/*
* Copyright (C) 2010 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not
* use this file except in compliance with the License. You may obtain a copy of
* the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
* License for the specific language governing permissions and limitations under
* the License.
*/
package com.android.inputmethod.keyboard;
import android.content.Context;
import android.content.res.Resources;
import android.content.res.TypedArray;
import android.content.res.XmlResourceParser;
import android.text.TextUtils;
import android.util.DisplayMetrics;
import android.util.Log;
import android.util.TypedValue;
import android.util.Xml;
import android.view.InflateException;
import com.android.inputmethod.compat.EditorInfoCompatUtils;
import com.android.inputmethod.keyboard.internal.KeyStyles;
import com.android.inputmethod.keyboard.internal.KeyboardIconsSet;
import com.android.inputmethod.keyboard.internal.KeyboardShiftState;
import com.android.inputmethod.latin.LatinImeLogger;
import com.android.inputmethod.latin.R;
import com.android.inputmethod.latin.XmlParseUtils;
import org.xmlpull.v1.XmlPullParser;
import org.xmlpull.v1.XmlPullParserException;
import java.io.IOException;
import java.util.Arrays;
import java.util.Collections;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Map;
import java.util.Set;
/**
* Loads an XML description of a keyboard and stores the attributes of the keys. A keyboard
* consists of rows of keys.
*
The layout file for a keyboard contains XML that looks like the following snippet:
*
* <Keyboard
* latin:keyWidth="%10p"
* latin:keyHeight="50px"
* latin:horizontalGap="2px"
* latin:verticalGap="2px" >
* <Row latin:keyWidth="32px" >
* <Key latin:keyLabel="A" />
* ...
* </Row>
* ...
* </Keyboard>
*
*/
public class Keyboard {
private static final String TAG = Keyboard.class.getSimpleName();
/** Some common keys code. Must be positive.
* These should be aligned with values/keycodes.xml
*/
public static final int CODE_ENTER = '\n';
public static final int CODE_TAB = '\t';
public static final int CODE_SPACE = ' ';
public static final int CODE_PERIOD = '.';
public static final int CODE_DASH = '-';
public static final int CODE_SINGLE_QUOTE = '\'';
public static final int CODE_DOUBLE_QUOTE = '"';
// TODO: Check how this should work for right-to-left languages. It seems to stand
// that for rtl languages, a closing parenthesis is a left parenthesis. Is this
// managed by the font? Or is it a different char?
public static final int CODE_CLOSING_PARENTHESIS = ')';
public static final int CODE_CLOSING_SQUARE_BRACKET = ']';
public static final int CODE_CLOSING_CURLY_BRACKET = '}';
public static final int CODE_CLOSING_ANGLE_BRACKET = '>';
public static final int CODE_DIGIT0 = '0';
public static final int CODE_PLUS = '+';
private static final int MINIMUM_LETTER_CODE = CODE_TAB;
/** Special keys code. Must be negative.
* These should be aligned with values/keycodes.xml
*/
public static final int CODE_SHIFT = -1;
public static final int CODE_SWITCH_ALPHA_SYMBOL = -2;
public static final int CODE_CAPSLOCK = -3;
public static final int CODE_OUTPUT_TEXT = -4;
public static final int CODE_DELETE = -5;
public static final int CODE_SETTINGS = -6;
public static final int CODE_SHORTCUT = -7;
// Code value representing the code is not specified.
public static final int CODE_UNSPECIFIED = -9;
public final KeyboardId mId;
public final int mThemeId;
/** Total height of the keyboard, including the padding and keys */
public final int mOccupiedHeight;
/** Total width of the keyboard, including the padding and keys */
public final int mOccupiedWidth;
/** The padding above the keyboard */
public final int mTopPadding;
/** Default gap between rows */
public final int mVerticalGap;
public final int mMostCommonKeyHeight;
public final int mMostCommonKeyWidth;
/** More keys keyboard template */
public final int mMoreKeysTemplate;
/** Maximum column for mini keyboard */
public final int mMaxMiniKeyboardColumn;
/** True if Right-To-Left keyboard */
public final boolean mIsRtlKeyboard;
/** List of keys and icons in this keyboard */
public final Set mKeys;
public final Set mShiftKeys;
public final Set mShiftLockKeys;
public final KeyboardIconsSet mIconsSet;
private final Map mKeyCache = new HashMap();
private final ProximityInfo mProximityInfo;
// TODO: Remove this variable.
private final KeyboardShiftState mShiftState = new KeyboardShiftState();
public Keyboard(Params params) {
mId = params.mId;
mThemeId = params.mThemeId;
mOccupiedHeight = params.mOccupiedHeight;
mOccupiedWidth = params.mOccupiedWidth;
mMostCommonKeyHeight = params.mMostCommonKeyHeight;
mMostCommonKeyWidth = params.mMostCommonKeyWidth;
mIsRtlKeyboard = params.mIsRtlKeyboard;
mMoreKeysTemplate = params.mMoreKeysTemplate;
mMaxMiniKeyboardColumn = params.mMaxMiniKeyboardColumn;
mTopPadding = params.mTopPadding;
mVerticalGap = params.mVerticalGap;
mKeys = Collections.unmodifiableSet(params.mKeys);
mShiftKeys = Collections.unmodifiableSet(params.mShiftKeys);
mShiftLockKeys = Collections.unmodifiableSet(params.mShiftLockKeys);
mIconsSet = params.mIconsSet;
mProximityInfo = new ProximityInfo(
params.GRID_WIDTH, params.GRID_HEIGHT, mOccupiedWidth, mOccupiedHeight,
mMostCommonKeyWidth, mMostCommonKeyHeight, mKeys, params.mTouchPositionCorrection);
}
public ProximityInfo getProximityInfo() {
return mProximityInfo;
}
public Key getKey(int code) {
if (code == CODE_UNSPECIFIED) {
return null;
}
final Integer keyCode = code;
if (mKeyCache.containsKey(keyCode)) {
return mKeyCache.get(keyCode);
}
for (final Key key : mKeys) {
if (key.mCode == code) {
mKeyCache.put(keyCode, key);
return key;
}
}
mKeyCache.put(keyCode, null);
return null;
}
// TODO: Remove this method.
