransformationLengthChange = !isTextSelectable() && !(mText instanceof Editable); method2.setLengthChangesAllowed(mAllowTransformationLengthChange); } else { mAllowTransformationLengthChange = false; } setText(mText); if (hasPasswordTransformationMethod()) { notifyViewAccessibilityStateChangedIfNeeded(AccessibilityEvent.CONTENT_CHANGE_TYPE_UNDEFINED); } // PasswordTransformationMethod always have LTR text direction heuristics returned by // getTextDirectionHeuristic, needs reset mTextDir = getTextDirectionHeuristic(); } /** * Returns the top padding of the view, plus space for the top * Drawable if any. */ public int getCompoundPaddingTop() { final Drawables dr = mDrawables; if (dr == null || dr.mShowing[Drawables.TOP] == null) { return mPaddingTop; } else { return mPaddingTop + dr.mDrawablePadding + dr.mDrawableSizeTop; } } /** * Returns the bottom padding of the view, plus space for the bottom * Drawable if any. */ public int getCompoundPaddingBottom() { final Drawables dr = mDrawables; if (dr == null || dr.mShowing[Drawables.BOTTOM] == null) { return mPaddingBottom; } else { return mPaddingBottom + dr.mDrawablePadding + dr.mDrawableSizeBottom; } } /** * Returns the left padding of the view, plus space for the left * Drawable if any. */ public int getCompoundPaddingLeft() { final Drawables dr = mDrawables; if (dr == null || dr.mShowing[Drawables.LEFT] == null) { return mPaddingLeft; } else { return mPaddingLeft + dr.mDrawablePadding + dr.mDrawableSizeLeft; } } /** * Returns the right padding of the view, plus space for the right * Drawable if any. */ public int getCompoundPaddingRight() { final Drawables dr = mDrawables; if (dr == null || dr.mShowing[Drawables.RIGHT] == null) { return mPaddingRight; } else { return mPaddingRight + dr.mDrawablePadding + dr.mDrawableSizeRight; } } /** * Returns the start padding of the view, plus space for the start * Drawable if any. */ public int getCompoundPaddingStart() { resolveDrawables(); switch (getLayoutDirection()) { default: case LAYOUT_DIRECTION_LTR: return getCompoundPaddingLeft(); case LAYOUT_DIRECTION_RTL: return getCompoundPaddingRight(); } } /** * Returns the end padding of the view, plus space for the end * Drawable if any. */ public int getCompoundPaddingEnd() { resolveDrawables(); switch (getLayoutDirection()) { default: case LAYOUT_DIRECTION_LTR: return getCompoundPaddingRight(); case LAYOUT_DIRECTION_RTL: return getCompoundPaddingLeft(); } } /** * Returns the extended top padding of the view, including both the * top Drawable if any and any extra space to keep more than maxLines * of text from showing. It is only valid to call this after measuring. */ public int getExtendedPaddingTop() { if (mMaxMode != LINES) { return getCompoundPaddingTop(); } if (mLayout == null) { assumeLayout(); } if (mLayout.getLineCount() <= mMaximum) { return getCompoundPaddingTop(); } int top = getCompoundPaddingTop(); int bottom = getCompoundPaddingBottom(); int viewht = getHeight() - top - bottom; int layoutht = mLayout.getLineTop(mMaximum); if (layoutht >= viewht) { return top; } final int gravity = mGravity & Gravity.VERTICAL_GRAVITY_MASK; if (gravity == Gravity.TOP) { return top; } else if (gravity == Gravity.BOTTOM) { return top + viewht - layoutht; } else { // (gravity == Gravity.CENTER_VERTICAL) return top + (viewht - layoutht) / 2; } } /** * Returns the extended bottom padding of the view, including both the * bottom Drawable if any and any extra space to keep more than maxLines * of text from showing. It is only valid to call this after measuring. */ public int getExtendedPaddingBottom() { if (mMaxMode != LINES) { return getCompoundPaddingBottom(); } if (mLayout == null) { assumeLayout(); } if (mLayout.getLineCount() <= mMaximum) { return getCompoundPaddingBottom(); } int top = getCompoundPaddingTop(); int bottom = getCompoundPaddingBottom(); int viewht = getHeight() - top - bottom; int layoutht = mLayout.getLineTop(mMaximum); if (layoutht >= viewht) { return bottom; } final int gravity = mGravity & Gravity.VERTICAL_GRAVITY_MASK; if (gravity == Gravity.TOP) { return bottom + viewht - layoutht; } else if (gravity == Gravity.BOTTOM) { return bottom; } else { // (gravity == Gravity.CENTER_VERTICAL) return bottom + (viewht - layoutht) / 2; } } /** * Returns the total left padding of the view, including the left * Drawable if any. */ public int getTotalPaddingLeft() { return getCompoundPaddingLeft(); } /** * Returns the total right padding of the view, including the right * Drawable if any. */ public int getTotalPaddingRight() { return getCompoundPaddingRight(); } /** * Returns the total start padding of the view, including the start * Drawable if any. */ public int getTotalPaddingStart() { return getCompoundPaddingStart(); } /** * Returns the total end padding of the view, including the end * Drawable if any. */ public int getTotalPaddingEnd() { return getCompoundPaddingEnd(); } /** * Returns the total top padding of the view, including the top * Drawable if any, the extra space to keep more than maxLines * from showing, and the vertical offset for gravity, if any. */ public int getTotalPaddingTop() { return getExtendedPaddingTop() + getVerticalOffset(true); } /** * Returns the total bottom padding of the view, including the bottom * Drawable if any, the extra space to keep more than maxLines * from showing, and the vertical offset for gravity, if any. */ public int getTotalPaddingBottom() { return getExtendedPaddingBottom() + getBottomVerticalOffset(true); } /** * Sets the Drawables (if any) to appear to the left of, above, to the * right of, and below the text. Use {@code null} if you do not want a * Drawable there. The Drawables must already have had * {@link Drawable#setBounds} called. * <p> * Calling this method will overwrite any Drawables previously set using * {@link #setCompoundDrawablesRelative} or related methods. * * @attr ref android.R.styleable#TextView_drawableLeft * @attr ref android.R.styleable#TextView_drawableTop * @attr ref android.R.styleable#TextView_drawableRight * @attr ref android.R.styleable#TextView_drawableBottom */ public void setCompoundDrawables(@Nullable Drawable left, @Nullable Drawable top, @Nullable Drawable right, @Nullable Drawable bottom) { Drawables dr = mDrawables; // We're switching to absolute, discard relative. if (dr != null) { if (dr.mDrawableStart != null) dr.mDrawableStart.setCallback(null); dr.mDrawableStart = null; if (dr.mDrawableEnd != null) dr.mDrawableEnd.setCallback(null); dr.mDrawableEnd = null; dr.mDrawableSizeStart = dr.mDrawableHeightStart = 0; dr.mDrawableSizeEnd = dr.mDrawableHeightEnd = 0; } final boolean drawables = left != null || top != null || right != null || bottom != null; if (!drawables) { // Clearing drawables... can we free the data structure? if (dr != null) { if (!dr.hasMetadata()) { mDrawables = null; } else { // We need to retain the last set padding, so just clear // out all of the fields in the existing structure. for (int i = dr.mShowing.length - 1; i >= 0; i--) { if (dr.mShowing[i] != null) { dr.mShowing[i].setCallback(null); } dr.mShowing[i] = null; } dr.mDrawableSizeLeft = dr.mDrawableHeightLeft = 0; dr.mDrawableSizeRight = dr.mDrawableHeightRight = 0; dr.mDrawableSizeTop = dr.mDrawableWidthTop = 0; dr.mDrawableSizeBottom = dr.mDrawableWidthBottom = 0; } } } else { if (dr == null) { mDrawables = dr = new Drawables(getContext()); } mDrawables.mOverride = false; if (dr.mShowing[Drawables.LEFT] != left && dr.mShowing[Drawables.LEFT] != null) { dr.mShowing[Drawables.LEFT].setCallback(null); } dr.mShowing[Drawables.LEFT] = left; if (dr.mShowing[Drawables.TOP] != top && dr.mShowing[Drawables.TOP] != null) { dr.mShowing[Drawables.TOP].setCallback(null); } dr.mShowing[Drawables.TOP] = top; if (dr.mShowing[Drawables.RIGHT] != right && dr.mShowing[Drawables.RIGHT] != null) { dr.mShowing[Drawables.RIGHT].setCallback(null); } dr.mShowing[Drawables.RIGHT] = right; if (dr.mShowing[Drawables.BOTTOM] != bottom && dr.mShowing[Drawables.BOTTOM] != null) { dr.mShowing[Drawables.BOTTOM].setCallback(null); } dr.mShowing[Drawables.BOTTOM] = bottom; final Rect compoundRect = dr.mCompoundRect; int[] state; state = getDrawableState(); if (left != null) { left.setState(state); left.copyBounds(compoundRect); left.setCallback(this); dr.mDrawableSizeLeft = compoundRect.width(); dr.mDrawableHeightLeft = compoundRect.height(); } else { dr.mDrawableSizeLeft = dr.mDrawableHeightLeft = 0; } if (right != null) { right.setState(state); right.copyBounds(compoundRect); right.setCallback(this); dr.mDrawableSizeRight = compoundRect.width(); dr.mDrawableHeightRight = compoundRect.height(); } else { dr.mDrawableSizeRight = dr.mDrawableHeightRight = 0; } if (top != null) { top.setState(state); top.copyBounds(compoundRect); top.setCallback(this); dr.mDrawableSizeTop = compoundRect.height(); dr.mDrawableWidthTop = compoundRect.width(); } else { dr.mDrawableSizeTop = dr.mDrawableWidthTop = 0; } if (bottom != null) { bottom.setState(state); bottom.copyBounds(compoundRect); bottom.setCallback(this); dr.mDrawableSizeBottom = compoundRect.height(); dr.mDrawableWidthBottom = compoundRect.width(); } else { dr.mDrawableSizeBottom = dr.mDrawableWidthBottom = 0; } } // Save initial left/right drawables if (dr != null) { dr.mDrawableLeftInitial = left; dr.mDrawableRightInitial = right; } resetResolvedDrawables(); resolveDrawables(); applyCompoundDrawableTint(); invalidate(); requestLayout(); } /** * Sets the Drawables (if any) to appear to the left of, above, to the * right of, and below the text. Use 0 if you do not want a Drawable there. * The Drawables' bounds will be set to their intrinsic bounds. * <p> * Calling this method will overwrite any Drawables previously set using * {@link #setCompoundDrawablesRelative} or related methods. * * @param left Resource identifier of the left Drawable. * @param top Resource identifier of the top Drawable. * @param right Resource identifier of the right Drawable. * @param bottom Resource identifier of the bottom Drawable. * * @attr ref android.R.styleable#TextView_drawableLeft * @attr ref android.R.styleable#TextView_drawableTop * @attr ref android.R.styleable#TextView_drawableRight * @attr ref android.R.styleable#TextView_drawableBottom */ @android.view.RemotableViewMethod public void setCompoundDrawablesWithIntrinsicBounds(@DrawableRes int left, @DrawableRes int top, @DrawableRes int right, @DrawableRes int bottom) { final Context context = getContext(); setCompoundDrawablesWithIntrinsicBounds(left != 0 ? context.getDrawable(left) : null, top != 0 ? context.getDrawable(top) : null, right != 0 ? context.getDrawable(right) : null, bottom != 0 ? context.getDrawable(bottom) : null); } /** * Sets the Drawables (if any) to appear to the left of, above, to the * right of, and below the text. Use {@code null} if you do not want a * Drawable there. The Drawables' bounds will be set to their intrinsic * bounds. * <p> * Calling this method will overwrite any Drawables previously set using * {@link #setCompoundDrawablesRelative} or related methods. * * @attr ref android.R.styleable#TextView_drawableLeft * @attr ref android.R.styleable#TextView_drawableTop * @attr ref android.R.styleable#TextView_drawableRight * @attr ref android.R.styleable#TextView_drawableBottom */ @android.view.RemotableViewMethod public void setCompoundDrawablesWithIntrinsicBounds(@Nullable Drawable left, @Nullable Drawable top, @Nullable Drawable right, @Nullable Drawable bottom) { if (left != null) { left.setBounds(0, 0, left.getIntrinsicWidth(), left.getIntrinsicHeight()); } if (right != null) { right.setBounds(0, 0, right.getIntrinsicWidth(), right.getIntrinsicHeight()); } if (top != null) { top.setBounds(0, 0, top.getIntrinsicWidth(), top.getIntrinsicHeight()); } if (bottom != null) { bottom.setBounds(0, 0, bottom.getIntrinsicWidth(), bottom.getIntrinsicHeight()); } setCompoundDrawables(left, top, right, bottom); } /** * Sets the Drawables (if any) to appear to the start of, above, to the end * of, and below the text. Use {@code null} if you do not want a Drawable * there. The Drawables must already have had {@link Drawable#setBounds} * called. * <p> * Calling this method will overwrite any Drawables previously set using * {@link #setCompoundDrawables} or related methods. * * @attr ref android.R.styleable#TextView_drawableStart * @attr ref android.R.styleable#TextView_drawableTop * @attr ref android.R.styleable#TextView_drawableEnd * @attr ref android.R.styleable#TextView_drawableBottom */ @android.view.RemotableViewMethod public void setCompoundDrawablesRelative(@Nullable Drawable start, @Nullable Drawable top, @Nullable Drawable end, @Nullable Drawable bottom) { Drawables dr = mDrawables; // We're switching to relative, discard absolute. if (dr != null) { if (dr.mShowing[Drawables.LEFT] != null) { dr.mShowing[Drawables.LEFT].setCallback(null); } dr.mShowing[Drawables.LEFT] = dr.mDrawableLeftInitial = null; if (dr.mShowing[Drawables.RIGHT] != null) { dr.mShowing[Drawables.RIGHT].setCallback(null); } dr.mShowing[Drawables.RIGHT] = dr.mDrawableRightInitial = null; dr.mDrawableSizeLeft = dr.mDrawableHeightLeft = 0; dr.mDrawableSizeRight = dr.mDrawableHeightRight = 0; } final boolean drawables = start != null || top != null || end != null || bottom != null; if (!drawables) { // Clearing drawables... can we free the data structure? if (dr != null) { if (!dr.hasMetadata()) { mDrawables = null; } else { // We need to retain the last set padding, so just clear // out all of the fields in the existing structure. if (dr.mDrawableStart != null) dr.mDrawableStart.setCallback(null); dr.mDrawableStart = null; if (dr.mShowing[Drawables.TOP] != null) { dr.mShowing[Drawables.TOP].setCallback(null); } dr.mShowing[Drawables.TOP] = null; if (dr.mDrawableEnd != null) { dr.mDrawableEnd.setCallback(null); } dr.mDrawableEnd = null; if (dr.mShowing[Drawables.BOTTOM] != null) { dr.mShowing[Drawables.BOTTOM].setCallback(null); } dr.mShowing[Drawables.BOTTOM] = null; dr.mDrawableSizeStart = dr.mDrawableHeightStart = 0; dr.mDrawableSizeEnd = dr.mDrawableHeightEnd = 0; dr.mDrawableSizeTop = dr.mDrawableWidthTop = 0; dr.mDrawableSizeBottom = dr.mDrawableWidthBottom = 0; } } } else { if (dr == null) { mDrawables = dr = new Drawables(getContext()); } mDrawables.mOverride = true; if (dr.mDrawableStart != start && dr.mDrawableStart != null) { dr.mDrawableStart.setCallback(null); } dr.mDrawableStart = start; if (dr.mShowing[Drawables.TOP] != top && dr.mShowing[Drawables.TOP] != null) { dr.mShowing[Drawables.TOP].setCallback(null); } dr.mShowing[Drawables.TOP] = top; if (dr.mDrawableEnd != end && dr.mDrawableEnd != null) { dr.mDrawableEnd.setCallback(null); } dr.mDrawableEnd = end; if (dr.mShowing[Drawables.BOTTOM] != bottom && dr.mShowing[Drawables.BOTTOM] != null) { dr.mShowing[Drawables.BOTTOM].setCallback(null); } dr.mShowing[Drawables.BOTTOM] = bottom; final Rect compoundRect = dr.mCompoundRect; int[] state; state = getDrawableState(); if (start != null) { start.setState(state); start.copyBounds(compoundRect); start.setCallback(this); dr.mDrawableSizeStart = compoundRect.width(); dr.mDrawableHeightStart = compoundRect.height(); } else { dr.mDrawableSizeStart = dr.mDrawableHeightStart = 0; } if (end != null) { end.setState(state); end.copyBounds(compoundRect); end.setCallback(this); dr.mDrawableSizeEnd = compoundRect.width(); dr.mDrawableHeightEnd = compoundRect.height(); } else { dr.mDrawableSizeEnd = dr.mDrawableHeightEnd = 0; } if (top != null) { top.setState(state); top.copyBounds(compoundRect); top.setCallback(this); dr.mDrawableSizeTop = compoundRect.height(); dr.mDrawableWidthTop = compoundRect.width(); } else { dr.mDrawableSizeTop = dr.mDrawableWidthTop = 0; } if (bottom != null) { bottom.setState(state); bottom.copyBounds(compoundRect); bottom.setCallback(this); dr.mDrawableSizeBottom = compoundRect.height(); dr.mDrawableWidthBottom = compoundRect.width(); } else { dr.mDrawableSizeBottom = dr.mDrawableWidthBottom = 0; } } resetResolvedDrawables(); resolveDrawables(); invalidate(); requestLayout(); } /** * Sets the Drawables (if any) to appear to the start of, above, to the end * of, and below the text. Use 0 if you do not want a Drawable there. The * Drawables' bounds will be set to their intrinsic bounds. * <p> * Calling this method will overwrite any Drawables previously set using * {@link #setCompoundDrawables} or related methods. * * @param start Resource identifier of the start Drawable. * @param top Resource identifier of the top Drawable. * @param end Resource identifier of the end Drawable. * @param bottom Resource identifier of the bottom Drawable. * * @attr ref android.R.styleable#TextView_drawableStart * @attr ref android.R.styleable#TextView_drawableTop * @attr ref android.R.styleable#TextView_drawableEnd * @attr ref android.R.styleable#TextView_drawableBottom */ @android.view.RemotableViewMethod public void setCompoundDrawablesRelativeWithIntrinsicBounds(@DrawableRes int start, @DrawableRes int top, @DrawableRes int end, @DrawableRes int bottom) { final Context context = getContext(); setCompoundDrawablesRelativeWithIntrinsicBounds(start != 0 ? context.getDrawable(start) : null, top != 0 ? context.getDrawable(top) : null, end != 0 ? context.getDrawable(end) : null, bottom != 0 ? context.getDrawable(bottom) : null); } /** * Sets the Drawables (if any) to appear to the start of, above, to the end * of, and below the text. Use {@code null} if you do not want a Drawable * there. The Drawables' bounds will be set to their intrinsic bounds. * <p> * Calling this method will overwrite any Drawables previously set using * {@link #setCompoundDrawables} or related methods. * * @attr ref android.R.styleable#TextView_drawableStart * @attr ref android.R.styleable#TextView_drawableTop * @attr ref android.R.styleable#TextView_drawableEnd * @attr ref android.R.styleable#TextView_drawableBottom */ @android.view.RemotableViewMethod public void setCompoundDrawablesRelativeWithIntrinsicBounds(@Nullable Drawable start, @Nullable Drawable top, @Nullable Drawable end, @Nullable Drawable bottom) { if (start != null) { start.setBounds(0, 0, start.getIntrinsicWidth(), start.getIntrinsicHeight()); } if (end != null) { end.setBounds(0, 0, end.getIntrinsicWidth(), end.getIntrinsicHeight()); } if (top != null) { top.setBounds(0, 0, top.getIntrinsicWidth(), top.getIntrinsicHeight()); } if (bottom != null) { bottom.setBounds(0, 0, bottom.getIntrinsicWidth(), bottom.getIntrinsicHeight()); } setCompoundDrawablesRelative(start, top, end, bottom); } /** * Returns drawables for the left, top, right, and bottom borders. * * @attr ref android.R.styleable#TextView_drawableLeft * @attr ref android.R.styleable#TextView_drawableTop * @attr ref android.R.styleable#TextView_drawableRight * @attr ref android.R.styleable#TextView_drawableBottom */ @NonNull public Drawable[] getCompoundDrawables() { final Drawables dr = mDrawables; if (dr != null) { return dr.mShowing.clone(); } else { return new Drawable[] { null, null, null, null }; } } /** * Returns drawables for the start, top, end, and bottom borders. * * @attr ref android.R.styleable#TextView_drawableStart * @attr ref android.R.styleable#TextView_drawableTop * @attr ref android.R.styleable#TextView_drawableEnd * @attr ref android.R.styleable#TextView_drawableBottom */ @NonNull public Drawable[] getCompoundDrawablesRelative() { final Drawables dr = mDrawables; if (dr != null) { return new Drawable[] { dr.mDrawableStart, dr.mShowing[Drawables.TOP], dr.mDrawableEnd, dr.mShowing[Drawables.BOTTOM] }; } else { return new Drawable[] { null, null, null, null }; } } /** * Sets the size of the padding between the compound drawables and * the text. * * @attr ref android.R.styleable#TextView_drawablePadding */ @android.view.RemotableViewMethod public void setCompoundDrawablePadding(int pad) { Drawables dr = mDrawables; if (pad == 0) { if (dr != null) { dr.mDrawablePadding = pad; } } else { if (dr == null) { mDrawables = dr = new Drawables(getContext()); } dr.mDrawablePadding = pad; } invalidate(); requestLayout(); } /** * Returns the padding between the compound drawables and the text. * * @attr ref android.R.styleable#TextView_drawablePadding */ public int getCompoundDrawablePadding() { final Drawables dr = mDrawables; return dr != null ? dr.mDrawablePadding : 0; } /** * Applies a tint to the compound drawables. Does not modify the * current tint mode, which is {@link PorterDuff.Mode#SRC_IN} by default. * <p> * Subsequent calls to * {@link #setCompoundDrawables(Drawable, Drawable, Drawable, Drawable)} * and related methods will automatically mutate the drawables and apply * the specified tint and tint mode using * {@link Drawable#setTintList(ColorStateList)}. * * @param tint the tint to apply, may be {@code null} to clear tint * * @attr ref android.R.styleable#TextView_drawableTint * @see #getCompoundDrawableTintList() * @see Drawable#setTintList(ColorStateList) */ public void setCompoundDrawableTintList(@Nullable ColorStateList tint) { if (mDrawables == null) { mDrawables = new Drawables(getContext()); } mDrawables.mTintList = tint; mDrawables.mHasTint = true; applyCompoundDrawableTint(); } /** * @return the tint applied to the compound drawables * @attr ref android.R.styleable#TextView_drawableTint * @see #setCompoundDrawableTintList(ColorStateList) */ public ColorStateList getCompoundDrawableTintList() { return mDrawables != null ? mDrawables.mTintList : null; } /** * Specifies the blending mode used to apply the tint specified by * {@link #setCompoundDrawableTintList(ColorStateList)} to the compound * drawables. The default mode is {@link PorterDuff.Mode#SRC_IN}. * * @param tintMode the blending mode used to apply the tint, may be * {@code null} to clear tint * @attr ref android.R.styleable#TextView_drawableTintMode * @see #setCompoundDrawableTintList(ColorStateList) * @see Drawable#setTintMode(PorterDuff.Mode) */ public void setCompoundDrawableTintMode(@Nullable PorterDuff.Mode tintMode) { if (mDrawables == null) { mDrawables = new Drawables(getContext()); } mDrawables.mTintMode = tintMode; mDrawables.mHasTintMode = true; applyCompoundDrawableTint(); } /** * Returns the blending mode used to apply the tint to the compound * drawables, if specified. * * @return the blending mode used to apply the tint to the compound * drawables * @attr ref android.R.styleable#TextView_drawableTintMode * @see #setCompoundDrawableTintMode(PorterDuff.Mode) */ public PorterDuff.Mode getCompoundDrawableTintMode() { return mDrawables != null ? mDrawables.mTintMode : null; } private void applyCompoundDrawableTint() { if (mDrawables == null) { return; } if (mDrawables.mHasTint || mDrawables.mHasTintMode) { final ColorStateList tintList = mDrawables.mTintList; final PorterDuff.Mode tintMode = mDrawables.mTintMode; final boolean hasTint = mDrawables.mHasTint; final boolean hasTintMode = mDrawables.mHasTintMode; final int[] state = getDrawableState(); for (Drawable dr : mDrawables.mShowing) { if (dr == null) { continue; } if (dr == mDrawables.mDrawableError) { // From a developer's perspective, the error drawable isn't // a compound drawable. Don't apply the generic compound // drawable tint to it. continue; } dr.mutate(); if (hasTint) { dr.setTintList(tintList); } if (hasTintMode) { dr.setTintMode(tintMode); } // The drawable (or one of its children) may not have been // stateful before applying the tint, so let's try again. if (dr.isStateful()) { dr.setState(state); } } } } /** * @inheritDoc * * @see #setFirstBaselineToTopHeight(int) * @see #setLastBaselineToBottomHeight(int) */ @Override public void setPadding(int left, int top, int right, int bottom) { if (left != mPaddingLeft || right != mPaddingRight || top != mPaddingTop || bottom != mPaddingBottom) { nullLayouts(); } // the super call will requestLayout() super.setPadding(left, top, right, bottom); invalidate(); } /** * @inheritDoc * * @see #setFirstBaselineToTopHeight(int) * @see #setLastBaselineToBottomHeight(int) */ @Override public void setPaddingRelative(int start, int top, int end, int bottom) { if (start != getPaddingStart() || end != getPaddingEnd() || top != mPaddingTop || bottom != mPaddingBottom) { nullLayouts(); } // the super call will requestLayout() super.setPaddingRelative(start, top, end, bottom); invalidate(); } /** * Updates the top padding of the TextView so that {@code firstBaselineToTopHeight} is * equal to the distance between the firt text baseline and the top of this TextView. * <strong>Note</strong> that if {@code FontMetrics.top} or {@code FontMetrics.ascent} was * already greater than {@code firstBaselineToTopHeight}, the top padding is not updated. * * @param firstBaselineToTopHeight distance between first baseline to top of the container * in pixels * * @see #getFirstBaselineToTopHeight() * @see #setPadding(int, int, int, int) * @see #setPaddingRelative(int, int, int, int) * * @attr ref android.R.styleable#TextView_firstBaselineToTopHeight */ public void setFirstBaselineToTopHeight(@Px @IntRange(from = 0) int firstBaselineToTopHeight) { Preconditions.checkArgumentNonnegative(firstBaselineToTopHeight); final FontMetricsInt fontMetrics = getPaint().getFontMetricsInt(); final int fontMetricsTop; if (getIncludeFontPadding()) { fontMetricsTop = fontMetrics.top; } else { fontMetricsTop = fontMetrics.ascent; } // TODO: Decide if we want to ignore density ratio (i.e. when the user changes font size // in settings). At the moment, we don't. if (firstBaselineToTopHeight > Math.abs(fontMetricsTop)) { final int paddingTop = firstBaselineToTopHeight - (-fontMetricsTop); setPadding(getPaddingLeft(), paddingTop, getPaddingRight(), getPaddingBottom()); } } /** * Updates the bottom padding of the TextView so that {@code lastBaselineToBottomHeight} is * equal to the distance between the last text baseline and the bottom of this TextView. * <strong>Note</strong> that if {@code FontMetrics.bottom} or {@code FontMetrics.descent} was * already greater than {@code lastBaselineToBottomHeight}, the bottom padding is not updated. * * @param lastBaselineToBottomHeight distance between last baseline to bottom of the container * in pixels * * @see #getLastBaselineToBottomHeight() * @see #setPadding(int, int, int, int) * @see #setPaddingRelative(int, int, int, int) * * @attr ref android.R.styleable#TextView_lastBaselineToBottomHeight */ public void setLastBaselineToBottomHeight(@Px @IntRange(from = 0) int lastBaselineToBottomHeight) { Preconditions.checkArgumentNonnegative(lastBaselineToBottomHeight); final FontMetricsInt fontMetrics = getPaint().getFontMetricsInt(); final int fontMetricsBottom; if (getIncludeFontPadding()) { fontMetricsBottom = fontMetrics.bottom; } else { fontMetricsBottom = fontMetrics.descent; } // TODO: Decide if we want to ignore density ratio (i.e. when the user changes font size // in settings). At the moment, we don't. if (lastBaselineToBottomHeight > Math.abs(fontMetricsBottom)) { final int paddingBottom = lastBaselineToBottomHeight - fontMetricsBottom; setPadding(getPaddingLeft(), getPaddingTop(), getPaddingRight(), paddingBottom); } } /** * Returns the distance between the first text baseline and the top of this TextView. * * @see #setFirstBaselineToTopHeight(int) * @attr ref android.R.styleable#TextView_firstBaselineToTopHeight */ public int getFirstBaselineToTopHeight() { return getPaddingTop() - getPaint().getFontMetricsInt().top; } /** * Returns the distance between the last text baseline and the bottom of this TextView. * * @see #setLastBaselineToBottomHeight(int) * @attr ref android.R.styleable#TextView_lastBaselineToBottomHeight */ public int getLastBaselineToBottomHeight() { return getPaddingBottom() + getPaint().getFontMetricsInt().bottom; } /** * Gets the autolink mask of the text. See {@link * android.text.util.Linkify#ALL Linkify.ALL} and peers for * possible values. * * @attr ref android.R.styleable#TextView_autoLink */ public final int getAutoLinkMask() { return mAutoLinkMask; } /** * Sets the text appearance from the specified style resource. * <p> * Use a framework-defined {@code TextAppearance} style like * {@link android.R.style#TextAppearance_Material_Body1 @android:style/TextAppearance.Material.Body1} * or see {@link android.R.styleable#TextAppearance TextAppearance} for the * set of attributes that can be used in a custom style. * * @param resId the resource identifier of the style to apply * @attr ref android.R.styleable#TextView_textAppearance */ @SuppressWarnings("deprecation") public void setTextAppearance(@StyleRes int resId) { setTextAppearance(mContext, resId); } /** * Sets the text color, size, style, hint color, and highlight color * from the specified TextAppearance resource. * * @deprecated Use {@link #setTextAppearance(int)} instead. */ @Deprecated public void setTextAppearance(Context context, @StyleRes int resId) { final TypedArray ta = context.obtainStyledAttributes(resId, R.styleable.TextAppearance); final TextAppearanceAttributes attributes = new TextAppearanceAttributes(); readTextAppearance(context, ta, attributes, false /* styleArray */); ta.recycle(); applyTextAppearance(attributes); } /** * Set of attributes that can be defined in a Text Appearance. This is used to simplify the code * that reads these attributes in the constructor and in {@link #setTextAppearance}. */ private static class TextAppearanceAttributes { int mTextColorHighlight = 0; ColorStateList mTextColor = null; ColorStateList mTextColorHint = null; ColorStateList mTextColorLink = null; int mTextSize = 0; String mFontFamily = null; Typeface mFontTypeface = null; boolean mFontFamilyExplicit = false; int mTypefaceIndex = -1; int mStyleIndex = -1; int mFontWeight = -1; boolean mAllCaps = false; int mShadowColor = 0; float mShadowDx = 0, mShadowDy = 0, mShadowRadius = 0; boolean mHasElegant = false; boolean mElegant = false; boolean mHasFallbackLineSpacing = false; boolean mFallbackLineSpacing = false; boolean mHasLetterSpacing = false; float mLetterSpacing = 0; String mFontFeatureSettings = null; @Override public String toString() { return "TextAppearanceAttributes {\n" + " mTextColorHighlight:" + mTextColorHighlight + "\n" + " mTextColor:" + mTextColor + "\n" + " mTextColorHint:" + mTextColorHint + "\n" + " mTextColorLink:" + mTextColorLink + "\n" + " mTextSize:" + mTextSize + "\n" + " mFontFamily:" + mFontFamily + "\n" + " mFontTypeface:" + mFontTypeface + "\n" + " mFontFamilyExplicit:" + mFontFamilyExplicit + "\n" + " mTypefaceIndex:" + mTypefaceIndex + "\n" + " mStyleIndex:" + mStyleIndex + "\n" + " mFontWeight:" + mFontWeight + "\n" + " mAllCaps:" + mAllCaps + "\n" + " mShadowColor:" + mShadowColor + "\n" + " mShadowDx:" + mShadowDx + "\n" + " mShadowDy:" + mShadowDy + "\n" + " mShadowRadius:" + mShadowRadius + "\n" + " mHasElegant:" + mHasElegant + "\n" + " mElegant:" + mElegant + "\n" + " mHasFallbackLineSpacing:" + mHasFallbackLineSpacing + "\n" + " mFallbackLineSpacing:" + mFallbackLineSpacing + "\n" + " mHasLetterSpacing:" + mHasLetterSpacing + "\n" + " mLetterSpacing:" + mLetterSpacing + "\n" + " mFontFeatureSettings:" + mFontFeatureSettings + "\n" + "}"; } } // Maps styleable attributes that exist both in TextView style and TextAppearance. private static final SparseIntArray sAppearanceValues = new SparseIntArray(); static { sAppearanceValues.put(com.android.internal.R.styleable.TextView_textColorHighlight, com.android.internal.R.styleable.TextAppearance_textColorHighlight); sAppearanceValues.put(com.android.internal.R.styleable.TextView_textColor, com.android.internal.R.styleable.TextAppearance_textColor); sAppearanceValues.put(com.android.internal.R.styleable.TextView_textColorHint, com.android.internal.R.styleable.TextAppearance_textColorHint); sAppearanceValues.put(com.android.internal.R.styleable.TextView_textColorLink, com.android.internal.R.styleable.TextAppearance_textColorLink); sAppearanceValues.put(com.android.internal.R.styleable.TextView_textSize, com.android.internal.R.styleable.TextAppearance_textSize); sAppearanceValues.put(com.android.internal.R.styleable.TextView_typeface, com.android.internal.R.styleable.TextAppearance_typeface); sAppearanceValues.put(com.android.internal.R.styleable.TextView_fontFamily, com.android.internal.R.styleable.TextAppearance_fontFamily); sAppearanceValues.put(com.android.internal.R.styleable.TextView_textStyle, com.android.internal.R.styleable.TextAppearance_textStyle); sAppearanceValues.put(com.android.internal.R.styleable.TextView_textFontWeight, com.android.internal.R.styleable.TextAppearance_textFontWeight); sAppearanceValues.put(com.android.internal.R.styleable.TextView_textAllCaps, com.android.internal.R.styleable.TextAppearance_textAllCaps); sAppearanceValues.put(com.android.internal.R.styleable.TextView_shadowColor, com.android.internal.R.styleable.TextAppearance_shadowColor); sAppearanceValues.put(com.android.internal.R.styleable.TextView_shadowDx, com.android.internal.R.styleable.TextAppearance_shadowDx); sAppearanceValues.put(com.android.internal.R.styleable.TextView_shadowDy, com.android.internal.R.styleable.TextAppearance_shadowDy); sAppearanceValues.put(com.android.internal.R.styleable.TextView_shadowRadius, com.android.internal.R.styleable.TextAppearance_shadowRadius); sAppearanceValues.put(com.android.internal.R.styleable.TextView_elegantTextHeight, com.android.internal.R.styleable.TextAppearance_elegantTextHeight); sAppearanceValues.put(com.android.internal.R.styleable.TextView_fallbackLineSpacing, com.android.internal.R.styleable.TextAppearance_fallbackLineSpacing); sAppearanceValues.put(com.android.internal.R.styleable.TextView_letterSpacing, com.android.internal.R.styleable.TextAppearance_letterSpacing); sAppearanceValues.put(com.android.internal.R.styleable.TextView_fontFeatureSettings, com.android.internal.R.styleable.TextAppearance_fontFeatureSettings); } /** * Read the Text Appearance attributes from a given TypedArray and set its values to the given * set. If the TypedArray contains a value that was already set in the given attributes, that * will be overridden. * * @param context The Context to be used * @param appearance The TypedArray to read properties from * @param attributes the TextAppearanceAttributes to fill in * @param styleArray Whether the given TypedArray is a style or a TextAppearance. This defines * what attribute indexes will be used to read the properties. */ private void readTextAppearance(Context context, TypedArray appearance, TextAppearanceAttributes attributes, boolean styleArray) { final int n = appearance.getIndexCount(); for (int i = 0; i < n; i++) { final int attr = appearance.getIndex(i); int index = attr; // Translate style array index ids to TextAppearance ids. if (styleArray) { index = sAppearanceValues.get(attr, -1); if (index == -1) { // This value is not part of a Text Appearance and should be ignored. continue; } } switch (index) { case com.android.internal.R.styleable.TextAppearance_textColorHighlight: attributes.mTextColorHighlight = appearance.getColor(attr, attributes.mTextColorHighlight); break; case com.android.internal.R.styleable.TextAppearance_textColor: attributes.mTextColor = appearance.getColorStateList(attr); break; case com.android.internal.R.styleable.TextAppearance_textColorHint: attributes.mTextColorHint = appearance.getColorStateList(attr); break; case com.android.internal.R.styleable.TextAppearance_textColorLink: attributes.mTextColorLink = appearance.getColorStateList(attr); break; case com.android.internal.R.styleable.TextAppearance_textSize: attributes.mTextSize = appearance.getDimensionPixelSize(attr, attributes.mTextSize); break; case com.android.internal.R.styleable.TextAppearance_typeface: attributes.mTypefaceIndex = appearance.getInt(attr, attributes.mTypefaceIndex); if (attributes.mTypefaceIndex != -1 && !attributes.mFontFamilyExplicit) { attributes.mFontFamily = null; } break; case com.android.internal.R.styleable.TextAppearance_fontFamily: if (!context.isRestricted() && context.canLoadUnsafeResources()) { try { attributes.mFontTypeface = appearance.getFont(attr); } catch (UnsupportedOperationException | Resources.NotFoundException e) { // Expected if it is not a font resource. } } if (attributes.mFontTypeface == null) { attributes.mFontFamily = appearance.getString(attr); } attributes.mFontFamilyExplicit = true; break; case com.android.internal.R.styleable.TextAppearance_textStyle: attributes.mStyleIndex = appearance.getInt(attr, attributes.mStyleIndex); break; case com.android.internal.R.styleable.TextAppearance_textFontWeight: attributes.mFontWeight = appearance.getInt(attr, attributes.mFontWeight); break; case com.android.internal.R.styleable.TextAppearance_textAllCaps: attributes.mAllCaps = appearance.getBoolean(attr, attributes.mAllCaps); break; case com.android.internal.R.styleable.TextAppearance_shadowColor: attributes.mShadowColor = appearance.getInt(attr, attributes.mShadowColor); break; case com.android.internal.R.styleable.TextAppearance_shadowDx: attributes.mShadowDx = appearance.getFloat(attr, attributes.mShadowDx); break; case com.android.internal.R.styleable.TextAppearance_shadowDy: attributes.mShadowDy = appearance.getFloat(attr, attributes.mShadowDy); break; case com.android.internal.R.styleable.TextAppearance_shadowRadius: attributes.mShadowRadius = appearance.getFloat(attr, attributes.mShadowRadius); break; case com.android.internal.R.styleable.TextAppearance_elegantTextHeight: attributes.mHasElegant = true; attributes.mElegant = appearance.getBoolean(attr, attributes.mElegant); break; case com.android.internal.R.styleable.TextAppearance_fallbackLineSpacing: attributes.mHasFallbackLineSpacing = true; attributes.mFallbackLineSpacing = appearance.getBoolean(attr, attributes.mFallbackLineSpacing); break; case com.android.internal.R.styleable.TextAppearance_letterSpacing: attributes.mHasLetterSpacing = true; attributes.mLetterSpacing = appearance.getFloat(attr, attributes.mLetterSpacing); break; case com.android.internal.R.styleable.TextAppearance_fontFeatureSettings: attributes.mFontFeatureSettings = appearance.getString(attr); break; default: } } } private void applyTextAppearance(TextAppearanceAttributes attributes) { if (attributes.mTextColor != null) { setTextColor(attributes.mTextColor); } if (attributes.mTextColorHint != null) { setHintTextColor(attributes.mTextColorHint); } if (attributes.mTextColorLink != null) { setLinkTextColor(attributes.mTextColorLink); } if (attributes.mTextColorHighlight != 0) { setHighlightColor(attributes.mTextColorHighlight); } if (attributes.mTextSize != 0) { setRawTextSize(attributes.mTextSize, true /* shouldRequestLayout */); } if (attributes.mTypefaceIndex != -1 && !attributes.mFontFamilyExplicit) { attributes.mFontFamily = null; } setTypefaceFromAttrs(attributes.mFontTypeface, attributes.mFontFamily, attributes.mTypefaceIndex, attributes.mStyleIndex, attributes.mFontWeight); if (attributes.mShadowColor != 0) { setShadowLayer(attributes.mShadowRadius, attributes.mShadowDx, attributes.mShadowDy, attributes.mShadowColor); } if (attributes.mAllCaps) { setTransformationMethod(new AllCapsTransformationMethod(getContext())); } if (attributes.mHasElegant) { setElegantTextHeight(attributes.mElegant); } if (attributes.mHasFallbackLineSpacing) { setFallbackLineSpacing(attributes.mFallbackLineSpacing); } if (attributes.mHasLetterSpacing) { setLetterSpacing(attributes.mLetterSpacing); } if (attributes.mFontFeatureSettings != null) { setFontFeatureSettings(attributes.mFontFeatureSettings); } } /** * Get the default primary {@link Locale} of the text in this TextView. This will always be * the first member of {@link #getTextLocales()}. * @return the default primary {@link Locale} of the text in this TextView. */ @NonNull public Locale getTextLocale() { return mTextPaint.getTextLocale(); } /** * Get the default {@link LocaleList} of the text in this TextView. * @return the default {@link LocaleList} of the text in this TextView. */ @NonNull @Size(min = 1) public LocaleList getTextLocales() { return mTextPaint.getTextLocales(); } private void changeListenerLocaleTo(@Nullable Locale locale) { if (mListenerChanged) { // If a listener has been explicitly set, don't change it. We may break something. return; } // The following null check is not absolutely necessary since all calling points of // changeListenerLocaleTo() guarantee a non-null mEditor at the moment. But this is left // here in case others would want to call this method in the future. if (mEditor != null) { KeyListener listener = mEditor.mKeyListener; if (listener instanceof DigitsKeyListener) { listener = DigitsKeyListener.getInstance(locale, (DigitsKeyListener) listener); } else if (listener instanceof DateKeyListener) { listener = DateKeyListener.getInstance(locale); } else if (listener instanceof TimeKeyListener) { listener = TimeKeyListener.getInstance(locale); } else if (listener instanceof DateTimeKeyListener) { listener = DateTimeKeyListener.getInstance(locale); } else { return; } final boolean wasPasswordType = isPasswordInputType(mEditor.mInputType); setKeyListenerOnly(listener); setInputTypeFromEditor(); if (wasPasswordType) { final int newInputClass = mEditor.mInputType & EditorInfo.TYPE_MASK_CLASS; if (newInputClass == EditorInfo.TYPE_CLASS_TEXT) { mEditor.mInputType |= EditorInfo.TYPE_TEXT_VARIATION_PASSWORD; } else if (newInputClass == EditorInfo.TYPE_CLASS_NUMBER) { mEditor.mInputType |= EditorInfo.TYPE_NUMBER_VARIATION_PASSWORD; } } } } /** * Set the default {@link Locale} of the text in this TextView to a one-member * {@link LocaleList} containing just the given Locale. * * @param locale the {@link Locale} for drawing text, must not be null. * * @see #setTextLocales */ public void setTextLocale(@NonNull Locale locale) { mLocalesChanged = true; mTextPaint.setTextLocale(locale); if (mLayout != null) { nullLayouts(); requestLayout(); invalidate(); } } /** * Set the default {@link LocaleList} of the text in this TextView to the given value. * * This value is used to choose appropriate typefaces for ambiguous characters (typically used * for CJK locales to disambiguate Hanzi/Kanji/Hanja characters). It also affects * other aspects of text display, including line breaking. * * @param locales the {@link LocaleList} for drawing text, must not be null or empty. * * @see Paint#setTextLocales */ public void setTextLocales(@NonNull @Size(min = 1) LocaleList locales) { mLocalesChanged = true; mTextPaint.setTextLocales(locales); if (mLayout != null) { nullLayouts(); requestLayout(); invalidate(); } } @Override protected void onConfigurationChanged(Configuration newConfig) { super.onConfigurationChanged(newConfig); if (!mLocalesChanged) { mTextPaint.setTextLocales(LocaleList.getDefault()); if (mLayout != null) { nullLayouts(); requestLayout(); invalidate(); } } } /** * @return the size (in pixels) of the default text size in this TextView. */ @ViewDebug.ExportedProperty(category = "text") public float getTextSize() { return mTextPaint.getTextSize(); } /** * @return the size (in scaled pixels) of the default text size in this TextView. * @hide */ @ViewDebug.ExportedProperty(category = "text") public float getScaledTextSize() { return mTextPaint.getTextSize() / mTextPaint.density; } /** @hide */ @ViewDebug.ExportedProperty(category = "text", mapping = { @ViewDebug.IntToString(from = Typeface.NORMAL, to = "NORMAL"), @ViewDebug.IntToString(from = Typeface.BOLD, to = "BOLD"), @ViewDebug.IntToString(from = Typeface.ITALIC, to = "ITALIC"), @ViewDebug.IntToString(from = Typeface.BOLD_ITALIC, to = "BOLD_ITALIC") }) public int getTypefaceStyle() { Typeface typeface = mTextPaint.getTypeface(); return typeface != null ? typeface.getStyle() : Typeface.NORMAL; } /** * Set the default text size to the given value, interpreted as "scaled * pixel" units. This size is adjusted based on the current density and * user font size preference. * * <p>Note: if this TextView has the auto-size feature enabled than this function is no-op. * * @param size The scaled pixel size. * * @attr ref android.R.styleable#TextView_textSize */ @android.view.RemotableViewMethod public void setTextSize(float size) { setTextSize(TypedValue.COMPLEX_UNIT_SP, size); } /** * Set the default text size to a given unit and value. See {@link * TypedValue} for the possible dimension units. * * <p>Note: if this TextView has the auto-size feature enabled than this function is no-op. * * @param unit The desired dimension unit. * @param size The desired size in the given units. * * @attr ref android.R.styleable#TextView_textSize */ public void setTextSize(int unit, float size) { if (!isAutoSizeEnabled()) { setTextSizeInternal(unit, size, true /* shouldRequestLayout */); } } private void setTextSizeInternal(int unit, float size, boolean shouldRequestLayout) { Context c = getContext(); Resources r; if (c == null) { r = Resources.getSystem(); } else { r = c.getResources(); } setRawTextSize(TypedValue.applyDimension(unit, size, r.getDisplayMetrics()), shouldRequestLayout); } @UnsupportedAppUsage private void setRawTextSize(float size, boolean shouldRequestLayout) { if (size != mTextPaint.getTextSize()) { mTextPaint.setTextSize(size); if (shouldRequestLayout && mLayout != null) { // Do not auto-size right after setting the text size. mNeedsAutoSizeText = false; nullLayouts(); requestLayout(); invalidate(); } } } /** * Gets the extent by which text should be stretched horizontally. * This will usually be 1.0. * @return The horizontal scale factor. */ public float getTextScaleX() { return mTextPaint.getTextScaleX(); } /** * Sets the horizontal scale factor for text. The default value * is 1.0. Values greater than 1.0 stretch the text wider. * Values less than 1.0 make the text narrower. By default, this value is 1.0. * @param size The horizontal scale factor. * @attr ref android.R.styleable#TextView_textScaleX */ @android.view.RemotableViewMethod public void setTextScaleX(float size) { if (size != mTextPaint.getTextScaleX()) { mUserSetTextScaleX = true; mTextPaint.setTextScaleX(size); if (mLayout != null) { nullLayouts(); requestLayout(); invalidate(); } } } /** * Sets the typeface and style in which the text should be displayed. * Note that not all Typeface families actually have bold and italic * variants, so you may need to use * {@link #setTypeface(Typeface, int)} to get the appearance * that you actually want. * * @see #getTypeface() * * @attr ref android.R.styleable#TextView_fontFamily * @attr ref android.R.styleable#TextView_typeface * @attr ref android.R.styleable#TextView_textStyle */ public void setTypeface(@Nullable Typeface tf) { if (mTextPaint.getTypeface() != tf) { mTextPaint.setTypeface(tf); if (mLayout != null) { nullLayouts(); requestLayout(); invalidate(); } } } /** * Gets the current {@link Typeface} that is used to style the text. * @return The current Typeface. * * @see #setTypeface(Typeface) * * @attr ref android.R.styleable#TextView_fontFamily * @attr ref android.R.styleable#TextView_typeface * @attr ref android.R.styleable#TextView_textStyle */ public Typeface getTypeface() { return mTextPaint.getTypeface(); } /** * Set the TextView's elegant height metrics flag. This setting selects font * variants that have not been compacted to fit Latin-based vertical * metrics, and also increases top and bottom bounds to provide more space. * * @param elegant set the paint's elegant metrics flag. * * @see #isElegantTextHeight() * @see Paint#isElegantTextHeight() * * @attr ref android.R.styleable#TextView_elegantTextHeight */ public void setElegantTextHeight(boolean elegant) { if (elegant != mTextPaint.isElegantTextHeight()) { mTextPaint.setElegantTextHeight(elegant); if (mLayout != null) { nullLayouts(); requestLayout(); invalidate(); } } } /** * Set whether to respect the ascent and descent of the fallback fonts that are used in * displaying the text (which is needed to avoid text from consecutive lines running into * each other). If set, fallback fonts that end up getting used can increase the ascent * and descent of the lines that they are used on. * <p/> * It is required to be true if text could be in languages like Burmese or Tibetan where text * is typically much taller or deeper than Latin text. * * @param enabled whether to expand linespacing based on fallback fonts, {@code true} by default * * @see StaticLayout.Builder#setUseLineSpacingFromFallbacks(boolean) * * @attr ref android.R.styleable#TextView_fallbackLineSpacing */ public void setFallbackLineSpacing(boolean enabled) { if (mUseFallbackLineSpacing != enabled) { mUseFallbackLineSpacing = enabled; if (mLayout != null) { nullLayouts(); requestLayout(); invalidate(); } } } /** * @return whether fallback line spacing is enabled, {@code true} by default * * @see #setFallbackLineSpacing(boolean) * * @attr ref android.R.styleable#TextView_fallbackLineSpacing */ public boolean isFallbackLineSpacing() { return mUseFallbackLineSpacing; } /** * Get the value of the TextView's elegant height metrics flag. This setting selects font * variants that have not been compacted to fit Latin-based vertical * metrics, and also increases top and bottom bounds to provide more space. * @return {@code true} if the elegant height metrics flag is set. * * @see #setElegantTextHeight(boolean) * @see Paint#setElegantTextHeight(boolean) */ public boolean isElegantTextHeight() { return mTextPaint.isElegantTextHeight(); } /** * Gets the text letter-space value, which determines the spacing between characters. * The value returned is in ems. Normally, this value is 0.0. * @return The text letter-space value in ems. * * @see #setLetterSpacing(float) * @see Paint#setLetterSpacing */ public float getLetterSpacing() { return mTextPaint.getLetterSpacing(); } /** * Sets text letter-spacing in em units. Typical values * for slight expansion will be around 0.05. Negative values tighten text. * * @see #getLetterSpacing() * @see Paint#getLetterSpacing * * @param letterSpacing A text letter-space value in ems. * @attr ref android.R.styleable#TextView_letterSpacing */ @android.view.RemotableViewMethod public void setLetterSpacing(float letterSpacing) { if (letterSpacing != mTextPaint.getLetterSpacing()) { mTextPaint.setLetterSpacing(letterSpacing); if (mLayout != null) { nullLayouts(); requestLayout(); invalidate(); } } } /** * Returns the font feature settings. The format is the same as the CSS * font-feature-settings attribute: * <a href="https://www.w3.org/TR/css-fonts-3/#font-feature-settings-prop"> * https://www.w3.org/TR/css-fonts-3/#font-feature-settings-prop</a> * * @return the currently set font feature settings. Default is null. * * @see #setFontFeatureSettings(String) * @see Paint#setFontFeatureSettings(String) Paint.setFontFeatureSettings(String) */ @Nullable public String getFontFeatureSettings() { return mTextPaint.getFontFeatureSettings(); } /** * Returns the font variation settings. * * @return the currently set font variation settings. Returns null if no variation is * specified. * * @see #setFontVariationSettings(String) * @see Paint#setFontVariationSettings(String) Paint.setFontVariationSettings(String) */ @Nullable public String getFontVariationSettings() { return mTextPaint.getFontVariationSettings(); } /** * Sets the break strategy for breaking paragraphs into lines. The default value for * TextView is {@link Layout#BREAK_STRATEGY_HIGH_QUALITY}, and the default value for * EditText is {@link Layout#BREAK_STRATEGY_SIMPLE}, the latter to avoid the * text "dancing" when being edited. * * @attr ref android.R.styleable#TextView_breakStrategy * @see #getBreakStrategy() */ public void setBreakStrategy(@Layout.BreakStrategy int breakStrategy) { mBreakStrategy = breakStrategy; if (mLayout != null) { nullLayouts(); requestLayout(); invalidate(); } } /** * Gets the current strategy for breaking paragraphs into lines. * @return the current strategy for breaking paragraphs into lines. * * @attr ref android.R.styleable#TextView_breakStrategy * @see #setBreakStrategy(int) */ @Layout.BreakStrategy public int getBreakStrategy() { return mBreakStrategy; } /** * Sets the frequency of automatic hyphenation to use when determining word breaks. * The default value for both TextView and {@link EditText} is * {@link Layout#HYPHENATION_FREQUENCY_NORMAL}. * Note that the default hyphenation frequency value is set from the theme. * * @param hyphenationFrequency The hyphenation frequency to use. * @attr ref android.R.styleable#TextView_hyphenationFrequency * @see #getHyphenationFrequency() */ public void setHyphenationFrequency(@Layout.HyphenationFrequency int hyphenationFrequency) { mHyphenationFrequency = hyphenationFrequency; if (mLayout != null) { nullLayouts(); requestLayout(); invalidate(); } } /** * Gets the current frequency of automatic hyphenation to be used when determining word breaks. * @return the current frequency of automatic hyphenation to be used when determining word * breaks. * * @attr ref android.R.styleable#TextView_hyphenationFrequency * @see #setHyphenationFrequency(int) */ @Layout.HyphenationFrequency public int getHyphenationFrequency() { return mHyphenationFrequency; } /** * Gets the parameters for text layout precomputation, for use with {@link PrecomputedText}. * * @return a current {@link PrecomputedText.Params} * @see PrecomputedText */ public @NonNull PrecomputedText.Params getTextMetricsParams() { return new PrecomputedText.Params(new TextPaint(mTextPaint), getTextDirectionHeuristic(), mBreakStrategy, mHyphenationFrequency); } /** * Apply the text layout parameter. * * Update the TextView parameters to be compatible with {@link PrecomputedText.Params}. * @see PrecomputedText */ public void setTextMetricsParams(@NonNull PrecomputedText.Params params) { mTextPaint.set(params.getTextPaint()); mUserSetTextScaleX = true; mTextDir = params.getTextDirection(); mBreakStrategy = params.getBreakStrategy(); mHyphenationFrequency = params.getHyphenationFrequency(); if (mLayout != null) { nullLayouts(); requestLayout(); invalidate(); } } /** * Set justification mode. The default value is {@link Layout#JUSTIFICATION_MODE_NONE}. If the * last line is too short for justification, the last line will be displayed with the * alignment set by {@link android.view.View#setTextAlignment}. * * @see #getJustificationMode() */ @Layout.JustificationMode public void setJustificationMode(@Layout.JustificationMode int justificationMode) { mJustificationMode = justificationMode; if (mLayout != null) { nullLayouts(); requestLayout(); invalidate(); } } /** * @return true if currently paragraph justification mode. * * @see #setJustificationMode(int) */ public @Layout.JustificationMode int getJustificationMode() { return mJustificationMode; } /** * Sets font feature settings. The format is the same as the CSS * font-feature-settings attribute: * <a href="https://www.w3.org/TR/css-fonts-3/#font-feature-settings-prop"> * https://www.w3.org/TR/css-fonts-3/#font-feature-settings-prop</a> * * @param fontFeatureSettings font feature settings represented as CSS compatible string * * @see #getFontFeatureSettings() * @see Paint#getFontFeatureSettings() Paint.getFontFeatureSettings() * * @attr ref android.R.styleable#TextView_fontFeatureSettings */ @android.view.RemotableViewMethod public void setFontFeatureSettings(@Nullable String fontFeatureSettings) { if (fontFeatureSettings != mTextPaint.getFontFeatureSettings()) { mTextPaint.setFontFeatureSettings(fontFeatureSettings); if (mLayout != null) { nullLayouts(); requestLayout(); invalidate(); } } } /** * Sets TrueType or OpenType font variation settings. The settings string is constructed from * multiple pairs of axis tag and style values. The axis tag must contain four ASCII characters * and must be wrapped with single quotes (U+0027) or double quotes (U+0022). Axis strings that * are longer or shorter than four characters, or contain characters outside of U+0020..U+007E * are invalid. If a specified axis name is not defined in the font, the settings will be * ignored. * * <p> * Examples, * <ul> * <li>Set font width to 150. * <pre> * <code> * TextView textView = (TextView) findViewById(R.id.textView); * textView.setFontVariationSettings("'wdth' 150"); * </code> * </pre> * </li> * * <li>Set the font slant to 20 degrees and ask for italic style. * <pre> * <code> * TextView textView = (TextView) findViewById(R.id.textView); * textView.setFontVariationSettings("'slnt' 20, 'ital' 1"); * </code> * </pre> * </p> * </li> * </ul> * * @param fontVariationSettings font variation settings. You can pass null or empty string as * no variation settings. * @return true if the given settings is effective to at least one font file underlying this * TextView. This function also returns true for empty settings string. Otherwise * returns false. * * @throws IllegalArgumentException If given string is not a valid font variation settings * format. * * @see #getFontVariationSettings() * @see FontVariationAxis */ public boolean setFontVariationSettings(@Nullable String fontVariationSettings) { final String existingSettings = mTextPaint.getFontVariationSettings(); if (fontVariationSettings == existingSettings || (fontVariationSettings != null && fontVariationSettings.equals(existingSettings))) { return true; } boolean effective = mTextPaint.setFontVariationSettings(fontVariationSettings); if (effective && mLayout != null) { nullLayouts(); requestLayout(); invalidate(); } return effective; } /** * Sets the text color for all the states (normal, selected, * focused) to be this color. * * @param color A color value in the form 0xAARRGGBB. * Do not pass a resource ID. To get a color value from a resource ID, call * {@link android.support.v4.content.ContextCompat#getColor(Context, int) getColor}. * * @see #setTextColor(ColorStateList) * @see #getTextColors() * * @attr ref android.R.styleable#TextView_textColor */ @android.view.RemotableViewMethod public void setTextColor(@ColorInt int color) { mTextColor = ColorStateList.valueOf(color); updateTextColors(); } /** * Sets the text color. * * @see #setTextColor(int) * @see #getTextColors() * @see #setHintTextColor(ColorStateList) * @see #setLinkTextColor(ColorStateList) * * @attr ref android.R.styleable#TextView_textColor */ @android.view.RemotableViewMethod public void setTextColor(ColorStateList colors) { if (colors == null) { throw new NullPointerException(); } mTextColor = colors; updateTextColors(); } /** * Gets the text colors for the different states (normal, selected, focused) of the TextView. * * @see #setTextColor(ColorStateList) * @see #setTextColor(int) * * @attr ref android.R.styleable#TextView_textColor */ public final ColorStateList getTextColors() { return mTextColor; } /** * Return the current color selected for normal text. * * @return Returns the current text color. */ @ColorInt public final int getCurrentTextColor() { return mCurTextColor; } /** * Sets the color used to display the selection highlight. * * @attr ref android.R.styleable#TextView_textColorHighlight */ @android.view.RemotableViewMethod public void setHighlightColor(@ColorInt int color) { if (mHighlightColor != color) { mHighlightColor = color; invalidate(); } } /** * @return the color used to display the selection highlight * * @see #setHighlightColor(int) * * @attr ref android.R.styleable#TextView_textColorHighlight */ @ColorInt public int getHighlightColor() { return mHighlightColor; } /** * Sets whether the soft input method will be made visible when this * TextView gets focused. The default is true. */ @android.view.RemotableViewMethod public final void setShowSoftInputOnFocus(boolean show) { createEditorIfNeeded(); mEditor.mShowSoftInputOnFocus = show; } /** * Returns whether the soft input method will be made visible when this * TextView gets focused. The default is true. */ public final boolean getShowSoftInputOnFocus() { // When there is no Editor, return default true value return mEditor == null || mEditor.mShowSoftInputOnFocus; } /** * Gives the text a shadow of the specified blur radius and color, the specified * distance from its drawn position. * <p> * The text shadow produced does not interact with the properties on view * that are responsible for real time shadows, * {@link View#getElevation() elevation} and * {@link View#getTranslationZ() translationZ}. * * @see Paint#setShadowLayer(float, float, float, int) * * @attr ref android.R.styleable#TextView_shadowColor * @attr ref android.R.styleable#TextView_shadowDx * @attr ref android.R.styleable#TextView_shadowDy * @attr ref android.R.styleable#TextView_shadowRadius */ public void setShadowLayer(float radius, float dx, float dy, int color) { mTextPaint.setShadowLayer(radius, dx, dy, color); mShadowRadius = radius; mShadowDx = dx; mShadowDy = dy; mShadowColor = color; // Will change text clip region if (mEditor != null) { mEditor.invalidateTextDisplayList(); mEditor.invalidateHandlesAndActionMode(); } invalidate(); } /** * Gets the radius of the shadow layer. * * @return the radius of the shadow layer. If 0, the shadow layer is not visible * * @see #setShadowLayer(float, float, float, int) * * @attr ref android.R.styleable#TextView_shadowRadius */ public float getShadowRadius() { return mShadowRadius; } /** * @return the horizontal offset of the shadow layer * * @see #setShadowLayer(float, float, float, int) * * @attr ref android.R.styleable#TextView_shadowDx */ public float getShadowDx() { return mShadowDx; } /** * Gets the vertical offset of the shadow layer. * @return The vertical offset of the shadow layer. * * @see #setShadowLayer(float, float, float, int) * * @attr ref android.R.styleable#TextView_shadowDy */ public float getShadowDy() { return mShadowDy; } /** * Gets the color of the shadow layer. * @return the color of the shadow layer * * @see #setShadowLayer(float, float, float, int) * * @attr ref android.R.styleable#TextView_shadowColor */ @ColorInt public int getShadowColor() { return mShadowColor; } /** * Gets the {@link TextPaint} used for the text. * Use this only to consult the Paint's properties and not to change them. * @return The base paint used for the text. */ public TextPaint getPaint() { return mTextPaint; } /** * Sets the autolink mask of the text. See {@link * android.text.util.Linkify#ALL Linkify.ALL} and peers for * possible values. * * @attr ref android.R.styleable#TextView_autoLink */ @android.view.RemotableViewMethod public final void setAutoLinkMask(int mask) { mAutoLinkMask = mask; } /** * Sets whether the movement method will automatically be set to * {@link LinkMovementMethod} if {@link #setAutoLinkMask} has been * set to nonzero and links are detected in {@link #setText}. * The default is true. * * @attr ref android.R.styleable#TextView_linksClickable */ @android.view.RemotableViewMethod public final void setLinksClickable(boolean whether) { mLinksClickable = whether; } /** * Returns whether the movement method will automatically be set to * {@link LinkMovementMethod} if {@link #setAutoLinkMask} has been * set to nonzero and links are detected in {@link #setText}. * The default is true. * * @attr ref android.R.styleable#TextView_linksClickable */ public final boolean getLinksClickable() { return mLinksClickable; } /** * Returns the list of {@link android.text.style.URLSpan URLSpans} attached to the text * (by {@link Linkify} or otherwise) if any. You can call * {@link URLSpan#getURL} on them to find where they link to * or use {@link Spanned#getSpanStart} and {@link Spanned#getSpanEnd} * to find the region of the text they are attached to. */ public URLSpan[] getUrls() { if (mText instanceof Spanned) { return ((Spanned) mText).getSpans(0, mText.length(), URLSpan.class); } else { return new URLSpan[0]; } } /** * Sets the color of the hint text for all the states (disabled, focussed, selected...) of this * TextView. * * @see #setHintTextColor(ColorStateList) * @see #getHintTextColors() * @see #setTextColor(int) * * @attr ref android.R.styleable#TextView_textColorHint */ @android.view.RemotableViewMethod public final void setHintTextColor(@ColorInt int color) { mHintTextColor = ColorStateList.valueOf(color); updateTextColors(); } /** * Sets the color of the hint text. * * @see #getHintTextColors() * @see #setHintTextColor(int) * @see #setTextColor(ColorStateList) * @see #setLinkTextColor(ColorStateList) * * @attr ref android.R.styleable#TextView_textColorHint */ public final void setHintTextColor(ColorStateList colors) { mHintTextColor = colors; updateTextColors(); } /** * @return the color of the hint text, for the different states of this TextView. * * @see #setHintTextColor(ColorStateList) * @see #setHintTextColor(int) * @see #setTextColor(ColorStateList) * @see #setLinkTextColor(ColorStateList) * * @attr ref android.R.styleable#TextView_textColorHint */ public final ColorStateList getHintTextColors() { return mHintTextColor; } /** * <p>Return the current color selected to paint the hint text.</p> * * @return Returns the current hint text color. */ @ColorInt public final int getCurrentHintTextColor() { return mHintTextColor != null ? mCurHintTextColor : mCurTextColor; } /** * Sets the color of links in the text. * * @see #setLinkTextColor(ColorStateList) * @see #getLinkTextColors() * * @attr ref android.R.styleable#TextView_textColorLink */ @android.view.RemotableViewMethod public final void setLinkTextColor(@ColorInt int color) { mLinkTextColor = ColorStateList.valueOf(color); updateTextColors(); } /** * Sets the color of links in the text. * * @see #setLinkTextColor(int) * @see #getLinkTextColors() * @see #setTextColor(ColorStateList) * @see #setHintTextColor(ColorStateList) * * @attr ref android.R.styleable#TextView_textColorLink */ public final void setLinkTextColor(ColorStateList colors) { mLinkTextColor = colors; updateTextColors(); } /** * @return the list of colors used to paint the links in the text, for the different states of * this TextView * * @see #setLinkTextColor(ColorStateList) * @see #setLinkTextColor(int) * * @attr ref android.R.styleable#TextView_textColorLink */ public final ColorStateList getLinkTextColors() { return mLinkTextColor; } /** * Sets the horizontal alignment of the text and the * vertical gravity that will be used when there is extra space * in the TextView beyond what is required for the text itself. * * @see android.view.Gravity * @attr ref android.R.styleable#TextView_gravity */ public void setGravity(int gravity) { if ((gravity & Gravity.RELATIVE_HORIZONTAL_GRAVITY_MASK) == 0) { gravity |= Gravity.START; } if ((gravity & Gravity.VERTICAL_GRAVITY_MASK) == 0) { gravity |= Gravity.TOP; } boolean newLayout = false; if ((gravity & Gravity.RELATIVE_HORIZONTAL_GRAVITY_MASK) != (mGravity & Gravity.RELATIVE_HORIZONTAL_GRAVITY_MASK)) { newLayout = true; } if (gravity != mGravity) { invalidate(); } mGravity = gravity; if (mLayout != null && newLayout) { // XXX this is heavy-handed because no actual content changes. int want = mLayout.getWidth(); int hintWant = mHintLayout == null ? 0 : mHintLayout.getWidth(); makeNewLayout(want, hintWant, UNKNOWN_BORING, UNKNOWN_BORING, mRight - mLeft - getCompoundPaddingLeft() - getCompoundPaddingRight(), true); } } /** * Returns the horizontal and vertical alignment of this TextView. * * @see android.view.Gravity * @attr ref android.R.styleable#TextView_gravity */ public int getGravity() { return mGravity; } /** * Gets the flags on the Paint being used to display the text. * @return The flags on the Paint being used to display the text. * @see Paint#getFlags */ public int getPaintFlags() { return mTextPaint.getFlags(); } /** * Sets flags on the Paint being used to display the text and * reflows the text if they are different from the old flags. * @see Paint#setFlags */ @android.view.RemotableViewMethod public void setPaintFlags(int flags) { if (mTextPaint.getFlags() != flags) { mTextPaint.setFlags(flags); if (mLayout != null) { nullLayouts(); requestLayout(); invalidate(); } } } /** * Sets whether the text should be allowed to be wider than the * View is. If false, it will be wrapped to the width of the View. * * @attr ref android.R.styleable#TextView_scrollHorizontally */ public void setHorizontallyScrolling(boolean whether) { if (mHorizontallyScrolling != whether) { mHorizontallyScrolling = whether; if (mLayout != null) { nullLayouts(); requestLayout(); invalidate(); } } } /** * Returns whether the text is allowed to be wider than the View is. * If false, the text will be wrapped to the width of the View. * * @attr ref android.R.styleable#TextView_scrollHorizontally * @hide */ @UnsupportedAppUsage public boolean getHorizontallyScrolling() { return mHorizontallyScrolling; } /** * Sets the height of the TextView to be at least {@code minLines} tall. * <p> * This value is used for height calculation if LayoutParams does not force TextView to have an * exact height. Setting this value overrides other previous minimum height configurations such * as {@link #setMinHeight(int)} or {@link #setHeight(int)}. {@link #setSingleLine()} will set * this value to 1. * * @param minLines the minimum height of TextView in terms of number of lines * * @see #getMinLines() * @see #setLines(int) * * @attr ref android.R.styleable#TextView_minLines */ @android.view.RemotableViewMethod public void setMinLines(int minLines) { mMinimum = minLines; mMinMode = LINES; requestLayout(); invalidate(); } /** * Returns the minimum height of TextView in terms of number of lines or -1 if the minimum * height was set using {@link #setMinHeight(int)} or {@link #setHeight(int)}. * * @return the minimum height of TextView in terms of number of lines or -1 if the minimum * height is not defined in lines * * @see #setMinLines(int) * @see #setLines(int) * * @attr ref android.R.styleable#TextView_minLines */ public int getMinLines() { return mMinMode == LINES ? mMinimum : -1; } /** * Sets the height of the TextView to be at least {@code minPixels} tall. * <p> * This value is used for height calculation if LayoutParams does not force TextView to have an * exact height. Setting this value overrides previous minimum height configurations such as * {@link #setMinLines(int)} or {@link #setLines(int)}. * <p> * The value given here is different than {@link #setMinimumHeight(int)}. Between * {@code minHeight} and the value set in {@link #setMinimumHeight(int)}, the greater one is * used to decide the final height. * * @param minPixels the minimum height of TextView in terms of pixels * * @see #getMinHeight() * @see #setHeight(int) * * @attr ref android.R.styleable#TextView_minHeight */ @android.view.RemotableViewMethod public void setMinHeight(int minPixels) { mMinimum = minPixels; mMinMode = PIXELS; requestLayout(); invalidate(); } /** * Returns the minimum height of TextView in terms of pixels or -1 if the minimum height was * set using {@link #setMinLines(int)} or {@link #setLines(int)}. * * @return the minimum height of TextView in terms of pixels or -1 if the minimum height is not * defined in pixels * * @see #setMinHeight(int) * @see #setHeight(int) * * @attr ref android.R.styleable#TextView_minHeight */ public int getMinHeight() { return mMinMode == PIXELS ? mMinimum : -1; } /** * Sets the height of the TextView to be at most {@code maxLines} tall. * <p> * This value is used for height calculation if LayoutParams does not force TextView to have an * exact height. Setting this value overrides previous maximum height configurations such as * {@link #setMaxHeight(int)} or {@link #setLines(int)}. * * @param maxLines the maximum height of TextView in terms of number of lines * * @see #getMaxLines() * @see #setLines(int) * * @attr ref android.R.styleable#TextView_maxLines */ @android.view.RemotableViewMethod public void setMaxLines(int maxLines) { mMaximum = maxLines; mMaxMode = LINES; requestLayout(); invalidate(); } /** * Returns the maximum height of TextView in terms of number of lines or -1 if the * maximum height was set using {@link #setMaxHeight(int)} or {@link #setHeight(int)}. * * @return the maximum height of TextView in terms of number of lines. -1 if the maximum height * is not defined in lines. * * @see #setMaxLines(int) * @see #setLines(int) * * @attr ref android.R.styleable#TextView_maxLines */ public int getMaxLines() { return mMaxMode == LINES ? mMaximum : -1; } /** * Sets the height of the TextView to be at most {@code maxPixels} tall. * <p> * This value is used for height calculation if LayoutParams does not force TextView to have an * exact height. Setting this value overrides previous maximum height configurations such as * {@link #setMaxLines(int)} or {@link #setLines(int)}. * * @param maxPixels the maximum height of TextView in terms of pixels * * @see #getMaxHeight() * @see #setHeight(int) * * @attr ref android.R.styleable#TextView_maxHeight */ @android.view.RemotableViewMethod public void setMaxHeight(int maxPixels) { mMaximum = maxPixels; mMaxMode = PIXELS; requestLayout(); invalidate(); } /** * Returns the maximum height of TextView in terms of pixels or -1 if the maximum height was * set using {@link #setMaxLines(int)} or {@link #setLines(int)}. * * @return the maximum height of TextView in terms of pixels or -1 if the maximum height * is not defined in pixels * * @see #setMaxHeight(int) * @see #setHeight(int) * * @attr ref android.R.styleable#TextView_maxHeight */ public int getMaxHeight() { return mMaxMode == PIXELS ? mMaximum : -1; } /** * Sets the height of the TextView to be exactly {@code lines} tall. * <p> * This value is used for height calculation if LayoutParams does not force TextView to have an * exact height. Setting this value overrides previous minimum/maximum height configurations * such as {@link #setMinLines(int)} or {@link #setMaxLines(int)}. {@link #setSingleLine()} will * set this value to 1. * * @param lines the exact height of the TextView