/* * Copyright (C) 2012 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.android.inputmethod.keyboard.internal; import android.text.TextUtils; import android.util.SparseIntArray; import com.android.inputmethod.compat.CharacterCompat; import com.android.inputmethod.keyboard.Key; import com.android.inputmethod.latin.Constants; import com.android.inputmethod.latin.define.DebugFlags; import com.android.inputmethod.latin.utils.CollectionUtils; import com.android.inputmethod.latin.utils.StringUtils; import java.util.ArrayList; import java.util.Arrays; import java.util.HashSet; import java.util.Locale; /** * The more key specification object. The more keys are an array of {@link MoreKeySpec}. * * The more keys specification is comma separated "key specification" each of which represents one * "more key". * The key specification might have label or string resource reference in it. These references are * expanded before parsing comma. * Special character, comma ',' backslash '\' can be escaped by '\' character. * Note that the '\' is also parsed by XML parser and {@link MoreKeySpec#splitKeySpecs(String)} * as well. */ // TODO: Should extend the key specification object. public final class MoreKeySpec { public final int mCode; public final String mLabel; public final String mOutputText; public final int mIconId; public MoreKeySpec(final String moreKeySpec, boolean needsToUpperCase, final Locale locale) { if (TextUtils.isEmpty(moreKeySpec)) { throw new KeySpecParser.KeySpecParserError("Empty more key spec"); } mLabel = StringUtils.toUpperCaseOfStringForLocale( KeySpecParser.getLabel(moreKeySpec), needsToUpperCase, locale); final int code = StringUtils.toUpperCaseOfCodeForLocale( KeySpecParser.getCode(moreKeySpec), needsToUpperCase, locale); if (code == Constants.CODE_UNSPECIFIED) { // Some letter, for example German Eszett (U+00DF: "ß"), has multiple characters // upper case representation ("SS"). mCode = Constants.CODE_OUTPUT_TEXT; mOutputText = mLabel; } else { mCode = code; mOutputText = StringUtils.toUpperCaseOfStringForLocale( KeySpecParser.getOutputText(moreKeySpec), needsToUpperCase, locale); } mIconId = KeySpecParser.getIconId(moreKeySpec); } public Key buildKey(final int x, final int y, final int labelFlags, final KeyboardParams params) { return new Key(mLabel, mIconId, mCode, mOutputText, null /* hintLabel */, labelFlags, Key.BACKGROUND_TYPE_NORMAL, x, y, params.mDefaultKeyWidth, params.mDefaultRowHeight, params.mHorizontalGap, params.mVerticalGap); } @Override public int hashCode() { int hashCode = 1; hashCode = 31 + mCode; hashCode = hashCode * 31 + mIconId; hashCode = hashCode * 31 + (mLabel == null ? 0 : mLabel.hashCode()); hashCode = hashCode * 31 + (mOutputText == null ? 0 : mOutputText.hashCode()); return hashCode; } @Override public boolean equals(final Object o) { if (this == o) return true; if (o instanceof MoreKeySpec) { final MoreKeySpec other = (MoreKeySpec)o; return mCode == other.mCode && mIconId == other.mIconId && TextUtils.equals(mLabel, other.mLabel) && TextUtils.equals(mOutputText, other.mOutputText); } return false; } @Override public String toString() { final String label = (mIconId == KeyboardIconsSet.ICON_UNDEFINED ? mLabel : KeyboardIconsSet.PREFIX_ICON + KeyboardIconsSet.getIconName(mIconId)); final String output = (mCode == Constants.CODE_OUTPUT_TEXT ? mOutputText : Constants.printableCode(mCode)); if (StringUtils.codePointCount(label) == 1 && label.codePointAt(0) == mCode) { return output; } else { return label + "|" + output; } } public static class LettersOnBaseLayout { private final SparseIntArray mCodes = new SparseIntArray(); private final HashSet mTexts = new HashSet<>(); public void addLetter(final Key key) { final int code = key.getCode(); if (CharacterCompat.isAlphabetic(code)) { mCodes.put(code, 0); } else if (code == Constants.CODE_OUTPUT_TEXT) { mTexts.add(key.getOutputText()); } } public boolean contains(final MoreKeySpec moreKey) { final int code = moreKey.mCode; if (CharacterCompat.isAlphabetic(code) && mCodes.indexOfKey(code) >= 0) { return true; } else if (code == Constants.CODE_OUTPUT_TEXT && mTexts.contains(moreKey.mOutputText)) { return true; } return false; } } public static MoreKeySpec[] removeRedundantMoreKeys(final MoreKeySpec[] moreKeys, final LettersOnBaseLayout lettersOnBaseLayout) { if (moreKeys == null) { return null; } final ArrayList filteredMoreKeys = new ArrayList<>(); for (final MoreKeySpec moreKey : moreKeys) { if (!lettersOnBaseLayout.contains(moreKey)) { filteredMoreKeys.add(moreKey); } } final int size = filteredMoreKeys.size(); return (moreKeys.length == size) ? moreKeys : filteredMoreKeys.toArray(new MoreKeySpec[size]); } private static final boolean DEBUG = DebugFlags.DEBUG_ENABLED; // Constants for parsing. private static final char COMMA = Constants.CODE_COMMA; private static final char BACKSLASH = Constants.CODE_BACKSLASH; private static final String ADDITIONAL_MORE_KEY_MARKER = StringUtils.newSingleCodePointString(Constants.CODE_PERCENT); /** * Split the text containing multiple key specifications separated by commas into an array of * key specifications. * A key specification can contain a character escaped