boolean hasShiftLockKey() {
return !mShiftLockKeys.isEmpty();
}
// TODO: Remove this method.
void setShiftLocked(boolean newShiftLockState) {
for (final Key key : mShiftLockKeys) {
// To represent "shift locked" state. The highlight is handled by background image that
// might be a StateListDrawable.
key.setHighlightOn(newShiftLockState);
final int attrId = newShiftLockState
? R.styleable.Keyboard_iconShiftKeyShifted
: R.styleable.Keyboard_iconShiftKey;
key.setIcon(mIconsSet.getIconByAttrId(attrId));
}
mShiftState.setShiftLocked(newShiftLockState);
}
// TODO: Move this method to KeyboardId.
public boolean isShiftLocked() {
return mShiftState.isShiftLocked();
}
private void setShiftKeyGraphics(boolean newShiftState) {
if (mShiftState.isShiftLocked()) {
return;
}
for (final Key key : mShiftKeys) {
final int attrId = newShiftState
? R.styleable.Keyboard_iconShiftKeyShifted
: R.styleable.Keyboard_iconShiftKey;
key.setIcon(mIconsSet.getIconByAttrId(attrId));
}
}
// TODO: Remove this method.
void setShifted(boolean newShiftState) {
setShiftKeyGraphics(newShiftState);
mShiftState.setShifted(newShiftState);
}
// TODO: Move this method to KeyboardId.
public boolean isShiftedOrShiftLocked() {
return mShiftState.isShiftedOrShiftLocked();
}
// TODO: Remove this method
void setAutomaticTemporaryUpperCase() {
setShiftKeyGraphics(true);
mShiftState.setAutomaticTemporaryUpperCase();
}
// TODO: Move this method to KeyboardId.
public boolean isManualTemporaryUpperCase() {
return mShiftState.isManualTemporaryUpperCase();
}
// TODO: Remove this method.
public CharSequence adjustLabelCase(CharSequence label) {
if (mId.isAlphabetKeyboard() && isShiftedOrShiftLocked() && !TextUtils.isEmpty(label)
&& label.length() < 3 && Character.isLowerCase(label.charAt(0))) {
return label.toString().toUpperCase(mId.mLocale);
}
return label;
}
public static boolean isLetterCode(int code) {
return code >= MINIMUM_LETTER_CODE;
}
public static class Params {
public KeyboardId mId;
public int mThemeId;
/** Total height and width of the keyboard, including the paddings and keys */
public int mOccupiedHeight;
public int mOccupiedWidth;
/** Base height and width of the keyboard used to calculate rows' or keys' heights and
* widths
*/
public int mBaseHeight;
public int mBaseWidth;
public int mTopPadding;
public int mBottomPadding;
public int mHorizontalEdgesPadding;
public int mHorizontalCenterPadding;
public int mDefaultRowHeight;
public int mDefaultKeyWidth;
public int mHorizontalGap;
public int mVerticalGap;
public boolean mIsRtlKeyboard;
public int mMoreKeysTemplate;
public int mMaxMiniKeyboardColumn;
public int GRID_WIDTH;
public int GRID_HEIGHT;
public final Set mKeys = new HashSet();
public final Set mShiftKeys = new HashSet();
public final Set mShiftLockKeys = new HashSet();
public final KeyboardIconsSet mIconsSet = new KeyboardIconsSet();
public int mMostCommonKeyHeight = 0;
public int mMostCommonKeyWidth = 0;
public final TouchPositionCorrection mTouchPositionCorrection =
new TouchPositionCorrection();
public static class TouchPositionCorrection {
private static final int TOUCH_POSITION_CORRECTION_RECORD_SIZE = 3;
public boolean mEnabled;
public float[] mXs;
public float[] mYs;
public float[] mRadii;
public void load(String[] data) {
final int dataLength = data.length;
if (dataLength % TOUCH_POSITION_CORRECTION_RECORD_SIZE != 0) {
if (LatinImeLogger.sDBG)
throw new RuntimeException(
"the size of touch position correction data is invalid");
return;
}
final int length = dataLength / TOUCH_POSITION_CORRECTION_RECORD_SIZE;
mXs = new float[length];
mYs = new float[length];
mRadii = new float[length];
try {
for (int i = 0; i < dataLength; ++i) {
final int type = i % TOUCH_POSITION_CORRECTION_RECORD_SIZE;
final int index = i / TOUCH_POSITION_CORRECTION_RECORD_SIZE;
final float value = Float.parseFloat(data[i]);
if (type == 0) {
mXs[index] = value;
} else if (type == 1) {
mYs[index] = value;
} else {
mRadii[index] = value;
}
}
} catch (NumberFormatException e) {
if (LatinImeLogger.sDBG) {
throw new RuntimeException(
"the number format for touch position correction data is invalid");
}
mXs = null;
mYs = null;
mRadii = null;
}
}
public void setEnabled(boolean enabled) {
mEnabled = enabled;
}
public boolean isValid() {
return mEnabled && mXs != null && mYs != null && mRadii != null
&& mXs.length > 0 && mYs.length > 0 && mRadii.length > 0;
}
}
protected void clearKeys() {
mKeys.clear();
mShiftKeys.clear();
mShiftLockKeys.clear();
clearHistogram();
}
public void onAddKey(Key key) {
mKeys.add(key);
updateHistogram(key);
if (key.mCode == Keyboard.CODE_SHIFT) {
mShiftKeys.add(key);
if (key.isSticky()) {
mShiftLockKeys.add(key);
}
}
}
private int mMaxHeightCount = 0;
private int mMaxWidthCount = 0;
private final Map mHeightHistogram = new HashMap();
private final Map mWidthHistogram = new HashMap();
private void clearHistogram() {
mMostCommonKeyHeight = 0;
mMaxHeightCount = 0;
mHeightHistogram.clear();
mMaxWidthCount = 0;
mMostCommonKeyWidth = 0;
mWidthHistogram.clear();
}
private static int updateHistogramCounter(Map histogram, Integer key) {
final int count = (histogram.containsKey(key) ? histogram.get(key) : 0) + 1;
histogram.put(key, count);
return count;
}
private void updateHistogram(Key key) {
final Integer height = key.mHeight + key.mVerticalGap;
final int heightCount = updateHistogramCounter(mHeightHistogram, height);
if (heightCount > mMaxHeightCount) {
mMaxHeightCount = heightCount;
mMostCommonKeyHeight = height;
}
final Integer width = key.mWidth + key.mHorizontalGap;
final int widthCount = updateHistogramCounter(mWidthHistogram, width);
if (widthCount > mMaxWidthCount) {
mMaxWidthCount = widthCount;
mMostCommonKeyWidth = width;
}
}
}
/**
* Returns the array 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 the nearest keys to the given point. If the given
* point is out of range, then an array of size zero is returned.