in terms of lines * * @see #setHeight(int) * * @attr ref android.R.styleable#TextView_lines */ @android.view.RemotableViewMethod public void setLines(int lines) { mMaximum = mMinimum = lines; mMaxMode = mMinMode = LINES; requestLayout(); invalidate(); } /** * Sets the height of the TextView to be exactly <code>pixels</code> tall. * <p> * This value is used for height calculation if LayoutParams does not force TextView to have an * exact height. Setting this value overrides previous minimum/maximum height configurations * such as {@link #setMinHeight(int)} or {@link #setMaxHeight(int)}. * * @param pixels the exact height of the TextView in terms of pixels * * @see #setLines(int) * * @attr ref android.R.styleable#TextView_height */ @android.view.RemotableViewMethod public void setHeight(int pixels) { mMaximum = mMinimum = pixels; mMaxMode = mMinMode = PIXELS; requestLayout(); invalidate(); } /** * Sets the width of the TextView to be at least {@code minEms} wide. * <p> * This value is used for width calculation if LayoutParams does not force TextView to have an * exact width. Setting this value overrides previous minimum width configurations such as * {@link #setMinWidth(int)} or {@link #setWidth(int)}. * * @param minEms the minimum width of TextView in terms of ems * * @see #getMinEms() * @see #setEms(int) * * @attr ref android.R.styleable#TextView_minEms */ @android.view.RemotableViewMethod public void setMinEms(int minEms) { mMinWidth = minEms; mMinWidthMode = EMS; requestLayout(); invalidate(); } /** * Returns the minimum width of TextView in terms of ems or -1 if the minimum width was set * using {@link #setMinWidth(int)} or {@link #setWidth(int)}. * * @return the minimum width of TextView in terms of ems. -1 if the minimum width is not * defined in ems * * @see #setMinEms(int) * @see #setEms(int) * * @attr ref android.R.styleable#TextView_minEms */ public int getMinEms() { return mMinWidthMode == EMS ? mMinWidth : -1; } /** * Sets the width of the TextView to be at least {@code minPixels} wide. * <p> * This value is used for width calculation if LayoutParams does not force TextView to have an * exact width. Setting this value overrides previous minimum width configurations such as * {@link #setMinEms(int)} or {@link #setEms(int)}. * <p> * The value given here is different than {@link #setMinimumWidth(int)}. Between * {@code minWidth} and the value set in {@link #setMinimumWidth(int)}, the greater one is used * to decide the final width. * * @param minPixels the minimum width of TextView in terms of pixels * * @see #getMinWidth() * @see #setWidth(int) * * @attr ref android.R.styleable#TextView_minWidth */ @android.view.RemotableViewMethod public void setMinWidth(int minPixels) { mMinWidth = minPixels; mMinWidthMode = PIXELS; requestLayout(); invalidate(); } /** * Returns the minimum width of TextView in terms of pixels or -1 if the minimum width was set * using {@link #setMinEms(int)} or {@link #setEms(int)}. * * @return the minimum width of TextView in terms of pixels or -1 if the minimum width is not * defined in pixels * * @see #setMinWidth(int) * @see #setWidth(int) * * @attr ref android.R.styleable#TextView_minWidth */ public int getMinWidth() { return mMinWidthMode == PIXELS ? mMinWidth : -1; } /** * Sets the width of the TextView to be at most {@code maxEms} wide. * <p> * This value is used for width calculation if LayoutParams does not force TextView to have an * exact width. Setting this value overrides previous maximum width configurations such as * {@link #setMaxWidth(int)} or {@link #setWidth(int)}. * * @param maxEms the maximum width of TextView in terms of ems * * @see #getMaxEms() * @see #setEms(int) * * @attr ref android.R.styleable#TextView_maxEms */ @android.view.RemotableViewMethod public void setMaxEms(int maxEms) { mMaxWidth = maxEms; mMaxWidthMode = EMS; requestLayout(); invalidate(); } /** * Returns the maximum width of TextView in terms of ems or -1 if the maximum width was set * using {@link #setMaxWidth(int)} or {@link #setWidth(int)}. * * @return the maximum width of TextView in terms of ems or -1 if the maximum width is not * defined in ems * * @see #setMaxEms(int) * @see #setEms(int) * * @attr ref android.R.styleable#TextView_maxEms */ public int getMaxEms() { return mMaxWidthMode == EMS ? mMaxWidth : -1; } /** * Sets the width of the TextView to be at most {@code maxPixels} wide. * <p> * This value is used for width calculation if LayoutParams does not force TextView to have an * exact width. Setting this value overrides previous maximum width configurations such as * {@link #setMaxEms(int)} or {@link #setEms(int)}. * * @param maxPixels the maximum width of TextView in terms of pixels * * @see #getMaxWidth() * @see #setWidth(int) * * @attr ref android.R.styleable#TextView_maxWidth */ @android.view.RemotableViewMethod public void setMaxWidth(int maxPixels) { mMaxWidth = maxPixels; mMaxWidthMode = PIXELS; requestLayout(); invalidate(); } /** * Returns the maximum width of TextView in terms of pixels or -1 if the maximum width was set * using {@link #setMaxEms(int)} or {@link #setEms(int)}. * * @return the maximum width of TextView in terms of pixels. -1 if the maximum width is not * defined in pixels * * @see #setMaxWidth(int) * @see #setWidth(int) * * @attr ref android.R.styleable#TextView_maxWidth */ public int getMaxWidth() { return mMaxWidthMode == PIXELS ? mMaxWidth : -1; } /** * Sets the width of the TextView to be exactly {@code ems} wide. * * This value is used for width calculation if LayoutParams does not force TextView to have an * exact width. Setting this value overrides previous minimum/maximum configurations such as * {@link #setMinEms(int)} or {@link #setMaxEms(int)}. * * @param ems the exact width of the TextView in terms of ems * * @see #setWidth(int) * * @attr ref android.R.styleable#TextView_ems */ @android.view.RemotableViewMethod public void setEms(int ems) { mMaxWidth = mMinWidth = ems; mMaxWidthMode = mMinWidthMode = EMS; requestLayout(); invalidate(); } /** * Sets the width of the TextView to be exactly {@code pixels} wide. * <p> * This value is used for width calculation if LayoutParams does not force TextView to have an * exact width. Setting this value overrides previous minimum/maximum width configurations * such as {@link #setMinWidth(int)} or {@link #setMaxWidth(int)}. * * @param pixels the exact width of the TextView in terms of pixels * * @see #setEms(int) * * @attr ref android.R.styleable#TextView_width */ @android.view.RemotableViewMethod public void setWidth(int pixels) { mMaxWidth = mMinWidth = pixels; mMaxWidthMode = mMinWidthMode = PIXELS; requestLayout(); invalidate(); } /** * Sets line spacing for this TextView. Each line other than the last line will have its height * multiplied by {@code mult} and have {@code add} added to it. * * @param add The value in pixels that should be added to each line other than the last line. * This will be applied after the multiplier * @param mult The value by which each line height other than the last line will be multiplied * by * * @attr ref android.R.styleable#TextView_lineSpacingExtra * @attr ref android.R.styleable#TextView_lineSpacingMultiplier */ public void setLineSpacing(float add, float mult) { if (mSpacingAdd != add || mSpacingMult != mult) { mSpacingAdd = add; mSpacingMult = mult; if (mLayout != null) { nullLayouts(); requestLayout(); invalidate(); } } } /** * Gets the line spacing multiplier * * @return the value by which each line's height is multiplied to get its actual height. * * @see #setLineSpacing(float, float) * @see #getLineSpacingExtra() * * @attr ref android.R.styleable#TextView_lineSpacingMultiplier */ public float getLineSpacingMultiplier() { return mSpacingMult; } /** * Gets the line spacing extra space * * @return the extra space that is added to the height of each lines of this TextView. * * @see #setLineSpacing(float, float) * @see #getLineSpacingMultiplier() * * @attr ref android.R.styleable#TextView_lineSpacingExtra */ public float getLineSpacingExtra() { return mSpacingAdd; } /** * Sets an explicit line height for this TextView. This is equivalent to the vertical distance * between subsequent baselines in the TextView. * * @param lineHeight the line height in pixels * * @see #setLineSpacing(float, float) * @see #getLineSpacing() * * @attr ref android.R.styleable#TextView_lineHeight */ public void setLineHeight(@Px @IntRange(from = 0) int lineHeight) { Preconditions.checkArgumentNonnegative(lineHeight); final int fontHeight = getPaint().getFontMetricsInt(null); // Make sure we don't setLineSpacing if it's not needed to avoid unnecessary redraw. if (lineHeight != fontHeight) { // Set lineSpacingExtra by the difference of lineSpacing with lineHeight setLineSpacing(lineHeight - fontHeight, 1f); } } /** * Convenience method to append the specified text to the TextView's * display buffer, upgrading it to {@link android.widget.TextView.BufferType#EDITABLE} * if it was not already editable. * * @param text text to be appended to the already displayed text */ public final void append(CharSequence text) { append(text, 0, text.length()); } /** * Convenience method to append the specified text slice to the TextView's * display buffer, upgrading it to {@link android.widget.TextView.BufferType#EDITABLE} * if it was not already editable. * * @param text text to be appended to the already displayed text * @param start the index of the first character in the {@code text} * @param end the index of the character following the last character in the {@code text} * * @see Appendable#append(CharSequence, int, int) */ public void append(CharSequence text, int start, int end) { if (!(mText instanceof Editable)) { setText(mText, BufferType.EDITABLE); } ((Editable) mText).append(text, start, end); if (mAutoLinkMask != 0) { boolean linksWereAdded = Linkify.addLinks(mSpannable, mAutoLinkMask); // Do not change the movement method for text that support text selection as it // would prevent an arbitrary cursor displacement. if (linksWereAdded && mLinksClickable && !textCanBeSelected()) { setMovementMethod(LinkMovementMethod.getInstance()); } } } private void updateTextColors() { boolean inval = false; final int[] drawableState = getDrawableState(); int color = mTextColor.getColorForState(drawableState, 0); if (color != mCurTextColor) { mCurTextColor = color; inval = true; } if (mLinkTextColor != null) { color = mLinkTextColor.getColorForState(drawableState, 0); if (color != mTextPaint.linkColor) { mTextPaint.linkColor = color; inval = true; } } if (mHintTextColor != null) { color = mHintTextColor.getColorForState(drawableState, 0); if (color != mCurHintTextColor) { mCurHintTextColor = color; if (mText.length() == 0) { inval = true; } } } if (inval) { // Text needs to be redrawn with the new color if (mEditor != null) mEditor.invalidateTextDisplayList(); invalidate(); } } @Override protected void drawableStateChanged() { super.drawableStateChanged(); if (mTextColor != null && mTextColor.isStateful() || (mHintTextColor != null && mHintTextColor.isStateful()) || (mLinkTextColor != null && mLinkTextColor.isStateful())) { updateTextColors(); } if (mDrawables != null) { final int[] state = getDrawableState(); for (Drawable dr : mDrawables.mShowing) { if (dr != null && dr.isStateful() && dr.setState(state)) { invalidateDrawable(dr); } } } } @Override public void drawableHotspotChanged(float x, float y) { super.drawableHotspotChanged(x, y); if (mDrawables != null) { for (Drawable dr : mDrawables.mShowing) { if (dr != null) { dr.setHotspot(x, y); } } } } @Override public Parcelable onSaveInstanceState() { Parcelable superState = super.onSaveInstanceState(); // Save state if we are forced to final boolean freezesText = getFreezesText(); boolean hasSelection = false; int start = -1; int end = -1; if (mText != null) { start = getSelectionStart(); end = getSelectionEnd(); if (start >= 0 || end >= 0) { // Or save state if there is a selection hasSelection = true; } } if (freezesText || hasSelection) { SavedState ss = new SavedState(superState); if (freezesText) { if (mText instanceof Spanned) { final Spannable sp = new SpannableStringBuilder(mText); if (mEditor != null) { removeMisspelledSpans(sp); sp.removeSpan(mEditor.mSuggestionRangeSpan); } ss.text = sp; } else { ss.text = mText.toString(); } } if (hasSelection) { // XXX Should also save the current scroll position! ss.selStart = start; ss.selEnd = end; } if (isFocused() && start >= 0 && end >= 0) { ss.frozenWithFocus = true; } ss.error = getError(); if (mEditor != null) { ss.editorState = mEditor.saveInstanceState(); } return ss; } return superState; } void removeMisspelledSpans(Spannable spannable) { 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) { spannable.removeSpan(suggestionSpans[i]); } } } @Override public void onRestoreInstanceState(Parcelable state) { if (!(state instanceof SavedState)) { super.onRestoreInstanceState(state); return; } SavedState ss = (SavedState) state; super.onRestoreInstanceState(ss.getSuperState()); // XXX restore buffer type too, as well as lots of other stuff if (ss.text != null) { setText(ss.text); } if (ss.selStart >= 0 && ss.selEnd >= 0) { if (mSpannable != null) { int len = mText.length(); if (ss.selStart > len || ss.selEnd > len) { String restored = ""; if (ss.text != null) { restored = "(restored) "; } Log.e(LOG_TAG, "Saved cursor position " + ss.selStart + "/" + ss.selEnd + " out of range for " + restored + "text " + mText); } else { Selection.setSelection(mSpannable, ss.selStart, ss.selEnd); if (ss.frozenWithFocus) { createEditorIfNeeded(); mEditor.mFrozenWithFocus = true; } } } } if (ss.error != null) { final CharSequence error = ss.error; // Display the error later, after the first layout pass post(new Runnable() { public void run() { if (mEditor == null || !mEditor.mErrorWasChanged) { setError(error); } } }); } if (ss.editorState != null) { createEditorIfNeeded(); mEditor.restoreInstanceState(ss.editorState); } } /** * Control whether this text view saves its entire text contents when * freezing to an icicle, in addition to dynamic state such as cursor * position. By default this is false, not saving the text. Set to true * if the text in the text view is not being saved somewhere else in * persistent storage (such as in a content provider) so that if the * view is later thawed the user will not lose their data. For * {@link android.widget.EditText} it is always enabled, regardless of * the value of the attribute. * * @param freezesText Controls whether a frozen icicle should include the * entire text data: true to include it, false to not. * * @attr ref android.R.styleable#TextView_freezesText */ @android.view.RemotableViewMethod public void setFreezesText(boolean freezesText) { mFreezesText = freezesText; } /** * Return whether this text view is including its entire text contents * in frozen icicles. For {@link android.widget.EditText} it always returns true. * * @return Returns true if text is included, false if it isn't. * * @see #setFreezesText */ public boolean getFreezesText() { return mFreezesText; } /////////////////////////////////////////////////////////////////////////// /** * Sets the Factory used to create new {@link Editable Editables}. * * @param factory {@link android.text.Editable.Factory Editable.Factory} to be used * * @see android.text.Editable.Factory * @see android.widget.TextView.BufferType#EDITABLE */ public final void setEditableFactory(Editable.Factory factory) { mEditableFactory = factory; setText(mText); } /** * Sets the Factory used to create new {@link Spannable Spannables}. * * @param factory {@link android.text.Spannable.Factory Spannable.Factory} to be used * * @see android.text.Spannable.Factory * @see android.widget.TextView.BufferType#SPANNABLE */ public final void setSpannableFactory(Spannable.Factory factory) { mSpannableFactory = factory; setText(mText); } /** * Sets the text to be displayed. TextView <em>does not</em> accept * HTML-like formatting, which you can do with text strings in XML resource files. * To style your strings, attach android.text.style.* objects to a * {@link android.text.SpannableString}, or see the * <a href="{@docRoot}guide/topics/resources/available-resources.html#stringresources"> * Available Resource Types</a> documentation for an example of setting * formatted text in the XML resource file. * <p/> * When required, TextView will use {@link android.text.Spannable.Factory} to create final or * intermediate {@link Spannable Spannables}. Likewise it will use * {@link android.text.Editable.Factory} to create final or intermediate * {@link Editable Editables}. * * If the passed text is a {@link PrecomputedText} but the parameters used to create the * PrecomputedText mismatches with this TextView, IllegalArgumentException is thrown. To ensure * the parameters match, you can call {@link TextView#setTextMetricsParams} before calling this. * * @param text text to be displayed * * @attr ref android.R.styleable#TextView_text * @throws IllegalArgumentException if the passed text is a {@link PrecomputedText} but the * parameters used to create the PrecomputedText mismatches * with this TextView. */ @android.view.RemotableViewMethod public final void setText(CharSequence text) { setText(text, mBufferType); } /** * Sets the text to be displayed but retains the cursor position. Same as * {@link #setText(CharSequence)} except that the cursor position (if any) is retained in the * new text. * <p/> * When required, TextView will use {@link android.text.Spannable.Factory} to create final or * intermediate {@link Spannable Spannables}. Likewise it will use * {@link android.text.Editable.Factory} to create final or intermediate * {@link Editable Editables}. * * @param text text to be displayed * * @see #setText(CharSequence) */ @android.view.RemotableViewMethod public final void setTextKeepState(CharSequence text) { setTextKeepState(text, mBufferType); } /** * Sets the text to be displayed and the {@link android.widget.TextView.BufferType}. * <p/> * When required, TextView will use {@link android.text.Spannable.Factory} to create final or * intermediate {@link Spannable Spannables}. Likewise it will use * {@link android.text.Editable.Factory} to create final or intermediate * {@link Editable Editables}. * * @param text text to be displayed * @param type a {@link android.widget.TextView.BufferType} which defines whether the text is * stored as a static text, styleable/spannable text, or editable text * * @see #setText(CharSequence) * @see android.widget.TextView.BufferType * @see #setSpannableFactory(Spannable.Factory) * @see #setEditableFactory(Editable.Factory) * * @attr ref android.R.styleable#TextView_text * @attr ref android.R.styleable#TextView_bufferType */ public void setText(CharSequence text, BufferType type) { setText(text, type, true, 0); if (mCharWrapper != null) { mCharWrapper.mChars = null; } } @UnsupportedAppUsage private void setText(CharSequence text, BufferType type, boolean notifyBefore, int oldlen) { mTextSetFromXmlOrResourceId = false; if (text == null) { text = ""; } // If suggestions are not enabled, remove the suggestion spans from the text if (!isSuggestionsEnabled()) { text = removeSuggestionSpans(text); } if (!mUserSetTextScaleX) mTextPaint.setTextScaleX(1.0f); if (text instanceof Spanned && ((Spanned) text).getSpanStart(TextUtils.TruncateAt.MARQUEE) >= 0) { if (ViewConfiguration.get(mContext).isFadingMarqueeEnabled()) { setHorizontalFadingEdgeEnabled(true); mMarqueeFadeMode = MARQUEE_FADE_NORMAL; } else { setHorizontalFadingEdgeEnabled(false); mMarqueeFadeMode = MARQUEE_FADE_SWITCH_SHOW_ELLIPSIS; } setEllipsize(TextUtils.TruncateAt.MARQUEE); } int n = mFilters.length; for (int i = 0; i < n; i++) { CharSequence out = mFilters[i].filter(text, 0, text.length(), EMPTY_SPANNED, 0, 0); if (out != null) { text = out; } } if (notifyBefore) { if (mText != null) { oldlen = mText.length(); sendBeforeTextChanged(mText, 0, oldlen, text.length()); } else { sendBeforeTextChanged("", 0, 0, text.length()); } } boolean needEditableForNotification = false; if (mListeners != null && mListeners.size() != 0) { needEditableForNotification = true; } PrecomputedText precomputed = (text instanceof PrecomputedText) ? (PrecomputedText) text : null; if (type == BufferType.EDITABLE || getKeyListener() != null || needEditableForNotification) { createEditorIfNeeded(); mEditor.forgetUndoRedo(); Editable t = mEditableFactory.newEditable(text); text = t; setFilters(t, mFilters); InputMethodManager imm = InputMethodManager.peekInstance(); if (imm != null) imm.restartInput(this); } else if (precomputed != null) { if (mTextDir == null) { mTextDir = getTextDirectionHeuristic(); } if (!precomputed.getParams().isSameTextMetricsInternal(getPaint(), mTextDir, mBreakStrategy, mHyphenationFrequency)) { throw new IllegalArgumentException( "PrecomputedText's Parameters don't match the parameters of this TextView." + "Consider using setTextMetricsParams(precomputedText.getParams()) " + "to override the settings of this TextView: " + "PrecomputedText: " + precomputed.getParams() + "TextView: " + getTextMetricsParams()); } } else if (type == BufferType.SPANNABLE || mMovement != null) { text = mSpannableFactory.newSpannable(text); } else if (!(text instanceof CharWrapper)) { text = TextUtils.stringOrSpannedString(text); } if (mAutoLinkMask != 0) { Spannable s2; if (type == BufferType.EDITABLE || text instanceof Spannable) { s2 = (Spannable) text; } else { s2 = mSpannableFactory.newSpannable(text); } if (Linkify.addLinks(s2, mAutoLinkMask)) { text = s2; type = (type == BufferType.EDITABLE) ? BufferType.EDITABLE : BufferType.SPANNABLE; /* * We must go ahead and set the text before changing the * movement method, because setMovementMethod() may call * setText() again to try to upgrade the buffer type. */ setTextInternal(text); // Do not change the movement method for text that support text selection as it // would prevent an arbitrary cursor displacement. if (mLinksClickable && !textCanBeSelected()) { setMovementMethod(LinkMovementMethod.getInstance()); } } } mBufferType = type; setTextInternal(text); if (mTransformation == null) { mTransformed = text; } else { mTransformed = mTransformation.getTransformation(text, this); } final int textLength = text.length(); if (text instanceof Spannable && !mAllowTransformationLengthChange) { Spannable sp = (Spannable) text; // Remove any ChangeWatchers that might have come from other TextViews. final ChangeWatcher[] watchers = sp.getSpans(0, sp.length(), ChangeWatcher.class); final int count = watchers.length; for (int i = 0; i < count; i++) { sp.removeSpan(watchers[i]); } if (mChangeWatcher == null) mChangeWatcher = new ChangeWatcher(); sp.setSpan(mChangeWatcher, 0, textLength, Spanned.SPAN_INCLUSIVE_INCLUSIVE | (CHANGE_WATCHER_PRIORITY << Spanned.SPAN_PRIORITY_SHIFT)); if (mEditor != null) mEditor.addSpanWatchers(sp); if (mTransformation != null) { sp.setSpan(mTransformation, 0, textLength, Spanned.SPAN_INCLUSIVE_INCLUSIVE); } if (mMovement != null) { mMovement.initialize(this, (Spannable) text); /* * Initializing the movement method will have set the * selection, so reset mSelectionMoved to keep that from * interfering with the normal on-focus selection-setting. */ if (mEditor != null) mEditor.mSelectionMoved = false; } } if (mLayout != null) { checkForRelayout(); } sendOnTextChanged(text, 0, oldlen, textLength); onTextChanged(text, 0, oldlen, textLength); notifyViewAccessibilityStateChangedIfNeeded(AccessibilityEvent.CONTENT_CHANGE_TYPE_TEXT); if (needEditableForNotification) { sendAfterTextChanged((Editable) text); } else { notifyAutoFillManagerAfterTextChangedIfNeeded(); } // SelectionModifierCursorController depends on textCanBeSelected, which depends on text if (mEditor != null) mEditor.prepareCursorControllers(); } /** * Sets the TextView to display the specified slice of the specified * char array. You must promise that you will not change the contents * of the array except for right before another call to setText(), * since the TextView has no way to know that the text * has changed and that it needs to invalidate and re-layout. * * @param text char array to be displayed * @param start start index in the char array * @param len length of char count after {@code start} */ public final void setText(char[] text, int start, int len) { int oldlen = 0; if (start < 0 || len < 0 || start + len > text.length) { throw new IndexOutOfBoundsException(start + ", " + len); } /* * We must do the before-notification here ourselves because if * the old text is a CharWrapper we destroy it before calling * into the normal path. */ if (mText != null) { oldlen = mText.length(); sendBeforeTextChanged(mText, 0, oldlen, len); } else { sendBeforeTextChanged("", 0, 0, len); } if (mCharWrapper == null) { mCharWrapper = new CharWrapper(text, start, len); } else { mCharWrapper.set(text, start, len); } setText(mCharWrapper, mBufferType, false, oldlen); } /** * Sets the text to be displayed and the {@link android.widget.TextView.BufferType} but retains * the cursor position. Same as * {@link #setText(CharSequence, android.widget.TextView.BufferType)} except that the cursor * position (if any) is retained in the new text. * <p/> * When required, TextView will use {@link android.text.Spannable.Factory} to create final or * intermediate {@link Spannable Spannables}. Likewise it will use * {@link android.text.Editable.Factory} to create final or intermediate * {@link Editable Editables}. * * @param text text to be displayed * @param type a {@link android.widget.TextView.BufferType} which defines whether the text is * stored as a static text, styleable/spannable text, or editable text * * @see #setText(CharSequence, android.widget.TextView.BufferType) */ public final void setTextKeepState(CharSequence text, BufferType type) { int start = getSelectionStart(); int end = getSelectionEnd(); int len = text.length(); setText(text, type); if (start >= 0 || end >= 0) { if (mSpannable != null) { Selection.setSelection(mSpannable, Math.max(0, Math.min(start, len)), Math.max(0, Math.min(end, len))); } } } /** * Sets the text to be displayed using a string resource identifier. * * @param resid the resource identifier of the string resource to be displayed * * @see #setText(CharSequence) * * @attr ref android.R.styleable#TextView_text */ @android.view.RemotableViewMethod public final void setText(@StringRes int resid) { setText(getContext().getResources().getText(resid)); mTextSetFromXmlOrResourceId = true; mTextId = resid; } /** * Sets the text to be displayed using a string resource identifier and the * {@link android.widget.TextView.BufferType}. * <p/> * When required, TextView will use {@link android.text.Spannable.Factory} to create final or * intermediate {@link Spannable Spannables}. Likewise it will use * {@link android.text.Editable.Factory} to create final or intermediate * {@link Editable Editables}. * * @param resid the resource identifier of the string resource to be displayed * @param type a {@link android.widget.TextView.BufferType} which defines whether the text is * stored as a static text, styleable/spannable text, or editable text * * @see #setText(int) * @see #setText(CharSequence) * @see android.widget.TextView.BufferType * @see #setSpannableFactory(Spannable.Factory) * @see #setEditableFactory(Editable.Factory) * * @attr ref android.R.styleable#TextView_text * @attr ref android.R.styleable#TextView_bufferType */ public final void setText(@StringRes int resid, BufferType type) { setText(getContext().getResources().getText(resid), type); mTextSetFromXmlOrResourceId = true; mTextId = resid; } /** * Sets the text to be displayed when the text of the TextView is empty. * Null means to use the normal empty text. The hint does not currently * participate in determining the size of the view. * * @attr ref android.R.styleable#TextView_hint */ @android.view.RemotableViewMethod public final void setHint(CharSequence hint) { setHintInternal(hint); if (mEditor != null && isInputMethodTarget()) { mEditor.reportExtractedText(); } } private void setHintInternal(CharSequence hint) { mHint = TextUtils.stringOrSpannedString(hint); if (mLayout != null) { checkForRelayout(); } if (mText.length() == 0) { invalidate(); } // Invalidate display list if hint is currently used if (mEditor != null && mText.length() == 0 && mHint != null) { mEditor.invalidateTextDisplayList(); } } /** * Sets the text to be displayed when the text of the TextView is empty, * from a resource. * * @attr ref android.R.styleable#TextView_hint */ @android.view.RemotableViewMethod public final void setHint(@StringRes int resid) { setHint(getContext().getResources().getText(resid)); } /** * Returns the hint that is displayed when the text of the TextView * is empty. * * @attr ref android.R.styleable#TextView_hint */ @ViewDebug.CapturedViewProperty public CharSequence getHint() { return mHint; } @UnsupportedAppUsage boolean isSingleLine() { return mSingleLine; } private static boolean isMultilineInputType(int type) { return (type & (EditorInfo.TYPE_MASK_CLASS | EditorInfo.TYPE_TEXT_FLAG_MULTI_LINE)) == (EditorInfo.TYPE_CLASS_TEXT | EditorInfo.TYPE_TEXT_FLAG_MULTI_LINE); } /** * Removes the suggestion spans. */ CharSequence removeSuggestionSpans(CharSequence text) { if (text instanceof Spanned) { Spannable spannable; if (text instanceof Spannable) { spannable = (Spannable) text; } else { spannable = mSpannableFactory.newSpannable(text); } SuggestionSpan[] spans = spannable.getSpans(0, text.length(), SuggestionSpan.class); if (spans.length == 0) { return text; } else { text = spannable; } for (int i = 0; i < spans.length; i++) { spannable.removeSpan(spans[i]); } } return text; } /** * Set the type of the content with a constant as defined for {@link EditorInfo#inputType}. This * will take care of changing the key listener, by calling {@link #setKeyListener(KeyListener)}, * to match the given content type. If the given content type is {@link EditorInfo#TYPE_NULL} * then a soft keyboard will not be displayed for this text view. * * Note that the maximum number of displayed lines (see {@link #setMaxLines(int)}) will be * modified if you change the {@link EditorInfo#TYPE_TEXT_FLAG_MULTI_LINE} flag of the input * type. * * @see #getInputType() * @see #setRawInputType(int) * @see android.text.InputType * @attr ref android.R.styleable#TextView_inputType */ public void setInputType(int type) { final boolean wasPassword = isPasswordInputType(getInputType()); final boolean wasVisiblePassword = isVisiblePasswordInputType(getInputType()); setInputType(type, false); final boolean isPassword = isPasswordInputType(type); final boolean isVisiblePassword = isVisiblePasswordInputType(type); boolean forceUpdate = false; if (isPassword) { setTransformationMethod(PasswordTransformationMethod.getInstance()); setTypefaceFromAttrs(null/* fontTypeface */, null /* fontFamily */, MONOSPACE, Typeface.NORMAL, -1 /* weight, not specifeid */); } else if (isVisiblePassword) { if (mTransformation == PasswordTransformationMethod.getInstance()) { forceUpdate = true; } setTypefaceFromAttrs(null/* fontTypeface */, null /* fontFamily */, MONOSPACE, Typeface.NORMAL, -1 /* weight, not specified */); } else if (wasPassword || wasVisiblePassword) { // not in password mode, clean up typeface and transformation setTypefaceFromAttrs(null/* fontTypeface */, null /* fontFamily */, DEFAULT_TYPEFACE /* typeface index */, Typeface.NORMAL, -1 /* weight, not specified */); if (mTransformation == PasswordTransformationMethod.getInstance()) { forceUpdate = true; } } boolean singleLine = !isMultilineInputType(type); // We need to update the single line mode if it has changed or we // were previously in password mode. if (mSingleLine != singleLine || forceUpdate) { // Change single line mode, but only change the transformation if // we are not in password mode. applySingleLine(singleLine, !isPassword, true); } if (!isSuggestionsEnabled()) { setTextInternal(removeSuggestionSpans(mText)); } InputMethodManager imm = InputMethodManager.peekInstance(); if (imm != null) imm.restartInput(this); } /** * It would be better to rely on the input type for everything. A password inputType should have * a password transformation. We should hence use isPasswordInputType instead of this method. * * We should: * - Call setInputType in setKeyListener instead of changing the input type directly (which * would install the correct transformation). * - Refuse the installation of a non-password transformation in setTransformation if the input * type is password. * * However, this is like this for legacy reasons and we cannot break existing apps. This method * is useful since it matches what the user can see (obfuscated text or not). * * @return true if the current transformation method is of the password type. */ boolean hasPasswordTransformationMethod() { return mTransformation instanceof PasswordTransformationMethod; } static boolean isPasswordInputType(int inputType) { final int variation = inputType & (EditorInfo.TYPE_MASK_CLASS | EditorInfo.TYPE_MASK_VARIATION); return variation == (EditorInfo.TYPE_CLASS_TEXT | EditorInfo.TYPE_TEXT_VARIATION_PASSWORD) || variation == (EditorInfo.TYPE_CLASS_TEXT | EditorInfo.TYPE_TEXT_VARIATION_WEB_PASSWORD) || variation == (EditorInfo.TYPE_CLASS_NUMBER | EditorInfo.TYPE_NUMBER_VARIATION_PASSWORD); } private static boolean isVisiblePasswordInputType(int inputType) { final int variation = inputType & (EditorInfo.TYPE_MASK_CLASS | EditorInfo.TYPE_MASK_VARIATION); return variation == (EditorInfo.TYPE_CLASS_TEXT | EditorInfo.TYPE_TEXT_VARIATION_VISIBLE_PASSWORD); } /** * Directly change the content type integer of the text view, without * modifying any other state. * @see #setInputType(int) * @see android.text.InputType * @attr ref android.R.styleable#TextView_inputType */ public void setRawInputType(int type) { if (type == InputType.TYPE_NULL && mEditor == null) return; //TYPE_NULL is the default value createEditorIfNeeded(); mEditor.mInputType = type; } /** * @return {@code null} if the key listener should use pre-O (locale-independent). Otherwise * a {@code Locale} object that can be used to customize key various listeners. * @see DateKeyListener#getInstance(Locale) * @see DateTimeKeyListener#getInstance(Locale) * @see DigitsKeyListener#getInstance(Locale) * @see TimeKeyListener#getInstance(Locale) */ @Nullable private Locale getCustomLocaleForKeyListenerOrNull() { if (!mUseInternationalizedInput) { // If the application does not target O, stick to the previous behavior. return null; } final LocaleList locales = getImeHintLocales(); if (locales == null) { // If the application does not explicitly specify IME hint locale, also stick to the // previous behavior. return null; } return locales.get(0); } @UnsupportedAppUsage private void setInputType(int type, boolean direct) { final int cls = type & EditorInfo.TYPE_MASK_CLASS; KeyListener input; if (cls == EditorInfo.TYPE_CLASS_TEXT) { boolean autotext = (type & EditorInfo.TYPE_TEXT_FLAG_AUTO_CORRECT) != 0; TextKeyListener.Capitalize cap; if ((type & EditorInfo.TYPE_TEXT_FLAG_CAP_CHARACTERS) != 0) { cap = TextKeyListener.Capitalize.CHARACTERS; } else if ((type & EditorInfo.TYPE_TEXT_FLAG_CAP_WORDS) != 0) { cap = TextKeyListener.Capitalize.WORDS; } else if ((type & EditorInfo.TYPE_TEXT_FLAG_CAP_SENTENCES) != 0) { cap = TextKeyListener.Capitalize.SENTENCES; } else { cap = TextKeyListener.Capitalize.NONE; } input = TextKeyListener.getInstance(autotext, cap); } else if (cls == EditorInfo.TYPE_CLASS_NUMBER) { final Locale locale = getCustomLocaleForKeyListenerOrNull(); input = DigitsKeyListener.getInstance(locale, (type & EditorInfo.TYPE_NUMBER_FLAG_SIGNED) != 0, (type & EditorInfo.TYPE_NUMBER_FLAG_DECIMAL) != 0); if (locale != null) { // Override type, if necessary for i18n. int newType = input.getInputType(); final int newClass = newType & EditorInfo.TYPE_MASK_CLASS; if (newClass != EditorInfo.TYPE_CLASS_NUMBER) { // The class is different from the original class. So we need to override // 'type'. But we want to keep the password flag if it's there. if ((type & EditorInfo.TYPE_NUMBER_VARIATION_PASSWORD) != 0) { newType |= EditorInfo.TYPE_TEXT_VARIATION_PASSWORD; } type = newType; } } } else if (cls == EditorInfo.TYPE_CLASS_DATETIME) { final Locale locale = getCustomLocaleForKeyListenerOrNull(); switch (type & EditorInfo.TYPE_MASK_VARIATION) { case EditorInfo.TYPE_DATETIME_VARIATION_DATE: input = DateKeyListener.getInstance(locale); break; case EditorInfo.TYPE_DATETIME_VARIATION_TIME: input = TimeKeyListener.getInstance(locale); break; default: input = DateTimeKeyListener.getInstance(locale); break; } if (mUseInternationalizedInput) { type = input.getInputType(); // Override type, if necessary for i18n. } } else if (cls == EditorInfo.TYPE_CLASS_PHONE) { input = DialerKeyListener.getInstance(); } else { input = TextKeyListener.getInstance(); } setRawInputType(type); mListenerChanged = false; if (direct) { createEditorIfNeeded(); mEditor.mKeyListener = input; } else { setKeyListenerOnly(input); } } /** * Get the type of the editable content. * * @see #setInputType(int) * @see android.text.InputType */ public int getInputType() { return mEditor == null ? EditorInfo.TYPE_NULL : mEditor.mInputType; } /** * Change the editor type integer associated with the text view, which * is reported to an Input Method Editor (IME) with {@link EditorInfo#imeOptions} * when it has focus. * @see #getImeOptions * @see android.view.inputmethod.EditorInfo * @attr ref android.R.styleable#TextView_imeOptions */ public void setImeOptions(int imeOptions) { createEditorIfNeeded(); mEditor.createInputContentTypeIfNeeded(); mEditor.mInputContentType.imeOptions = imeOptions; } /** * Get the type of the Input Method Editor (IME). * @return the type of the IME * @see #setImeOptions(int) * @see android.view.inputmethod.EditorInfo */ public int getImeOptions() { return mEditor != null && mEditor.mInputContentType != null ? mEditor.mInputContentType.imeOptions : EditorInfo.IME_NULL; } /** * Change the custom IME action associated with the text view, which * will be reported to an IME with {@link EditorInfo#actionLabel} * and {@link EditorInfo#actionId} when it has focus. * @see #getImeActionLabel * @see #getImeActionId * @see android.view.inputmethod.EditorInfo * @attr ref android.R.styleable#TextView_imeActionLabel * @attr ref android.R.styleable#TextView_imeActionId */ public void setImeActionLabel(CharSequence label, int actionId) { createEditorIfNeeded(); mEditor.createInputContentTypeIfNeeded(); mEditor.mInputContentType.imeActionLabel = label; mEditor.mInputContentType.imeActionId = actionId; } /** * Get the IME action label previous set with {@link #setImeActionLabel}. * * @see #setImeActionLabel * @see android.view.inputmethod.EditorInfo */ public CharSequence getImeActionLabel() { return mEditor != null && mEditor.mInputContentType != null ? mEditor.mInputContentType.imeActionLabel : null; } /** * Get the IME action ID previous set with {@link #setImeActionLabel}. * * @see #setImeActionLabel * @see android.view.inputmethod.EditorInfo */ public int getImeActionId() { return mEditor != null && mEditor.mInputContentType != null ? mEditor.mInputContentType.imeActionId : 0; } /** * Set a special listener to be called when an action is performed * on the text view. This will be called when the enter key is pressed, * or when an action supplied to the IME is selected by the user. Setting * this means that the normal hard key event will not insert a newline * into the text view, even if it is multi-line; holding down the ALT * modifier will, however, allow the user to insert a newline character. */ public void setOnEditorActionListener(OnEditorActionListener l) { createEditorIfNeeded(); mEditor.createInputContentTypeIfNeeded(); mEditor.mInputContentType.onEditorActionListener = l; } /** * Called when an attached input method calls * {@link InputConnection#performEditorAction(int) * InputConnection.performEditorAction()} * for this text view. The default implementation will call your action * listener supplied to {@link #setOnEditorActionListener}, or perform * a standard operation for {@link EditorInfo#IME_ACTION_NEXT * EditorInfo.IME_ACTION_NEXT}, {@link EditorInfo#IME_ACTION_PREVIOUS * EditorInfo.IME_ACTION_PREVIOUS}, or {@link EditorInfo#IME_ACTION_DONE * EditorInfo.IME_ACTION_DONE}. * * <p>For backwards compatibility, if no IME options have been set and the * text view would not normally advance focus on enter, then * the NEXT and DONE actions received here will be turned into an enter * key down/up pair to go through the normal key handling. * * @param actionCode The code of the action being performed. * * @see #setOnEditorActionListener */ public void onEditorAction(int actionCode) { final Editor.InputContentType ict = mEditor == null ? null : mEditor.mInputContentType; if (ict != null) { if (ict.onEditorActionListener != null) { if (ict.onEditorActionListener.onEditorAction(this, actionCode, null)) { return; } } // This is the handling for some default action. // Note that for backwards compatibility we don't do this // default handling if explicit ime options have not been given, // instead turning this into the normal enter key codes that an // app may be expecting. if (actionCode == EditorInfo.IME_ACTION_NEXT) { View v = focusSearch(FOCUS_FORWARD); if (v != null) { if (!v.requestFocus(FOCUS_FORWARD)) { throw new IllegalStateException( "focus search returned a view " + "that wasn't able to take focus!"); } } return; } else if (actionCode == EditorInfo.IME_ACTION_PREVIOUS) { View v = focusSearch(FOCUS_BACKWARD); if (v != null) { if (!v.requestFocus(FOCUS_BACKWARD)) { throw new IllegalStateException( "focus search returned a view " + "that wasn't able to take focus!"); } } return; } else if (actionCode == EditorInfo.IME_ACTION_DONE) { InputMethodManager imm = InputMethodManager.peekInstance(); if (imm != null && imm.isActive(this)) { imm.hideSoftInputFromWindow(getWindowToken(), 0); } return; } } ViewRootImpl viewRootImpl = getViewRootImpl(); if (viewRootImpl != null) { long eventTime = SystemClock.uptimeMillis(); viewRootImpl.dispatchKeyFromIme(new KeyEvent(eventTime, eventTime, KeyEvent.ACTION_DOWN, KeyEvent.KEYCODE_ENTER, 0, 0, KeyCharacterMap.VIRTUAL_KEYBOARD, 0, KeyEvent.FLAG_SOFT_KEYBOARD | KeyEvent.FLAG_KEEP_TOUCH_MODE | KeyEvent.FLAG_EDITOR_ACTION)); viewRootImpl.dispatchKeyFromIme(new KeyEvent(SystemClock.uptimeMillis(), eventTime, KeyEvent.ACTION_UP, KeyEvent.KEYCODE_ENTER, 0, 0, KeyCharacterMap.VIRTUAL_KEYBOARD, 0, KeyEvent.FLAG_SOFT_KEYBOARD | KeyEvent.FLAG_KEEP_TOUCH_MODE | KeyEvent.FLAG_EDITOR_ACTION)); } } /** * Set the private content type of the text, which is the * {@link EditorInfo#privateImeOptions EditorInfo.privateImeOptions} * field that will be filled in when creating an input connection. * * @see #getPrivateImeOptions() * @see EditorInfo#privateImeOptions * @attr ref android.R.styleable#TextView_privateImeOptions */ public void setPrivateImeOptions(String type) { createEditorIfNeeded(); mEditor.createInputContentTypeIfNeeded(); mEditor.mInputContentType.privateImeOptions = type; } /** * Get the private type of the content. * * @see #setPrivateImeOptions(String) * @see EditorInfo#privateImeOptions */ public String getPrivateImeOptions() { return mEditor != null && mEditor.mInputContentType != null ? mEditor.mInputContentType.privateImeOptions : null; } /** * Set the extra input data of the text, which is the * {@link EditorInfo#extras TextBoxAttribute.extras} * Bundle that will be filled in when creating an input connection. The * given integer is the resource identifier of an XML resource holding an * {@link android.R.styleable#InputExtras <input-extras>} XML tree. * * @see #getInputExtras(boolean) * @see EditorInfo#extras * @attr ref android.R.styleable#TextView_editorExtras */ public void setInputExtras(@XmlRes int xmlResId) throws XmlPullParserException, IOException { createEditorIfNeeded(); XmlResourceParser parser = getResources().getXml(xmlResId); mEditor.createInputContentTypeIfNeeded(); mEditor.mInputContentType.extras = new Bundle(); getResources().parseBundleExtras(parser, mEditor.mInputContentType.extras); } /** * Retrieve the input extras currently associated with the text view, which * can be viewed as well as modified. * * @param create If true, the extras will be created if they don't already * exist. Otherwise, null will be returned if none have been created. * @see #setInputExtras(int) * @see EditorInfo#extras * @attr ref android.R.styleable#TextView_editorExtras */ public Bundle getInputExtras(boolean create) { if (mEditor == null && !create) return null; createEditorIfNeeded(); if (mEditor.mInputContentType == null) { if (!create) return null; mEditor.createInputContentTypeIfNeeded(); } if (mEditor.mInputContentType.extras == null) { if (!create) return null; mEditor.mInputContentType.extras = new Bundle(); } return mEditor.mInputContentType.extras; } /** * Change "hint" locales associated with the text view, which will be reported to an IME with * {@link EditorInfo#hintLocales} when it has focus. * * Starting with Android O, this also causes internationalized listeners to be created (or * change locale) based on the first locale in the input locale list. * * <p><strong>Note:</strong> If you want new "hint" to take effect immediately you need to * call {@link InputMethodManager#restartInput(View)}.</p> * @param hintLocales List of the languages that the user is supposed to switch to no matter * what input method subtype is currently used. Set {@code null} to clear the current "hint". * @see #getImeHintLocales() * @see android.view.inputmethod.EditorInfo#hintLocales */ public void setImeHintLocales(@Nullable LocaleList hintLocales) { createEditorIfNeeded(); mEditor.createInputContentTypeIfNeeded(); mEditor.mInputContentType.imeHintLocales = hintLocales; if (mUseInternationalizedInput) { changeListenerLocaleTo(hintLocales == null ? null : hintLocales.get(0)); } } /** * @return The current languages list "hint". {@code null} when no "hint" is available. * @see #setImeHintLocales(LocaleList) * @see android.view.inputmethod.EditorInfo#hintLocales */ @Nullable public LocaleList getImeHintLocales() { if (mEditor == null) { return null; } if (mEditor.mInputContentType == null) { return null; } return mEditor.mInputContentType.imeHintLocales; } /** * Returns the error message that was set to be displayed with * {@link #setError}, or <code>null</code> if no error was set * or if it the error was cleared by the widget after user input. */ public CharSequence getError() { return mEditor == null ? null : mEditor.mError; } /** * Sets the right-hand compound drawable of the TextView to the "error" * icon and sets an error message that will be displayed in a popup when * the TextView has focus. The icon and error message will be reset to * null when any key events cause changes to the TextView's text. If the * <code>error</code> is <code>null</code>, the error message and icon * will be cleared. */ @android.view.RemotableViewMethod public void setError(CharSequence error) { if (error == null) { setError(null, null); } else { Drawable dr = getContext().getDrawable(com.android.internal.R.drawable.indicator_input_error); dr.setBounds(0, 0, dr.getIntrinsicWidth(), dr.getIntrinsicHeight()); setError(error, dr); } } /** * Sets the right-hand compound drawable of the TextView to the specified * icon and sets an error message that will be displayed in a popup when * the TextView has focus. The icon and error message will be reset to * null when any key events cause changes to the TextView's text. The * drawable must already have had {@link Drawable#setBounds} set on it. * If the <code>error</code> is <code>null</code>, the error message will * be cleared (and you should provide a <code>null</code> icon as well). */ public void setError(CharSequence error, Drawable icon) { createEditorIfNeeded(); mEditor.setError(error, icon); notifyViewAccessibilityStateChangedIfNeeded(AccessibilityEvent.CONTENT_CHANGE_TYPE_UNDEFINED); } @Override protected boolean setFrame(int l, int t, int r, int b) { boolean result = super.setFrame(l, t, r, b); if (mEditor != null) mEditor.setFrame(); restartMarqueeIfNeeded(); return result; } private void restartMarqueeIfNeeded() { if (mRestartMarquee && mEllipsize == TextUtils.TruncateAt.MARQUEE) { mRestartMarquee = false; startMarquee(); } } /** * Sets the list of input filters that will be used if the buffer is * Editable. Has no effect otherwise. * * @attr ref android.R.styleable#TextView_maxLength */ public void setFilters(InputFilter[] filters) { if (filters == null) { throw new IllegalArgumentException(); } mFilters = filters; if (mText instanceof Editable) { setFilters((Editable) mText, filters); } } /** * Sets the list of input filters on the specified Editable, * and includes mInput in the list if it is an InputFilter. */ private void setFilters(Editable e, InputFilter[] filters) { if (mEditor != null) { final boolean undoFilter = mEditor.mUndoInputFilter != null; final boolean keyFilter = mEditor.mKeyListener instanceof InputFilter; int num = 0; if (undoFilter) num++; if (keyFilter) num++; if (num > 0) { InputFilter[] nf = new InputFilter[filters.length + num]; System.arraycopy(filters, 0, nf, 0, filters.length); num = 0; if (undoFilter) { nf[filters.length] = mEditor.mUndoInputFilter; num++; } if (keyFilter) { nf[filters.length + num] = (InputFilter) mEditor.mKeyListener; } e.setFilters(nf); return; } } e.setFilters(filters); } /** * Returns the current list of input filters. * * @attr ref android.R.styleable#TextView_maxLength */ public InputFilter[] getFilters() { return mFilters; } ///////////////////////////////////////////////////////////////////////// private int getBoxHeight(Layout l) { Insets opticalInsets = isLayoutModeOptical(mParent) ? getOpticalInsets() : Insets.NONE; int padding = (l == mHintLayout) ? getCompoundPaddingTop() + getCompoundPaddingBottom() : getExtendedPaddingTop() + getExtendedPaddingBottom(); return getMeasuredHeight() - padding + opticalInsets.top + opticalInsets.bottom; } @UnsupportedAppUsage int getVerticalOffset(boolean forceNormal) { int voffset = 0; final int gravity = mGravity & Gravity.VERTICAL_GRAVITY_MASK; Layout l = mLayout; if (!forceNormal && mText.length() == 0 && mHintLayout != null) { l = mHintLayout; } if (gravity != Gravity.TOP) { int boxht = getBoxHeight(l); int textht = l.getHeight(); if (textht < boxht) { if (gravity == Gravity.BOTTOM) { voffset = boxht - textht; } else { // (gravity == Gravity.CENTER_VERTICAL) voffset = (boxht - textht) >> 1; } } } return voffset; } private int getBottomVerticalOffset(boolean forceNormal) { int voffset = 0; final int gravity = mGravity & Gravity.VERTICAL_GRAVITY_MASK; Layout l = mLayout; if (!forceNormal && mText.length() == 0 && mHintLayout != null) { l = mHintLayout; } if (gravity != Gravity.BOTTOM) { int boxht = getBoxHeight(l); int textht = l.getHeight(); if (textht < boxht) { if (gravity == Gravity.TOP) { voffset = boxht - textht; } else { // (gravity == Gravity.CENTER_VERTICAL) voffset = (boxht - textht) >> 1; } } } return voffset; } void invalidateCursorPath() { if (mHighlightPathBogus) { invalidateCursor(); } else { final int horizontalPadding = getCompoundPaddingLeft(); final int verticalPadding = getExtendedPaddingTop() + getVerticalOffset(true); if (mEditor.mDrawableForCursor == null) { synchronized (TEMP_RECTF) { /* * The reason for this concern about the thickness of the * cursor and doing the floor/ceil on the coordinates is that * some EditTexts (notably textfields in the Browser) have * anti-aliased text where not all the characters are * necessarily at integer-multiple locations. This should * make sure the entire cursor gets invalidated instead of * sometimes missing half a pixel. */ float thick = (float) Math.ceil(mTextPaint.getStrokeWidth()); if (thick < 1.0f) { thick = 1.0f; } thick /= 2.0f; // mHighlightPath is guaranteed to be non null at that point. mHighlightPath.computeBounds(TEMP_RECTF, false); invalidate((int) Math.floor(horizontalPadding + TEMP_RECTF.left - thick), (int) Math.floor(verticalPadding + TEMP_RECTF.top - thick), (int) Math.ceil(horizontalPadding + TEMP_RECTF.right + thick), (int) Math.ceil(verticalPadding + TEMP_RECTF.bottom + thick)); } } else { final Rect bounds = mEditor.mDrawableForCursor.getBounds(); invalidate(bounds.left + horizontalPadding, bounds.top + verticalPadding, bounds.right + horizontalPadding, bounds.bottom + verticalPadding); } } } void invalidateCursor() { int where = getSelectionEnd(); invalidateCursor(where, where, where); } private void invalidateCursor(int a, int b, int c) { if (a >= 0 || b >= 0 || c >= 0) { int start = Math.min(Math.min(a, b), c); int end = Math.max(Math.max(a, b), c); invalidateRegion(start, end, true /* Also invalidates blinking cursor */); } } /** * Invalidates the region of text enclosed between the start and end text offsets. */ void invalidateRegion(int start, int end, boolean invalidateCursor) { if (mLayout == null) { invalidate(); } else { int lineStart = mLayout.getLineForOffset(start); int top = mLayout.getLineTop(lineStart); // This is ridiculous, but the descent from the line above // can hang down into the line we really want to redraw, // so we have to invalidate part of the line above to make // sure everything that needs to be redrawn really is. // (But not the whole line above, because that would cause // the same problem with the descenders on the line above it!) if (lineStart > 0) { top -= mLayout.getLineDescent(lineStart - 1); } int lineEnd; if (start == end) { lineEnd = lineStart; } else { lineEnd = mLayout.getLineForOffset(end); } int bottom = mLayout.getLineBottom(lineEnd); // mEditor can be null in case selection is set programmatically. if (invalidateCursor && mEditor != null && mEditor.mDrawableForCursor != null) { final Rect bounds = mEditor.mDrawableForCursor.getBounds(); top = Math.min(top, bounds.top); bottom = Math.max(bottom, bounds.bottom); } final int compoundPaddingLeft = getCompoundPaddingLeft(); final int verticalPadding = getExtendedPaddingTop() + getVerticalOffset(true); int left, right; if (lineStart == lineEnd && !invalidateCursor) { left = (int) mLayout.getPrimaryHorizontal(start); right = (int) (mLayout.getPrimaryHorizontal(end) + 1.0); left += compoundPaddingLeft; right += compoundPaddingLeft; } else { // Rectangle bounding box when the region spans several lines left = compoundPaddingLeft; right = getWidth() - getCompoundPaddingRight(); } invalidate(mScrollX + left, verticalPadding + top, mScrollX + right, verticalPadding + bottom); } } private void registerForPreDraw() { if (!mPreDrawRegistered) { getViewTreeObserver().addOnPreDrawListener(this); mPreDrawRegistered = true; } } private void unregisterForPreDraw() { getViewTreeObserver().removeOnPreDrawListener(this); mPreDrawRegistered = false; mPreDrawListenerDetached = false; } /** * {@inheritDoc} */ @Override public boolean onPreDraw() { if (mLayout == null) { assumeLayout(); } if (mMovement != null) { /* This code also provides auto-scrolling when a cursor is moved using a * CursorController (insertion point or selection limits). * For selection, ensure start or end is visible depending on controller's state. */ int curs = getSelectionEnd(); // Do not create the controller if it is not already created. if (mEditor != null && mEditor.mSelectionModifierCursorController != null && mEditor.mSelectionModifierCursorController.isSelectionStartDragged()) { curs = getSelectionStart(); } /* * TODO: This should really only keep the end in view if * it already was before the text changed. I'm not sure * of a good way to tell from here if it was. */ if (curs < 0 && (mGravity & Gravity.VERTICAL_GRAVITY_MASK) == Gravity.BOTTOM) { curs = mText.length(); } if (curs >= 0) { bringPointIntoView(curs); } } else { bringTextIntoView(); } // This has to be checked here since: // - onFocusChanged cannot start it when focus is given to a view with selected text (after // a screen rotation) since layout is not yet initialized at that point. if (mEditor != null && mEditor.mCreatedWithASelection) { mEditor.refreshTextActionMode(); mEditor.mCreatedWithASelection = false; } unregisterForPreDraw(); return true; } @Override protected void onAttachedToWindow() { super.onAttachedToWindow(); if (mEditor != null) mEditor.onAttachedToWindow(); if (mPreDrawListenerDetached) { getViewTreeObserver().addOnPreDrawListener(this); mPreDrawListenerDetached = false; } } /** @hide */ @Override protected void onDetachedFromWindowInternal() { if (mPreDrawRegistered) { getViewTreeObserver().removeOnPreDrawListener(this); mPreDrawListenerDetached = true; } resetResolvedDrawables(); if (mEditor != null) mEditor.onDetachedFromWindow(); super.onDetachedFromWindowInternal(); } @Override public void onScreenStateChanged(int screenState) { super.onScreenStateChanged(screenState); if (mEditor != null) mEditor.onScreenStateChanged(screenState); } @Override protected boolean isPaddingOffsetRequired() { return mShadowRadius != 0 || mDrawables != null; } @Override protected int getLeftPaddingOffset() { return getCompoundPaddingLeft() - mPaddingLeft + (int) Math.min(0, mShadowDx - mShadowRadius); } @Override protected int getTopPaddingOffset() { return (int) Math.min(0, mShadowDy - mShadowRadius); } @Override protected int getBottomPaddingOffset() { return (int) Math.max(0, mShadowDy + mShadowRadius); } @Override protected int getRightPaddingOffset() { return -(getCompoundPaddingRight() - mPaddingRight) + (int) Math.max(0, mShadowDx + mShadowRadius); } @Override protected boolean verifyDrawable(@NonNull Drawable who) { final boolean verified = super.verifyDrawable(who); if (!verified && mDrawables != null) { for (Drawable dr : mDrawables.mShowing) { if (who == dr) { return true; } } } return verified; } @Override public void jumpDrawablesToCurrentState() { super.jumpDrawablesToCurrentState(); if (mDrawables != null) { for (Drawable dr : mDrawables.mShowing) { if (dr != null) { dr.jumpToCurrentState(); } } } } @Override public void invalidateDrawable(@NonNull Drawable drawable) { boolean handled = false; if (verifyDrawable(drawable)) { final Rect dirty = drawable.getBounds(); int scrollX = mScrollX; int scrollY = mScrollY; // IMPORTANT: The coordinates below are based on the coordinates computed // for each compound drawable in onDraw(). Make sure to update each section // accordingly. final TextView.Drawables drawables = mDrawables; if (drawables != null) { if (drawable == drawables.mShowing[Drawables.LEFT]) { final int compoundPaddingTop = getCompoundPaddingTop(); final int compoundPaddingBottom = getCompoundPaddingBottom(); final int vspace = mBottom - mTop - compoundPaddingBottom - compoundPaddingTop; scrollX += mPaddingLeft; scrollY += compoundPaddingTop + (vspace - drawables.mDrawableHeightLeft) / 2; handled = true; } else if (drawable == drawables.mShowing[Drawables.RIGHT]) { final int compoundPaddingTop = getCompoundPaddingTop(); final int compoundPaddingBottom = getCompoundPaddingBottom(); final int vspace = mBottom - mTop - compoundPaddingBottom - compoundPaddingTop; scrollX += (mRight - mLeft - mPaddingRight - drawables.mDrawableSizeRight); scrollY += compoundPaddingTop + (vspace - drawables.mDrawableHeightRight) / 2; handled = true; } else if (drawable == drawables.mShowing[Drawables.TOP]) { final int compoundPaddingLeft = getCompoundPaddingLeft(); final int compoundPaddingRight = getCompoundPaddingRight(); final int hspace = mRight - mLeft - compoundPaddingRight - compoundPaddingLeft; scrollX += compoundPaddingLeft + (hspace - drawables.mDrawableWidthTop) / 2; scrollY += mPaddingTop; handled = true; } else if (drawable == drawables.mShowing[Drawables.BOTTOM]) { final int compoundPaddingLeft = getCompoundPaddingLeft(); final int compoundPaddingRight = getCompoundPaddingRight(); final int hspace = mRight - mLeft - compoundPaddingRight - compoundPaddingLeft; scrollX += compoundPaddingLeft + (hspace - drawables.mDrawableWidthBottom) / 2; scrollY += (mBottom - mTop - mPaddingBottom - drawables.mDrawableSizeBottom); handled = true; } } if (handled) { invalidate(dirty.left + scrollX, dirty.top + scrollY, dirty.right + scrollX, dirty.bottom + scrollY); } } if (!handled) { super.invalidateDrawable(drawable); } } @Override public boolean hasOverlappingRendering() { // horizontal fading edge causes SaveLayerAlpha, which doesn't support alpha modulation return ((getBackground() != null && getBackground().getCurrent() != null) || mSpannable != null || hasSelection() || isHorizontalFadingEdgeEnabled()); } /** * * Returns the state of the {@code textIsSelectable} flag (See * {@link #setTextIsSelectable setTextIsSelectable()}). Although you have to set this flag * to allow users to select and copy text in a non-editable TextView, the content of an * {@link EditText} can always be selected, independently of the value of this flag. * <p> * * @return True if the text displayed in this TextView can be selected by the user. * * @attr ref android.R.styleable#TextView_textIsSelectable */ public boolean isTextSelectable() { return mEditor == null ? false : mEditor.mTextIsSelectable; } /** * Sets whether the content of this view is selectable by the user. The default is * {@code false}, meaning that the content is not selectable. * <p> * When you use a TextView to display a useful piece of information to the user (such as a * contact's address), make it selectable, so that the user can select and copy its * content. You can also use set the XML attribute * {@link android.R.styleable#TextView_textIsSelectable} to "true". * <p> * When you call this method to set the value of {@code textIsSelectable}, it sets * the flags {@code focusable}, {@code focusableInTouchMode}, {@code clickable}, * and {@code longClickable} to the same value. These flags correspond to the attributes * {@link android.R.styleable#View_focusable android:focusable}, * {@link android.R.styleable#View_focusableInTouchMode android:focusableInTouchMode}, * {@link android.R.styleable#View_clickable android:clickable}, and * {@link android.R.styleable#View_longClickable android:longClickable}. To restore any of these * flags to a state you had set previously, call one or more of the following methods: * {@link #setFocusable(boolean) setFocusable()}, * {@link #setFocusableInTouchMode(boolean) setFocusableInTouchMode()}, * {@link #setClickable(boolean) setClickable()} or * {@link #setLongClickable(boolean) setLongClickable()}. * * @param selectable Whether the content of this TextView should be selectable. */ public void setTextIsSelectable(boolean selectable) { if (!selectable && mEditor == null) return; // false is default value with no edit data createEditorIfNeeded(); if (mEditor.mTextIsSelectable == selectable) return; mEditor.mTextIsSelectable = selectable; setFocusableInTouchMode(selectable); setFocusable(FOCUSABLE_AUTO); setClickable(selectable); setLongClickable(selectable); // mInputType should already be EditorInfo.TYPE_NULL and mInput should be null setMovementMethod(selectable ? ArrowKeyMovementMethod.getInstance() : null); setText(mText, selectable ? BufferType.SPANNABLE : BufferType.NORMAL); // Called by setText above, but safer in case of future code changes mEditor.prepareCursorControllers(); } @Override protected int[] onCreateDrawableState(int extraSpace) { final int[] drawableState; if (mSingleLine) { drawableState = super.onCreateDrawableState(extraSpace); } else { drawableState = super.onCreateDrawableState(extraSpace + 1); mergeDrawableStates(drawableState, MULTILINE_STATE_SET); } if (isTextSelectable()) { // Disable pressed state, which was introduced when TextView was made clickable. // Prevents text color change. // setClickable(false) would have a similar effect, but it also disables focus changes // and long press actions, which are both needed by text selection. final int length = drawableState.length; for (int i = 0; i < length; i++) { if (drawableState[i] == R.attr.state_pressed) { final int[] nonPressedState = new int[length - 1]; System.arraycopy(drawableState, 0, nonPressedState, 0, i); System.arraycopy(drawableState, i + 1, nonPressedState, i, length - i - 1); return nonPressedState; } } } return drawableState; } @UnsupportedAppUsage private Path getUpdatedHighlightPath() { Path highlight = null; Paint highlightPaint = mHighlightPaint; final int selStart = getSelectionStart(); final int selEnd = getSelectionEnd(); if (mMovement != null && (isFocused() || isPressed()) && selStart >= 0) { if (selStart == selEnd) { if (mEditor != null && mEditor.shouldRenderCursor()) { if (mHighlightPathBogus) { if (mHighlightPath == null) mHighlightPath = new Path(); mHighlightPath.reset(); mLayout.getCursorPath(selStart, mHighlightPath, mText); mEditor.updateCursorPosition(); mHighlightPathBogus = false; } // XXX should pass to skin instead of drawing directly highlightPaint.setColor(mCurTextColor); highlightPaint.setStyle(Paint.Style.STROKE); highlight = mHighlightPath; } } else { if (mHighlightPathBogus) { if (mHighlightPath == null) mHighlightPath = new Path(); mHighlightPath.reset(); mLayout.getSelectionPath(selStart, selEnd, mHighlightPath); mHighlightPathBogus = false; } // XXX should pass to skin instead of drawing directly highlightPaint.setColor(mHighlightColor); highlightPaint.setStyle(Paint.Style.FILL); highlight = mHighlightPath; } } return highlight; } /** * @hide */ public int getHorizontalOffsetForDrawables() { return 0; } @Override protected void onDraw(Canvas canvas) { restartMarqueeIfNeeded(); // Draw the background for this view super.onDraw(canvas); final int compoundPaddingLeft = getCompoundPaddingLeft(); final int compoundPaddingTop = getCompoundPaddingTop(); final int compoundPaddingRight = getCompoundPaddingRight(); final int compoundPaddingBottom = getCompoundPaddingBottom(); final int scrollX = mScrollX; final int scrollY = mScrollY; final int right = mRight; final int left = mLeft; final int bottom = mBottom; final int top = mTop; final boolean isLayoutRtl = isLayoutRtl(); final int offset = getHorizontalOffsetForDrawables(); final int leftOffset = isLayoutRtl ? 0 : offset; final int rightOffset = isLayoutRtl ? offset : 0; final Drawables dr = mDrawables; if (dr != null) { /* * Compound, not extended, because the icon is not clipped * if the text height is smaller. */ int vspace = bottom - top - compoundPaddingBottom - compoundPaddingTop; int hspace = right - left - compoundPaddingRight - compoundPaddingLeft; // IMPORTANT: The coordinates computed are also used in invalidateDrawable() // Make sure to update invalidateDrawable() when changing this code. if (dr.mShowing[Drawables.LEFT] != null) { canvas.save(); canvas.translate(scrollX + mPaddingLeft + leftOffset, scrollY + compoundPaddingTop + (vspace - dr.mDrawableHeightLeft) / 2); dr.mShowing[Drawables.LEFT].draw(canvas); canvas.restore(); } // IMPORTANT: The coordinates computed are also used in invalidateDrawable() // Make sure to update invalidateDrawable() when changing this code. if (dr.mShowing[Drawables.RIGHT] != null) { canvas.save(); canvas.translate(scrollX + right - left - mPaddingRight - dr.mDrawableSizeRight - rightOffset, scrollY + compoundPaddingTop + (vspace - dr.mDrawableHeightRight) / 2); dr.mShowing[Drawables.RIGHT].draw(canvas); canvas.restore(); } // IMPORTANT: The coordinates computed are also used in invalidateDrawable() // Make sure to update invalidateDrawable() when changing this code. if (dr.mShowing[Drawables.TOP] != null) { canvas.save(); canvas.translate(scrollX + compoundPaddingLeft + (hspace - dr.mDrawableWidthTop) / 2, scrollY + mPaddingTop); dr.mShowing[Drawables.TOP].draw(canvas); canvas.restore(); } // IMPORTANT: The coordinates computed are also used in invalidateDrawable() // Make sure to update invalidateDrawable() when changing this code. if (dr.mShowing[Drawables.BOTTOM] != null) { canvas.save(); canvas.translate(scrollX + compoundPaddingLeft + (hspace - dr.mDrawableWidthBottom) / 2, scrollY + bottom - top - mPaddingBottom - dr.mDrawableSizeBottom); dr.mShowing[Drawables.BOTTOM].draw(canvas); canvas.restore(); } } int color = mCurTextColor; if (mLayout == null) { assumeLayout(); } Layout layout = mLayout; if (mHint != null && mText.length() == 0) { if (mHintTextColor != null) { color = mCurHintTextColor; } layout = mHintLayout; } mTextPaint.setColor(color); mTextPaint.drawableState = getDrawableState(); canvas.save(); /* Would be faster if we didn't have to do this. Can we chop the (displayable) text so that we don't need to do this ever? */ int extendedPaddingTop = getExtendedPaddingTop(); int extendedPaddingBottom = getExtendedPaddingBottom(); final int vspace = mBottom - mTop - compoundPaddingBottom - compoundPaddingTop; final int maxScrollY = mLayout.getHeight() - vspace; float clipLeft = compoundPaddingLeft + scrollX; float clipTop = (scrollY == 0) ? 0 : extendedPaddingTop + scrollY; float clipRight = right - left - getCompoundPaddingRight() + scrollX; float clipBottom = bottom - top + scrollY - ((scrollY == maxScrollY) ? 