/* * Copyright (C) 2008-2012 OMRON SOFTWARE Co., Ltd. * * 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. */ /* * This file is porting from Android framework. * frameworks/base/core/java/android/inputmethodservice/Keyboard.java * * package android.inputmethodservice; */ package jp.co.omronsoft.openwnn; import android.content.Context; import android.content.res.Resources; import android.content.res.TypedArray; import android.content.res.XmlResourceParser; import android.graphics.drawable.Drawable; import android.text.TextUtils; import android.util.Log; import android.util.TypedValue; import android.util.Xml; import android.util.DisplayMetrics; import java.io.IOException; import java.util.ArrayList; import java.util.List; import java.util.StringTokenizer; import org.xmlpull.v1.XmlPullParserException; /** * Loads an XML description of a keyboard and stores the attributes of the keys. A keyboard * consists of rows of keys. * <p>The layout file for a keyboard contains XML that looks like the following snippet:</p> * <pre> * <Keyboard * android:keyWidth="%10p" * android:keyHeight="50px" * android:horizontalGap="2px" * android:verticalGap="2px" > * <Row android:keyWidth="32px" > * <Key android:keyLabel="A" /> * ... * </Row> * ... * </Keyboard> * </pre> */ public class Keyboard { static final String TAG = "Keyboard"; private static final String TAG_KEYBOARD = "Keyboard"; private static final String TAG_ROW = "Row"; private static final String TAG_KEY = "Key"; /** Edge of left */ public static final int EDGE_LEFT = 0x01; /** Edge of right */ public static final int EDGE_RIGHT = 0x02; /** Edge of top */ public static final int EDGE_TOP = 0x04; /** Edge of bottom */ public static final int EDGE_BOTTOM = 0x08; /** Keycode of SHIFT */ public static final int KEYCODE_SHIFT = -1; /** Keycode of MODE_CHANGE */ public static final int KEYCODE_MODE_CHANGE = -2; /** Keycode of CANCEL */ public static final int KEYCODE_CANCEL = -3; /** Keycode of DONE */ public static final int KEYCODE_DONE = -4; /** Keycode of DELETE */ public static final int KEYCODE_DELETE = -5; /** Keycode of ALT */ public static final int KEYCODE_ALT = -6; /** Keyboard label **/ private CharSequence mLabel; /** Horizontal gap default for all rows */ private int mDefaultHorizontalGap; /** Default key width */ private int mDefaultWidth; /** Default key height */ private int mDefaultHeight; /** Default gap between rows */ private int mDefaultVerticalGap; /** Is the keyboard in the shifted state */ private boolean mShifted; /** Key instance for the shift key, if present */ private Key mShiftKey; /** Key index for the shift key, if present */ private int mShiftKeyIndex = -1; /** Current key width, while loading the keyboard */ private int mKeyWidth; /** Current key height, while loading the keyboard */ private int mKeyHeight; /** Total height of the keyboard, including the padding and keys */ private int mTotalHeight; /** * Total width of the keyboard, including left side gaps and keys, but not any gaps on the * right side. */ private int mTotalWidth; /** List of keys in this keyboard */ private List<Key> mKeys; /** List of modifier keys such as Shift & Alt, if any */ private List<Key> mModifierKeys; /** Width of the screen available to fit the keyboard */ private int mDisplayWidth; /** Height of the screen */ private int mDisplayHeight; /** Keyboard mode, or zero, if none. */ private int mKeyboardMode; private static final int GRID_WIDTH = 10; private static final int GRID_HEIGHT = 5; private static final int GRID_SIZE = GRID_WIDTH * GRID_HEIGHT; private int mCellWidth; private int mCellHeight; private int[][] mGridNeighbors; private int mProximityThreshold; /** Number of key widths from current touch point to search for nearest keys. */ private static float SEARCH_DISTANCE = 1.8f; /** * Container for keys in the keyboard. All keys in a row are at the same Y-coordinate. * Some of the key size defaults can be overridden per row from what the {@link Keyboard} * defines. */ public static class Row { /** Default width of a key in this row. */ public int defaultWidth; /** Default height of a key in this row. */ public int defaultHeight; /** Default horizontal gap between keys in this row. */ public int defaultHorizontalGap; /** Vertical gap following this row. */ public int verticalGap; /** * Edge flags for this row of keys. Possible values that can be assigned are * {@link Keyboard#EDGE_TOP EDGE_TOP} and {@link Keyboard#EDGE_BOTTOM EDGE_BOTTOM} */ public int rowEdgeFlags; /** The keyboard mode for this row */ public int mode; private Keyboard parent; /** Constructor */ public Row(Keyboard parent) { this.parent = parent; } /** Constructor */ public Row(Resources res, Keyboard parent, XmlResourceParser parser) { this.parent = parent; TypedArray a = res.obtainAttributes(Xml.asAttributeSet(parser), android.R.styleable.Keyboard); defaultWidth = getDimensionOrFraction(a, android.R.styleable.Keyboard_keyWidth, parent.mDisplayWidth, parent.mDefaultWidth); defaultHeight = getDimensionOrFraction(a, android.R.styleable.Keyboard_keyHeight, parent.mDisplayHeight, parent.mDefaultHeight); defaultHorizontalGap = getDimensionOrFraction(a, android.R.styleable.Keyboard_horizontalGap, parent.mDisplayWidth, parent.mDefaultHorizontalGap); verticalGap = getDimensionOrFraction(a, android.R.styleable.Keyboard_verticalGap, parent.mDisplayHeight, parent.mDefaultVerticalGap); a.recycle(); a = res.obtainAttributes(Xml.asAttributeSet(parser), android.R.styleable.Keyboard_Row); rowEdgeFlags = a.getInt(android.R.styleable.Keyboard_Row_rowEdgeFlags, 0); mode = a.getResourceId(android.R.styleable.Keyboard_Row_keyboardMode, 0); } } /** * Class for describing the position and characteristics of a single key in the keyboard. */ public static class Key { /** * All the key codes (unicode or custom code) that this key could generate, zero'th * being the most important. */ public int[] codes; /** Label to display */ public CharSequence label; /** Icon to display instead of a label. Icon takes precedence over a label */ public Drawable icon; /** Preview version of the icon, for the preview popup */ public Drawable iconPreview; /** Width of the key, not including the gap */ public int width; /** Height of the key, not including the gap */ public int height; /** The horizontal gap before this key */ public int gap; /** Whether this key is sticky, i.e., a toggle key */ public boolean sticky; /** X coordinate of the key in the keyboard layout */ public int x; /** Y coordinate of the key in the keyboard layout */ public int y; /** The current pressed state of this key */ public boolean pressed; /** If this is a sticky key, is it on? */ public boolean on; /** Text to output when pressed. This can be multiple characters, like ".com" */ public CharSequence text; /** Popup characters */ public CharSequence popupCharacters; /** * Flags that specify the anchoring to edges of the keyboard for detecting touch events * that are just out of the boundary of the key. This is a bit mask of * {@link Keyboard#EDGE_LEFT}, {@link Keyboard#EDGE_RIGHT}, {@link Keyboard#EDGE_TOP} and * {@link Keyboard#EDGE_BOTTOM}. */ public int edgeFlags; /** Whether this is a modifier key, such as Shift or Alt */ public boolean modifier; /** The keyboard that this key belongs to */ private Keyboard keyboard; /** * If this key pops up a mini keyboard, this is the resource id for the XML layout for that * keyboard. */ public int popupResId; /** Whether this key repeats itself when held down */ public boolean repeatable; /** Whether this key is 2nd key */ public boolean isSecondKey; private final static int[] KEY_STATE_NORMAL_ON = { android.R.attr.state_checkable, android.R.attr.state_checked }; private final static int[] KEY_STATE_PRESSED_ON = { android.R.attr.state_pressed, android.R.attr.state_checkable, android.R.attr.state_checked }; private final static int[] KEY_STATE_NORMAL_OFF = { android.R.attr.state_checkable }; private final static int[] KEY_STATE_PRESSED_OFF = { android.R.attr.state_pressed, android.R.attr.state_checkable }; private final static int[] KEY_STATE_NORMAL = { }; private final static int[] KEY_STATE_PRESSED = { android.R.attr.state_pressed }; /** Create an empty key with no attributes. */ public Key(Row parent) { keyboard = parent.parent; height = parent.defaultHeight; width = parent.defaultWidth; gap = parent.defaultHorizontalGap; edgeFlags = parent.rowEdgeFlags; } /** Create a key with the given top-left coordinate and extract its attributes from * the XML parser. * @param res resources associated with the caller's context * @param parent the row that this key belongs to. The row must already be attached to * a {@link Keyboard}. * @param x the x coordinate of the top-left * @param y the y coordinate of the top-left * @param parser the XML parser containing the attributes for this key */ public Key(Resources res, Row parent, int x, int y, XmlResourceParser parser) { this(parent); this.x = x; this.y = y; TypedArray a = res.obtainAttributes(Xml.asAttributeSet(parser), android.R.styleable.Keyboard); width = getDimensionOrFraction(a, android.R.styleable.Keyboard_keyWidth, keyboard.mDisplayWidth, parent.defaultWidth); height = getDimensionOrFraction(a, android.R.styleable.Keyboard_keyHeight, keyboard.mDisplayHeight, parent.defaultHeight); gap = getDimensionOrFraction(a, android.R.styleable.Keyboard_horizontalGap, keyboard.mDisplayWidth, parent.defaultHorizontalGap); a.recycle(); a = res.obtainAttributes(Xml.asAttributeSet(parser), android.R.styleable.Keyboard_Key); this.x += gap; TypedValue codesValue = new TypedValue(); a.getValue(android.R.styleable.Keyboard_Key_codes, codesValue); if (codesValue.type == TypedValue.TYPE_INT_DEC || codesValue.type == TypedValue.TYPE_INT_HEX) { codes = new int[] { codesValue.data }; } else if (codesValue.type == TypedValue.TYPE_STRING) { codes = parseCSV(codesValue.string.toString()); } iconPreview = a.getDrawable(android.R.styleable.Keyboard_Key_iconPreview); if (iconPreview != null) { iconPreview.setBounds(0, 0, iconPreview.getIntrinsicWidth(), iconPreview.getIntrinsicHeight()); } popupCharacters = a.getText( android.R.styleable.Keyboard_Key_popupCharacters); popupResId = a.getResourceId( android.R.styleable.Keyboard_Key_popupKeyboard, 0); repeatable = a.getBoolean( android.R.styleable.Keyboard_Key_isRepeatable, false); modifier = a.getBoolean( android.R.styleable.Keyboard_Key_isModifier, false); sticky = a.getBoolean( android.R.styleable.Keyboard_Key_isSticky, false); edgeFlags = a.getInt(android.R.styleable.Keyboard_Key_keyEdgeFlags, 0); edgeFlags |= parent.rowEdgeFlags; icon = a.getDrawable( android.R.styleable.Keyboard_Key_keyIcon); if (icon != null) { icon.setBounds(0, 0, icon.getIntrinsicWidth(), icon.getIntrinsicHeight()); } label = a.getText(android.R.styleable.Keyboard_Key_keyLabel); text = a.getText(android.R.styleable.Keyboard_Key_keyOutputText); if (codes == null && !TextUtils.isEmpty(label)) { codes = new int[] { label.charAt(0) }; } a.recycle(); a = res.obtainAttributes(Xml.asAttributeSet(parser), R.styleable.WnnKeyboard_Key); isSecondKey = a.getBoolean(R.styleable.WnnKeyboard_Key_isSecondKey, false); a.recycle(); } /** * Informs the key that it has been pressed, in case it needs to change its appearance or * state. * @see #onReleased(boolean) */ public void onPressed() { pressed = !pressed; } /** * Changes the pressed state of the key. If it is a sticky key, it will also change the * toggled state of the key if the finger was release inside. * @param inside whether the finger was released inside the key * @see #onPressed() */ public void onReleased(boolean inside) { pressed = !pressed; if (sticky) { on = !on; } } int[] parseCSV(String value) { int count = 0; int lastIndex = 0; if (value.length() > 0) { count++; while ((lastIndex = value.indexOf(",", lastIndex + 1)) > 0) { count++; } } int[] values = new int[count]; count = 0; StringTokenizer st = new StringTokenizer(value, ","); while (st.hasMoreTokens()) { try { values[count++] = Integer.parseInt(st.nextToken()); } catch (NumberFormatException nfe) { Log.e(TAG, "Error parsing keycodes " + value); } } return values; } /** * Detects if a point falls inside this key. * @param x the x-coordinate of the point * @param y the y-coordinate of the point * @return whether or not the point falls inside the key. If the key is attached to an edge, * it will assume that all points between the key and the edge are considered to be inside * the key. */ public boolean isInside(int x, int y) { boolean leftEdge = (edgeFlags & EDGE_LEFT) > 0; boolean rightEdge = (edgeFlags & EDGE_RIGHT) > 0; boolean topEdge = (edgeFlags & EDGE_TOP) > 0; boolean bottomEdge = (edgeFlags & EDGE_BOTTOM) > 0; if ((x >= this.x || (leftEdge && x <= this.x + this.width)) && (x < this.x + this.width || (rightEdge && x >= this.x)) && (y >= this.y || (topEdge && y <= this.y + this.height)) && (y < this.y + this.height || (bottomEdge && y >= this.y))) { return true; } else { return false; } } /** * Detects if a area falls inside this key. * @param x the x-coordinate of the area * @param y the y-coordinate of the area * @param w the width of the area * @param h the height of the area * @return whether or not the area falls inside the key. */ public boolean isInside(int x, int y, int w, int h) { if ((this.x <= (x + w)) && (x <= (this.x + this.width)) && (this.y <= (y + h)) && (y <= (this.y + this.height))) { return true; } else { return false; } } /** * Returns the square of the distance between the center of the key and the given point. * @param x the x-coordinate of the point * @param y the y-coordinate of the point * @return the square of the distance of the point from the center of the key */ public int squaredDistanceFrom(int x, int y) { int xDist = this.x + width / 2 - x; int yDist = this.y + height / 2 - y; return xDist * xDist + yDist * yDist; } /** * Returns the drawable state for the key, based on the current state and type of the key. * @return the drawable state of the key. * @see android.graphics.drawable.StateListDrawable#setState(int[]) */ public int[] getCurrentDrawableState() { int[] states = KEY_STATE_NORMAL; if (on) { if (pressed) { states = KEY_STATE_PRESSED_ON; } else { states = KEY_STATE_NORMAL_ON; } } else { if (sticky) { if (pressed) { states = KEY_STATE_PRESSED_OFF; } else { states = KEY_STATE_NORMAL_OFF; } } else { if (pressed) { states = KEY_STATE_PRESSED; } } } return states; } } /** * Creates a keyboard from the given xml key layout file. * @param context the application or service context * @param xmlLayoutResId the resource file that contains the keyboard layout and keys. */ public Keyboard(Context context, int xmlLayoutResId) { this(context, xmlLayoutResId, 0); } /** * Creates a keyboard from the given xml key layout file. Weeds out rows * that have a keyboard mode defined but don't match the specified mode. * @param context the application or service context * @param xmlLayoutResId the resource file that contains the keyboard layout and keys. * @param modeId keyboard mode identifier */ public Keyboard(Context context, int xmlLayoutResId, int modeId) { DisplayMetrics dm = context.getResources().getDisplayMetrics(); mDisplayWidth = dm.widthPixels; mDisplayHeight = dm.heightPixels; mDefaultHorizontalGap = 0; mDefaultWidth = mDisplayWidth / 10; mDefaultVerticalGap = 0; mDefaultHeight = mDefaultWidth; mKeys = new ArrayList<Key>(); mModifierKeys = new ArrayList<Key>(); mKeyboardMode = modeId; loadKeyboard(context, context.getResources().getXml(xmlLayoutResId)); } /** * <p>Creates a blank keyboard from the given resource file and populates it with the specified * characters in left-to-right, top-to-bottom fashion, using the specified number of columns. * </p> * <p>If the specified number of columns is -1, then the keyboard will fit as many keys as * possible in each row.