*/
public Key[] getNearestKeys(int x, int y) {
// Avoid dead pixels at edges of the keyboard
final int adjustedX = Math.max(0, Math.min(x, mOccupiedWidth - 1));
final int adjustedY = Math.max(0, Math.min(y, mOccupiedHeight - 1));
return mProximityInfo.getNearestKeys(adjustedX, adjustedY);
}
public static String printableCode(int code) {
switch (code) {
case CODE_SHIFT: return "shift";
case CODE_SWITCH_ALPHA_SYMBOL: return "symbol";
case CODE_CAPSLOCK: return "capslock";
case CODE_OUTPUT_TEXT: return "text";
case CODE_DELETE: return "delete";
case CODE_SHORTCUT: return "shortcut";
case CODE_UNSPECIFIED: return "unspec";
default:
if (code <= 0) Log.w(TAG, "Unknown non-positive key code=" + code);
if (code < CODE_SPACE) return String.format("'\\u%02x'", code);
if (code < 0x100) return String.format("'%c'", code);
return String.format("'\\u%04x'", code);
}
}
public static String toThemeName(int themeId) {
// This should be aligned with theme-*.xml resource files' themeId attribute.
switch (themeId) {
case 0: return "Basic";
case 1: return "BasicHighContrast";
case 5: return "IceCreamSandwich";
case 6: return "Stone";
case 7: return "StoneBold";
case 8: return "GingerBread";
default: return null;
}
}
/**
* Keyboard Building helper.
*
* This class parses Keyboard XML file and eventually build a Keyboard.
* The Keyboard XML file looks like:
*
* >!-- xml/keyboard.xml --<
* >Keyboard keyboard_attributes*<
* >!-- Keyboard Content --<
* >Row row_attributes*<
* >!-- Row Content --<
* >Key key_attributes* /<
* >Spacer horizontalGap="0.2in" /<
* >include keyboardLayout="@xml/other_keys"<
* ...
* >/Row<
* >include keyboardLayout="@xml/other_rows"<
* ...
* >/Keyboard<
*
* The XML file which is included in other file must have >merge< as root element,
* such as:
*
* >!-- xml/other_keys.xml --<
* >merge<
* >Key key_attributes* /<
* ...
* >/merge<
*
* and
*
* >!-- xml/other_rows.xml --<
* >merge<
* >Row row_attributes*<
* >Key key_attributes* /<
* >/Row<
* ...
* >/merge<
*
* You can also use switch-case-default tags to select Rows and Keys.
*
* >switch<
* >case case_attribute*<
* >!-- Any valid tags at switch position --<
* >/case<
* ...
* >default<
* >!-- Any valid tags at switch position --<
* >/default<
* >/switch<
*
* You can declare Key style and specify styles within Key tags.
*
* >switch<
* >case mode="email"<
* >key-style styleName="f1-key" parentStyle="modifier-key"
* keyLabel=".com"
* /<
* >/case<
* >case mode="url"<
* >key-style styleName="f1-key" parentStyle="modifier-key"
* keyLabel="http://"
* /<
* >/case<
* >/switch<
* ...
* >Key keyStyle="shift-key" ... /<
*
*/
public static class Builder {
private static final String TAG = Builder.class.getSimpleName();
private static final boolean DEBUG = false;
// Keyboard XML Tags
private static final String TAG_KEYBOARD = "Keyboard";
private static final String TAG_ROW = "Row";
private static final String TAG_KEY = "Key";
private static final String TAG_SPACER = "Spacer";
private static final String TAG_INCLUDE = "include";
private static final String TAG_MERGE = "merge";
private static final String TAG_SWITCH = "switch";
private static final String TAG_CASE = "case";
private static final String TAG_DEFAULT = "default";
public static final String TAG_KEY_STYLE = "key-style";
private static final int DEFAULT_KEYBOARD_COLUMNS = 10;
private static final int DEFAULT_KEYBOARD_ROWS = 4;
protected final KP mParams;
protected final Context mContext;
protected final Resources mResources;
private final DisplayMetrics mDisplayMetrics;
private int mCurrentY = 0;
private Row mCurrentRow = null;
private boolean mLeftEdge;
private boolean mTopEdge;
private Key mRightEdgeKey = null;
private final KeyStyles mKeyStyles = new KeyStyles();
/**
* 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 {
// keyWidth enum constants
private static final int KEYWIDTH_NOT_ENUM = 0;
private static final int KEYWIDTH_FILL_RIGHT = -1;
private static final int KEYWIDTH_FILL_BOTH = -2;
private final Params mParams;
/** Default width of a key in this row. */
public final float mDefaultKeyWidth;
/** Default height of a key in this row. */
public final int mRowHeight;
private final int mCurrentY;
// Will be updated by {@link Key}'s constructor.