0 : extendedPaddingBottom); if (mShadowRadius != 0) { clipLeft += Math.min(0, mShadowDx - mShadowRadius); clipRight += Math.max(0, mShadowDx + mShadowRadius); clipTop += Math.min(0, mShadowDy - mShadowRadius); clipBottom += Math.max(0, mShadowDy + mShadowRadius); } canvas.clipRect(clipLeft, clipTop, clipRight, clipBottom); int voffsetText = 0; int voffsetCursor = 0; // translate in by our padding /* shortcircuit calling getVerticaOffset() */ if ((mGravity & Gravity.VERTICAL_GRAVITY_MASK) != Gravity.TOP) { voffsetText = getVerticalOffset(false); voffsetCursor = getVerticalOffset(true); } canvas.translate(compoundPaddingLeft, extendedPaddingTop + voffsetText); final int layoutDirection = getLayoutDirection(); final int absoluteGravity = Gravity.getAbsoluteGravity(mGravity, layoutDirection); if (isMarqueeFadeEnabled()) { if (!mSingleLine && getLineCount() == 1 && canMarquee() && (absoluteGravity & Gravity.HORIZONTAL_GRAVITY_MASK) != Gravity.LEFT) { final int width = mRight - mLeft; final int padding = getCompoundPaddingLeft() + getCompoundPaddingRight(); final float dx = mLayout.getLineRight(0) - (width - padding); canvas.translate(layout.getParagraphDirection(0) * dx, 0.0f); } if (mMarquee != null && mMarquee.isRunning()) { final float dx = -mMarquee.getScroll(); canvas.translate(layout.getParagraphDirection(0) * dx, 0.0f); } } final int cursorOffsetVertical = voffsetCursor - voffsetText; Path highlight = getUpdatedHighlightPath(); if (mEditor != null) { mEditor.onDraw(canvas, layout, highlight, mHighlightPaint, cursorOffsetVertical); } else { layout.draw(canvas, highlight, mHighlightPaint, cursorOffsetVertical); } if (mMarquee != null && mMarquee.shouldDrawGhost()) { final float dx = mMarquee.getGhostOffset(); canvas.translate(layout.getParagraphDirection(0) * dx, 0.0f); layout.draw(canvas, highlight, mHighlightPaint, cursorOffsetVertical); } canvas.restore(); } @Override public void getFocusedRect(Rect r) { if (mLayout == null) { super.getFocusedRect(r); return; } int selEnd = getSelectionEnd(); if (selEnd < 0) { super.getFocusedRect(r); return; } int selStart = getSelectionStart(); if (selStart < 0 || selStart >= selEnd) { int line = mLayout.getLineForOffset(selEnd); r.top = mLayout.getLineTop(line); r.bottom = mLayout.getLineBottom(line); r.left = (int) mLayout.getPrimaryHorizontal(selEnd) - 2; r.right = r.left + 4; } else { int lineStart = mLayout.getLineForOffset(selStart); int lineEnd = mLayout.getLineForOffset(selEnd); r.top = mLayout.getLineTop(lineStart); r.bottom = mLayout.getLineBottom(lineEnd); if (lineStart == lineEnd) { r.left = (int) mLayout.getPrimaryHorizontal(selStart); r.right = (int) mLayout.getPrimaryHorizontal(selEnd); } else { // Selection extends across multiple lines -- make the focused // rect cover the entire width. if (mHighlightPathBogus) { if (mHighlightPath == null) mHighlightPath = new Path(); mHighlightPath.reset(); mLayout.getSelectionPath(selStart, selEnd, mHighlightPath); mHighlightPathBogus = false; } synchronized (TEMP_RECTF) { mHighlightPath.computeBounds(TEMP_RECTF, true); r.left = (int) TEMP_RECTF.left - 1; r.right = (int) TEMP_RECTF.right + 1; } } } // Adjust for padding and gravity. int paddingLeft = getCompoundPaddingLeft(); int paddingTop = getExtendedPaddingTop(); if ((mGravity & Gravity.VERTICAL_GRAVITY_MASK) != Gravity.TOP) { paddingTop += getVerticalOffset(false); } r.offset(paddingLeft, paddingTop); int paddingBottom = getExtendedPaddingBottom(); r.bottom += paddingBottom; } /** * Return the number of lines of text, or 0 if the internal Layout has not * been built. */ public int getLineCount() { return mLayout != null ? mLayout.getLineCount() : 0; } /** * Return the baseline for the specified line (0...getLineCount() - 1) * If bounds is not null, return the top, left, right, bottom extents * of the specified line in it. If the internal Layout has not been built, * return 0 and set bounds to (0, 0, 0, 0) * @param line which line to examine (0..getLineCount() - 1) * @param bounds Optional. If not null, it returns the extent of the line * @return the Y-coordinate of the baseline */ public int getLineBounds(int line, Rect bounds) { if (mLayout == null) { if (bounds != null) { bounds.set(0, 0, 0, 0); } return 0; } else { int baseline = mLayout.getLineBounds(line, bounds); int voffset = getExtendedPaddingTop(); if ((mGravity & Gravity.VERTICAL_GRAVITY_MASK) != Gravity.TOP) { voffset += getVerticalOffset(true); } if (bounds != null) { bounds.offset(getCompoundPaddingLeft(), voffset); } return baseline + voffset; } } @Override public int getBaseline() { if (mLayout == null) { return super.getBaseline(); } return getBaselineOffset() + mLayout.getLineBaseline(0); } int getBaselineOffset() { int voffset = 0; if ((mGravity & Gravity.VERTICAL_GRAVITY_MASK) != Gravity.TOP) { voffset = getVerticalOffset(true); } if (isLayoutModeOptical(mParent)) { voffset -= getOpticalInsets().top; } return getExtendedPaddingTop() + voffset; } /** * @hide */ @Override protected int getFadeTop(boolean offsetRequired) { if (mLayout == null) return 0; int voffset = 0; if ((mGravity & Gravity.VERTICAL_GRAVITY_MASK) != Gravity.TOP) { voffset = getVerticalOffset(true); } if (offsetRequired) voffset += getTopPaddingOffset(); return getExtendedPaddingTop() + voffset; } /** * @hide */ @Override protected int getFadeHeight(boolean offsetRequired) { return mLayout != null ? mLayout.getHeight() : 0; } @Override public PointerIcon onResolvePointerIcon(MotionEvent event, int pointerIndex) { if (mSpannable != null && mLinksClickable) { final float x = event.getX(pointerIndex); final float y = event.getY(pointerIndex); final int offset = getOffsetForPosition(x, y); final ClickableSpan[] clickables = mSpannable.getSpans(offset, offset, ClickableSpan.class); if (clickables.length > 0) { return PointerIcon.getSystemIcon(mContext, PointerIcon.TYPE_HAND); } } if (isTextSelectable() || isTextEditable()) { return PointerIcon.getSystemIcon(mContext, PointerIcon.TYPE_TEXT); } return super.onResolvePointerIcon(event, pointerIndex); } @Override public boolean onKeyPreIme(int keyCode, KeyEvent event) { // Note: If the IME is in fullscreen mode and IMS#mExtractEditText is in text action mode, // InputMethodService#onKeyDown and InputMethodService#onKeyUp are responsible to call // InputMethodService#mExtractEditText.maybeHandleBackInTextActionMode(event). if (keyCode == KeyEvent.KEYCODE_BACK && handleBackInTextActionModeIfNeeded(event)) { return true; } return super.onKeyPreIme(keyCode, event); } /** * @hide */ public boolean handleBackInTextActionModeIfNeeded(KeyEvent event) { // Do nothing unless mEditor is in text action mode. if (mEditor == null || mEditor.getTextActionMode() == null) { return false; } if (event.getAction() == KeyEvent.ACTION_DOWN && event.getRepeatCount() == 0) { KeyEvent.DispatcherState state = getKeyDispatcherState(); if (state != null) { state.startTracking(event, this); } return true; } else if (event.getAction() == KeyEvent.ACTION_UP) { KeyEvent.DispatcherState state = getKeyDispatcherState(); if (state != null) { state.handleUpEvent(event); } if (event.isTracking() && !event.isCanceled()) { stopTextActionMode(); return true; } } return false; } @Override public boolean onKeyDown(int keyCode, KeyEvent event) { final int which = doKeyDown(keyCode, event, null); if (which == KEY_EVENT_NOT_HANDLED) { return super.onKeyDown(keyCode, event); } return true; } @Override public boolean onKeyMultiple(int keyCode, int repeatCount, KeyEvent event) { KeyEvent down = KeyEvent.changeAction(event, KeyEvent.ACTION_DOWN); final int which = doKeyDown(keyCode, down, event); if (which == KEY_EVENT_NOT_HANDLED) { // Go through default dispatching. return super.onKeyMultiple(keyCode, repeatCount, event); } if (which == KEY_EVENT_HANDLED) { // Consumed the whole thing. return true; } repeatCount--; // We are going to dispatch the remaining events to either the input // or movement method. To do this, we will just send a repeated stream // of down and up events until we have done the complete repeatCount. // It would be nice if those interfaces had an onKeyMultiple() method, // but adding that is a more complicated change. KeyEvent up = KeyEvent.changeAction(event, KeyEvent.ACTION_UP); if (which == KEY_DOWN_HANDLED_BY_KEY_LISTENER) { // mEditor and mEditor.mInput are not null from doKeyDown mEditor.mKeyListener.onKeyUp(this, (Editable) mText, keyCode, up); while (--repeatCount > 0) { mEditor.mKeyListener.onKeyDown(this, (Editable) mText, keyCode, down); mEditor.mKeyListener.onKeyUp(this, (Editable) mText, keyCode, up); } hideErrorIfUnchanged(); } else if (which == KEY_DOWN_HANDLED_BY_MOVEMENT_METHOD) { // mMovement is not null from doKeyDown mMovement.onKeyUp(this, mSpannable, keyCode, up); while (--repeatCount > 0) { mMovement.onKeyDown(this, mSpannable, keyCode, down); mMovement.onKeyUp(this, mSpannable, keyCode, up); } } return true; } /** * Returns true if pressing ENTER in this field advances focus instead * of inserting the character. This is true mostly in single-line fields, * but also in mail addresses and subjects which will display on multiple * lines but where it doesn't make sense to insert newlines. */ private boolean shouldAdvanceFocusOnEnter() { if (getKeyListener() == null) { return false; } if (mSingleLine) { return true; } if (mEditor != null && (mEditor.mInputType & EditorInfo.TYPE_MASK_CLASS) == EditorInfo.TYPE_CLASS_TEXT) { int variation = mEditor.mInputType & EditorInfo.TYPE_MASK_VARIATION; if (variation == EditorInfo.TYPE_TEXT_VARIATION_EMAIL_ADDRESS || variation == EditorInfo.TYPE_TEXT_VARIATION_EMAIL_SUBJECT) { return true; } } return false; } /** * Returns true if pressing TAB in this field advances focus instead * of inserting the character. Insert tabs only in multi-line editors. */ private boolean shouldAdvanceFocusOnTab() { if (getKeyListener() != null && !mSingleLine && mEditor != null && (mEditor.mInputType & EditorInfo.TYPE_MASK_CLASS) == EditorInfo.TYPE_CLASS_TEXT) { int variation = mEditor.mInputType & EditorInfo.TYPE_MASK_VARIATION; if (variation == EditorInfo.TYPE_TEXT_FLAG_IME_MULTI_LINE || variation == EditorInfo.TYPE_TEXT_FLAG_MULTI_LINE) { return false; } } return true; } private boolean isDirectionalNavigationKey(int keyCode) { switch (keyCode) { case KeyEvent.KEYCODE_DPAD_UP: case KeyEvent.KEYCODE_DPAD_DOWN: case KeyEvent.KEYCODE_DPAD_LEFT: case KeyEvent.KEYCODE_DPAD_RIGHT: return true; } return false; } private int doKeyDown(int keyCode, KeyEvent event, KeyEvent otherEvent) { if (!isEnabled()) { return KEY_EVENT_NOT_HANDLED; } // If this is the initial keydown, we don't want to prevent a movement away from this view. // While this shouldn't be necessary because any time we're preventing default movement we // should be restricting the focus to remain within this view, thus we'll also receive // the key up event, occasionally key up events will get dropped and we don't want to // prevent the user from traversing out of this on the next key down. if (event.getRepeatCount() == 0 && !KeyEvent.isModifierKey(keyCode)) { mPreventDefaultMovement = false; } switch (keyCode) { case KeyEvent.KEYCODE_ENTER: if (event.hasNoModifiers()) { // When mInputContentType is set, we know that we are // running in a "modern" cupcake environment, so don't need // to worry about the application trying to capture // enter key events. if (mEditor != null && mEditor.mInputContentType != null) { // If there is an action listener, given them a // chance to consume the event. if (mEditor.mInputContentType.onEditorActionListener != null && mEditor.mInputContentType.onEditorActionListener.onEditorAction(this, EditorInfo.IME_NULL, event)) { mEditor.mInputContentType.enterDown = true; // We are consuming the enter key for them. return KEY_EVENT_HANDLED; } } // If our editor should move focus when enter is pressed, or // this is a generated event from an IME action button, then // don't let it be inserted into the text. if ((event.getFlags() & KeyEvent.FLAG_EDITOR_ACTION) != 0 || shouldAdvanceFocusOnEnter()) { if (hasOnClickListeners()) { return KEY_EVENT_NOT_HANDLED; } return KEY_EVENT_HANDLED; } } break; case KeyEvent.KEYCODE_DPAD_CENTER: if (event.hasNoModifiers()) { if (shouldAdvanceFocusOnEnter()) { return KEY_EVENT_NOT_HANDLED; } } break; case KeyEvent.KEYCODE_TAB: if (event.hasNoModifiers() || event.hasModifiers(KeyEvent.META_SHIFT_ON)) { if (shouldAdvanceFocusOnTab()) { return KEY_EVENT_NOT_HANDLED; } } break; // Has to be done on key down (and not on key up) to correctly be intercepted. case KeyEvent.KEYCODE_BACK: if (mEditor != null && mEditor.getTextActionMode() != null) { stopTextActionMode(); return KEY_EVENT_HANDLED; } break; case KeyEvent.KEYCODE_CUT: if (event.hasNoModifiers() && canCut()) { if (onTextContextMenuItem(ID_CUT)) { return KEY_EVENT_HANDLED; } } break; case KeyEvent.KEYCODE_COPY: if (event.hasNoModifiers() && canCopy()) { if (onTextContextMenuItem(ID_COPY)) { return KEY_EVENT_HANDLED; } } break; case KeyEvent.KEYCODE_PASTE: if (event.hasNoModifiers() && canPaste()) { if (onTextContextMenuItem(ID_PASTE)) { return KEY_EVENT_HANDLED; } } break; } if (mEditor != null && mEditor.mKeyListener != null) { boolean doDown = true; if (otherEvent != null) { try { beginBatchEdit(); final boolean handled = mEditor.mKeyListener.onKeyOther(this, (Editable) mText, otherEvent); hideErrorIfUnchanged(); doDown = false; if (handled) { return KEY_EVENT_HANDLED; } } catch (AbstractMethodError e) { // onKeyOther was added after 1.0, so if it isn't // implemented we need to try to dispatch as a regular down. } finally { endBatchEdit(); } } if (doDown) { beginBatchEdit(); final boolean handled = mEditor.mKeyListener.onKeyDown(this, (Editable) mText, keyCode, event); endBatchEdit(); hideErrorIfUnchanged(); if (handled) return KEY_DOWN_HANDLED_BY_KEY_LISTENER; } } // bug 650865: sometimes we get a key event before a layout. // don't try to move around if we don't know the layout. if (mMovement != null && mLayout != null) { boolean doDown = true; if (otherEvent != null) { try { boolean handled = mMovement.onKeyOther(this, mSpannable, otherEvent); doDown = false; if (handled) { return KEY_EVENT_HANDLED; } } catch (AbstractMethodError e) { // onKeyOther was added after 1.0, so if it isn't // implemented we need to try to dispatch as a regular down. } } if (doDown) { if (mMovement.onKeyDown(this, mSpannable, keyCode, event)) { if (event.getRepeatCount() == 0 && !KeyEvent.isModifierKey(keyCode)) { mPreventDefaultMovement = true; } return KEY_DOWN_HANDLED_BY_MOVEMENT_METHOD; } } // Consume arrows from keyboard devices to prevent focus leaving the editor. // DPAD/JOY devices (Gamepads, TV remotes) often lack a TAB key so allow those // to move focus with arrows. if (event.getSource() == InputDevice.SOURCE_KEYBOARD && isDirectionalNavigationKey(keyCode)) { return KEY_EVENT_HANDLED; } } return mPreventDefaultMovement && !KeyEvent.isModifierKey(keyCode) ? KEY_EVENT_HANDLED : KEY_EVENT_NOT_HANDLED; } /** * Resets the mErrorWasChanged flag, so that future calls to {@link #setError(CharSequence)} * can be recorded. * @hide */ public void resetErrorChangedFlag() { /* * Keep track of what the error was before doing the input * so that if an input filter changed the error, we leave * that error showing. Otherwise, we take down whatever * error was showing when the user types something. */ if (mEditor != null) mEditor.mErrorWasChanged = false; } /** * @hide */ public void hideErrorIfUnchanged() { if (mEditor != null && mEditor.mError != null && !mEditor.mErrorWasChanged) { setError(null, null); } } @Override public boolean onKeyUp(int keyCode, KeyEvent event) { if (!isEnabled()) { return super.onKeyUp(keyCode, event); } if (!KeyEvent.isModifierKey(keyCode)) { mPreventDefaultMovement = false; } switch (keyCode) { case KeyEvent.KEYCODE_DPAD_CENTER: if (event.hasNoModifiers()) { /* * If there is a click listener, just call through to * super, which will invoke it. * * If there isn't a click listener, try to show the soft * input method. (It will also * call performClick(), but that won't do anything in * this case.) */ if (!hasOnClickListeners()) { if (mMovement != null && mText instanceof Editable && mLayout != null && onCheckIsTextEditor()) { InputMethodManager imm = InputMethodManager.peekInstance(); viewClicked(imm); if (imm != null && getShowSoftInputOnFocus()) { imm.showSoftInput(this, 0); } } } } return super.onKeyUp(keyCode, event); case KeyEvent.KEYCODE_ENTER: if (event.hasNoModifiers()) { if (mEditor != null && mEditor.mInputContentType != null && mEditor.mInputContentType.onEditorActionListener != null && mEditor.mInputContentType.enterDown) { mEditor.mInputContentType.enterDown = false; if (mEditor.mInputContentType.onEditorActionListener.onEditorAction(this, EditorInfo.IME_NULL, event)) { return true; } } if ((event.getFlags() & KeyEvent.FLAG_EDITOR_ACTION) != 0 || shouldAdvanceFocusOnEnter()) { /* * If there is a click listener, just call through to * super, which will invoke it. * * If there isn't a click listener, try to advance focus, * but still call through to super, which will reset the * pressed state and longpress state. (It will also * call performClick(), but that won't do anything in * this case.) */ if (!hasOnClickListeners()) { View v = focusSearch(FOCUS_DOWN); if (v != null) { if (!v.requestFocus(FOCUS_DOWN)) { throw new IllegalStateException( "focus search returned a view " + "that wasn't able to take focus!"); } /* * Return true because we handled the key; super * will return false because there was no click * listener. */ super.onKeyUp(keyCode, event); return true; } else if ((event.getFlags() & KeyEvent.FLAG_EDITOR_ACTION) != 0) { // No target for next focus, but make sure the IME // if this came from it. InputMethodManager imm = InputMethodManager.peekInstance(); if (imm != null && imm.isActive(this)) { imm.hideSoftInputFromWindow(getWindowToken(), 0); } } } } return super.onKeyUp(keyCode, event); } break; } if (mEditor != null && mEditor.mKeyListener != null) { if (mEditor.mKeyListener.onKeyUp(this, (Editable) mText, keyCode, event)) { return true; } } if (mMovement != null && mLayout != null) { if (mMovement.onKeyUp(this, mSpannable, keyCode, event)) { return true; } } return super.onKeyUp(keyCode, event); } @Override public boolean onCheckIsTextEditor() { return mEditor != null && mEditor.mInputType != EditorInfo.TYPE_NULL; } @Override public InputConnection onCreateInputConnection(EditorInfo outAttrs) { if (onCheckIsTextEditor() && isEnabled()) { mEditor.createInputMethodStateIfNeeded(); outAttrs.inputType = getInputType(); if (mEditor.mInputContentType != null) { outAttrs.imeOptions = mEditor.mInputContentType.imeOptions; outAttrs.privateImeOptions = mEditor.mInputContentType.privateImeOptions; outAttrs.actionLabel = mEditor.mInputContentType.imeActionLabel; outAttrs.actionId = mEditor.mInputContentType.imeActionId; outAttrs.extras = mEditor.mInputContentType.extras; outAttrs.hintLocales = mEditor.mInputContentType.imeHintLocales; } else { outAttrs.imeOptions = EditorInfo.IME_NULL; outAttrs.hintLocales = null; } if (focusSearch(FOCUS_DOWN) != null) { outAttrs.imeOptions |= EditorInfo.IME_FLAG_NAVIGATE_NEXT; } if (focusSearch(FOCUS_UP) != null) { outAttrs.imeOptions |= EditorInfo.IME_FLAG_NAVIGATE_PREVIOUS; } if ((outAttrs.imeOptions & EditorInfo.IME_MASK_ACTION) == EditorInfo.IME_ACTION_UNSPECIFIED) { if ((outAttrs.imeOptions & EditorInfo.IME_FLAG_NAVIGATE_NEXT) != 0) { // An action has not been set, but the enter key will move to // the next focus, so set the action to that. outAttrs.imeOptions |= EditorInfo.IME_ACTION_NEXT; } else { // An action has not been set, and there is no focus to move // to, so let's just supply a "done" action. outAttrs.imeOptions |= EditorInfo.IME_ACTION_DONE; } if (!shouldAdvanceFocusOnEnter()) { outAttrs.imeOptions |= EditorInfo.IME_FLAG_NO_ENTER_ACTION; } } if (isMultilineInputType(outAttrs.inputType)) { // Multi-line text editors should always show an enter key. outAttrs.imeOptions |= EditorInfo.IME_FLAG_NO_ENTER_ACTION; } outAttrs.hintText = mHint; if (mText instanceof Editable) { InputConnection ic = new EditableInputConnection(this); outAttrs.initialSelStart = getSelectionStart(); outAttrs.initialSelEnd = getSelectionEnd(); outAttrs.initialCapsMode = ic.getCursorCapsMode(getInputType()); return ic; } } return null; } /** * If this TextView contains editable content, extract a portion of it * based on the information in <var>request</var> in to <var>outText</var>. * @return Returns true if the text was successfully extracted, else false. */ public boolean extractText(ExtractedTextRequest request, ExtractedText outText) { createEditorIfNeeded(); return mEditor.extractText(request, outText); } /** * This is used to remove all style-impacting spans from text before new * extracted text is being replaced into it, so that we don't have any * lingering spans applied during the replace. */ static void removeParcelableSpans(Spannable spannable, int start, int end) { Object[] spans = spannable.getSpans(start, end, ParcelableSpan.class); int i = spans.length; while (i > 0) { i--; spannable.removeSpan(spans[i]); } } /** * Apply to this text view the given extracted text, as previously * returned by {@link #extractText(ExtractedTextRequest, ExtractedText)}. */ public void setExtractedText(ExtractedText text) { Editable content = getEditableText(); if (text.text != null) { if (content == null) { setText(text.text, TextView.BufferType.EDITABLE); } else { int start = 0; int end = content.length(); if (text.partialStartOffset >= 0) { final int N = content.length(); start = text.partialStartOffset; if (start > N) start = N; end = text.partialEndOffset; if (end > N) end = N; } removeParcelableSpans(content, start, end); if (TextUtils.equals(content.subSequence(start, end), text.text)) { if (text.text instanceof Spanned) { // OK to copy spans only. TextUtils.copySpansFrom((Spanned) text.text, 0, end - start, Object.class, content, start); } } else { content.replace(start, end, text.text); } } } // Now set the selection position... make sure it is in range, to // avoid crashes. If this is a partial update, it is possible that // the underlying text may have changed, causing us problems here. // Also we just don't want to trust clients to do the right thing. Spannable sp = (Spannable) getText(); final int N = sp.length(); int start = text.selectionStart; if (start < 0) { start = 0; } else if (start > N) { start = N; } int end = text.selectionEnd; if (end < 0) { end = 0; } else if (end > N) { end = N; } Selection.setSelection(sp, start, end); // Finally, update the selection mode. if ((text.flags & ExtractedText.FLAG_SELECTING) != 0) { MetaKeyKeyListener.startSelecting(this, sp); } else { MetaKeyKeyListener.stopSelecting(this, sp); } setHintInternal(text.hint); } /** * @hide */ public void setExtracting(ExtractedTextRequest req) { if (mEditor.mInputMethodState != null) { mEditor.mInputMethodState.mExtractedTextRequest = req; } // This would stop a possible selection mode, but no such mode is started in case // extracted mode will start. Some text is selected though, and will trigger an action mode // in the extracted view. mEditor.hideCursorAndSpanControllers(); stopTextActionMode(); if (mEditor.mSelectionModifierCursorController != null) { mEditor.mSelectionModifierCursorController.resetTouchOffsets(); } } /** * Called by the framework in response to a text completion from * the current input method, provided by it calling * {@link InputConnection#commitCompletion * InputConnection.commitCompletion()}. The default implementation does * nothing; text views that are supporting auto-completion should override * this to do their desired behavior. * * @param text The auto complete text the user has selected. */ public void onCommitCompletion(CompletionInfo text) { // intentionally empty } /** * Called by the framework in response to a text auto-correction (such as fixing a typo using a * dictionary) from the current input method, provided by it calling * {@link InputConnection#commitCorrection(CorrectionInfo) 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 (mEditor != null) mEditor.onCommitCorrection(info); } public void beginBatchEdit() { if (mEditor != null) mEditor.beginBatchEdit(); } public void endBatchEdit() { if (mEditor != null) mEditor.endBatchEdit(); } /** * Called by the framework in response to a request to begin a batch * of edit operations through a call to link {@link #beginBatchEdit()}. */ public void onBeginBatchEdit() { // intentionally empty } /** * Called by the framework in response to a request to end a batch * of edit operations through a call to link {@link #endBatchEdit}. */ public void onEndBatchEdit() { // intentionally empty } /** * Called by the framework in response to a private command from the * current method, provided by it calling * {@link InputConnection#performPrivateCommand * InputConnection.performPrivateCommand()}. * * @param action The action name of the command. * @param data Any additional data for the command. This may be null. * @return Return true if you handled the command, else false. */ public boolean onPrivateIMECommand(String action, Bundle data) { return false; } /** @hide */ @VisibleForTesting @UnsupportedAppUsage public void nullLayouts() { if (mLayout instanceof BoringLayout && mSavedLayout == null) { mSavedLayout = (BoringLayout) mLayout; } if (mHintLayout instanceof BoringLayout && mSavedHintLayout == null) { mSavedHintLayout = (BoringLayout) mHintLayout; } mSavedMarqueeModeLayout = mLayout = mHintLayout = null; mBoring = mHintBoring = null; // Since it depends on the value of mLayout if (mEditor != null) mEditor.prepareCursorControllers(); } /** * Make a new Layout based on the already-measured size of the view, * on the assumption that it was measured correctly at some point. */ @UnsupportedAppUsage private void assumeLayout() { int width = mRight - mLeft - getCompoundPaddingLeft() - getCompoundPaddingRight(); if (width < 1) { width = 0; } int physicalWidth = width; if (mHorizontallyScrolling) { width = VERY_WIDE; } makeNewLayout(width, physicalWidth, UNKNOWN_BORING, UNKNOWN_BORING, physicalWidth, false); } @UnsupportedAppUsage private Layout.Alignment getLayoutAlignment() { Layout.Alignment alignment; switch (getTextAlignment()) { case TEXT_ALIGNMENT_GRAVITY: switch (mGravity & Gravity.RELATIVE_HORIZONTAL_GRAVITY_MASK) { case Gravity.START: alignment = Layout.Alignment.ALIGN_NORMAL; break; case Gravity.END: alignment = Layout.Alignment.ALIGN_OPPOSITE; break; case Gravity.LEFT: alignment = Layout.Alignment.ALIGN_LEFT; break; case Gravity.RIGHT: alignment = Layout.Alignment.ALIGN_RIGHT; break; case Gravity.CENTER_HORIZONTAL: alignment = Layout.Alignment.ALIGN_CENTER; break; default: alignment = Layout.Alignment.ALIGN_NORMAL; break; } break; case TEXT_ALIGNMENT_TEXT_START: alignment = Layout.Alignment.ALIGN_NORMAL; break; case TEXT_ALIGNMENT_TEXT_END: alignment = Layout.Alignment.ALIGN_OPPOSITE; break; case TEXT_ALIGNMENT_CENTER: alignment = Layout.Alignment.ALIGN_CENTER; break; case TEXT_ALIGNMENT_VIEW_START: alignment = (getLayoutDirection() == LAYOUT_DIRECTION_RTL) ? Layout.Alignment.ALIGN_RIGHT : Layout.Alignment.ALIGN_LEFT; break; case TEXT_ALIGNMENT_VIEW_END: alignment = (getLayoutDirection() == LAYOUT_DIRECTION_RTL) ? Layout.Alignment.ALIGN_LEFT : Layout.Alignment.ALIGN_RIGHT; break; case TEXT_ALIGNMENT_INHERIT: // This should never happen as we have already resolved the text alignment // but better safe than sorry so we just fall through default: alignment = Layout.Alignment.ALIGN_NORMAL; break; } return alignment; } /** * The width passed in is now the desired layout width, * not the full view width with padding. * {@hide} */ @VisibleForTesting @UnsupportedAppUsage public void makeNewLayout(int wantWidth, int hintWidth, BoringLayout.Metrics boring, BoringLayout.Metrics hintBoring, int ellipsisWidth, boolean bringIntoView) { stopMarquee(); // Update "old" cached values mOldMaximum = mMaximum; mOldMaxMode = mMaxMode; mHighlightPathBogus = true; if (wantWidth < 0) { wantWidth = 0; } if (hintWidth < 0) { hintWidth = 0; } Layout.Alignment alignment = getLayoutAlignment(); final boolean testDirChange = mSingleLine && mLayout != null && (alignment == Layout.Alignment.ALIGN_NORMAL || alignment == Layout.Alignment.ALIGN_OPPOSITE); int oldDir = 0; if (testDirChange) oldDir = mLayout.getParagraphDirection(0); boolean shouldEllipsize = mEllipsize != null && getKeyListener() == null; final boolean switchEllipsize = mEllipsize == TruncateAt.MARQUEE && mMarqueeFadeMode != MARQUEE_FADE_NORMAL; TruncateAt effectiveEllipsize = mEllipsize; if (mEllipsize == TruncateAt.MARQUEE && mMarqueeFadeMode == MARQUEE_FADE_SWITCH_SHOW_ELLIPSIS) { effectiveEllipsize = TruncateAt.END_SMALL; } if (mTextDir == null) { mTextDir = getTextDirectionHeuristic(); } mLayout = makeSingleLayout(wantWidth, boring, ellipsisWidth, alignment, shouldEllipsize, effectiveEllipsize, effectiveEllipsize == mEllipsize); if (switchEllipsize) { TruncateAt oppositeEllipsize = effectiveEllipsize == TruncateAt.MARQUEE ? TruncateAt.END : TruncateAt.MARQUEE; mSavedMarqueeModeLayout = makeSingleLayout(wantWidth, boring, ellipsisWidth, alignment, shouldEllipsize, oppositeEllipsize, effectiveEllipsize != mEllipsize); } shouldEllipsize = mEllipsize != null; mHintLayout = null; if (mHint != null) { if (shouldEllipsize) hintWidth = wantWidth; if (hintBoring == UNKNOWN_BORING) { hintBoring = BoringLayout.isBoring(mHint, mTextPaint, mTextDir, mHintBoring); if (hintBoring != null) { mHintBoring = hintBoring; } } if (hintBoring != null) { if (hintBoring.width <= hintWidth && (!shouldEllipsize || hintBoring.width <= ellipsisWidth)) { if (mSavedHintLayout != null) { mHintLayout = mSavedHintLayout.replaceOrMake(mHint, mTextPaint, hintWidth, alignment, mSpacingMult, mSpacingAdd, hintBoring, mIncludePad); } else { mHintLayout = BoringLayout.make(mHint, mTextPaint, hintWidth, alignment, mSpacingMult, mSpacingAdd, hintBoring, mIncludePad); } mSavedHintLayout = (BoringLayout) mHintLayout; } else if (shouldEllipsize && hintBoring.width <= hintWidth) { if (mSavedHintLayout != null) { mHintLayout = mSavedHintLayout.replaceOrMake(mHint, mTextPaint, hintWidth, alignment, mSpacingMult, mSpacingAdd, hintBoring, mIncludePad, mEllipsize, ellipsisWidth); } else { mHintLayout = BoringLayout.make(mHint, mTextPaint, hintWidth, alignment, mSpacingMult, mSpacingAdd, hintBoring, mIncludePad, mEllipsize, ellipsisWidth); } } } // TODO: code duplication with makeSingleLayout() if (mHintLayout == null) { StaticLayout.Builder builder = StaticLayout.Builder .obtain(mHint, 0, mHint.length(), mTextPaint, hintWidth).setAlignment(alignment) .setTextDirection(mTextDir).setLineSpacing(mSpacingAdd, mSpacingMult) .setIncludePad(mIncludePad).setUseLineSpacingFromFallbacks(mUseFallbackLineSpacing) .setBreakStrategy(mBreakStrategy).setHyphenationFrequency(mHyphenationFrequency) .setJustificationMode(mJustificationMode) .setMaxLines(mMaxMode == LINES ? mMaximum : Integer.MAX_VALUE); if (shouldEllipsize) { builder.setEllipsize(mEllipsize).setEllipsizedWidth(ellipsisWidth); } mHintLayout = builder.build(); } } if (bringIntoView || (testDirChange && oldDir != mLayout.getParagraphDirection(0))) { registerForPreDraw(); } if (mEllipsize == TextUtils.TruncateAt.MARQUEE) { if (!compressText(ellipsisWidth)) { final int height = mLayoutParams.height; // If the size of the view does not depend on the size of the text, try to // start the marquee immediately if (height != LayoutParams.WRAP_CONTENT && height != LayoutParams.MATCH_PARENT) { startMarquee(); } else { // Defer the start of the marquee until we know our width (see setFrame()) mRestartMarquee = true; } } } // CursorControllers need a non-null mLayout if (mEditor != null) mEditor.prepareCursorControllers(); } /** * Returns true if DynamicLayout is required * * @hide */ @VisibleForTesting public boolean useDynamicLayout() { return isTextSelectable() || (mSpannable != null && mPrecomputed == null); } /** * @hide */ protected Layout makeSingleLayout(int wantWidth, BoringLayout.Metrics boring, int ellipsisWidth, Layout.Alignment alignment, boolean shouldEllipsize, TruncateAt effectiveEllipsize, boolean useSaved) { Layout result = null; if (useDynamicLayout()) { final DynamicLayout.Builder builder = DynamicLayout.Builder.obtain(mText, mTextPaint, wantWidth) .setDisplayText(mTransformed).setAlignment(alignment).setTextDirection(mTextDir) .setLineSpacing(mSpacingAdd, mSpacingMult).setIncludePad(mIncludePad) .setUseLineSpacingFromFallbacks(mUseFallbackLineSpacing).setBreakStrategy(mBreakStrategy) .setHyphenationFrequency(mHyphenationFrequency).setJustificationMode(mJustificationMode) .setEllipsize(getKeyListener() == null ? effectiveEllipsize : null) .setEllipsizedWidth(ellipsisWidth); result = builder.build(); } else { if (boring == UNKNOWN_BORING) { boring = BoringLayout.isBoring(mTransformed, mTextPaint, mTextDir, mBoring); if (boring != null) { mBoring = boring; } } if (boring != null) { if (boring.width <= wantWidth && (effectiveEllipsize == null || boring.width <= ellipsisWidth)) { if (useSaved && mSavedLayout != null) { result = mSavedLayout.replaceOrMake(mTransformed, mTextPaint, wantWidth, alignment, mSpacingMult, mSpacingAdd, boring, mIncludePad); } else { result = BoringLayout.make(mTransformed, mTextPaint, wantWidth, alignment, mSpacingMult, mSpacingAdd, boring, mIncludePad); } if (useSaved) { mSavedLayout = (BoringLayout) result; } } else if (shouldEllipsize && boring.width <= wantWidth) { if (useSaved && mSavedLayout != null) { result = mSavedLayout.replaceOrMake(mTransformed, mTextPaint, wantWidth, alignment, mSpacingMult, mSpacingAdd, boring, mIncludePad, effectiveEllipsize, ellipsisWidth); } else { result = BoringLayout.make(mTransformed, mTextPaint, wantWidth, alignment, mSpacingMult, mSpacingAdd, boring, mIncludePad, effectiveEllipsize, ellipsisWidth); } } } } if (result == null) { StaticLayout.Builder builder = StaticLayout.Builder .obtain(mTransformed, 0, mTransformed.length(), mTextPaint, wantWidth).setAlignment(alignment) .setTextDirection(mTextDir).setLineSpacing(mSpacingAdd, mSpacingMult).setIncludePad(mIncludePad) .setUseLineSpacingFromFallbacks(mUseFallbackLineSpacing).setBreakStrategy(mBreakStrategy) .setHyphenationFrequency(mHyphenationFrequency).setJustificationMode(mJustificationMode) .setMaxLines(mMaxMode == LINES ? mMaximum : Integer.MAX_VALUE); if (shouldEllipsize) { builder.setEllipsize(effectiveEllipsize).setEllipsizedWidth(ellipsisWidth); } result = builder.build(); } return result; } @UnsupportedAppUsage private boolean compressText(float width) { if (isHardwareAccelerated()) return false; // Only compress the text if it hasn't been compressed by the previous pass if (width > 0.0f && mLayout != null && getLineCount() == 1 && !mUserSetTextScaleX && mTextPaint.getTextScaleX() == 1.0f) { final float textWidth = mLayout.getLineWidth(0); final float overflow = (textWidth + 1.0f - width) / width; if (overflow > 0.0f && overflow <= Marquee.MARQUEE_DELTA_MAX) { mTextPaint.setTextScaleX(1.0f - overflow - 0.005f); post(new Runnable() { public void run() { requestLayout(); } }); return true; } } return false; } private static int desired(Layout layout) { int n = layout.getLineCount(); CharSequence text = layout.getText(); float max = 0; // if any line was wrapped, we can't use it. // but it's ok for the last line not to have a newline for (int i = 0; i < n - 1; i++) { if (text.charAt(layout.getLineEnd(i) - 1) != '\n') { return -1; } } for (int i = 0; i < n; i++) { max = Math.max(max, layout.getLineWidth(i)); } return (int) Math.ceil(max); } /** * Set whether the TextView includes extra top and bottom padding to make * room for accents that go above the normal ascent and descent. * The default is true. * * @see #getIncludeFontPadding() * * @attr ref android.R.styleable#TextView_includeFontPadding */ public void setIncludeFontPadding(boolean includepad) { if (mIncludePad != includepad) { mIncludePad = includepad; if (mLayout != null) { nullLayouts(); requestLayout(); invalidate(); } } } /** * Gets whether the TextView includes extra top and bottom padding to make * room for accents that go above the normal ascent and descent. * * @see #setIncludeFontPadding(boolean) * * @attr ref android.R.styleable#TextView_includeFontPadding */ public boolean getIncludeFontPadding() { return mIncludePad; } /** @hide */ @VisibleForTesting public static final BoringLayout.Metrics UNKNOWN_BORING = new BoringLayout.Metrics(); @Override protected void onMeasure(int widthMeasureSpec, int heightMeasureSpec) { int widthMode = MeasureSpec.getMode(widthMeasureSpec); int heightMode = MeasureSpec.getMode(heightMeasureSpec); int widthSize = MeasureSpec.getSize(widthMeasureSpec); int heightSize = MeasureSpec.getSize(heightMeasureSpec); int width; int height; BoringLayout.Metrics boring = UNKNOWN_BORING; BoringLayout.Metrics hintBoring = UNKNOWN_BORING; if (mTextDir == null) { mTextDir = getTextDirectionHeuristic(); } int des = -1; boolean fromexisting = false; final float widthLimit = (widthMode == MeasureSpec.AT_MOST) ? (float) widthSize : Float.MAX_VALUE; if (widthMode == MeasureSpec.EXACTLY) { // Parent has told us how big to be. So be it. width = widthSize; } else { if (mLayout != null && mEllipsize == null) { des = desired(mLayout); } if (des < 0) { boring = BoringLayout.isBoring(mTransformed, mTextPaint, mTextDir, mBoring); if (boring != null) { mBoring = boring; } } else { fromexisting = true; } if (boring == null || boring == UNKNOWN_BORING) { if (des < 0) { des = (int) Math.ceil(Layout.getDesiredWidthWithLimit(mTransformed, 0, mTransformed.length(), mTextPaint, mTextDir, widthLimit)); } width = des; } else { width = boring.width; } final Drawables dr = mDrawables; if (dr != null) { width = Math.max(width, dr.mDrawableWidthTop); width = Math.max(width, dr.mDrawableWidthBottom); } if (mHint != null) { int hintDes = -1; int hintWidth; if (mHintLayout != null && mEllipsize == null) { hintDes = desired(mHintLayout); } if (hintDes < 0) { hintBoring = BoringLayout.isBoring(mHint, mTextPaint, mTextDir, mHintBoring); if (hintBoring != null) { mHintBoring = hintBoring; } } if (hintBoring == null || hintBoring == UNKNOWN_BORING) { if (hintDes < 0) { hintDes = (int) Math.ceil(Layout.getDesiredWidthWithLimit(mHint, 0, mHint.length(), mTextPaint, mTextDir, widthLimit)); } hintWidth = hintDes; } else { hintWidth = hintBoring.width; } if (hintWidth > width) { width = hintWidth; } } width += getCompoundPaddingLeft() + getCompoundPaddingRight(); if (mMaxWidthMode == EMS) { width = Math.min(width, mMaxWidth * getLineHeight()); } else { width = Math.min(width, mMaxWidth); } if (mMinWidthMode == EMS) { width = Math.max(width, mMinWidth * getLineHeight()); } else { width = Math.max(width, mMinWidth); } // Check against our minimum width width = Math.max(width, getSuggestedMinimumWidth()); if (widthMode == MeasureSpec.AT_MOST) { width = Math.min(widthSize, width); } } int want = width - getCompoundPaddingLeft() - getCompoundPaddingRight(); int unpaddedWidth = want; if (mHorizontallyScrolling) want = VERY_WIDE; int hintWant = want; int hintWidth = (mHintLayout == null) ? hintWant : mHintLayout.getWidth(); if (mLayout == null) { makeNewLayout(want, hintWant, boring, hintBoring, width - getCompoundPaddingLeft() - getCompoundPaddingRight(), false); } else { final boolean layoutChanged = (mLayout.getWidth() != want) || (hintWidth != hintWant) || (mLayout .getEllipsizedWidth() != width - getCompoundPaddingLeft() - getCompoundPaddingRight()); final boolean widthChanged = (mHint == null) && (mEllipsize == null) && (want > mLayout.getWidth()) && (mLayout instanceof BoringLayout || (fromexisting && des >= 0 && des <= want)); final boolean maximumChanged = (mMaxMode != mOldMaxMode) || (mMaximum != mOldMaximum); if (layoutChanged || maximumChanged) { if (!maximumChanged && widthChanged) { mLayout.increaseWidthTo(want); } else { makeNewLayout(want, hintWant, boring, hintBoring, width - getCompoundPaddingLeft() - getCompoundPaddingRight(), false); } } else { // Nothing has changed } } if (heightMode == MeasureSpec.EXACTLY) { // Parent has told us how big to be. So be it. height = heightSize; mDesiredHeightAtMeasure = -1; } else { int desired = getDesiredHeight(); height = desired; mDesiredHeightAtMeasure = desired; if (heightMode == MeasureSpec.AT_MOST) { height = Math.min(desired, heightSize); } } int unpaddedHeight = height - getCompoundPaddingTop() - getCompoundPaddingBottom(); if (mMaxMode == LINES && mLayout.getLineCount() > mMaximum) { unpaddedHeight = Math.min(unpaddedHeight, mLayout.getLineTop(mMaximum)); } /* * We didn't let makeNewLayout() register to bring the cursor into view, * so do it here if there is any possibility that it is needed. */ if (mMovement != null || mLayout.getWidth() > unpaddedWidth || mLayout.getHeight() > unpaddedHeight) { registerForPreDraw(); } else { scrollTo(0, 0); } setMeasuredDimension(width, height); } /** * Automatically computes and sets the text size. */ private void autoSizeText() { if (!isAutoSizeEnabled()) { return; } if (mNeedsAutoSizeText) { if (getMeasuredWidth() <= 0 || getMeasuredHeight() <= 0) { return; } final int availableWidth = mHorizontallyScrolling ? VERY_WIDE : getMeasuredWidth() - getTotalPaddingLeft() - getTotalPaddingRight(); final