</p> * @param context the application or service context * @param layoutTemplateResId the layout template file, containing no keys. * @param characters the list of characters to display on the keyboard. One key will be created * for each character. * @param columns the number of columns of keys to display. If this number is greater than the * number of keys that can fit in a row, it will be ignored. If this number is -1, the * keyboard will fit as many keys as possible in each row. */ public Keyboard(Context context, int layoutTemplateResId, CharSequence characters, int columns, int horizontalPadding) { this(context, layoutTemplateResId); int x = 0; int y = 0; int column = 0; mTotalWidth = 0; Row row = new Row(this); row.defaultHeight = mDefaultHeight; row.defaultWidth = mDefaultWidth; row.defaultHorizontalGap = mDefaultHorizontalGap; row.verticalGap = mDefaultVerticalGap; row.rowEdgeFlags = EDGE_TOP | EDGE_BOTTOM; final int maxColumns = columns == -1 ? Integer.MAX_VALUE : columns; for (int i = 0; i < characters.length(); i++) { char c = characters.charAt(i); if (column >= maxColumns || x + mDefaultWidth + horizontalPadding > mDisplayWidth) { x = 0; y += mDefaultVerticalGap + mDefaultHeight; column = 0; } final Key key = new Key(row); key.x = x; key.y = y; key.label = String.valueOf(c); key.codes = new int[] { c }; column++; x += key.width + key.gap; mKeys.add(key); if (x > mTotalWidth) { mTotalWidth = x; } } mTotalHeight = y + mDefaultHeight; } /** * Get the list of keys in this keyboard. * * @return The list of keys. */ public List<Key> getKeys() { return mKeys; } /** * Get the list of modifier keys such as Shift & Alt, if any. * * @return The list of modifier keys. */ public List<Key> getModifierKeys() { return mModifierKeys; } protected int getHorizontalGap() { return mDefaultHorizontalGap; } protected void setHorizontalGap(int gap) { mDefaultHorizontalGap = gap; } protected int getVerticalGap() { return mDefaultVerticalGap; } protected void setVerticalGap(int gap) { mDefaultVerticalGap = gap; } protected int getKeyHeight() { return mDefaultHeight; } protected void setKeyHeight(int height) { mDefaultHeight = height; } protected int getKeyWidth() { return mDefaultWidth; } protected void setKeyWidth(int width) { mDefaultWidth = width; } /** * Returns the total height of the keyboard * @return the total height of the keyboard */ public int getHeight() { return mTotalHeight; } /** * Returns the total minimum width of the keyboard * @return the total minimum width of the keyboard */ public int getMinWidth() { return mTotalWidth; } /** * Sets the keyboard to be shifted. * * @param shiftState the keyboard shift state. * @return {@code true} if shift state changed. */ public boolean setShifted(boolean shiftState) { if (mShiftKey != null) { mShiftKey.on = shiftState; } if (mShifted != shiftState) { mShifted = shiftState; return true; } return false; } /** * Returns whether keyboard is shift state or not. * * @return {@code true} if keyboard is shift state; otherwise, {@code false}. */ public boolean isShifted() { return mShifted; } /** * Returns the shift key index. * * @return the shift key index. */ public int getShiftKeyIndex() { return mShiftKeyIndex; } private void computeNearestNeighbors() { mCellWidth = (getMinWidth() + GRID_WIDTH - 1) / GRID_WIDTH; mCellHeight = (getHeight() + GRID_HEIGHT - 1) / GRID_HEIGHT; mGridNeighbors = new int[GRID_SIZE][]; int[] indices = new int[mKeys.size()]; final int gridWidth = GRID_WIDTH * mCellWidth; final int gridHeight = GRID_HEIGHT * mCellHeight; for (int x = 0; x < gridWidth; x += mCellWidth) { for (int y = 0; y < gridHeight; y += mCellHeight) { int count = 0; for (int i = 0; i < mKeys.size(); i++) { final Key key = mKeys.get(i); if (key.squaredDistanceFrom(x, y) < mProximityThreshold || key.squaredDistanceFrom(x + mCellWidth - 1, y) < mProximityThreshold || key.squaredDistanceFrom(x + mCellWidth - 1, y + mCellHeight - 1) < mProximityThreshold || key.squaredDistanceFrom(x, y + mCellHeight - 1) < mProximityThreshold || key.isInside(x, y, mCellWidth, mCellHeight)) { indices[count++] = i; } } int [] cell = new int[count]; System.arraycopy(indices, 0, cell, 0, count); mGridNeighbors[(y / mCellHeight) * GRID_WIDTH + (x / mCellWidth)] = cell; } } } /** * Returns the indices of the keys that are closest to the given point. * @param x the x-coordinate of the point * @param y the y-coordinate of the point * @return the array of integer indices for the nearest keys to the given point. If the given * point is out of range, then an array of size zero is returned. */ public int[] getNearestKeys(int x, int y) { if (mGridNeighbors == null) computeNearestNeighbors(); if (x >= 0 && x < getMinWidth() && y >= 0 && y < getHeight()) { int index = (y / mCellHeight) * GRID_WIDTH + (x / mCellWidth); if (index < GRID_SIZE) { return mGridNeighbors[index]; } } return new int[0]; } protected Row createRowFromXml(Resources res, XmlResourceParser parser) { return new Row(res, this, parser); } protected Key createKeyFromXml(Resources res, Row parent, int x, int y, XmlResourceParser parser) { return new Key(res, parent, x, y, parser); } private void loadKeyboard(Context context, XmlResourceParser parser) { boolean inKey = false; boolean inRow = false; boolean leftMostKey = false; int row = 0; int x = 0; int y = 0; Key key = null; Row currentRow = null; Resources res = context.getResources(); boolean skipRow = false; try { int event; while ((event = parser.next()) != XmlResourceParser.END_DOCUMENT) { if (event == XmlResourceParser.START_TAG) { String tag = parser.getName(); if (TAG_ROW.equals(tag)) { inRow = true; x = 0; currentRow = createRowFromXml(res, parser); skipRow = currentRow.mode != 0 && currentRow.mode != mKeyboardMode; if (skipRow) { skipToEndOfRow(parser); inRow = false; } } else if (TAG_KEY.equals(tag)) { inKey = true; key = createKeyFromXml(res, currentRow, x, y, parser); mKeys.add(key); if (key.codes[0] == KEYCODE_SHIFT) { mShiftKey = key; mShiftKeyIndex = mKeys.size()-1; mModifierKeys.add(key); } else if (key.codes[0] == KEYCODE_ALT) { mModifierKeys.add(key); } } else if (TAG_KEYBOARD.equals(tag)) { parseKeyboardAttributes(res, parser); } } else if (event == XmlResourceParser.END_TAG) { if (inKey) { inKey = false; x += key.gap + key.width; if (x > mTotalWidth) { mTotalWidth = x; } } else if (inRow) { inRow = false; y += currentRow.verticalGap; y += currentRow.defaultHeight; row++; } else { } } } } catch (Exception e) { Log.e(TAG, "Parse error:" + e); e.printStackTrace(); } mTotalHeight = y - mDefaultVerticalGap; } private void skipToEndOfRow(XmlResourceParser parser) throws XmlPullParserException, IOException { int event; while ((event = parser.next()) != XmlResourceParser.END_DOCUMENT) { if (event == XmlResourceParser.END_TAG && parser.getName().equals(TAG_ROW)) { break; } } } private void parseKeyboardAttributes(Resources res, XmlResourceParser parser) { TypedArray a = res.obtainAttributes(Xml.asAttributeSet(parser), android.R.styleable.Keyboard); mDefaultWidth = getDimensionOrFraction(a, android.R.styleable.Keyboard_keyWidth, mDisplayWidth, mDisplayWidth / 10); mDefaultHeight = getDimensionOrFraction(a, android.R.styleable.Keyboard_keyHeight, mDisplayHeight, 75); mDefaultHorizontalGap = getDimensionOrFraction(a, android.R.styleable.Keyboard_horizontalGap, mDisplayWidth, 0); mDefaultVerticalGap = getDimensionOrFraction(a, android.R.styleable.Keyboard_verticalGap, mDisplayHeight, 0); mProximityThreshold = (int) (mDefaultWidth * SEARCH_DISTANCE); mProximityThreshold = mProximityThreshold * mProximityThreshold; a.recycle(); } static int getDimensionOrFraction(TypedArray a, int index, int base, int defValue) { TypedValue value = a.peekValue(index); if (value == null) return defValue; if (value.type == TypedValue.TYPE_DIMENSION) { return a.getDimensionPixelOffset(index, defValue); } else if (value.type == TypedValue.TYPE_FRACTION) { return Math.round(a.getFraction(index, base, base, defValue)); } return defValue; } }