private float mCurrentX;
public Row(Resources res, Params params, XmlPullParser parser, int y) {
mParams = params;
TypedArray keyboardAttr = res.obtainAttributes(Xml.asAttributeSet(parser),
R.styleable.Keyboard);
mRowHeight = (int)Builder.getDimensionOrFraction(keyboardAttr,
R.styleable.Keyboard_rowHeight,
params.mBaseHeight, params.mDefaultRowHeight);
keyboardAttr.recycle();
TypedArray keyAttr = res.obtainAttributes(Xml.asAttributeSet(parser),
R.styleable.Keyboard_Key);
mDefaultKeyWidth = Builder.getDimensionOrFraction(keyAttr,
R.styleable.Keyboard_Key_keyWidth,
params.mBaseWidth, params.mDefaultKeyWidth);
keyAttr.recycle();
mCurrentY = y;
mCurrentX = 0.0f;
}
public void setXPos(float keyXPos) {
mCurrentX = keyXPos;
}
public void advanceXPos(float width) {
mCurrentX += width;
}
public int getKeyY() {
return mCurrentY;
}
public float getKeyX(TypedArray keyAttr) {
final int widthType = Builder.getEnumValue(keyAttr,
R.styleable.Keyboard_Key_keyWidth, KEYWIDTH_NOT_ENUM);
if (widthType == KEYWIDTH_FILL_BOTH) {
// If keyWidth is fillBoth, the key width should start right after the nearest
// key on the left hand side.
return mCurrentX;
}
final int keyboardRightEdge = mParams.mOccupiedWidth
- mParams.mHorizontalEdgesPadding;
if (keyAttr.hasValue(R.styleable.Keyboard_Key_keyXPos)) {
final float keyXPos = Builder.getDimensionOrFraction(keyAttr,
R.styleable.Keyboard_Key_keyXPos, mParams.mBaseWidth, 0);
if (keyXPos < 0) {
// If keyXPos is negative, the actual x-coordinate will be
// keyboardWidth + keyXPos.
// keyXPos shouldn't be less than mCurrentX because drawable area for this
// key starts at mCurrentX. Or, this key will overlaps the adjacent key on
// its left hand side.
return Math.max(keyXPos + keyboardRightEdge, mCurrentX);
} else {
return keyXPos + mParams.mHorizontalEdgesPadding;
}
}
return mCurrentX;
}
public float getKeyWidth(TypedArray keyAttr, float keyXPos) {
final int widthType = Builder.getEnumValue(keyAttr,
R.styleable.Keyboard_Key_keyWidth, KEYWIDTH_NOT_ENUM);
switch (widthType) {
case KEYWIDTH_FILL_RIGHT:
case KEYWIDTH_FILL_BOTH:
final int keyboardRightEdge =
mParams.mOccupiedWidth - mParams.mHorizontalEdgesPadding;
// If keyWidth is fillRight, the actual key width will be determined to fill
// out the area up to the right edge of the keyboard.
// If keyWidth is fillBoth, the actual key width will be determined to fill out
// the area between the nearest key on the left hand side and the right edge of
// the keyboard.
return keyboardRightEdge - keyXPos;
default: // KEYWIDTH_NOT_ENUM
return Builder.getDimensionOrFraction(keyAttr,
R.styleable.Keyboard_Key_keyWidth,
mParams.mBaseWidth, mDefaultKeyWidth);
}
}
}
public Builder(Context context, KP params) {
mContext = context;
final Resources res = context.getResources();
mResources = res;
mDisplayMetrics = res.getDisplayMetrics();
mParams = params;
setTouchPositionCorrectionData(context, params);
params.GRID_WIDTH = res.getInteger(R.integer.config_keyboard_grid_width);
params.GRID_HEIGHT = res.getInteger(R.integer.config_keyboard_grid_height);
}
private static void setTouchPositionCorrectionData(Context context, Params params) {
final TypedArray a = context.obtainStyledAttributes(
null, R.styleable.Keyboard, R.attr.keyboardStyle, 0);
params.mThemeId = a.getInt(R.styleable.Keyboard_themeId, 0);
final int resourceId = a.getResourceId(
R.styleable.Keyboard_touchPositionCorrectionData, 0);
a.recycle();
if (resourceId == 0) {
if (LatinImeLogger.sDBG)
Log.e(TAG, "touchPositionCorrectionData is not defined");
return;
}
final String[] data = context.getResources().getStringArray(resourceId);
params.mTouchPositionCorrection.load(data);
}
public Builder load(int xmlId, KeyboardId id) {
mParams.mId = id;
final XmlResourceParser parser = mResources.getXml(xmlId);
try {
parseKeyboard(parser);
} catch (XmlPullParserException e) {
Log.w(TAG, "keyboard XML parse error: " + e);
throw new IllegalArgumentException(e);
} catch (IOException e) {
Log.w(TAG, "keyboard XML parse error: " + e);
throw new RuntimeException(e);
} finally {
parser.close();
}
return this;
}
public void setTouchPositionCorrectionEnabled(boolean enabled) {
mParams.mTouchPositionCorrection.setEnabled(enabled);
}
public Keyboard build() {
return new Keyboard(mParams);
}
private void parseKeyboard(XmlPullParser parser)
throws XmlPullParserException, IOException {
if (DEBUG) Log.d(TAG, String.format("<%s> %s", TAG_KEYBOARD, mParams.mId));
int event;
while ((event = parser.next()) != XmlPullParser.END_DOCUMENT) {
if (event == XmlPullParser.START_TAG) {
final String tag = parser.getName();
if (TAG_KEYBOARD.equals(tag)) {