int availableHeight = getMeasuredHeight() - getExtendedPaddingBottom() - getExtendedPaddingTop(); if (availableWidth <= 0 || availableHeight <= 0) { return; } synchronized (TEMP_RECTF) { TEMP_RECTF.setEmpty(); TEMP_RECTF.right = availableWidth; TEMP_RECTF.bottom = availableHeight; final float optimalTextSize = findLargestTextSizeWhichFits(TEMP_RECTF); if (optimalTextSize != getTextSize()) { setTextSizeInternal(TypedValue.COMPLEX_UNIT_PX, optimalTextSize, false /* shouldRequestLayout */); makeNewLayout(availableWidth, 0 /* hintWidth */, UNKNOWN_BORING, UNKNOWN_BORING, mRight - mLeft - getCompoundPaddingLeft() - getCompoundPaddingRight(), false /* bringIntoView */); } } } // Always try to auto-size if enabled. Functions that do not want to trigger auto-sizing // after the next layout pass should set this to false. mNeedsAutoSizeText = true; } /** * Performs a binary search to find the largest text size that will still fit within the size * available to this view. */ private int findLargestTextSizeWhichFits(RectF availableSpace) { final int sizesCount = mAutoSizeTextSizesInPx.length; if (sizesCount == 0) { throw new IllegalStateException("No available text sizes to choose from."); } int bestSizeIndex = 0; int lowIndex = bestSizeIndex + 1; int highIndex = sizesCount - 1; int sizeToTryIndex; while (lowIndex <= highIndex) { sizeToTryIndex = (lowIndex + highIndex) / 2; if (suggestedSizeFitsInSpace(mAutoSizeTextSizesInPx[sizeToTryIndex], availableSpace)) { bestSizeIndex = lowIndex; lowIndex = sizeToTryIndex + 1; } else { highIndex = sizeToTryIndex - 1; bestSizeIndex = highIndex; } } return mAutoSizeTextSizesInPx[bestSizeIndex]; } private boolean suggestedSizeFitsInSpace(int suggestedSizeInPx, RectF availableSpace) { final CharSequence text = mTransformed != null ? mTransformed : getText(); final int maxLines = getMaxLines(); if (mTempTextPaint == null) { mTempTextPaint = new TextPaint(); } else { mTempTextPaint.reset(); } mTempTextPaint.set(getPaint()); mTempTextPaint.setTextSize(suggestedSizeInPx); final StaticLayout.Builder layoutBuilder = StaticLayout.Builder.obtain(text, 0, text.length(), mTempTextPaint, Math.round(availableSpace.right)); layoutBuilder.setAlignment(getLayoutAlignment()) .setLineSpacing(getLineSpacingExtra(), getLineSpacingMultiplier()) .setIncludePad(getIncludeFontPadding()).setUseLineSpacingFromFallbacks(mUseFallbackLineSpacing) .setBreakStrategy(getBreakStrategy()).setHyphenationFrequency(getHyphenationFrequency()) .setJustificationMode(getJustificationMode()) .setMaxLines(mMaxMode == LINES ? mMaximum : Integer.MAX_VALUE) .setTextDirection(getTextDirectionHeuristic()); final StaticLayout layout = layoutBuilder.build(); // Lines overflow. if (maxLines != -1 && layout.getLineCount() > maxLines) { return false; } // Height overflow. if (layout.getHeight() > availableSpace.bottom) { return false; } return true; } private int getDesiredHeight() { return Math.max(getDesiredHeight(mLayout, true), getDesiredHeight(mHintLayout, mEllipsize != null)); } private int getDesiredHeight(Layout layout, boolean cap) { if (layout == null) { return 0; } /* * Don't cap the hint to a certain number of lines. * (Do cap it, though, if we have a maximum pixel height.) */ int desired = layout.getHeight(cap); final Drawables dr = mDrawables; if (dr != null) { desired = Math.max(desired, dr.mDrawableHeightLeft); desired = Math.max(desired, dr.mDrawableHeightRight); } int linecount = layout.getLineCount(); final int padding = getCompoundPaddingTop() + getCompoundPaddingBottom(); desired += padding; if (mMaxMode != LINES) { desired = Math.min(desired, mMaximum); } else if (cap && linecount > mMaximum && (layout instanceof DynamicLayout || layout instanceof BoringLayout)) { desired = layout.getLineTop(mMaximum); if (dr != null) { desired = Math.max(desired, dr.mDrawableHeightLeft); desired = Math.max(desired, dr.mDrawableHeightRight); } desired += padding; linecount = mMaximum; } if (mMinMode == LINES) { if (linecount < mMinimum) { desired += getLineHeight() * (mMinimum - linecount); } } else { desired = Math.max(desired, mMinimum); } // Check against our minimum height desired = Math.max(desired, getSuggestedMinimumHeight()); return desired; } /** * Check whether a change to the existing text layout requires a * new view layout. */ private void checkForResize() { boolean sizeChanged = false; if (mLayout != null) { // Check if our width changed if (mLayoutParams.width == LayoutParams.WRAP_CONTENT) { sizeChanged = true; invalidate(); } // Check if our height changed if (mLayoutParams.height == LayoutParams.WRAP_CONTENT) { int desiredHeight = getDesiredHeight(); if (desiredHeight != this.getHeight()) { sizeChanged = true; } } else if (mLayoutParams.height == LayoutParams.MATCH_PARENT) { if (mDesiredHeightAtMeasure >= 0) { int desiredHeight = getDesiredHeight(); if (desiredHeight != mDesiredHeightAtMeasure) { sizeChanged = true; } } } } if (sizeChanged) { requestLayout(); // caller will have already invalidated } } /** * Check whether entirely new text requires a new view layout * or merely a new text layout. */ @UnsupportedAppUsage private void checkForRelayout() { // If we have a fixed width, we can just swap in a new text layout // if the text height stays the same or if the view height is fixed. if ((mLayoutParams.width != LayoutParams.WRAP_CONTENT || (mMaxWidthMode == mMinWidthMode && mMaxWidth == mMinWidth)) && (mHint == null || mHintLayout != null) && (mRight - mLeft - getCompoundPaddingLeft() - getCompoundPaddingRight() > 0)) { // Static width, so try making a new text layout. int oldht = mLayout.getHeight(); int want = mLayout.getWidth(); int hintWant = mHintLayout == null ? 0 : mHintLayout.getWidth(); /* * No need to bring the text into view, since the size is not * changing (unless we do the requestLayout(), in which case it * will happen at measure). */ makeNewLayout(want, hintWant, UNKNOWN_BORING, UNKNOWN_BORING, mRight - mLeft - getCompoundPaddingLeft() - getCompoundPaddingRight(), false); if (mEllipsize != TextUtils.TruncateAt.MARQUEE) { // In a fixed-height view, so use our new text layout. if (mLayoutParams.height != LayoutParams.WRAP_CONTENT && mLayoutParams.height != LayoutParams.MATCH_PARENT) { autoSizeText(); invalidate(); return; } // Dynamic height, but height has stayed the same, // so use our new text layout. if (mLayout.getHeight() == oldht && (mHintLayout == null || mHintLayout.getHeight() == oldht)) { autoSizeText(); invalidate(); return; } } // We lose: the height has changed and we have a dynamic height. // Request a new view layout using our new text layout. requestLayout(); invalidate(); } else { // Dynamic width, so we have no choice but to request a new // view layout with a new text layout. nullLayouts(); requestLayout(); invalidate(); } } @Override protected void onLayout(boolean changed, int left, int top, int right, int bottom) { super.onLayout(changed, left, top, right, bottom); if (mDeferScroll >= 0) { int curs = mDeferScroll; mDeferScroll = -1; bringPointIntoView(Math.min(curs, mText.length())); } // Call auto-size after the width and height have been calculated. autoSizeText(); } private boolean isShowingHint() { return TextUtils.isEmpty(mText) && !TextUtils.isEmpty(mHint); } /** * Returns true if anything changed. */ @UnsupportedAppUsage private boolean bringTextIntoView() { Layout layout = isShowingHint() ? mHintLayout : mLayout; int line = 0; if ((mGravity & Gravity.VERTICAL_GRAVITY_MASK) == Gravity.BOTTOM) { line = layout.getLineCount() - 1; } Layout.Alignment a = layout.getParagraphAlignment(line); int dir = layout.getParagraphDirection(line); int hspace = mRight - mLeft - getCompoundPaddingLeft() - getCompoundPaddingRight(); int vspace = mBottom - mTop - getExtendedPaddingTop() - getExtendedPaddingBottom(); int ht = layout.getHeight(); int scrollx, scrolly; // Convert to left, center, or right alignment. if (a == Layout.Alignment.ALIGN_NORMAL) { a = dir == Layout.DIR_LEFT_TO_RIGHT ? Layout.Alignment.ALIGN_LEFT : Layout.Alignment.ALIGN_RIGHT; } else if (a == Layout.Alignment.ALIGN_OPPOSITE) { a = dir == Layout.DIR_LEFT_TO_RIGHT ? Layout.Alignment.ALIGN_RIGHT : Layout.Alignment.ALIGN_LEFT; } if (a == Layout.Alignment.ALIGN_CENTER) { /* * Keep centered if possible, or, if it is too wide to fit, * keep leading edge in view. */ int left = (int) Math.floor(layout.getLineLeft(line)); int right = (int) Math.ceil(layout.getLineRight(line)); if (right - left < hspace) { scrollx = (right + left) / 2 - hspace / 2; } else { if (dir < 0) { scrollx = right - hspace; } else { scrollx = left; } } } else if (a == Layout.Alignment.ALIGN_RIGHT) { int right = (int) Math.ceil(layout.getLineRight(line)); scrollx = right - hspace; } else { // a == Layout.Alignment.ALIGN_LEFT (will also be the default) scrollx = (int) Math.floor(layout.getLineLeft(line)); } if (ht < vspace) { scrolly = 0; } else { if ((mGravity & Gravity.VERTICAL_GRAVITY_MASK) == Gravity.BOTTOM) { scrolly = ht - vspace; } else { scrolly = 0; } } if (scrollx != mScrollX || scrolly != mScrollY) { scrollTo(scrollx, scrolly); return true; } else { return false; } } /** * Move the point, specified by the offset, into the view if it is needed. * This has to be called after layout. Returns true if anything changed. */ public boolean bringPointIntoView(int offset) { if (isLayoutRequested()) { mDeferScroll = offset; return false; } boolean changed = false; Layout layout = isShowingHint() ? mHintLayout : mLayout; if (layout == null) return changed; int line = layout.getLineForOffset(offset); int grav; switch (layout.getParagraphAlignment(line)) { case ALIGN_LEFT: grav = 1; break; case ALIGN_RIGHT: grav = -1; break; case ALIGN_NORMAL: grav = layout.getParagraphDirection(line); break; case ALIGN_OPPOSITE: grav = -layout.getParagraphDirection(line); break; case ALIGN_CENTER: default: grav = 0; break; } // We only want to clamp the cursor to fit within the layout width // in left-to-right modes, because in a right to left alignment, // we want to scroll to keep the line-right on the screen, as other // lines are likely to have text flush with the right margin, which // we want to keep visible. // A better long-term solution would probably be to measure both // the full line and a blank-trimmed version, and, for example, use // the latter measurement for centering and right alignment, but for // the time being we only implement the cursor clamping in left to // right where it is most likely to be annoying. final boolean clamped = grav > 0; // FIXME: Is it okay to truncate this, or should we round? final int x = (int) layout.getPrimaryHorizontal(offset, clamped); final int top = layout.getLineTop(line); final int bottom = layout.getLineTop(line + 1); int left = (int) Math.floor(layout.getLineLeft(line)); int right = (int) Math.ceil(layout.getLineRight(line)); int ht = layout.getHeight(); int hspace = mRight - mLeft - getCompoundPaddingLeft() - getCompoundPaddingRight(); int vspace = mBottom - mTop - getExtendedPaddingTop() - getExtendedPaddingBottom(); if (!mHorizontallyScrolling && right - left > hspace && right > x) { // If cursor has been clamped, make sure we don't scroll. right = Math.max(x, left + hspace); } int hslack = (bottom - top) / 2; int vslack = hslack; if (vslack > vspace / 4) { vslack = vspace / 4; } if (hslack > hspace / 4) { hslack = hspace / 4; } int hs = mScrollX; int vs = mScrollY; if (top - vs < vslack) { vs = top - vslack; } if (bottom - vs > vspace - vslack) { vs = bottom - (vspace - vslack); } if (ht - vs < vspace) { vs = ht - vspace; } if (0 - vs > 0) { vs = 0; } if (grav != 0) { if (x - hs < hslack) { hs = x - hslack; } if (x - hs > hspace - hslack) { hs = x - (hspace - hslack); } } if (grav < 0) { if (left - hs > 0) { hs = left; } if (right - hs < hspace) { hs = right - hspace; } } else if (grav > 0) { if (right - hs < hspace) { hs = right - hspace; } if (left - hs > 0) { hs = left; } } else /* grav == 0 */ { if (right - left <= hspace) { /* * If the entire text fits, center it exactly. */ hs = left - (hspace - (right - left)) / 2; } else if (x > right - hslack) { /* * If we are near the right edge, keep the right edge * at the edge of the view. */ hs = right - hspace; } else if (x < left + hslack) { /* * If we are near the left edge, keep the left edge * at the edge of the view. */ hs = left; } else if (left > hs) { /* * Is there whitespace visible at the left? Fix it if so. */ hs = left; } else if (right < hs + hspace) { /* * Is there whitespace visible at the right? Fix it if so. */ hs = right - hspace; } else { /* * Otherwise, float as needed. */ if (x - hs < hslack) { hs = x - hslack; } if (x - hs > hspace - hslack) { hs = x - (hspace - hslack); } } } if (hs != mScrollX || vs != mScrollY) { if (mScroller == null) { scrollTo(hs, vs); } else { long duration = AnimationUtils.currentAnimationTimeMillis() - mLastScroll; int dx = hs - mScrollX; int dy = vs - mScrollY; if (duration > ANIMATED_SCROLL_GAP) { mScroller.startScroll(mScrollX, mScrollY, dx, dy); awakenScrollBars(mScroller.getDuration()); invalidate(); } else { if (!mScroller.isFinished()) { mScroller.abortAnimation(); } scrollBy(dx, dy); } mLastScroll = AnimationUtils.currentAnimationTimeMillis(); } changed = true; } if (isFocused()) { // This offsets because getInterestingRect() is in terms of viewport coordinates, but // requestRectangleOnScreen() is in terms of content coordinates. // The offsets here are to ensure the rectangle we are using is // within our view bounds, in case the cursor is on the far left // or right. If it isn't withing the bounds, then this request // will be ignored. if (mTempRect == null) mTempRect = new Rect(); mTempRect.set(x - 2, top, x + 2, bottom); getInterestingRect(mTempRect, line); mTempRect.offset(mScrollX, mScrollY); if (requestRectangleOnScreen(mTempRect)) { changed = true; } } return changed; } /** * Move the cursor, if needed, so that it is at an offset that is visible * to the user. This will not move the cursor if it represents more than * one character (a selection range). This will only work if the * TextView contains spannable text; otherwise it will do nothing. * * @return True if the cursor was actually moved, false otherwise. */ public boolean moveCursorToVisibleOffset() { if (!(mText instanceof Spannable)) { return false; } int start = getSelectionStart(); int end = getSelectionEnd(); if (start != end) { return false; } // First: make sure the line is visible on screen: int line = mLayout.getLineForOffset(start); final int top = mLayout.getLineTop(line); final int bottom = mLayout.getLineTop(line + 1); final int vspace = mBottom - mTop - getExtendedPaddingTop() - getExtendedPaddingBottom(); int vslack = (bottom - top) / 2; if (vslack > vspace / 4) { vslack = vspace / 4; } final int vs = mScrollY; if (top < (vs + vslack)) { line = mLayout.getLineForVertical(vs + vslack + (bottom - top)); } else if (bottom > (vspace + vs - vslack)) { line = mLayout.getLineForVertical(vspace + vs - vslack - (bottom - top)); } // Next: make sure the character is visible on screen: final int hspace = mRight - mLeft - getCompoundPaddingLeft() - getCompoundPaddingRight(); final int hs = mScrollX; final int leftChar = mLayout.getOffsetForHorizontal(line, hs); final int rightChar = mLayout.getOffsetForHorizontal(line, hspace + hs); // line might contain bidirectional text final int lowChar = leftChar < rightChar ? leftChar : rightChar; final int highChar = leftChar > rightChar ? leftChar : rightChar; int newStart = start; if (newStart < lowChar) { newStart = lowChar; } else if (newStart > highChar) { newStart = highChar; } if (newStart != start) { Selection.setSelection(mSpannable, newStart); return true; } return false; } @Override public void computeScroll() { if (mScroller != null) { if (mScroller.computeScrollOffset()) { mScrollX = mScroller.getCurrX(); mScrollY = mScroller.getCurrY(); invalidateParentCaches(); postInvalidate(); // So we draw again } } } private void getInterestingRect(Rect r, int line) { convertFromViewportToContentCoordinates(r); // Rectangle can can be expanded on first and last line to take // padding into account. // TODO Take left/right padding into account too? if (line == 0) r.top -= getExtendedPaddingTop(); if (line == mLayout.getLineCount() - 1) r.bottom += getExtendedPaddingBottom(); } private void convertFromViewportToContentCoordinates(Rect r) { final int horizontalOffset = viewportToContentHorizontalOffset(); r.left += horizontalOffset; r.right += horizontalOffset; final int verticalOffset = viewportToContentVerticalOffset(); r.top += verticalOffset; r.bottom += verticalOffset; } int viewportToContentHorizontalOffset() { return getCompoundPaddingLeft() - mScrollX; } @UnsupportedAppUsage int viewportToContentVerticalOffset() { int offset = getExtendedPaddingTop() - mScrollY; if ((mGravity & Gravity.VERTICAL_GRAVITY_MASK) != Gravity.TOP) { offset += getVerticalOffset(false); } return offset; } @Override public void debug(int depth) { super.debug(depth); String output = debugIndent(depth); output += "frame={" + mLeft + ", " + mTop + ", " + mRight + ", " + mBottom + "} scroll={" + mScrollX + ", " + mScrollY + "} "; if (mText != null) { output += "mText=\"" + mText + "\" "; if (mLayout != null) { output += "mLayout width=" + mLayout.getWidth() + " height=" + mLayout.getHeight(); } } else { output += "mText=NULL"; } Log.d(VIEW_LOG_TAG, output); } /** * Convenience for {@link Selection#getSelectionStart}. */ @ViewDebug.ExportedProperty(category = "text") public int getSelectionStart() { return Selection.getSelectionStart(getText()); } /** * Convenience for {@link Selection#getSelectionEnd}. */ @ViewDebug.ExportedProperty(category = "text") public int getSelectionEnd() { return Selection.getSelectionEnd(getText()); } /** * Return true iff there is a selection of nonzero length inside this text view. */ public boolean hasSelection() { final int selectionStart = getSelectionStart(); final int selectionEnd = getSelectionEnd(); return selectionStart >= 0 && selectionEnd > 0 && selectionStart != selectionEnd; } String getSelectedText() { if (!hasSelection()) { return null; } final int start = getSelectionStart(); final int end = getSelectionEnd(); return String.valueOf(start > end ? mText.subSequence(end, start) : mText.subSequence(start, end)); } /** * Sets the properties of this field (lines, horizontally scrolling, * transformation method) to be for a single-line input. * * @attr ref android.R.styleable#TextView_singleLine */ public void setSingleLine() { setSingleLine(true); } /** * Sets the properties of this field to transform input to ALL CAPS * display. This may use a "small caps" formatting if available. * This setting will be ignored if this field is editable or selectable. * * This call replaces the current transformation method. Disabling this * will not necessarily restore the previous behavior from before this * was enabled. * * @see #setTransformationMethod(TransformationMethod) * @attr ref android.R.styleable#TextView_textAllCaps */ public void setAllCaps(boolean allCaps) { if (allCaps) { setTransformationMethod(new AllCapsTransformationMethod(getContext())); } else { setTransformationMethod(null); } } /** * * Checks whether the transformation method applied to this TextView is set to ALL CAPS. * @return Whether the current transformation method is for ALL CAPS. * * @see #setAllCaps(boolean) * @see #setTransformationMethod(TransformationMethod) */ public boolean isAllCaps() { final TransformationMethod method = getTransformationMethod(); return method != null && method instanceof AllCapsTransformationMethod; } /** * If true, sets the properties of this field (number of lines, horizontally scrolling, * transformation method) to be for a single-line input; if false, restores these to the default * conditions. * * Note that the default conditions are not necessarily those that were in effect prior this * method, and you may want to reset these properties to your custom values. * * @attr ref android.R.styleable#TextView_singleLine */ @android.view.RemotableViewMethod public void setSingleLine(boolean singleLine) { // Could be used, but may break backward compatibility. // if (mSingleLine == singleLine) return; setInputTypeSingleLine(singleLine); applySingleLine(singleLine, true, true); } /** * Adds or remove the EditorInfo.TYPE_TEXT_FLAG_MULTI_LINE on the mInputType. * @param singleLine */ private void setInputTypeSingleLine(boolean singleLine) { if (mEditor != null && (mEditor.mInputType & EditorInfo.TYPE_MASK_CLASS) == EditorInfo.TYPE_CLASS_TEXT) { if (singleLine) { mEditor.mInputType &= ~EditorInfo.TYPE_TEXT_FLAG_MULTI_LINE; } else { mEditor.mInputType |= EditorInfo.TYPE_TEXT_FLAG_MULTI_LINE; } } } private void applySingleLine(boolean singleLine, boolean applyTransformation, boolean changeMaxLines) { mSingleLine = singleLine; if (singleLine) { setLines(1); setHorizontallyScrolling(true); if (applyTransformation) { setTransformationMethod(SingleLineTransformationMethod.getInstance()); } } else { if (changeMaxLines) { setMaxLines(Integer.MAX_VALUE); } setHorizontallyScrolling(false); if (applyTransformation) { setTransformationMethod(null); } } } /** * Causes words in the text that are longer than the view's width * to be ellipsized instead of broken in the middle. You may also * want to {@link #setSingleLine} or {@link #setHorizontallyScrolling} * to constrain the text to a single line. Use <code>null</code> * to turn off ellipsizing. * * If {@link #setMaxLines} has been used to set two or more lines, * only {@link android.text.TextUtils.TruncateAt#END} and * {@link android.text.TextUtils.TruncateAt#MARQUEE} are supported * (other ellipsizing types will not do anything). * * @attr ref android.R.styleable#TextView_ellipsize */ public void setEllipsize(TextUtils.TruncateAt where) { // TruncateAt is an enum. != comparison is ok between these singleton objects. if (mEllipsize != where) { mEllipsize = where; if (mLayout != null) { nullLayouts(); requestLayout(); invalidate(); } } } /** * Sets how many times to repeat the marquee animation. Only applied if the * TextView has marquee enabled. Set to -1 to repeat indefinitely. * * @see #getMarqueeRepeatLimit() * * @attr ref android.R.styleable#TextView_marqueeRepeatLimit */ public void setMarqueeRepeatLimit(int marqueeLimit) { mMarqueeRepeatLimit = marqueeLimit; } /** * Gets the number of times the marquee animation is repeated. Only meaningful if the * TextView has marquee enabled. * * @return the number of times the marquee animation is repeated. -1 if the animation * repeats indefinitely * * @see #setMarqueeRepeatLimit(int) * * @attr ref android.R.styleable#TextView_marqueeRepeatLimit */ public int getMarqueeRepeatLimit() { return mMarqueeRepeatLimit; } /** * Returns where, if anywhere, words that are longer than the view * is wide should be ellipsized. */ @ViewDebug.ExportedProperty public TextUtils.TruncateAt getEllipsize() { return mEllipsize; } /** * Set the TextView so that when it takes focus, all the text is * selected. * * @attr ref android.R.styleable#TextView_selectAllOnFocus */ @android.view.RemotableViewMethod public void setSelectAllOnFocus(boolean selectAllOnFocus) { createEditorIfNeeded(); mEditor.mSelectAllOnFocus = selectAllOnFocus; if (selectAllOnFocus && !(mText instanceof Spannable)) { setText(mText, BufferType.SPANNABLE); } } /** * Set whether the cursor is visible. The default is true. Note that this property only * makes sense for editable TextView. * * @see #isCursorVisible() * * @attr ref android.R.styleable#TextView_cursorVisible */ @android.view.RemotableViewMethod public void setCursorVisible(boolean visible) { if (visible && mEditor == null) return; // visible is the default value with no edit data createEditorIfNeeded(); if (mEditor.mCursorVisible != visible) { mEditor.mCursorVisible = visible; invalidate(); mEditor.makeBlink(); // InsertionPointCursorController depends on mCursorVisible mEditor.prepareCursorControllers(); } } /** * @return whether or not the cursor is visible (assuming this TextView is editable) * * @see #setCursorVisible(boolean) * * @attr ref android.R.styleable#TextView_cursorVisible */ public boolean isCursorVisible() { // true is the default value return mEditor == null ? true : mEditor.mCursorVisible; } private boolean canMarquee() { int width = mRight - mLeft - getCompoundPaddingLeft() - getCompoundPaddingRight(); return width > 0 && (mLayout.getLineWidth(0) > width || (mMarqueeFadeMode != MARQUEE_FADE_NORMAL && mSavedMarqueeModeLayout != null && mSavedMarqueeModeLayout.getLineWidth(0) > width)); } @UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.P, trackingBug = 115609023) private void startMarquee() { // Do not ellipsize EditText if (getKeyListener() != null) return; if (compressText(getWidth() - getCompoundPaddingLeft() - getCompoundPaddingRight())) { return; } if ((mMarquee == null || mMarquee.isStopped()) && (isFocused() || isSelected()) && getLineCount() == 1 && canMarquee()) { if (mMarqueeFadeMode == MARQUEE_FADE_SWITCH_SHOW_ELLIPSIS) { mMarqueeFadeMode = MARQUEE_FADE_SWITCH_SHOW_FADE; final Layout tmp = mLayout; mLayout = mSavedMarqueeModeLayout; mSavedMarqueeModeLayout = tmp; setHorizontalFadingEdgeEnabled(true); requestLayout(); invalidate(); } if (mMarquee == null) mMarquee = new Marquee(this); mMarquee.start(mMarqueeRepeatLimit); } } private void stopMarquee() { if (mMarquee != null && !mMarquee.isStopped()) { mMarquee.stop(); } if (mMarqueeFadeMode == MARQUEE_FADE_SWITCH_SHOW_FADE) { mMarqueeFadeMode = MARQUEE_FADE_SWITCH_SHOW_ELLIPSIS; final Layout tmp = mSavedMarqueeModeLayout; mSavedMarqueeModeLayout = mLayout; mLayout = tmp; setHorizontalFadingEdgeEnabled(false); requestLayout(); invalidate(); } } @UnsupportedAppUsage(maxTargetSdk = Build.VERSION_CODES.P, trackingBug = 115609023) private void startStopMarquee(boolean start) { if (mEllipsize == TextUtils.TruncateAt.MARQUEE) { if (start) { startMarquee(); } else { stopMarquee(); } } } /** * This method is called when the text is changed, in case any subclasses * would like to know. * * Within <code>text</code>, the <code>lengthAfter</code> characters * beginning at <code>start</code> have just replaced old text that had * length <code>lengthBefore</code>. It is an error to attempt to make * changes to <code>text</code> from this callback. * * @param text The text the TextView is displaying * @param start The offset of the start of the range of the text that was * modified * @param lengthBefore The length of the former text that has been replaced * @param lengthAfter The length of the replacement modified text */ protected void onTextChanged(CharSequence text, int start, int lengthBefore, int lengthAfter) { // intentionally empty, template pattern method can be overridden by subclasses } /** * This method is called when the selection has changed, in case any * subclasses would like to know. * * @param selStart The new selection start location. * @param selEnd The new selection end location. */ protected void onSelectionChanged(int selStart, int selEnd) { sendAccessibilityEvent(AccessibilityEvent.TYPE_VIEW_TEXT_SELECTION_CHANGED); } /** * Adds a TextWatcher to the list of those whose methods are called * whenever this TextView's text changes. * <p> * In 1.0, the {@link TextWatcher#afterTextChanged} method was erroneously * not called after {@link #setText} calls. Now, doing {@link #setText} * if there are any text changed listeners forces the buffer type to * Editable if it would not otherwise be and does call this method. */ public void addTextChangedListener(TextWatcher watcher) { if (mListeners == null) { mListeners = new ArrayList<TextWatcher>(); } mListeners.add(watcher); } /** * Removes the specified TextWatcher from the list of those whose * methods are called * whenever this TextView's text changes. */ public void removeTextChangedListener(TextWatcher watcher) { if (mListeners != null) { int i = mListeners.indexOf(watcher); if (i >= 0) { mListeners.remove(i); } } } private void sendBeforeTextChanged(CharSequence text, int start, int before, int after) { if (mListeners != null) { final ArrayList<TextWatcher> list = mListeners; final int count = list.size(); for (int i = 0; i < count; i++) { list.get(i).beforeTextChanged(text, start, before, after); } } // The spans that are inside or intersect the modified region no longer make sense removeIntersectingNonAdjacentSpans(start, start + before, SpellCheckSpan.class); removeIntersectingNonAdjacentSpans(start, start + before, SuggestionSpan.class); } // Removes all spans that are inside or actually overlap the start..end range private <T> void removeIntersectingNonAdjacentSpans(int start, int end, Class<T> type) { if (!(mText instanceof Editable)) return; Editable text = (Editable) mText; T[] spans = text.getSpans(start, end, type); final int length = spans.length; for (int i = 0; i < length; i++) { final int spanStart = text.getSpanStart(spans[i]); final int spanEnd = text.getSpanEnd(spans[i]); if (spanEnd == start || spanStart == end) break; text.removeSpan(spans[i]); } } void removeAdjacentSuggestionSpans(final int pos) { if (!(mText instanceof Editable)) return; final Editable text = (Editable) mText; final SuggestionSpan[] spans = text.getSpans(pos, pos, SuggestionSpan.class); final int length = spans.length; for (int i = 0; i < length; i++) { final int spanStart = text.getSpanStart(spans[i]); final int spanEnd = text.getSpanEnd(spans[i]); if (spanEnd == pos || spanStart == pos) { if (SpellChecker.haveWordBoundariesChanged(text, pos, pos, spanStart, spanEnd)) { text.removeSpan(spans[i]); } } } } /** * Not private so it can be called from an inner class without going * through a thunk. */ void sendOnTextChanged(CharSequence text, int start, int before, int after) { if (mListeners != null) { final ArrayList<TextWatcher> list = mListeners; final int count = list.size(); for (int i = 0; i < count; i++) { list.get(i).onTextChanged(text, start, before, after); } } if (mEditor != null) mEditor.sendOnTextChanged(start, before, after); } /** * Not private so it can be called from an inner class without going * through a thunk. */ void sendAfterTextChanged(Editable text) { if (mListeners != null) { final ArrayList<TextWatcher> list = mListeners; final int count = list.size(); for (int i = 0; i < count; i++) { list.get(i).afterTextChanged(text); } } // Always notify AutoFillManager - it will return right away if autofill is disabled. notifyAutoFillManagerAfterTextChangedIfNeeded(); hideErrorIfUnchanged(); } private void notifyAutoFillManagerAfterTextChangedIfNeeded() { // It is important to not check whether the view is important for autofill // since the user can trigger autofill manually on not important views. if (!isAutofillable()) { return; } final AutofillManager afm = mContext.getSystemService(AutofillManager.class); if (afm == null) { return; } if (mLastValueSentToAutofillManager == null || !mLastValueSentToAutofillManager.equals(mText)) { if (android.view.autofill.Helper.sVerbose) { Log.v(LOG_TAG, "notifying AFM after text changed"); } afm.notifyValueChanged(TextView.this); mLastValueSentToAutofillManager = mText; } else { if (android.view.autofill.Helper.sVerbose) { Log.v(LOG_TAG, "not notifying AFM on unchanged text"); } } } private boolean isAutofillable() { // It is important to not check whether the view is important for autofill // since the user can trigger autofill manually on not important views. return getAutofillType() != AUTOFILL_TYPE_NONE; } void updateAfterEdit() { invalidate(); int curs = getSelectionStart(); if (curs >= 0 || (mGravity & Gravity.VERTICAL_GRAVITY_MASK) == Gravity.BOTTOM) { registerForPreDraw(); } checkForResize(); if (curs >= 0) { mHighlightPathBogus = true; if (mEditor != null) mEditor.makeBlink(); bringPointIntoView(curs); } } /** * Not private so it can be called from an inner class without going * through a thunk. */ void handleTextChanged(CharSequence buffer, int start, int before, int after) { sLastCutCopyOrTextChangedTime = 0; final Editor.InputMethodState ims = mEditor == null ? null : mEditor.mInputMethodState; if (ims == null || ims.mBatchEditNesting == 0) { updateAfterEdit(); } if (ims != null) { ims.mContentChanged = true; if (ims.mChangedStart < 0) { ims.mChangedStart = start; ims.mChangedEnd = start + before; } else { ims.mChangedStart = Math.min(ims.mChangedStart, start); ims.mChangedEnd = Math.max(ims.mChangedEnd, start + before - ims.mChangedDelta); } ims.mChangedDelta += after - before; } resetErrorChangedFlag(); sendOnTextChanged(buffer, start, before, after); onTextChanged(buffer, start, before, after); } /** * Not private so it can be called from an inner class without going * through a thunk. */ void spanChange(Spanned buf, Object what, int oldStart, int newStart, int oldEnd, int newEnd) { // XXX Make the start and end move together if this ends up // spending too much time invalidating. boolean selChanged = false; int newSelStart = -1, newSelEnd = -1; final Editor.InputMethodState ims = mEditor == null ? null : mEditor.mInputMethodState; if (what == Selection.SELECTION_END) { selChanged = true; newSelEnd = newStart; if (oldStart >= 0 || newStart >= 0) { invalidateCursor(Selection.getSelectionStart(buf), oldStart, newStart); checkForResize(); registerForPreDraw(); if (mEditor != null) mEditor.makeBlink(); } } if (what == Selection.SELECTION_START) { selChanged = true; newSelStart = newStart; if (oldStart >= 0 || newStart >= 0) { int end = Selection.getSelectionEnd(buf); invalidateCursor(end, oldStart, newStart); } } if (selChanged) { mHighlightPathBogus = true; if (mEditor != null && !isFocused()) mEditor.mSelectionMoved = true; if ((buf.getSpanFlags(what) & Spanned.SPAN_INTERMEDIATE) == 0) { if (newSelStart < 0) { newSelStart = Selection.getSelectionStart(buf); } if (newSelEnd < 0) { newSelEnd = Selection.getSelectionEnd(buf); } if (mEditor != null) { mEditor.refreshTextActionMode(); if (!hasSelection() && mEditor.getTextActionMode() == null && hasTransientState()) { // User generated selection has been removed. setHasTransientState(false); } } onSelectionChanged(newSelStart, newSelEnd); } } if (what instanceof UpdateAppearance || what instanceof ParagraphStyle || what instanceof CharacterStyle) { if (ims == null || ims.mBatchEditNesting == 0) { invalidate(); mHighlightPathBogus = true; checkForResize(); } else { ims.mContentChanged = true; } if (mEditor != null) { if (oldStart >= 0) mEditor.invalidateTextDisplayList(mLayout, oldStart, oldEnd); if (newStart >= 0) mEditor.invalidateTextDisplayList(mLayout, newStart, newEnd); mEditor.invalidateHandlesAndActionMode(); } } if (MetaKeyKeyListener.isMetaTracker(buf, what)) { mHighlightPathBogus = true; if (ims != null && MetaKeyKeyListener.isSelectingMetaTracker(buf, what)) { ims.mSelectionModeChanged = true; } if (Selection.getSelectionStart(buf) >= 0) { if (ims == null || ims.mBatchEditNesting == 0) { invalidateCursor(); } else { ims.mCursorChanged = true; } } } if (what instanceof ParcelableSpan) { // If this is a span that can be sent to a remote process, // the current extract editor would be interested in it. if (ims != null && ims.mExtractedTextRequest != null) { if (ims.mBatchEditNesting != 0) { if (oldStart >= 0) { if (ims.mChangedStart > oldStart) { ims.mChangedStart = oldStart; } if (ims.mChangedStart > oldEnd) { ims.mChangedStart = oldEnd; } } if (newStart >= 0) { if (ims.mChangedStart > newStart) { ims.mChangedStart = newStart; } if (ims.mChangedStart > newEnd) { ims.mChangedStart = newEnd; } } } else { if (DEBUG_EXTRACT) { Log.v(LOG_TAG, "Span change outside of batch: " + oldStart + "-" + oldEnd + "," + newStart + "-" + newEnd + " " + what); } ims.mContentChanged = true; } } } if (mEditor != null && mEditor.mSpellChecker != null && newStart < 0 && what instanceof SpellCheckSpan) { mEditor.mSpellChecker.onSpellCheckSpanRemoved((SpellCheckSpan) what); } } @Override protected void onFocusChanged(boolean focused, int direction, Rect previouslyFocusedRect) { if (isTemporarilyDetached()) { // If we are temporarily in the detach state, then do nothing. super.onFocusChanged(focused, direction, previouslyFocusedRect); return; } if (mEditor != null) mEditor.onFocusChanged(focused, direction); if (focused) { if (mSpannable != null) { MetaKeyKeyListener.resetMetaState(mSpannable); } } startStopMarquee(focused); if (mTransformation != null) { mTransformation.onFocusChanged(this, mText, focused, direction, previouslyFocusedRect); } super.onFocusChanged(focused, direction, previouslyFocusedRect); } @Override public void onWindowFocusChanged(boolean hasWindowFocus) { super.onWindowFocusChanged(hasWindowFocus); if (mEditor != null) mEditor.onWindowFocusChanged(hasWindowFocus); startStopMarquee(hasWindowFocus); } @Override protected void onVisibilityChanged(View changedView, int visibility) { super.onVisibilityChanged(changedView, visibility); if (mEditor != null && visibility != VISIBLE) { mEditor.hideCursorAndSpanControllers(); stopTextActionMode(); } } /** * Use {@link BaseInputConnection#removeComposingSpans * BaseInputConnection.removeComposingSpans()} to remove any IME composing * state from this text view. */ public void clearComposingText() { if (mText instanceof Spannable) { BaseInputConnection.removeComposingSpans(mSpannable); } } @Override public void setSelected(boolean selected) { boolean wasSelected = isSelected(); super.setSelected(selected); if (selected != wasSelected && mEllipsize == TextUtils.TruncateAt.MARQUEE) { if (selected) { startMarquee(); } else { stopMarquee(); } } } @Override public boolean onTouchEvent(MotionEvent event) { final int action = event.getActionMasked(); if (mEditor != null) { mEditor.onTouchEvent(event); if (mEditor.mSelectionModifierCursorController != null && mEditor.mSelectionModifierCursorController.isDragAcceleratorActive()) { return true; } } final boolean superResult = super.onTouchEvent(event); /* * Don't handle the release after a long press, because it will move the selection away from * whatever the menu action was trying to affect. If the long press should have triggered an * insertion action mode, we can now actually show it. */ if (mEditor != null && mEditor.mDiscardNextActionUp && action == MotionEvent.ACTION_UP) { mEditor.mDiscardNextActionUp = false; if (mEditor.mIsInsertionActionModeStartPending) { mEditor.startInsertionActionMode(); mEditor.mIsInsertionActionModeStartPending = false; } return superResult; } final boolean touchIsFinished = (action == MotionEvent.ACTION_UP) && (mEditor == null || !mEditor.mIgnoreActionUpEvent) && isFocused(); if ((mMovement != null || onCheckIsTextEditor()) && isEnabled() && mText instanceof Spannable && mLayout != null) { boolean handled = false; if (mMovement != null) { handled |= mMovement.onTouchEvent(this, mSpannable, event); } final boolean textIsSelectable = isTextSelectable(); if (touchIsFinished && mLinksClickable && mAutoLinkMask != 0 && textIsSelectable) { // The LinkMovementMethod which should handle taps on links has not been installed // on non editable text that support text selection. // We reproduce its behavior here to open links for these. ClickableSpan[] links = mSpannable.getSpans(getSelectionStart(), getSelectionEnd(), ClickableSpan.class); if (links.length > 0) { links[0].onClick(this); handled = true; } } if (touchIsFinished && (isTextEditable() || textIsSelectable)) { // Show the IME, except when selecting in read-only text. final InputMethodManager imm = InputMethodManager.peekInstance(); viewClicked(imm); if (isTextEditable() && mEditor.mShowSoftInputOnFocus && imm != null) { imm.showSoftInput(this, 0); } // The above condition ensures that the mEditor is not null mEditor.onTouchUpEvent(event); handled = true; } if (handled) { return true; } } return superResult; } @Override public boolean onGenericMotionEvent(MotionEvent event) { if (mMovement != null && mText instanceof Spannable && mLayout != null) { try { if (mMovement.onGenericMotionEvent(this, mSpannable, event)) { return true; } } catch (AbstractMethodError ex) { // onGenericMotionEvent was added to the MovementMethod interface in API 12. // Ignore its absence in case third party applications implemented the // interface directly. } } return super.onGenericMotionEvent(event); } @Override protected void onCreateContextMenu(ContextMenu menu) { if (mEditor != null) { mEditor.onCreateContextMenu(menu); } } @Override public boolean showContextMenu() { if (mEditor != null) { mEditor.setContextMenuAnchor(Float.NaN, Float.NaN); } return super.showContextMenu(); } @Override public boolean showContextMenu(float x, float y) { if (mEditor != null) { mEditor.setContextMenuAnchor(x, y); } return super.showContextMenu(x, y); } /** * @return True iff this TextView contains a text that can be edited, or if this is * a selectable TextView. */ @UnsupportedAppUsage boolean isTextEditable() { return mText instanceof Editable && onCheckIsTextEditor() && isEnabled(); } /** * Returns true, only while processing a touch gesture, if the initial * touch down event caused focus to move to the text view and as a result * its selection changed. Only valid while processing the touch gesture * of interest, in an editable text view. */ public boolean didTouchFocusSelect() { return mEditor != null && mEditor.mTouchFocusSelected; } @Override public void cancelLongPress() { super.cancelLongPress(); if (mEditor != null) mEditor.mIgnoreActionUpEvent = true; } @Override public boolean onTrackballEvent(MotionEvent event) { if (mMovement != null && mSpannable != null && mLayout != null) { if (mMovement.onTrackballEvent(this, mSpannable, event)) { return true; } } return super.onTrackballEvent(event); } /** * Sets the Scroller used for producing a scrolling animation * * @param s A Scroller instance */ public void setScroller(Scroller s) { mScroller = s; } @Override protected float getLeftFadingEdgeStrength() { if (isMarqueeFadeEnabled() && mMarquee != null && !mMarquee.isStopped()) { final Marquee marquee = mMarquee; if (marquee.shouldDrawLeftFade()) { return getHorizontalFadingEdgeStrength(marquee.getScroll(), 0.0f); } else { return 0.0f; } } else if (getLineCount() == 1) { final float lineLeft = getLayout().getLineLeft(0); if (lineLeft > mScrollX) return 0.0f; return getHorizontalFadingEdgeStrength(mScrollX, lineLeft); } return super.getLeftFadingEdgeStrength(); } @Override protected float getRightFadingEdgeStrength() { if (isMarqueeFadeEnabled() && mMarquee != null && !mMarquee.isStopped()) { final Marquee marquee = mMarquee; return getHorizontalFadingEdgeStrength(marquee.getMaxFadeScroll(), marquee.getScroll()); } else if (getLineCount() == 1) { final float rightEdge = mScrollX + (getWidth() - getCompoundPaddingLeft() - getCompoundPaddingRight()); final float lineRight = getLayout().getLineRight(0); if (lineRight < rightEdge) return 0.0f; return getHorizontalFadingEdgeStrength(rightEdge, lineRight); } return super.getRightFadingEdgeStrength(); } /** * Calculates the fading edge strength as the ratio of the distance between two * horizontal positions to {@link View#getHorizontalFadingEdgeLength()}. Uses the absolute * value for the distance calculation. * * @param position1 A horizontal position. * @param position2 A horizontal position. * @return Fading edge strength between [0.0f, 1.0f]. */ @FloatRange(from = 0.0, to = 1.0) private float getHorizontalFadingEdgeStrength(float position1, float position2) { final int horizontalFadingEdgeLength = getHorizontalFadingEdgeLength(); if (horizontalFadingEdgeLength == 0) return 0.0f; final float diff = Math.abs(position1 - position2); if (diff > horizontalFadingEdgeLength) return 1.0f; return diff / horizontalFadingEdgeLength; } private boolean isMarqueeFadeEnabled() { return mEllipsize == TextUtils.TruncateAt.MARQUEE && mMarqueeFadeMode != MARQUEE_FADE_SWITCH_SHOW_ELLIPSIS; } @Override protected int computeHorizontalScrollRange() { if (mLayout != null) { return mSingleLine && (mGravity & Gravity.HORIZONTAL_GRAVITY_MASK) == Gravity.LEFT ? (int) mLayout.getLineWidth(0) : mLayout.getWidth(); } return super.computeHorizontalScrollRange(); } @Override protected int computeVerticalScrollRange() { if (mLayout != null) { return mLayout.getHeight(); } return super.computeVerticalScrollRange(); } @Override protected int computeVerticalScrollExtent() { return getHeight() - getCompoundPaddingTop() - getCompoundPaddingBottom(); } @Override public void findViewsWithText(ArrayList<View> outViews, CharSequence searched, int flags) { super.findViewsWithText(outViews, searched, flags); if (!outViews.contains(this) && (flags & FIND_VIEWS_WITH_TEXT) != 0 && !TextUtils.isEmpty(searched) && !TextUtils.isEmpty(mText)) { String searchedLowerCase = searched.toString().toLowerCase(); String textLowerCase = mText.toString().toLowerCase(); if (textLowerCase.contains(searchedLowerCase)) { outViews.add(this); } } } /** * Type of the text buffer that defines the characteristics of the text such as static, * styleable, or editable. */ public enum BufferType { NORMAL, SPANNABLE, EDITABLE } /** * Returns the TextView_textColor attribute from the TypedArray, if set, or * the TextAppearance_textColor from the TextView_textAppearance attribute, * if TextView_textColor was not set directly. * * @removed */ public static ColorStateList getTextColors(Context context, TypedArray attrs) { if (attrs == null) { // Preserve behavior prior to removal of this API. throw new NullPointerException(); } // It's not safe to use this method from apps. The parameter 'attrs' // must have been obtained using the TextView filter array which is not // available to the SDK. As such, we grab a default TypedArray with the // right filter instead here. final TypedArray a = context.obtainStyledAttributes(R.styleable.TextView); ColorStateList colors = a.getColorStateList(R.styleable.TextView_textColor); if (colors == null) { final int ap = a.getResourceId(R.styleable.TextView_textAppearance, 0); if (ap != 0) { final TypedArray appearance = context.obtainStyledAttributes(ap, R.styleable.TextAppearance); colors = appearance.getColorStateList(R.styleable.TextAppearance_textColor); appearance.recycle(); } } a.recycle(); return colors; } /** * Returns the default color from the TextView_textColor attribute from the * AttributeSet, if set, or the default color from the * TextAppearance_textColor from the TextView_textAppearance attribute, if * TextView_textColor was not set directly. * * @removed */ public static int getTextColor(Context context, TypedArray attrs, int def) { final ColorStateList colors = getTextColors(context, attrs); if (colors == null) { return def; } else { return colors.getDefaultColor(); } } @Override public boolean onKeyShortcut(int keyCode, KeyEvent event) { if (event.hasModifiers(KeyEvent.META_CTRL_ON)) { // Handle Ctrl-only shortcuts. switch (keyCode) { case KeyEvent.KEYCODE_A: if (canSelectText()) { return onTextContextMenuItem(ID_SELECT_ALL); } break; case KeyEvent.KEYCODE_Z: if (canUndo()) { return onTextContextMenuItem(ID_UNDO); } break; case KeyEvent.KEYCODE_X: if (canCut()) { return onTextContextMenuItem(ID_CUT); } break; case KeyEvent.KEYCODE_C: if (canCopy()) { return onTextContextMenuItem(ID_COPY); } break; case KeyEvent.KEYCODE_V: if (canPaste()) { return onTextContextMenuItem(ID_PASTE); } break; } } else if (event.hasModifiers(KeyEvent.META_CTRL_ON | KeyEvent.META_SHIFT_ON)) { // Handle Ctrl-Shift shortcuts. switch (keyCode) { case KeyEvent.KEYCODE_Z: if (canRedo()) { return onTextContextMenuItem(ID_REDO); } break; case KeyEvent.KEYCODE_V: if (canPaste()) { return onTextContextMenuItem(ID_PASTE_AS_PLAIN_TEXT); } } } return super.onKeyShortcut(keyCode, event); } /** * Unlike {@link #textCanBeSelected()}, this method is based on the <i>current</i> state of the * TextView. {@link #textCanBeSelected()} has to be true (this is one of the conditions to have * a selection controller (see {@link Editor#prepareCursorControllers()}), but this is not * sufficient. */ boolean canSelectText() { return mText.length() != 0 && mEditor != null && mEditor.hasSelectionController(); } /** * Test based on the <i>intrinsic</i> charateristics of the TextView. * The text must be spannable and the movement method must allow for arbitary selection. * * See also {@link #canSelectText()}. */ boolean textCanBeSelected() { // prepareCursorController() relies on this method. // If you change this condition, make sure prepareCursorController is called anywhere // the value of this condition might be changed. if (mMovement == null || !mMovement.canSelectArbitrarily()) return false; return isTextEditable() || (isTextSelectable() && mText instanceof Spannable && isEnabled()); } @UnsupportedAppUsage private Locale getTextServicesLocale(boolean allowNullLocale) { // Start fetching the text services locale asynchronously. updateTextServicesLocaleAsync(); // If !allowNullLocale and there is no cached text services locale, just return the default // locale. return (mCurrentSpellCheckerLocaleCache == null && !allowNullLocale) ? Locale.getDefault() : mCurrentSpellCheckerLocaleCache; } /** * This is a temporary method. Future versions may support multi-locale text. * Caveat: This method may not return the latest text services locale, but this should be * acceptable and it's more important to make this method asynchronous. * * @return The locale that should be used for a word iterator * in this TextView, based on the current spell checker settings, * the current IME's locale, or the system default locale. * Please note that a word iterator in this TextView is different from another word iterator * used by SpellChecker.java of TextView. This method should be used for the former. * @hide */ // TODO: Support multi-locale // TODO: Update the text services locale immediately after the keyboard locale is switched // by catching intent of keyboard switch event public Locale getTextServicesLocale() { return getTextServicesLocale(false /* allowNullLocale */); } /** * @return {@code true} if this TextView is specialized for showing and interacting with the * extracted text in a full-screen input method. * @hide */ public boolean isInExtractedMode() { return false; } /** * @return {@code true} if this widget supports auto-sizing text and has been configured to * auto-size. */ private boolean isAutoSizeEnabled() { return supportsAutoSizeText() && mAutoSizeTextType != AUTO_SIZE_TEXT_TYPE_NONE; } /** * @return {@code true} if this TextView supports auto-sizing text to fit within its container. * @hide */ protected boolean supportsAutoSizeText() { return true; } /** * This is a temporary method. Future versions may support multi-locale text. * Caveat: This method may not return the latest spell checker locale, but this should be * acceptable and it's more important to make this method asynchronous. * * @return The locale that should be used for a spell checker in this TextView, * based on the current spell checker settings, the current IME's locale, or the system default * locale. * @hide */ public Locale getSpellCheckerLocale() { return getTextServicesLocale(true /* allowNullLocale */); } private void updateTextServicesLocaleAsync() { // AsyncTask.execute() uses a serial executor which means we don't have // to lock around updateTextServicesLocaleLocked() to prevent it from // being executed n times in parallel. AsyncTask.execute(new Runnable() { @Override public void run() { updateTextServicesLocaleLocked(); } }); } @UnsupportedAppUsage private void updateTextServicesLocaleLocked() { final TextServicesManager textServicesManager = (TextServicesManager) mContext .getSystemService(Context.TEXT_SERVICES_MANAGER_SERVICE); final SpellCheckerSubtype subtype = textServicesManager.getCurrentSpellCheckerSubtype(true); final Locale locale; if (subtype != null) { locale = subtype.getLocaleObject(); } else { locale = null; } mCurrentSpellCheckerLocaleCache = locale; } void onLocaleChanged() { mEditor.onLocaleChanged(); } /** * This method is used by the ArrowKeyMovementMethod to jump from one word to the other. * Made available to achieve a consistent behavior. * @hide */ public WordIterator getWordIterator() { if (mEditor != null) { return mEditor.getWordIterator(); } else { return null; } } /** @hide */ @Override public void onPopulateAccessibilityEventInternal(AccessibilityEvent event) { super.onPopulateAccessibilityEventInternal(event); final CharSequence text = getTextForAccessibility(); if (!TextUtils.isEmpty(text)) { event.getText().add(text); } } @Override public CharSequence getAccessibilityClassName() { return TextView.class.getName(); } @Override public void onProvideStructure(ViewStructure structure) { super.onProvideStructure(structure); onProvideAutoStructureForAssistOrAutofill(structure, false); } @Override public void onProvideAutofillStructure(ViewStructure structure, int flags) { super.onProvideAutofillStructure(structure, flags); onProvideAutoStructureForAssistOrAutofill(structure, true); } private void onProvideAutoStructureForAssistOrAutofill(ViewStructure structure, boolean forAutofill) { final boolean isPassword = hasPasswordTransformationMethod() || isPasswordInputType(getInputType()); if (forAutofill) { structure.setDataIsSensitive(!mTextSetFromXmlOrResourceId); if (mTextId != ResourceId.ID_NULL) { try { structure.setTextIdEntry(getResources().getResourceEntryName(mTextId)); } catch (Resources.NotFoundException e) { if (android.view.autofill.Helper.sVerbose) { Log.v(LOG_TAG, "onProvideAutofillStructure(): cannot set name for text id " + mTextId + ": " + e.getMessage()); } } } } if (!isPassword || forAutofill) { if (mLayout == null) { assumeLayout(); } Layout layout = mLayout; final int lineCount = layout.getLineCount(); if (lineCount <= 1) { // Simple case: this is a single line. final CharSequence text = getText(); if (forAutofill) { structure.setText(text); } else { structure.setText(text, getSelectionStart(), getSelectionEnd()); } } else { // Complex case: multi-line, could be scrolled or within a scroll container // so some lines are not visible. final int[] tmpCords = new int[2]; getLocationInWindow(tmpCords); final int topWindowLocation = tmpCords[1]; View root = this; ViewParent viewParent = getParent(); while (viewParent instanceof View) { root = (View) viewParent; viewParent = root.getParent(); } final int windowHeight = root.getHeight(); final int topLine; final int bottomLine; if (topWindowLocation >= 0) { // The top of the view is fully within its window; start text at line 0. topLine = getLineAtCoordinateUnclamped(0); bottomLine = getLineAtCoordinateUnclamped(windowHeight - 1); } else { // The top of hte window has scrolled off the top of the window; figure out // the starting line for this. topLine = getLineAtCoordinateUnclamped(-topWindowLocation); bottomLine = getLineAtCoordinateUnclamped(windowHeight - 1 - topWindowLocation); } // We want to return some contextual lines above/below the lines that are // actually visible. int expandedTopLine = topLine - (bottomLine - topLine) / 2; if (expandedTopLine < 0) { expandedTopLine = 0; } int expandedBottomLine = bottomLine + (bottomLine - topLine) / 2; if (expandedBottomLine >= lineCount) { expandedBottomLine = lineCount - 1; } // Convert lines into character offsets. int expandedTopChar = layout.getLineStart(expandedTopLine); int expandedBottomChar = layout.getLineEnd(expandedBottomLine); // Take into account selection -- if there is a selection, we need to expand // the text we are returning to include that selection. final int selStart = getSelectionStart(); final int selEnd = getSelectionEnd(); if (selStart < selEnd) { if (selStart < expandedTopChar) { expandedTopChar = selStart; } if (selEnd > expandedBottomChar) { expandedBottomChar = selEnd; } } // Get the text and trim it to the range we are reporting. CharSequence text = getText(); if (expandedTopChar > 0 || expandedBottomChar < text.length()) { text = text.subSequence(expandedTopChar, expandedBottomChar); } if (forAutofill) { structure.setText(text); } else { structure.setText(text, selStart - expandedTopChar, selEnd - expandedTopChar); final int[] lineOffsets = new int[bottomLine - topLine + 1]; final int[] lineBaselines = new int[bottomLine - topLine + 1]; final int baselineOffset = getBaselineOffset(); for (int i = topLine; i <= bottomLine; i++) { lineOffsets[i - topLine] = layout.getLineStart(i); lineBaselines[i - topLine] = layout.getLineBaseline(i) + baselineOffset; } structure.setTextLines(lineOffsets, lineBaselines); } } if (!forAutofill) { // Extract style information that applies to the TextView as a whole. int style = 0; int typefaceStyle = getTypefaceStyle(); if ((typefaceStyle & Typeface.BOLD) != 0) { style |= AssistStructure.ViewNode.TEXT_STYLE_BOLD; } if ((typefaceStyle & Typeface.ITALIC) != 0) { style |= AssistStructure.ViewNode.TEXT_STYLE_ITALIC; } // Global styles can also be set via TextView.setPaintFlags(). int paintFlags = mTextPaint.getFlags(); if ((paintFlags & Paint.FAKE_BOLD_TEXT_FLAG) != 0) { style |= AssistStructure.ViewNode.TEXT_STYLE_BOLD; } if ((paintFlags & Paint.UNDERLINE_TEXT_FLAG) != 0) { style |= AssistStructure.ViewNode.TEXT_STYLE_UNDERLINE; } if ((paintFlags & Paint.STRIKE_THRU_TEXT_FLAG) != 0) { style |= AssistStructure.ViewNode.TEXT_STYLE_STRIKE_THRU; } // TextView does not have its own text background color. A background is either part // of the View (and can be any drawable) or a BackgroundColorSpan inside the text. structure.setTextStyle(getTextSize(), getCurrentTextColor(), AssistStructure.ViewNode.TEXT_COLOR_UNDEFINED /* bgColor */, style); } else { structure.setMinTextEms(getMinEms()); structure.setMaxTextEms(getMaxEms()); int maxLength = -1; for (InputFilter filter : getFilters()) { if (filter instanceof InputFilter.LengthFilter) { maxLength = ((InputFilter.LengthFilter) filter).getMax(); break; } } structure.setMaxTextLength(maxLength); } } structure.setHint(getHint()); structure.setInputType(getInputType()); } boolean canRequestAutofill() { if (!isAutofillable()) { return false; } final AutofillManager afm = mContext.getSystemService(AutofillManager.class); if (afm != null) { return afm.isEnabled(); } return false; } private void requestAutofill() { final AutofillManager afm = mContext.getSystemService(AutofillManager.class); if (afm != null) { afm.requestAutofill(this); } } @Override public void autofill(AutofillValue value) { if (!value.isText() || !isTextEditable()) { Log.w(LOG_TAG, value + " could not be autofilled into " + this); return; } final CharSequence autofilledValue = value.getTextValue(); // First autofill it... setText(autofilledValue, mBufferType, true, 0); // ...then move cursor to the end. final CharSequence text = getText(); if ((text instanceof Spannable)) { Selection.setSelection((Spannable) text, text.length()); } } @Override public @AutofillType int getAutofillType() { return isTextEditable() ? AUTOFILL_TYPE_TEXT : AUTOFILL_TYPE_NONE; } /** * Gets the {@link TextView}'s current text for AutoFill. The value is trimmed to 100K * {@code char}s if longer. * * @return current text, {@code null} if the text is not editable * * @see View#getAutofillValue() */ @Override @Nullable public AutofillValue getAutofillValue() { if (isTextEditable()) { final CharSequence text = TextUtils.trimToParcelableSize(getText()); return AutofillValue.forText(text); } return null; } /** @hide */ @Override public void onInitializeAccessibilityEventInternal(AccessibilityEvent event) { super.onInitializeAccessibilityEventInternal(event); final boolean isPassword = hasPasswordTransformationMethod(); event.setPassword(isPassword); if (event.getEventType() == AccessibilityEvent.TYPE_VIEW_TEXT_SELECTION_CHANGED) { event.setFromIndex(Selection.getSelectionStart(mText)); event.setToIndex(Selection.getSelectionEnd(mText)); event.setItemCount(mText.length()); } } /** @hide */ @Override public void onInitializeAccessibilityNodeInfoInternal(AccessibilityNodeInfo info) { super.onInitializeAccessibilityNodeInfoInternal(info); final boolean isPassword = hasPasswordTransformationMethod(); info.setPassword(isPassword); info.setText(getTextForAccessibility()); info.setHintText(mHint); info.setShowingHintText(isShowingHint()); if (mBufferType == BufferType.EDITABLE) { info.setEditable(true); if (isEnabled()) { info.addAction(AccessibilityNodeInfo.AccessibilityAction.ACTION_SET_TEXT); } } if (mEditor != null) { info.setInputType(mEditor.mInputType); if (mEditor.mError != null) { info.setContentInvalid(true); info.setError(mEditor.mError); } } if (!TextUtils.isEmpty(mText)) { info.addAction(AccessibilityNodeInfo.ACTION_NEXT_AT_MOVEMENT_GRANULARITY); info.addAction(AccessibilityNodeInfo.ACTION_PREVIOUS_AT_MOVEMENT_GRANULARITY); info.setMovementGranularities(AccessibilityNodeInfo.MOVEMENT_GRANULARITY_CHARACTER | AccessibilityNodeInfo.MOVEMENT_GRANULARITY_WORD | AccessibilityNodeInfo.MOVEMENT_GRANULARITY_LINE | AccessibilityNodeInfo.MOVEMENT_GRANULARITY_PARAGRAPH | AccessibilityNodeInfo.MOVEMENT_GRANULARITY_PAGE); info.addAction(AccessibilityNodeInfo.ACTION_SET_SELECTION); info.setAvailableExtraData(Arrays.asList(EXTRA_DATA_TEXT_CHARACTER_LOCATION_KEY)); } if (isFocused()) { if (canCopy()) { info.addAction(AccessibilityNodeInfo.ACTION_COPY); } if (canPaste()) { info.addAction(AccessibilityNodeInfo.ACTION_PASTE); } if (canCut()) { info.addAction(AccessibilityNodeInfo.ACTION_CUT); } if (canShare()) { info.addAction(new AccessibilityNodeInfo.AccessibilityAction(ACCESSIBILITY_ACTION_SHARE, getResources().getString(com.android.internal.R.string.share))); } if (canProcessText()) { // also implies mEditor is not null. mEditor.mProcessTextIntentActionsHandler.onInitializeAccessibilityNodeInfo(info); } } // Check for known input filter types. final int numFilters = mFilters.length; for (int i = 0; i < numFilters; i++) { final InputFilter filter = mFilters[i]; if (filter instanceof InputFilter.LengthFilter) { info.setMaxTextLength(((InputFilter.LengthFilter) filter).getMax()); } } if (!isSingleLine()) { info.setMultiLine(true); } } @Override public void addExtraDataToAccessibilityNodeInfo(AccessibilityNodeInfo info, String extraDataKey, Bundle arguments) { // The only extra data we support requires arguments. if (arguments == null) { return; } if (extraDataKey.equals(EXTRA_DATA_TEXT_CHARACTER_LOCATION_KEY)) { int positionInfoStartIndex = arguments.getInt(EXTRA_DATA_TEXT_CHARACTER_LOCATION_ARG_START_INDEX, -1); int positionInfoLength = arguments.getInt(EXTRA_DATA_TEXT_CHARACTER_LOCATION_ARG_LENGTH, -1); if ((positionInfoLength <= 0) || (positionInfoStartIndex < 0) || (positionInfoStartIndex >= mText.length())) { Log.e(LOG_TAG, "Invalid arguments for accessibility character locations"); return; } RectF[] boundingRects = new RectF[positionInfoLength]; final CursorAnchorInfo.Builder builder = new CursorAnchorInfo.Builder(); populateCharacterBounds(builder, positionInfoStartIndex, positionInfoStartIndex + positionInfoLength, viewportToContentHorizontalOffset(), viewportToContentVerticalOffset()); CursorAnchorInfo cursorAnchorInfo = builder.setMatrix(null).build(); for (int i = 0; i < positionInfoLength; i++) { int flags = cursorAnchorInfo.getCharacterBoundsFlags(positionInfoStartIndex + i); if ((flags & FLAG_HAS_VISIBLE_REGION) == FLAG_HAS_VISIBLE_REGION) { RectF bounds = cursorAnchorInfo.getCharacterBounds(positionInfoStartIndex + i); if (bounds != null) { mapRectFromViewToScreenCoords(bounds, true); boundingRects[i] = bounds; } } } info.getExtras().putParcelableArray(extraDataKey, boundingRects); } } /** * Populate requested character bounds in a {@link CursorAnchorInfo.Builder} * * @param builder The builder to populate * @param startIndex The starting character index to populate * @param endIndex The ending character index to populate * @param viewportToContentHorizontalOffset The horizontal offset from the viewport to the * content * @param viewportToContentVerticalOffset The vertical offset from the viewport to the content * @hide */ public void populateCharacterBounds(CursorAnchorInfo.Builder builder, int startIndex, int endIndex, float viewportToContentHorizontalOffset, float viewportToContentVerticalOffset) { final int minLine = mLayout.getLineForOffset(startIndex); final int maxLine = mLayout.getLineForOffset(endIndex - 1); for (int line = minLine; line <= maxLine; ++line) { final int lineStart = mLayout.getLineStart(line); final int lineEnd = mLayout.getLineEnd(line); final int offsetStart = Math.max(lineStart, startIndex); final int offsetEnd = Math.min(lineEnd, endIndex); final boolean ltrLine = mLayout.getParagraphDirection(line) == Layout.DIR_LEFT_TO_RIGHT; final float[] widths = new float[offsetEnd - offsetStart]; mLayout.getPaint().getTextWidths(mTransformed, offsetStart, offsetEnd, widths); final float top = mLayout.getLineTop(line); final float bottom = mLayout.getLineBottom(line); for (int offset = offsetStart; offset < offsetEnd; ++offset) { final float charWidth = widths[offset - offsetStart]; final boolean isRtl = mLayout.isRtlCharAt(offset); final float primary = mLayout.getPrimaryHorizontal(offset); final float secondary = mLayout.getSecondaryHorizontal(offset); // TODO: This doesn't work perfectly for text with custom styles and // TAB chars. final float left; final float right; if (ltrLine) { if (isRtl) { left = secondary - charWidth; right = secondary; } else { left = primary; right = primary + charWidth; } } else { if (!isRtl) { left = secondary; right = secondary + charWidth; } else { left = primary - charWidth; right = primary; } } // TODO: Check top-right and bottom-left as well. final float localLeft = left + viewportToContentHorizontalOffset; final float localRight = right + viewportToContentHorizontalOffset; final float localTop = top + viewportToContentVerticalOffset; final float localBottom = bottom + viewportToContentVerticalOffset; final boolean isTopLeftVisible = isPositionVisible(localLeft, localTop); final boolean isBottomRightVisible = isPositionVisible(localRight, localBottom); int characterBoundsFlags = 0; if (isTopLeftVisible || isBottomRightVisible) { characterBoundsFlags |= FLAG_HAS_VISIBLE_REGION; } if (!isTopLeftVisible || !isBottomRightVisible) { characterBoundsFlags |= CursorAnchorInfo.FLAG_HAS_INVISIBLE_REGION; } if (isRtl) { characterBoundsFlags |= CursorAnchorInfo.FLAG_IS_RTL; } // Here offset is the index in Java chars. builder.addCharacterBounds(offset, localLeft, localTop, localRight, localBottom, characterBoundsFlags); } } } /** * @hide */ public boolean isPositionVisible(final float positionX, final float positionY) { synchronized (TEMP_POSITION) { final float[] position = TEMP_POSITION; position[0] = positionX; position[1] = positionY; View view = this; while (view != null) { if (view != this) { // Local scroll is already taken into account in positionX/Y position[0] -= view.getScrollX(); position[1] -= view.getScrollY(); } if (position[0] < 0 || position[1] < 0 || position[0] > view.getWidth() || position[1] > view.getHeight()) { return false; } if (!view.getMatrix().isIdentity()) { view.getMatrix().mapPoints(position); } position[0] += view.getLeft(); position[1] += view.getTop(); final ViewParent parent = view.getParent(); if (parent instanceof View) { view = (View) parent; } else { // We've reached the ViewRoot, stop iterating view = null; } } } // We've been able to walk up the view hierarchy and the position was never clipped return true; } /** * Performs an accessibility action after it has been offered to the * delegate. * * @hide */ @Override public boolean performAccessibilityActionInternal(int action, Bundle arguments) { if (mEditor != null && mEditor.mProcessTextIntentActionsHandler.performAccessibilityAction(action)) { return true; } switch (action) { case AccessibilityNodeInfo.ACTION_CLICK: { return performAccessibilityActionClick(arguments); } case AccessibilityNodeInfo.ACTION_COPY: { if (isFocused() && canCopy()) { if (onTextContextMenuItem(ID_COPY)) { return true; } } } return false; case AccessibilityNodeInfo.ACTION_PASTE: { if (isFocused() && canPaste()) { if (onTextContextMenuItem(ID_PASTE)) { return true; } } } return false; case AccessibilityNodeInfo.ACTION_CUT: { if (isFocused() && canCut()) { if (onTextContextMenuItem(ID_CUT)) { return true; } } } return false; case AccessibilityNodeInfo.ACTION_SET_SELECTION: { ensureIterableTextForAccessibilitySelectable(); CharSequence text = getIterableTextForAccessibility(); if (text == null) { return false; } final int start = (arguments != null) ? arguments.getInt(AccessibilityNodeInfo.ACTION_ARGUMENT_SELECTION_START_INT, -1) : -1; final int end = (arguments != null) ? arguments.getInt(AccessibilityNodeInfo.ACTION_ARGUMENT_SELECTION_END_INT, -1) : -1; if ((getSelectionStart() != start || getSelectionEnd() != end)) { // No arguments clears the selection. if (start == end && end == -1) { Selection.removeSelection((Spannable) text); return true; } if (start >= 0 && start <= end && end <= text.length()) { Selection.setSelection((Spannable) text, start, end); // Make sure selection mode is engaged. if (mEditor != null) { mEditor.startSelectionActionModeAsync(false); } return true; } } } return false; case AccessibilityNodeInfo.ACTION_NEXT_AT_MOVEMENT_GRANULARITY: case AccessibilityNodeInfo.ACTION_PREVIOUS_AT_MOVEMENT_GRANULARITY: { ensureIterableTextForAccessibilitySelectable(); return super.performAccessibilityActionInternal(action, arguments); } case ACCESSIBILITY_ACTION_SHARE: { if (isFocused() && canShare()) { if (onTextContextMenuItem(ID_SHARE)) { return true; } } } return false; case AccessibilityNodeInfo.ACTION_SET_TEXT: { if (!isEnabled() || (mBufferType != BufferType.EDITABLE)) { return false; } CharSequence text = (arguments != null) ? arguments.getCharSequence(AccessibilityNodeInfo.ACTION_ARGUMENT_SET_TEXT_CHARSEQUENCE) : null; setText(text); if (mText != null) { int updatedTextLength = mText.length(); if (updatedTextLength > 0) { Selection.setSelection(mSpannable, updatedTextLength); } } } return true; default: { return super.performAccessibilityActionInternal(action, arguments); } } } private boolean performAccessibilityActionClick(Bundle arguments) { boolean handled = false; if (!isEnabled()) { return false; } if (isClickable() || isLongClickable()) { // Simulate View.onTouchEvent for an ACTION_UP event if (isFocusable() && !isFocused()) { requestFocus(); } performClick(); handled = true; } // Show the IME, except when selecting in read-only text. if ((mMovement != null || onCheckIsTextEditor()) && hasSpannableText() && mLayout != null && (isTextEditable() || isTextSelectable()) && isFocused()) { final InputMethodManager imm = InputMethodManager.peekInstance(); viewClicked(imm); if (!isTextSelectable() && mEditor.mShowSoftInputOnFocus && imm != null) { handled |= imm.showSoftInput(this, 0); } } return handled; } private boolean hasSpannableText() { return mText != null && mText instanceof Spannable; } /** @hide */ @Override public void sendAccessibilityEventInternal(int eventType) { if (eventType == AccessibilityEvent.TYPE_VIEW_ACCESSIBILITY_FOCUSED && mEditor != null) { mEditor.mProcessTextIntentActionsHandler.initializeAccessibilityActions(); } super.sendAccessibilityEventInternal(eventType); } @Override public void sendAccessibilityEventUnchecked(AccessibilityEvent event) { // Do not send scroll events since first they are not interesting for // accessibility and second such events a generated too frequently. // For details see the implementation of bringTextIntoView(). if (event.getEventType() == AccessibilityEvent.TYPE_VIEW_SCROLLED) { return; } super.sendAccessibilityEventUnchecked(event); } /** * Returns the text that should be exposed to accessibility services. * <p> * This approximates what is displayed visually. If the user has specified * that accessibility services should speak passwords, this method will * bypass any password transformation method and return unobscured text. * * @return the text that should be exposed to accessibility services, may * be {@code null} if no text is set */ @Nullable @UnsupportedAppUsage private CharSequence getTextForAccessibility() { // If the text is empty, we must be showing the hint text. if (TextUtils.isEmpty(mText)) { return mHint; } // Otherwise, return whatever text is being displayed. return TextUtils.trimToParcelableSize(mTransformed); } void sendAccessibilityEventTypeViewTextChanged(CharSequence beforeText, int fromIndex, int removedCount, int addedCount) { AccessibilityEvent event = AccessibilityEvent.obtain(AccessibilityEvent.TYPE_VIEW_TEXT_CHANGED); event.setFromIndex(fromIndex); event.setRemovedCount(removedCount); event.setAddedCount(addedCount); event.setBeforeText(beforeText); sendAccessibilityEventUnchecked(event); } /** * Returns whether this text view is a current input method target. The * default implementation just checks with {@link InputMethodManager}. * @return True if the TextView is a current input method target; false otherwise. */ public boolean isInputMethodTarget() { InputMethodManager imm = InputMethodManager.peekInstance(); return imm != null && imm.isActive(this); } static final int ID_SELECT_ALL = android.R.id.selectAll; static final int ID_UNDO = android.R.id.undo; static final int ID_REDO = android.R.id.redo; static final int ID_CUT = android.R.id.cut; static final int ID_COPY = android.R.id.copy; static final int ID_PASTE = android.R.id.paste; static final int ID_SHARE = android.R.id.shareText; static final int ID_PASTE_AS_PLAIN_TEXT = android.R.id.pasteAsPlainText; static final int ID_REPLACE = android.R.id.replaceText; static final int ID_ASSIST = android.R.id.textAssist; static final int ID_AUTOFILL = android.R.id.autofill; /** * Called when a context menu option for the text view is selected. Currently * this will be one of {@link android.R.id#selectAll}, {@link android.R.id#cut}, * {@link android.R.id#copy}, {@link android.R.id#paste} or {@link android.R.id#shareText}. * * @return true if the context menu item action was performed. */ public boolean onTextContextMenuItem(int id) { int min = 0; int max = mText.length(); if (isFocused()) { final int selStart = getSelectionStart(); final int selEnd = getSelectionEnd(); min = Math.max(0, Math.min(selStart, selEnd)); max = Math.max(0, Math.max(selStart, selEnd)); } switch (id) { case ID_SELECT_ALL: final boolean hadSelection = hasSelection(); selectAllText(); if (mEditor != null && hadSelection) { mEditor.invalidateActionModeAsync(); } return true; case ID_UNDO: if (mEditor != null) { mEditor.undo(); } return true; // Returns true even if nothing was undone. case ID_REDO: if (mEditor != null) { mEditor.redo(); } return true; // Returns true even if nothing was undone. case ID_PASTE: paste(min, max, true /* withFormatting */); return true; case ID_PASTE_AS_PLAIN_TEXT: paste(min, max, false /* withFormatting */); return true; case ID_CUT: final ClipData cutData = ClipData.newPlainText(null, getTransformedText(min, max)); if (setPrimaryClip(cutData)) { deleteText_internal(min, max); } else { Toast.makeText(getContext(), com.android.internal.R.string.failed_to_copy_to_clipboard, Toast.LENGTH_SHORT).show(); } return true; case ID_COPY: // For link action mode in a non-selectable/non-focusable TextView, // make sure that we set the appropriate min/max. final int selStart = getSelectionStart(); final int selEnd = getSelectionEnd(); min = Math.max(0, Math.min(selStart, selEnd)); max = Math.max(0, Math.max(selStart, selEnd)); final ClipData copyData = ClipData.newPlainText(null, getTransformedText(min, max)); if (setPrimaryClip(copyData)) { stopTextActionMode(); } else { Toast.makeText(getContext(), com.android.internal.R.string.failed_to_copy_to_clipboard, Toast.LENGTH_SHORT).show(); } return true; case ID_REPLACE: if (mEditor != null) { mEditor.replace(); } return true; case ID_SHARE: shareSelectedText(); return true; case ID_AUTOFILL: requestAutofill(); stopTextActionMode(); return true; } return false; } @UnsupportedAppUsage CharSequence getTransformedText(int start, int end) { return removeSuggestionSpans(mTransformed.subSequence(start, end)); } @Override public boolean performLongClick() { boolean handled = false; boolean performedHapticFeedback = false; if (mEditor != null) { mEditor.mIsBeingLongClicked = true; } if (super.performLongClick()) { handled = true; performedHapticFeedback = true; } if (mEditor != null) { handled |= mEditor.performLongClick(handled); mEditor.mIsBeingLongClicked = false; } if (handled) { if (!performedHapticFeedback) { performHapticFeedback(HapticFeedbackConstants.LONG_PRESS); } if (mEditor != null) mEditor.mDiscardNextActionUp = true; } else { MetricsLogger.action(mContext, MetricsEvent.TEXT_LONGPRESS, TextViewMetrics.SUBTYPE_LONG_PRESS_OTHER); } return handled; } @Override protected void onScrollChanged(int horiz, int vert, int oldHoriz, int oldVert) { super.onScrollChanged(horiz, vert, oldHoriz, oldVert); if (mEditor != null) { mEditor.onScrollChanged(); } } /** * Return whether or not suggestions are enabled on this TextView. The suggestions are generated * by the IME or by the spell checker as the user types. This is done by adding * {@link SuggestionSpan}s to the text. * * When suggestions are enabled (default), this list of suggestions will be displayed when the * user asks for them on these parts of the text. This value depends on the inputType of this * TextView. * * The class of the input type must be {@link InputType#TYPE_CLASS_TEXT}. * * In addition, the type variation must be one of * {@link InputType#TYPE_TEXT_VARIATION_NORMAL}, * {@link InputType#TYPE_TEXT_VARIATION_EMAIL_SUBJECT}, * {@link InputType#TYPE_TEXT_VARIATION_LONG_MESSAGE}, * {@link InputType#TYPE_TEXT_VARIATION_SHORT_MESSAGE} or * {@link InputType#TYPE_TEXT_VARIATION_WEB_EDIT_TEXT}. * * And finally, the {@link InputType#TYPE_TEXT_FLAG_NO_SUGGESTIONS} flag must <i>not</i> be set. * * @return true if the suggestions popup window is enabled, based on the inputType. */ public boolean isSuggestionsEnabled() { if (mEditor == null) return false; if ((mEditor.mInputType & InputType.TYPE_MASK_CLASS) != InputType.TYPE_CLASS_TEXT) { return false; } if ((mEditor.mInputType & InputType.TYPE_TEXT_FLAG_NO_SUGGESTIONS) > 0) return false; final int variation = mEditor.mInputType & EditorInfo.TYPE_MASK_VARIATION; return (variation == EditorInfo.TYPE_TEXT_VARIATION_NORMAL || variation == EditorInfo.TYPE_TEXT_VARIATION_EMAIL_SUBJECT || variation == EditorInfo.TYPE_TEXT_VARIATION_LONG_MESSAGE || variation == EditorInfo.TYPE_TEXT_VARIATION_SHORT_MESSAGE || variation == EditorInfo.TYPE_TEXT_VARIATION_WEB_EDIT_TEXT); } /** * If provided, this ActionMode.Callback will be used to create the ActionMode when text * selection is initiated in this View. * * <p>The standard implementation populates the menu with a subset of Select All, Cut, Copy, * Paste, Replace and Share actions, depending on what this View supports. * * <p>A custom implementation can add new entries in the default menu in its * {@link android.view.ActionMode.Callback#onPrepareActionMode(ActionMode, android.view.Menu)} * method. The default actions can also be removed from the menu using * {@link android.view.Menu#removeItem(int)} and passing {@link android.R.id#selectAll}, * {@link android.R.id#cut}, {@link android.R.id#copy}, {@link android.R.id#paste}, * {@link android.R.id#replaceText} or {@link android.R.id#shareText} ids as parameters. * * <p>Returning false from * {@link android.view.ActionMode.Callback#onCreateActionMode(ActionMode, android.view.Menu)} * will prevent the action mode from being started. * * <p>Action click events should be handled by the custom implementation of * {@link android.view.ActionMode.Callback#onActionItemClicked(ActionMode, * android.view.MenuItem)}. * * <p>Note that text selection mode is not started when a TextView receives focus and the * {@link android.R.attr#selectAllOnFocus} flag has been set. The content is highlighted in * that case, to allow for quick replacement. */ public void setCustomSelectionActionModeCallback(ActionMode.Callback actionModeCallback) { createEditorIfNeeded(); mEditor.mCustomSelectionActionModeCallback = actionModeCallback; } /** * Retrieves the value set in {@link #setCustomSelectionActionModeCallback}. Default is null. * * @return The current custom selection callback. */ public ActionMode.Callback getCustomSelectionActionModeCallback() { return mEditor == null ? null : mEditor.mCustomSelectionActionModeCallback; } /** * If provided, this ActionMode.Callback will be used to create the ActionMode when text * insertion is initiated in this View. * The standard implementation populates the menu with a subset of Select All, * Paste and Replace actions, depending on what this View supports. * * <p>A custom implementation can add new entries in the default menu in its * {@link android.view.ActionMode.Callback#onPrepareActionMode(android.view.ActionMode, * android.view.Menu)} method. The default actions can also be removed from the menu using * {@link android.view.Menu#removeItem(int)} and passing {@link android.R.id#selectAll}, * {@link android.R.id#paste} or {@link android.R.id#replaceText} ids as parameters.</p> * * <p>Returning false from * {@link android.view.ActionMode.Callback#onCreateActionMode(android.view.ActionMode, * android.view.Menu)} will prevent the action mode from being started.</p> * * <p>Action click events should be handled by the custom implementation of * {@link android.view.ActionMode.Callback#onActionItemClicked(android.view.ActionMode, * android.view.MenuItem)}.</p> * * <p>Note that text insertion mode is not started when a TextView receives focus and the * {@link android.R.attr#selectAllOnFocus} flag has been set.</p> */ public void setCustomInsertionActionModeCallback(ActionMode.Callback actionModeCallback) { createEditorIfNeeded(); mEditor.mCustomInsertionActionModeCallback = actionModeCallback; } /** * Retrieves the value set in {@link #setCustomInsertionActionModeCallback}. Default is null. * * @return The current custom insertion callback. */ public ActionMode.Callback getCustomInsertionActionModeCallback() { return mEditor == null ? null : mEditor.mCustomInsertionActionModeCallback; } /** * Sets the {@link TextClassifier} for this TextView. */ public void setTextClassifier(@Nullable TextClassifier textClassifier) { mTextClassifier = textClassifier; } /** * Returns the {@link TextClassifier} used by this TextView. * If no TextClassifier has been set, this TextView uses the default set by the * {@link TextClassificationManager}. */ @NonNull public TextClassifier getTextClassifier() { if (mTextClassifier == null) { final TextClassificationManager tcm = mContext.getSystemService(TextClassificationManager.class); if (tcm != null) { return tcm.getTextClassifier(); } return TextClassifier.NO_OP; } return mTextClassifier; } /** * Returns a session-aware text classifier. * This method creates one if none already exists or the current one is destroyed. */ @NonNull TextClassifier getTextClassificationSession() { if (mTextClassificationSession == null || mTextClassificationSession.isDestroyed()) { final TextClassificationManager tcm = mContext.getSystemService(TextClassificationManager.class); if (tcm != null) { final String widgetType; if (isTextEditable()) { widgetType = TextClassifier.WIDGET_TYPE_EDITTEXT; } else if (isTextSelectable()) { widgetType = TextClassifier.WIDGET_TYPE_TEXTVIEW; } else { widgetType = TextClassifier.WIDGET_TYPE_UNSELECTABLE_TEXTVIEW; } final TextClassificationContext textClassificationContext = new TextClassificationContext.Builder( mContext.getPackageName(), widgetType).build(); if (mTextClassifier != null) { mTextClassificationSession = tcm.createTextClassificationSession(textClassificationContext, mTextClassifier); } else { mTextClassificationSession = tcm.createTextClassificationSession(textClassificationContext); } } else { mTextClassificationSession = TextClassifier.NO_OP; } } return mTextClassificationSession; } /** * Returns true if this TextView uses a no-op TextClassifier. */ boolean usesNoOpTextClassifier() { return getTextClassifier() == TextClassifier.NO_OP; } /** * Starts an ActionMode for the specified TextLinkSpan. * * @return Whether or not we're attempting to start the action mode. * @hide */ public boolean requestActionMode(@NonNull TextLinks.TextLinkSpan clickedSpan) { Preconditions.checkNotNull(clickedSpan); if (!(mText instanceof Spanned)) { return false; } final int start = ((Spanned) mText).getSpanStart(clickedSpan); final int end = ((Spanned) mText).getSpanEnd(clickedSpan); if (start < 0 || end > mText.length() || start >= end) { return false; } createEditorIfNeeded(); mEditor.startLinkActionModeAsync(start, end); return true; } /** * Handles a click on the specified TextLinkSpan. * * @return Whether or not the click is being handled. * @hide */ public boolean handleClick(@NonNull TextLinks.TextLinkSpan clickedSpan) { Preconditions.checkNotNull(clickedSpan); if (mText instanceof Spanned) { final Spanned spanned = (Spanned) mText; final int start = spanned.getSpanStart(clickedSpan); final int end = spanned.getSpanEnd(clickedSpan); if (start >= 0 && end <= mText.length() && start < end) { final TextClassification.Request request = new TextClassification.Request.Builder(mText, start, end) .setDefaultLocales(getTextLocales()).build(); final Supplier<TextClassification> supplier = () -> getTextClassifier().classifyText(request); final Consumer<TextClassification> consumer = classification -> { if (classification != null) { if (!classification.getActions().isEmpty()) { try { classification.getActions().get(0).getActionIntent().send(); } catch (PendingIntent.CanceledException e) { Log.e(LOG_TAG, "Error sending PendingIntent", e); } } else { Log.d(LOG_TAG, "No link action to perform"); } } else { // classification == null Log.d(LOG_TAG, "Timeout while classifying text"); } }; CompletableFuture.supplyAsync(supplier).completeOnTimeout(null, 1, TimeUnit.SECONDS) .thenAccept(consumer); return true; } } return false; } /** * @hide */ @UnsupportedAppUsage protected void stopTextActionMode() { if (mEditor != null) { mEditor.stopTextActionMode(); } } /** @hide */ public void hideFloatingToolbar(int durationMs) { if (mEditor != null) { mEditor.hideFloatingToolbar(durationMs); } } boolean canUndo() { return mEditor != null && mEditor.canUndo(); } boolean canRedo() { return mEditor != null && mEditor.canRedo(); } boolean canCut() { if (hasPasswordTransformationMethod()) { return false; } if (mText.length() > 0 && hasSelection() && mText instanceof Editable && mEditor != null && mEditor.mKeyListener != null) { return true; } return false; } boolean canCopy() { if (hasPasswordTransformationMethod()) { return false; } if (mText.length() > 0 && hasSelection() && mEditor != null) { return true; } return false; } boolean canShare() { if (!getContext().canStartActivityForResult() || !isDeviceProvisioned()) { return false; } return canCopy(); } boolean isDeviceProvisioned() { if (mDeviceProvisionedState == DEVICE_PROVISIONED_UNKNOWN) { mDeviceProvisionedState = Settings.Global.getInt(mContext.getContentResolver(), Settings.Global.DEVICE_PROVISIONED, 0) != 0 ? DEVICE_PROVISIONED_YES : DEVICE_PROVISIONED_NO; } return mDeviceProvisionedState == DEVICE_PROVISIONED_YES; } @UnsupportedAppUsage boolean canPaste() { return (mText instanceof Editable && mEditor != null && mEditor.mKeyListener != null && getSelectionStart() >= 0 && getSelectionEnd() >= 0 && ((ClipboardManager) getContext().getSystemService(Context.CLIPBOARD_SERVICE)).hasPrimaryClip()); } boolean canPasteAsPlainText() { if (!canPaste()) { return false; } final ClipData clipData = ((ClipboardManager) getContext().getSystemService(Context.CLIPBOARD_SERVICE)) .getPrimaryClip(); final ClipDescription description = clipData.getDescription(); final boolean isPlainType = description.hasMimeType(ClipDescription.MIMETYPE_TEXT_PLAIN); final CharSequence text = clipData.getItemAt(0).getText(); if (isPlainType && (text instanceof Spanned)) { Spanned spanned = (Spanned) text; if (TextUtils.hasStyleSpan(spanned)) { return true; } } return description.hasMimeType(ClipDescription.MIMETYPE_TEXT_HTML); } boolean canProcessText() { if (getId() == View.NO_ID) { return false; } return canShare(); } boolean canSelectAllText() { return canSelectText() && !hasPasswordTransformationMethod() && !(getSelectionStart() == 0 && getSelectionEnd() == mText.length()); } boolean selectAllText() { if (mEditor != null) { // Hide the toolbar before changing the selection to avoid flickering. hideFloatingToolbar(FLOATING_TOOLBAR_SELECT_ALL_REFRESH_DELAY); } final int length = mText.length(); Selection.setSelection(mSpannable, 0, length); return length > 0; } void replaceSelectionWithText(CharSequence text) { ((Editable) mText).replace(getSelectionStart(), getSelectionEnd(), text); } /** * Paste clipboard content between min and max positions. */ private void paste(int min, int max, boolean withFormatting) { ClipboardManager clipboard = (ClipboardManager) getContext().getSystemService(Context.CLIPBOARD_SERVICE); ClipData clip = clipboard.getPrimaryClip(); if (clip != null) { boolean didFirst = false; for (int i = 0; i < clip.getItemCount(); i++) { final CharSequence paste; if (withFormatting) { paste = clip.getItemAt(i).coerceToStyledText(getContext()); } else { // Get an item as text and remove all spans by toString(). final CharSequence text = clip.getItemAt(i).coerceToText(getContext()); paste = (text instanceof Spanned) ? text.toString() : text; } if (paste != null) { if (!didFirst) { Selection.setSelection(mSpannable, max); ((Editable) mText).replace(min, max, paste); didFirst = true; } else { ((Editable) mText).insert(getSelectionEnd(), "\n"); ((Editable) mText).insert(getSelectionEnd(), paste); } } } sLastCutCopyOrTextChangedTime = 0; } } private void shareSelectedText() { String selectedText = getSelectedText(); if (selectedText != null && !selectedText.isEmpty()) { Intent sharingIntent = new Intent(android.content.Intent.ACTION_SEND); sharingIntent.setType("text/plain"); sharingIntent.removeExtra(android.content.Intent.EXTRA_TEXT); selectedText = TextUtils.trimToParcelableSize(selectedText); sharingIntent.putExtra(android.content.Intent.EXTRA_TEXT, selectedText); getContext().startActivity(Intent.createChooser(sharingIntent, null)); Selection.setSelection(mSpannable, getSelectionEnd()); } } @CheckResult private boolean setPrimaryClip(ClipData clip) { ClipboardManager clipboard = (ClipboardManager) getContext().getSystemService(Context.CLIPBOARD_SERVICE); try { clipboard.setPrimaryClip(clip); } catch (Throwable t) { return false; } sLastCutCopyOrTextChangedTime = SystemClock.uptimeMillis(); return true; } /** * Get the character offset closest to the specified absolute position. A typical use case is to * pass the result of {@link MotionEvent#getX()} and {@link MotionEvent#getY()} to this method. * * @param x The horizontal absolute position of a point on screen * @param y The vertical absolute position of a point on screen * @return the character offset for the character whose position is closest to the specified * position. Returns -1 if there is no layout. */ public int getOffsetForPosition(float x, float y) { if (getLayout() == null) return -1; final int line = getLineAtCoordinate(y); final int offset = getOffsetAtCoordinate(line, x); return offset; } float convertToLocalHorizontalCoordinate(float x) { x -= getTotalPaddingLeft(); // Clamp the position to inside of the view. x = Math.max(0.0f, x); x = Math.min(getWidth() - getTotalPaddingRight() - 1, x); x += getScrollX(); return x; } @UnsupportedAppUsage int getLineAtCoordinate(float y) { y -= getTotalPaddingTop(); // Clamp the position to inside of the view. y = Math.max(0.0f, y); y = Math.min(getHeight() - getTotalPaddingBottom() - 1, y); y += getScrollY(); return getLayout().getLineForVertical((int) y); } int getLineAtCoordinateUnclamped(float y) { y -= getTotalPaddingTop(); y += getScrollY(); return getLayout().getLineForVertical((int) y); } int getOffsetAtCoordinate(int line, float x) { x = convertToLocalHorizontalCoordinate(x); return getLayout().getOffsetForHorizontal(line, x); } @Override public boolean onDragEvent(DragEvent event) { switch (event.getAction()) { case DragEvent.ACTION_DRAG_STARTED: return mEditor != null && mEditor.hasInsertionController(); case DragEvent.ACTION_DRAG_ENTERED: TextView.this.requestFocus(); return true; case DragEvent.ACTION_DRAG_LOCATION: if (mText instanceof Spannable) { final int offset = getOffsetForPosition(event.getX(), event.getY()); Selection.setSelection(mSpannable, offset); } return true; case DragEvent.ACTION_DROP: if (mEditor != null) mEditor.onDrop(event); return true; case DragEvent.ACTION_DRAG_ENDED: case DragEvent.ACTION_DRAG_EXITED: default: return true; } } boolean isInBatchEditMode() { if (mEditor == null) return false; final Editor.InputMethodState ims = mEditor.mInputMethodState; if (ims != null) { return ims.mBatchEditNesting > 0; } return mEditor.mInBatchEditControllers; } @Override public void onRtlPropertiesChanged(int layoutDirection) { super.onRtlPropertiesChanged(layoutDirection); final TextDirectionHeuristic newTextDir = getTextDirectionHeuristic(); if (mTextDir != newTextDir) { mTextDir = newTextDir; if (mLayout != null) { checkForRelayout(); } } } /** * Returns the current {@link TextDirectionHeuristic}. * * @return the current {@link TextDirectionHeuristic}. * @hide */ @UnsupportedAppUsage protected TextDirectionHeuristic getTextDirectionHeuristic() { if (hasPasswordTransformationMethod()) { // passwords fields should be LTR return TextDirectionHeuristics.LTR; } if (mEditor != null && (mEditor.mInputType & EditorInfo.TYPE_MASK_CLASS) == EditorInfo.TYPE_CLASS_PHONE) { // Phone numbers must be in the direction of the locale's digits. Most locales have LTR // digits, but some locales, such as those written in the Adlam or N'Ko scripts, have // RTL digits. final DecimalFormatSymbols symbols = DecimalFormatSymbols.getInstance(getTextLocale()); final String zero = symbols.getDigitStrings()[0]; // In case the zero digit is multi-codepoint, just use the first codepoint to determine // direction. final int firstCodepoint = zero.codePointAt(0); final byte digitDirection = Character.getDirectionality(firstCodepoint); if (digitDirection == Character.DIRECTIONALITY_RIGHT_TO_LEFT || digitDirection == Character.DIRECTIONALITY_RIGHT_TO_LEFT_ARABIC) { return TextDirectionHeuristics.RTL; } else { return TextDirectionHeuristics.LTR; } } // Always need to resolve layout direction first final boolean defaultIsRtl = (getLayoutDirection() == LAYOUT_DIRECTION_RTL); // Now, we can select the heuristic switch (getTextDirection()) { default: case TEXT_DIRECTION_FIRST_STRONG: return (defaultIsRtl ? TextDirectionHeuristics.FIRSTSTRONG_RTL : TextDirectionHeuristics.FIRSTSTRONG_LTR); case TEXT_DIRECTION_ANY_RTL: return TextDirectionHeuristics.ANYRTL_LTR; case TEXT_DIRECTION_LTR: return TextDirectionHeuristics.LTR; case TEXT_DIRECTION_RTL: return TextDirectionHeuristics.RTL; case TEXT_DIRECTION_LOCALE: return TextDirectionHeuristics.LOCALE; case TEXT_DIRECTION_FIRST_STRONG_LTR: return TextDirectionHeuristics.FIRSTSTRONG_LTR; case TEXT_DIRECTION_FIRST_STRONG_RTL: return TextDirectionHeuristics.FIRSTSTRONG_RTL; } } /** * @hide */ @Override public void onResolveDrawables(int layoutDirection) { // No need to resolve twice if (mLastLayoutDirection == layoutDirection) { return; } mLastLayoutDirection = layoutDirection; // Resolve drawables if (mDrawables != null) { if (mDrawables.resolveWithLayoutDirection(layoutDirection)) { prepareDrawableForDisplay(mDrawables.mShowing[Drawables.LEFT]); prepareDrawableForDisplay(mDrawables.mShowing[Drawables.RIGHT]); applyCompoundDrawableTint(); } } } /** * Prepares a drawable for display by propagating layout direction and * drawable state. * * @param dr the drawable to prepare */ private void prepareDrawableForDisplay(@Nullable Drawable dr) { if (dr == null) { return; } dr.setLayoutDirection(getLayoutDirection()); if (dr.isStateful()) { dr.setState(getDrawableState()); dr.jumpToCurrentState(); } } /** * @hide */ protected void resetResolvedDrawables() { super.resetResolvedDrawables(); mLastLayoutDirection = -1; } /** * @hide */ protected void viewClicked(InputMethodManager imm) { if (imm != null) { imm.viewClicked(this); } } /** * Deletes the range of text [start, end[. * @hide */ @UnsupportedAppUsage protected void deleteText_internal(int start, int end) { ((Editable) mText).delete(start, end); } /** * Replaces the range of text [start, end[ by replacement text * @hide */ protected void replaceText_internal(int start, int end, CharSequence text) { ((Editable) mText).replace(start, end, text); } /** * Sets a span on the specified range of text * @hide */ protected void setSpan_internal(Object span, int start, int end, int flags) { ((Editable) mText).setSpan(span, start, end, flags); } /** * Moves the cursor to the specified offset position in text * @hide */ protected void setCursorPosition_internal(int start, int end) { Selection.setSelection(((Editable) mText), start, end); } /** * An Editor should be created as soon as any of the editable-specific fields (grouped * inside the Editor object) is assigned to a non-default value. * This method will create the Editor if needed. * * A standard TextView (as well as buttons, checkboxes...) should not qualify and hence will * have a null Editor, unlike an EditText. Inconsistent in-between states will have an * Editor for backward compatibility, as soon as one of these fields is assigned. * * Also note that for performance reasons, the mEditor is created when needed, but not * reset when no more edit-specific fields are needed. */ @UnsupportedAppUsage private void createEditorIfNeeded() { if (mEditor == null) { mEditor = new Editor(this); } } /** * @hide */ @Override @UnsupportedAppUsage public CharSequence getIterableTextForAccessibility() { return mText; } private void ensureIterableTextForAccessibilitySelectable() { if (!(mText instanceof Spannable)) { setText(mText, BufferType.SPANNABLE); } } /** * @hide */ @Override public TextSegmentIterator getIteratorForGranularity(int granularity) { switch (granularity) { case AccessibilityNodeInfo.MOVEMENT_GRANULARITY_LINE: { Spannable text = (Spannable) getIterableTextForAccessibility(); if (!TextUtils.isEmpty(text) && getLayout() != null) { AccessibilityIterators.LineTextSegmentIterator iterator = AccessibilityIterators.LineTextSegmentIterator .getInstance(); iterator.initialize(text, getLayout()); return iterator; } } break; case AccessibilityNodeInfo.MOVEMENT_GRANULARITY_PAGE: { Spannable text = (Spannable) getIterableTextForAccessibility(); if (!TextUtils.isEmpty(text) && getLayout() != null) { AccessibilityIterators.PageTextSegmentIterator iterator = AccessibilityIterators.PageTextSegmentIterator .getInstance(); iterator.initialize(this); return iterator; } } break; } return super.getIteratorForGranularity(granularity); } /** * @hide */ @Override public int getAccessibilitySelectionStart() { return getSelectionStart(); } /** * @hide */ public boolean isAccessibilitySelectionExtendable() { return true; } /** * @hide */ @Override public int getAccessibilitySelectionEnd() { return getSelectionEnd(); } /** * @hide */ @Override public void setAccessibilitySelection(int start, int end) { if (getAccessibilitySelectionStart() == start && getAccessibilitySelectionEnd() == end) { return; } CharSequence text = getIterableTextForAccessibility(); if (Math.min(start, end) >= 0 && Math.max(start, end) <= text.length()) { Selection.setSelection((Spannable) text, start, end); } else { Selection.removeSelection((Spannable) text); } // Hide all selection controllers used for adjusting selection // since we are doing so explicitlty by other means and these // controllers interact with how selection behaves. if (mEditor != null) { mEditor.hideCursorAndSpanControllers(); mEditor.stopTextActionMode(); } } /** @hide */ @Override protected void encodeProperties(@NonNull ViewHierarchyEncoder stream) { super.encodeProperties(stream); TruncateAt ellipsize = getEllipsize(); stream.addProperty("text:ellipsize", ellipsize == null ? null : ellipsize.name()); stream.addProperty("text:textSize", getTextSize()); stream.addProperty("text:scaledTextSize", getScaledTextSize()); stream.addProperty("text:typefaceStyle", getTypefaceStyle()); stream.addProperty("text:selectionStart", getSelectionStart()); stream.addProperty("text:selectionEnd", getSelectionEnd()); stream.addProperty("text:curTextColor", mCurTextColor); stream.addProperty("text:text", mText == null ? null : mText.toString()); stream.addProperty("text:gravity", mGravity); } /** * User interface state that is stored by TextView for implementing * {@link View#onSaveInstanceState}. */ public static class SavedState extends BaseSavedState { int selStart = -1; int selEnd = -1; @UnsupportedAppUsage CharSequence text; boolean frozenWithFocus; CharSequence error; ParcelableParcel editorState; // Optional state from Editor. SavedState(Parcelable superState) { super(superState); } @Override public void writeToParcel(Parcel out, int flags) { super.writeToParcel(out, flags); out.writeInt(selStart); out.writeInt(selEnd); out.writeInt(frozenWithFocus ? 1 : 0); TextUtils.writeToParcel(text, out, flags); if (error == null) { out.writeInt(0); } else { out.writeInt(1); TextUtils.writeToParcel(error, out, flags); } if (editorState == null) { out.writeInt(0); } else { out.writeInt(1); editorState.writeToParcel(out, flags); } } @Override public String toString() { String str = "TextView.SavedState{" + Integer.toHexString(System.identityHashCode(this)) + " start=" + selStart + " end=" + selEnd; if (text != null) { str += " text=" + text; } return str + "}"; } @SuppressWarnings("hiding") public static final Parcelable.Creator<SavedState> CREATOR = new Parcelable.Creator<SavedState>() { public SavedState createFromParcel(Parcel in) { return new SavedState(in); } public SavedState[] newArray(int size) { return new SavedState[size]; } }; private SavedState(Parcel in) { super(in); selStart = in.readInt(); selEnd = in.readInt(); frozenWithFocus = (in.readInt() != 0); text = TextUtils.CHAR_SEQUENCE_CREATOR.createFromParcel(in); if (in.readInt() != 0) { error = TextUtils.CHAR_SEQUENCE_CREATOR.createFromParcel(in); } if (in.readInt() != 0) { editorState = ParcelableParcel.CREATOR.createFromParcel(in); } } } private static class CharWrapper implements CharSequence, GetChars, GraphicsOperations { private char[] mChars; private int mStart, mLength; public CharWrapper(char[] chars, int start, int len) { mChars = chars; mStart = start; mLength = len; } /* package */ void set(char[] chars, int start, int len) { mChars = chars; mStart = start; mLength = len; } public int length() { return mLength; } public char charAt(int off) { return mChars[off + mStart]; } @Override public String toString() { return new String(mChars, mStart, mLength); } public CharSequence subSequence(int start, int end) { if (start < 0 || end < 0 || start > mLength || end > mLength) { throw new IndexOutOfBoundsException(start + ", " + end); } return new String(mChars, start + mStart, end - start); } public void getChars(int start, int end, char[] buf, int off) { if (start < 0 || end < 0 || start > mLength || end > mLength) { throw new IndexOutOfBoundsException(start + ", " + end); } System.arraycopy(mChars, start + mStart, buf, off, end - start); } @Override public void drawText(BaseCanvas c, int start, int end, float x, float y, Paint p) { c.drawText(mChars, start + mStart, end - start, x, y, p); } @Override public void drawTextRun(BaseCanvas c, int start, int end, int contextStart, int contextEnd, float x, float y, boolean isRtl, Paint p) { int count = end - start; int contextCount = contextEnd - contextStart; c.drawTextRun(mChars, start + mStart, count, contextStart + mStart, contextCount, x, y, isRtl, p); } public float measureText(int start, int end, Paint p) { return p.measureText(mChars, start + mStart, end - start); } public int getTextWidths(int start, int end, float[] widths, Paint p) { return p.getTextWidths(mChars, start + mStart, end - start, widths); } public float getTextRunAdvances(int start, int end, int contextStart, int contextEnd, boolean isRtl, float[] advances, int advancesIndex, Paint p) { int count = end - start; int contextCount = contextEnd - contextStart; return p.getTextRunAdvances(mChars, start + mStart, count, contextStart + mStart, contextCount, isRtl, advances, advancesIndex); } public int getTextRunCursor(int contextStart, int contextEnd, int dir, int offset, int cursorOpt, Paint p) { int contextCount = contextEnd - contextStart; return p.getTextRunCursor(mChars, contextStart + mStart, contextCount, dir, offset + mStart, cursorOpt); } } private static final class Marquee { // TODO: Add an option to configure this private static final float MARQUEE_DELTA_MAX = 0.07f; private static final int MARQUEE_DELAY = 1200; private static final int MARQUEE_DP_PER_SECOND = 30; private static final byte MARQUEE_STOPPED = 0x0; private static final byte MARQUEE_STARTING = 0x1; private static final byte MARQUEE_RUNNING = 0x2; private final WeakReference<TextView> mView; private final Choreographer mChoreographer; private byte mStatus = MARQUEE_STOPPED; private final float mPixelsPerMs; private float mMaxScroll; private float mMaxFadeScroll; private float mGhostStart; private float mGhostOffset; private float mFadeStop; private int mRepeatLimit; private float mScroll; private long mLastAnimationMs; Marquee(TextView v) { final float density = v.getContext().getResources().getDisplayMetrics().density; mPixelsPerMs = MARQUEE_DP_PER_SECOND * density / 1000f; mView = new WeakReference<TextView>(v); mChoreographer = Choreographer.getInstance(); } private Choreographer.FrameCallback mTickCallback = new Choreographer.FrameCallback() { @Override public void doFrame(long frameTimeNanos) { tick(); } }; private Choreographer.FrameCallback mStartCallback = new Choreographer.FrameCallback() { @Override public void doFrame(long frameTimeNanos) { mStatus = MARQUEE_RUNNING; mLastAnimationMs = mChoreographer.getFrameTime(); tick(); } }; private Choreographer.FrameCallback mRestartCallback = new Choreographer.FrameCallback() { @Override public void doFrame(long frameTimeNanos) { if (mStatus == MARQUEE_RUNNING) { if (mRepeatLimit >= 0) { mRepeatLimit--; } start(mRepeatLimit); } } }; void tick() { if (mStatus != MARQUEE_RUNNING) { return; } mChoreographer.removeFrameCallback(mTickCallback); final TextView textView = mView.get(); if (textView != null && (textView.isFocused() || textView.isSelected())) { long currentMs = mChoreographer.getFrameTime(); long deltaMs = currentMs - mLastAnimationMs; mLastAnimationMs = currentMs; float deltaPx = deltaMs * mPixelsPerMs; mScroll += deltaPx; if (mScroll > mMaxScroll) { mScroll = mMaxScroll; mChoreographer.postFrameCallbackDelayed(mRestartCallback, MARQUEE_DELAY); } else { mChoreographer.postFrameCallback(mTickCallback); } textView.invalidate(); } } void stop() { mStatus = MARQUEE_STOPPED; mChoreographer.removeFrameCallback(mStartCallback); mChoreographer.removeFrameCallback(mRestartCallback); mChoreographer.removeFrameCallback(mTickCallback); resetScroll(); } private void resetScroll() { mScroll = 0.0f; final TextView textView = mView.get(); if (textView != null) textView.invalidate(); } void start(int repeatLimit) { if (repeatLimit == 0) { stop(); return; } mRepeatLimit = repeatLimit; final TextView textView = mView.get(); if (textView != null && textView.mLayout != null) { mStatus = MARQUEE_STARTING; mScroll = 0.0f; final int textWidth = textView.getWidth() - textView.getCompoundPaddingLeft() - textView.getCompoundPaddingRight(); final float lineWidth = textView.mLayout.getLineWidth(0); final float gap = textWidth / 3.0f; mGhostStart = lineWidth - textWidth + gap; mMaxScroll = mGhostStart + textWidth; mGhostOffset = lineWidth + gap; mFadeStop = lineWidth + textWidth / 6.0f; mMaxFadeScroll = mGhostStart + lineWidth + lineWidth; textView.invalidate(); mChoreographer.postFrameCallback(mStartCallback); } } float getGhostOffset() { return mGhostOffset; } float getScroll() { return mScroll; } float getMaxFadeScroll() { return mMaxFadeScroll; } boolean shouldDrawLeftFade() { return mScroll <= mFadeStop; } boolean shouldDrawGhost() { return mStatus == MARQUEE_RUNNING && mScroll > mGhostStart; } boolean isRunning() { return mStatus == MARQUEE_RUNNING; } boolean isStopped() { return mStatus == MARQUEE_STOPPED; } } private class ChangeWatcher implements TextWatcher, SpanWatcher { private CharSequence mBeforeText; public void beforeTextChanged(CharSequence buffer, int start, int before, int after) { if (DEBUG_EXTRACT) { Log.v(LOG_TAG, "beforeTextChanged start=" + start + " before=" + before + " after=" + after + ": " + buffer); } if (AccessibilityManager.getInstance(mContext).isEnabled() && (mTransformed != null)) { mBeforeText = mTransformed.toString(); } TextView.this.sendBeforeTextChanged(buffer, start, before, after); } public void onTextChanged(CharSequence buffer, int start, int before, int after) { if (DEBUG_EXTRACT) { Log.v(LOG_TAG, "onTextChanged start=" + start + " before=" + before + " after=" + after + ": " + buffer); } TextView.this.handleTextChanged(buffer, start, before, after); if (AccessibilityManager.getInstance(mContext).isEnabled() && (isFocused() || isSelected() && isShown())) { sendAccessibilityEventTypeViewTextChanged(mBeforeText, start, before, after); mBeforeText = null; } } public void afterTextChanged(Editable buffer) { if (DEBUG_EXTRACT) { Log.v(LOG_TAG, "afterTextChanged: " + buffer); } TextView.this.sendAfterTextChanged(buffer); if (MetaKeyKeyListener.getMetaState(buffer, MetaKeyKeyListener.META_SELECTING) != 0) { MetaKeyKeyListener.stopSelecting(TextView.this, buffer); } } public void onSpanChanged(Spannable buf, Object what, int s, int e, int st, int en) { if (DEBUG_EXTRACT) { Log.v(LOG_TAG, "onSpanChanged s=" + s + " e=" + e + " st=" + st + " en=" + en + " what=" + what + ": " + buf); } TextView.this.spanChange(buf, what, s, st, e, en); } public void onSpanAdded(Spannable buf, Object what, int s, int e) { if (DEBUG_EXTRACT) { Log.v(LOG_TAG, "onSpanAdded s=" + s + " e=" + e + " what=" + what + ": " + buf); } TextView.this.spanChange(buf, what, -1, s, -1, e); } public void onSpanRemoved(Spannable buf, Object what, int s, int e) { if (DEBUG_EXTRACT) { Log.v(LOG_TAG, "onSpanRemoved s=" + s + " e=" + e + " what=" + what + ": " + buf); } TextView.this.spanChange(buf, what, s, -1, e, -1); } } }