by the backslash character, including a * comma character. * Note that an empty key specification will be eliminated from the result array. * * @param text the text containing multiple key specifications. * @return an array of key specification text. Null if the specified text is empty * or has no key specifications. */ public static String[] splitKeySpecs(final String text) { if (TextUtils.isEmpty(text)) { return null; } final int size = text.length(); // Optimization for one-letter key specification. if (size == 1) { return text.charAt(0) == COMMA ? null : new String[] { text }; } ArrayList list = null; int start = 0; // The characters in question in this loop are COMMA and BACKSLASH. These characters never // match any high or low surrogate character. So it is OK to iterate through with char // index. for (int pos = 0; pos < size; pos++) { final char c = text.charAt(pos); if (c == COMMA) { // Skip empty entry. if (pos - start > 0) { if (list == null) { list = new ArrayList<>(); } list.add(text.substring(start, pos)); } // Skip comma start = pos + 1; } else if (c == BACKSLASH) { // Skip escape character and escaped character. pos++; } } final String remain = (size - start > 0) ? text.substring(start) : null; if (list == null) { return remain != null ? new String[] { remain } : null; } if (remain != null) { list.add(remain); } return list.toArray(new String[list.size()]); } private static final String[] EMPTY_STRING_ARRAY = new String[0]; private static String[] filterOutEmptyString(final String[] array) { if (array == null) { return EMPTY_STRING_ARRAY; } ArrayList out = null; for (int i = 0; i < array.length; i++) { final String entry = array[i]; if (TextUtils.isEmpty(entry)) { if (out == null) { out = CollectionUtils.arrayAsList(array, 0, i); } } else if (out != null) { out.add(entry); } } if (out == null) { return array; } return out.toArray(new String[out.size()]); } public static String[] insertAdditionalMoreKeys(final String[] moreKeySpecs, final String[] additionalMoreKeySpecs) { final String[] moreKeys = filterOutEmptyString(moreKeySpecs); final String[] additionalMoreKeys = filterOutEmptyString(additionalMoreKeySpecs); final int moreKeysCount = moreKeys.length; final int additionalCount = additionalMoreKeys.length; ArrayList out = null; int additionalIndex = 0; for (int moreKeyIndex = 0; moreKeyIndex < moreKeysCount; moreKeyIndex++) { final String moreKeySpec = moreKeys[moreKeyIndex]; if (moreKeySpec.equals(ADDITIONAL_MORE_KEY_MARKER)) { if (additionalIndex < additionalCount) { // Replace '%' marker with additional more key specification. final String additionalMoreKey = additionalMoreKeys[additionalIndex]; if (out != null) { out.add(additionalMoreKey); } else { moreKeys[moreKeyIndex] = additionalMoreKey; } additionalIndex++; } else { // Filter out excessive '%' marker. if (out == null) { out = CollectionUtils.arrayAsList(moreKeys, 0, moreKeyIndex); } } } else { if (out != null) { out.add(moreKeySpec); } } } if (additionalCount > 0 && additionalIndex == 0) { // No '%' marker is found in more keys. // Insert all additional more keys to the head of more keys. if (DEBUG && out != null) { throw new RuntimeException("Internal logic error:" + " moreKeys=" + Arrays.toString(moreKeys) + " additionalMoreKeys=" + Arrays.toString(additionalMoreKeys)); } out = CollectionUtils.arrayAsList(additionalMoreKeys, additionalIndex, additionalCount); for (int i = 0; i < moreKeysCount; i++) { out.add(moreKeys[i]); } } else if (additionalIndex < additionalCount) { // The number of '%' markers are less than additional more keys. // Append remained additional more keys to the tail of more keys. if (DEBUG && out != null) { throw new RuntimeException("Internal logic error:" + " moreKeys=" + Arrays.toString(moreKeys) + " additionalMoreKeys=" + Arrays.toString(additionalMoreKeys)); } out = CollectionUtils.arrayAsList(moreKeys, 0, moreKeysCount); for (int i = additionalIndex; i < additionalCount; i++) { out.add(additionalMoreKeys[additionalIndex]); } } if (out == null && moreKeysCount > 0) { return moreKeys; } else if (out != null && out.size() > 0) { return out.toArray(new String[out.size()]); } else { return null; } } public static int getIntValue(final String[] moreKeys, final String key, final int defaultValue) { if (moreKeys == null) { return defaultValue; } final int keyLen = key.length(); boolean foundValue = false; int value = defaultValue; for (int i = 0; i < moreKeys.length; i++) { final String moreKeySpec = moreKeys[i]; if (moreKeySpec == null || !moreKeySpec.startsWith(key)) { continue; } moreKeys[i] = null; try { if (!foundValue) { value = Integer.parseInt(moreKeySpec.substring(keyLen)); foundValue = true; } } catch (NumberFormatException e) { throw new RuntimeException( "integer should follow after " + key + ": " + moreKeySpec); } } return value; } public static boolean getBooleanValue(final String[] moreKeys, final String key) { if (moreKeys == null) { return false; } boolean value = false; for (int i = 0; i < moreKeys.length; i++) { final String moreKeySpec = moreKeys[i]; if (moreKeySpec == null || !moreKeySpec.equals(key)) { continue; } moreKeys[i] = null; value = true; } return value; } }