parseKeyboardAttributes(parser);
startKeyboard();
parseKeyboardContent(parser, false);
break;
} else {
throw new XmlParseUtils.IllegalStartTag(parser, TAG_KEYBOARD);
}
}
}
}
private void parseKeyboardAttributes(XmlPullParser parser) {
final int displayWidth = mDisplayMetrics.widthPixels;
final TypedArray keyboardAttr = mContext.obtainStyledAttributes(
Xml.asAttributeSet(parser), R.styleable.Keyboard, R.attr.keyboardStyle,
R.style.Keyboard);
final TypedArray keyAttr = mResources.obtainAttributes(Xml.asAttributeSet(parser),
R.styleable.Keyboard_Key);
try {
final int displayHeight = mDisplayMetrics.heightPixels;
final int keyboardHeight = (int)keyboardAttr.getDimension(
R.styleable.Keyboard_keyboardHeight, displayHeight / 2);
final int maxKeyboardHeight = (int)getDimensionOrFraction(keyboardAttr,
R.styleable.Keyboard_maxKeyboardHeight, displayHeight, displayHeight / 2);
int minKeyboardHeight = (int)getDimensionOrFraction(keyboardAttr,
R.styleable.Keyboard_minKeyboardHeight, displayHeight, displayHeight / 2);
if (minKeyboardHeight < 0) {
// Specified fraction was negative, so it should be calculated against display
// width.
minKeyboardHeight = -(int)getDimensionOrFraction(keyboardAttr,
R.styleable.Keyboard_minKeyboardHeight, displayWidth, displayWidth / 2);
}
final Params params = mParams;
// Keyboard height will not exceed maxKeyboardHeight and will not be less than
// minKeyboardHeight.
params.mOccupiedHeight = Math.max(
Math.min(keyboardHeight, maxKeyboardHeight), minKeyboardHeight);
params.mOccupiedWidth = params.mId.mWidth;
params.mTopPadding = (int)getDimensionOrFraction(keyboardAttr,
R.styleable.Keyboard_keyboardTopPadding, params.mOccupiedHeight, 0);
params.mBottomPadding = (int)getDimensionOrFraction(keyboardAttr,
R.styleable.Keyboard_keyboardBottomPadding, params.mOccupiedHeight, 0);
params.mHorizontalEdgesPadding = (int)getDimensionOrFraction(keyboardAttr,
R.styleable.Keyboard_keyboardHorizontalEdgesPadding,
mParams.mOccupiedWidth, 0);
params.mBaseWidth = params.mOccupiedWidth - params.mHorizontalEdgesPadding * 2
- params.mHorizontalCenterPadding;
params.mDefaultKeyWidth = (int)getDimensionOrFraction(keyAttr,
R.styleable.Keyboard_Key_keyWidth, params.mBaseWidth,
params.mBaseWidth / DEFAULT_KEYBOARD_COLUMNS);
params.mHorizontalGap = (int)getDimensionOrFraction(keyboardAttr,
R.styleable.Keyboard_horizontalGap, params.mBaseWidth, 0);
params.mVerticalGap = (int)getDimensionOrFraction(keyboardAttr,
R.styleable.Keyboard_verticalGap, params.mOccupiedHeight, 0);
params.mBaseHeight = params.mOccupiedHeight - params.mTopPadding
- params.mBottomPadding + params.mVerticalGap;
params.mDefaultRowHeight = (int)getDimensionOrFraction(keyboardAttr,
R.styleable.Keyboard_rowHeight, params.mBaseHeight,
params.mBaseHeight / DEFAULT_KEYBOARD_ROWS);
params.mIsRtlKeyboard = keyboardAttr.getBoolean(
R.styleable.Keyboard_isRtlKeyboard, false);
params.mMoreKeysTemplate = keyboardAttr.getResourceId(
R.styleable.Keyboard_moreKeysTemplate, 0);
params.mMaxMiniKeyboardColumn = keyAttr.getInt(
R.styleable.Keyboard_Key_maxMoreKeysColumn, 5);
params.mIconsSet.loadIcons(keyboardAttr);
} finally {
keyAttr.recycle();
keyboardAttr.recycle();
}
}
private void parseKeyboardContent(XmlPullParser parser, boolean skip)
throws XmlPullParserException, IOException {
int event;
while ((event = parser.next()) != XmlPullParser.END_DOCUMENT) {
if (event == XmlPullParser.START_TAG) {
final String tag = parser.getName();
if (TAG_ROW.equals(tag)) {
Row row = parseRowAttributes(parser);
if (DEBUG) Log.d(TAG, String.format("<%s>", TAG_ROW));
if (!skip)
startRow(row);
parseRowContent(parser, row, skip);
} else if (TAG_INCLUDE.equals(tag)) {
parseIncludeKeyboardContent(parser, skip);
} else if (TAG_SWITCH.equals(tag)) {
parseSwitchKeyboardContent(parser, skip);
} else if (TAG_KEY_STYLE.equals(tag)) {
parseKeyStyle(parser, skip);
} else {
throw new XmlParseUtils.IllegalStartTag(parser, TAG_ROW);
}
} else if (event == XmlPullParser.END_TAG) {
final String tag = parser.getName();
if (TAG_KEYBOARD.equals(tag)) {
endKeyboard();
break;
} else if (TAG_CASE.equals(tag) || TAG_DEFAULT.equals(tag)
|| TAG_MERGE.equals(tag)) {
if (DEBUG) Log.d(TAG, String.format("%s>", tag));
break;
} else if (TAG_KEY_STYLE.equals(tag)) {
continue;
} else {
throw new XmlParseUtils.IllegalEndTag(parser, TAG_ROW);
}
}
}
}
private Row parseRowAttributes(XmlPullParser parser) throws XmlPullParserException {
final TypedArray a = mResources.obtainAttributes(Xml.asAttributeSet(parser),
R.styleable.Keyboard);
try {
if (a.hasValue(R.styleable.Keyboard_horizontalGap))
throw new XmlParseUtils.IllegalAttribute(parser, "horizontalGap");
if (a.hasValue(R.styleable.Keyboard_verticalGap))
throw new XmlParseUtils.IllegalAttribute(parser, "verticalGap");
return new Row(mResources, mParams, parser, mCurrentY);
} finally {
a.recycle();
}
}
private void parseRowContent(XmlPullParser parser, Row row, boolean skip)
throws XmlPullParserException, IOException {
int event;
while ((event = parser.next()) != XmlPullParser.END_DOCUMENT) {
if (event == XmlPullParser.START_TAG) {
final String tag = parser.getName();
if (TAG_KEY.equals(tag)) {
parseKey(parser, row, skip);
} else if (TAG_SPACER.equals(tag)) {
parseSpacer(parser, row, skip);
} else if (TAG_INCLUDE.equals(tag)) {
parseIncludeRowContent(parser, row, skip);
} else if (TAG_SWITCH.equals(tag)) {
parseSwitchRowContent(parser, row, skip);
} else if (TAG_KEY_STYLE.equals(tag)) {
parseKeyStyle(parser, skip);
} else {
throw new XmlParseUtils.IllegalStartTag(parser, TAG_KEY);
}
} else if (event == XmlPullParser.END_TAG) {
final String tag = parser.getName();
if (TAG_ROW.equals(tag)) {
if (DEBUG) Log.d(TAG, String.format("%s>", TAG_ROW));
if (!skip)
endRow(row);
break;
} else if (TAG_CASE.equals(tag) || TAG_DEFAULT.equals(tag)
|| TAG_MERGE.equals(tag)) {
if (DEBUG) Log.d(TAG, String.format("%s>", tag));
break;
} else if (TAG_KEY_STYLE.equals(tag)) {
continue;
} else {
throw new XmlParseUtils.IllegalEndTag(parser, TAG_KEY);
}
}
}
}
private void parseKey(XmlPullParser parser, Row row, boolean skip)
throws XmlPullParserException, IOException {
if (skip) {
XmlParseUtils.checkEndTag(TAG_KEY, parser);
} else {
final Key key = new Key(mResources, mParams, row, parser, mKeyStyles);
if (DEBUG) Log.d(TAG, String.format("<%s%s keyLabel=%s code=%d moreKeys=%s />",
TAG_KEY, (key.isEnabled() ? "" : " disabled"), key.mLabel, key.mCode,
Arrays.toString(key.mMoreKeys)));
XmlParseUtils.checkEndTag(TAG_KEY, parser);
endKey(key);
}
}
private void parseSpacer(XmlPullParser parser, Row row, boolean skip)
throws XmlPullParserException, IOException {
if (skip) {
XmlParseUtils.checkEndTag(TAG_SPACER, parser);
} else {
final Key.Spacer spacer = new Key.Spacer(
mResources, mParams, row, parser, mKeyStyles);
if (DEBUG) Log.d(TAG, String.format("<%s />", TAG_SPACER));
XmlParseUtils.checkEndTag(TAG_SPACER, parser);
endKey(spacer);
}
}
private void parseIncludeKeyboardContent(XmlPullParser parser, boolean skip)
throws XmlPullParserException, IOException {
parseIncludeInternal(parser, null, skip);
}
private void parseIncludeRowContent(XmlPullParser parser, Row row, boolean skip)
throws XmlPullParserException, IOException {
parseIncludeInternal(parser, row, skip);
}
private void parseIncludeInternal(XmlPullParser parser, Row row, boolean skip)
throws XmlPullParserException, IOException {
if (skip) {
XmlParseUtils.checkEndTag(TAG_INCLUDE, parser);
} else {
final TypedArray a = mResources.obtainAttributes(Xml.asAttributeSet(parser),
R.styleable.Keyboard_Include);
int keyboardLayout = 0;
try {
XmlParseUtils.checkAttributeExists(a,
R.styleable.Keyboard_Include_keyboardLayout, "keyboardLayout",
TAG_INCLUDE, parser);
keyboardLayout = a.getResourceId(
R.styleable.Keyboard_Include_keyboardLayout, 0);
} finally {
a.recycle();
}
XmlParseUtils.checkEndTag(TAG_INCLUDE, parser);
if (DEBUG) Log.d(TAG, String.format("<%s keyboardLayout=%s />",
TAG_INCLUDE, mResources.getResourceEntryName(keyboardLayout)));
final XmlResourceParser parserForInclude = mResources.getXml(keyboardLayout);
try {
parseMerge(parserForInclude, row, skip);
} finally {
parserForInclude.close();
}
}
}
private void parseMerge(XmlPullParser parser, Row row, boolean skip)
throws XmlPullParserException, IOException {
int event;
while ((event = parser.next()) != XmlPullParser.END_DOCUMENT) {
if (event == XmlPullParser.START_TAG) {
final String tag = parser.getName();
if (TAG_MERGE.equals(tag)) {
if (row == null) {
parseKeyboardContent(parser, skip);
} else {
parseRowContent(parser, row, skip);
}
break;
} else {
throw new XmlParseUtils.ParseException(
"Included keyboard layout must have root element", parser);
}
}
}
}
private void parseSwitchKeyboardContent(XmlPullParser parser, boolean skip)
throws XmlPullParserException, IOException {
parseSwitchInternal(parser, null, skip);
}
private void parseSwitchRowContent(XmlPullParser parser, Row row, boolean skip)
throws XmlPullParserException, IOException {
parseSwitchInternal(parser, row, skip);
}
private void parseSwitchInternal(XmlPullParser parser, Row row, boolean skip)
throws XmlPullParserException, IOException {
if (DEBUG) Log.d(TAG, String.format("<%s> %s", TAG_SWITCH, mParams.mId));
boolean selected = false;
int event;
while ((event = parser.next()) != XmlPullParser.END_DOCUMENT) {
if (event == XmlPullParser.START_TAG) {
final String tag = parser.getName();
if (TAG_CASE.equals(tag)) {
selected |= parseCase(parser, row, selected ? true : skip);
} else if (TAG_DEFAULT.equals(tag)) {
selected |= parseDefault(parser, row, selected ? true : skip);
} else {
throw new XmlParseUtils.IllegalStartTag(parser, TAG_KEY);
}
} else if (event == XmlPullParser.END_TAG) {
final String tag = parser.getName();
if (TAG_SWITCH.equals(tag)) {
if (DEBUG) Log.d(TAG, String.format("%s>", TAG_SWITCH));
break;
} else {
throw new XmlParseUtils.IllegalEndTag(parser, TAG_KEY);
}
}
}
}
private boolean parseCase(XmlPullParser parser, Row row, boolean skip)
throws XmlPullParserException, IOException {
final boolean selected = parseCaseCondition(parser);
if (row == null) {
// Processing Rows.
parseKeyboardContent(parser, selected ? skip : true);
} else {
// Processing Keys.
parseRowContent(parser, row, selected ? skip : true);
}
return selected;
}
private boolean parseCaseCondition(XmlPullParser parser) {
final KeyboardId id = mParams.mId;
if (id == null)
return true;
final TypedArray a = mResources.obtainAttributes(Xml.asAttributeSet(parser),
R.styleable.Keyboard_Case);
try {
final boolean modeMatched = matchTypedValue(a,
R.styleable.Keyboard_Case_mode, id.mMode, KeyboardId.modeName(id.mMode));
final boolean navigateActionMatched = matchBoolean(a,
R.styleable.Keyboard_Case_navigateAction, id.navigateAction());
final boolean passwordInputMatched = matchBoolean(a,
R.styleable.Keyboard_Case_passwordInput, id.passwordInput());
final boolean hasSettingsKeyMatched = matchBoolean(a,
R.styleable.Keyboard_Case_hasSettingsKey, id.hasSettingsKey());
final boolean f2KeyModeMatched = matchInteger(a,
R.styleable.Keyboard_Case_f2KeyMode, id.f2KeyMode());
final boolean clobberSettingsKeyMatched = matchBoolean(a,
R.styleable.Keyboard_Case_clobberSettingsKey, id.mClobberSettingsKey);
final boolean shortcutKeyEnabledMatched = matchBoolean(a,
R.styleable.Keyboard_Case_shortcutKeyEnabled, id.mShortcutKeyEnabled);
final boolean hasShortcutKeyMatched = matchBoolean(a,
R.styleable.Keyboard_Case_hasShortcutKey, id.mHasShortcutKey);
// As noted at {@link KeyboardId} class, we are interested only in enum value
// masked by {@link android.view.inputmethod.EditorInfo#IME_MASK_ACTION} and
// {@link android.view.inputmethod.EditorInfo#IME_FLAG_NO_ENTER_ACTION}. So matching
// this attribute with id.mImeOptions as integer value is enough for our purpose.
final boolean imeActionMatched = matchInteger(a,
R.styleable.Keyboard_Case_imeAction, id.imeAction());
final boolean localeCodeMatched = matchString(a,
R.styleable.Keyboard_Case_localeCode, id.mLocale.toString());
final boolean languageCodeMatched = matchString(a,
R.styleable.Keyboard_Case_languageCode, id.mLocale.getLanguage());
final boolean countryCodeMatched = matchString(a,
R.styleable.Keyboard_Case_countryCode, id.mLocale.getCountry());
final boolean selected = modeMatched && navigateActionMatched
&& passwordInputMatched && hasSettingsKeyMatched && f2KeyModeMatched
&& clobberSettingsKeyMatched && shortcutKeyEnabledMatched
&& hasShortcutKeyMatched && imeActionMatched && localeCodeMatched
&& languageCodeMatched && countryCodeMatched;
if (DEBUG) Log.d(TAG, String.format("<%s%s%s%s%s%s%s%s%s%s%s%s%s> %s", TAG_CASE,
textAttr(a.getString(R.styleable.Keyboard_Case_mode), "mode"),
booleanAttr(a, R.styleable.Keyboard_Case_navigateAction, "navigateAction"),
booleanAttr(a, R.styleable.Keyboard_Case_passwordInput, "passwordInput"),
booleanAttr(a, R.styleable.Keyboard_Case_hasSettingsKey, "hasSettingsKey"),
textAttr(KeyboardId.f2KeyModeName(
a.getInt(R.styleable.Keyboard_Case_f2KeyMode, -1)), "f2KeyMode"),
booleanAttr(a, R.styleable.Keyboard_Case_clobberSettingsKey,
"clobberSettingsKey"),
booleanAttr(a, R.styleable.Keyboard_Case_shortcutKeyEnabled,
"shortcutKeyEnabled"),
booleanAttr(a, R.styleable.Keyboard_Case_hasShortcutKey, "hasShortcutKey"),
textAttr(EditorInfoCompatUtils.imeOptionsName(
a.getInt(R.styleable.Keyboard_Case_imeAction, -1)), "imeAction"),
textAttr(a.getString(R.styleable.Keyboard_Case_localeCode), "localeCode"),
textAttr(a.getString(R.styleable.Keyboard_Case_languageCode),
"languageCode"),
textAttr(a.getString(R.styleable.Keyboard_Case_countryCode), "countryCode"),
Boolean.toString(selected)));
return selected;
} finally {
a.recycle();
}
}
private static boolean matchInteger(TypedArray a, int index, int value) {
// If does not have "index" attribute, that means this is wild-card for
// the attribute.
return !a.hasValue(index) || a.getInt(index, 0) == value;
}
private static boolean matchBoolean(TypedArray a, int index, boolean value) {
// If does not have "index" attribute, that means this is wild-card for
// the attribute.
return !a.hasValue(index) || a.getBoolean(index, false) == value;
}
private static boolean matchString(TypedArray a, int index, String value) {
// If does not have "index" attribute, that means this is wild-card for
// the attribute.
return !a.hasValue(index)
|| stringArrayContains(a.getString(index).split("\\|"), value);
}
private static boolean matchTypedValue(TypedArray a, int index, int intValue,
String strValue) {
// If does not have "index" attribute, that means this is wild-card for
// the attribute.
final TypedValue v = a.peekValue(index);
if (v == null)
return true;
if (isIntegerValue(v)) {
return intValue == a.getInt(index, 0);
} else if (isStringValue(v)) {
return stringArrayContains(a.getString(index).split("\\|"), strValue);
}
return false;
}
private static boolean stringArrayContains(String[] array, String value) {
for (final String elem : array) {
if (elem.equals(value))
return true;
}
return false;
}
private boolean parseDefault(XmlPullParser parser, Row row, boolean skip)
throws XmlPullParserException, IOException {
if (DEBUG) Log.d(TAG, String.format("<%s>", TAG_DEFAULT));
if (row == null) {
parseKeyboardContent(parser, skip);
} else {
parseRowContent(parser, row, skip);
}
return true;
}
private void parseKeyStyle(XmlPullParser parser, boolean skip)
throws XmlPullParserException {
TypedArray keyStyleAttr = mResources.obtainAttributes(Xml.asAttributeSet(parser),
R.styleable.Keyboard_KeyStyle);
TypedArray keyAttrs = mResources.obtainAttributes(Xml.asAttributeSet(parser),
R.styleable.Keyboard_Key);
try {
if (!keyStyleAttr.hasValue(R.styleable.Keyboard_KeyStyle_styleName))
throw new XmlParseUtils.ParseException("<" + TAG_KEY_STYLE
+ "/> needs styleName attribute", parser);
if (!skip)
mKeyStyles.parseKeyStyleAttributes(keyStyleAttr, keyAttrs, parser);
} finally {
keyStyleAttr.recycle();
keyAttrs.recycle();
}
}
private void startKeyboard() {
mCurrentY += mParams.mTopPadding;
mTopEdge = true;
}
private void startRow(Row row) {
addEdgeSpace(mParams.mHorizontalEdgesPadding, row);
mCurrentRow = row;
mLeftEdge = true;
mRightEdgeKey = null;
}
private void endRow(Row row) {
if (mCurrentRow == null)
throw new InflateException("orphant end row tag");
if (mRightEdgeKey != null) {
mRightEdgeKey.markAsRightEdge(mParams);
mRightEdgeKey = null;
}
addEdgeSpace(mParams.mHorizontalEdgesPadding, row);
mCurrentY += row.mRowHeight;
mCurrentRow = null;
mTopEdge = false;
}
private void endKey(Key key) {
mParams.onAddKey(key);
if (mLeftEdge) {
key.markAsLeftEdge(mParams);
mLeftEdge = false;
}
if (mTopEdge) {
key.markAsTopEdge(mParams);
}
mRightEdgeKey = key;
}
private void endKeyboard() {
// nothing to do here.
}
private void addEdgeSpace(float width, Row row) {
row.advanceXPos(width);
mLeftEdge = false;
mRightEdgeKey = null;
}
public static float getDimensionOrFraction(TypedArray a, int index, int base,
float defValue) {
final TypedValue value = a.peekValue(index);
if (value == null)
return defValue;
if (isFractionValue(value)) {
return a.getFraction(index, base, base, defValue);
} else if (isDimensionValue(value)) {
return a.getDimension(index, defValue);
}
return defValue;
}
public static int getEnumValue(TypedArray a, int index, int defValue) {
final TypedValue value = a.peekValue(index);
if (value == null)
return defValue;
if (isIntegerValue(value)) {
return a.getInt(index, defValue);
}
return defValue;
}
private static boolean isFractionValue(TypedValue v) {
return v.type == TypedValue.TYPE_FRACTION;
}
private static boolean isDimensionValue(TypedValue v) {
return v.type == TypedValue.TYPE_DIMENSION;
}
private static boolean isIntegerValue(TypedValue v) {
return v.type >= TypedValue.TYPE_FIRST_INT && v.type <= TypedValue.TYPE_LAST_INT;
}
private static boolean isStringValue(TypedValue v) {
return v.type == TypedValue.TYPE_STRING;
}
private static String textAttr(String value, String name) {
return value != null ? String.format(" %s=%s", name, value) : "";
}
private static String booleanAttr(TypedArray a, int index, String name) {
return a.hasValue(index)
? String.format(" %s=%s", name, a.getBoolean(index, false)) : "";
}
}
}