/* * 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.latin; import com.android.inputmethod.keyboard.KeyboardId; import android.inputmethodservice.InputMethodService; import android.os.AsyncTask; import android.os.Handler; import android.os.HandlerThread; import android.os.Process; import android.text.InputType; import android.text.format.DateUtils; import android.util.Log; import android.view.inputmethod.EditorInfo; import android.view.inputmethod.InputMethodInfo; import android.view.inputmethod.InputMethodManager; import java.io.BufferedReader; import java.io.File; import java.io.FileNotFoundException; import java.io.FileOutputStream; import java.io.FileReader; import java.io.IOException; import java.io.PrintWriter; import java.text.SimpleDateFormat; import java.util.Date; public class Utils { private static final String TAG = Utils.class.getSimpleName(); private static final int MINIMUM_SAFETY_NET_CHAR_LENGTH = 4; private static boolean DBG = LatinImeLogger.sDBG; /** * Cancel an {@link AsyncTask}. * * @param mayInterruptIfRunning true if the thread executing this * task should be interrupted; otherwise, in-progress tasks are allowed * to complete. */ public static void cancelTask(AsyncTask task, boolean mayInterruptIfRunning) { if (task != null && task.getStatus() != AsyncTask.Status.FINISHED) { task.cancel(mayInterruptIfRunning); } } public static class GCUtils { private static final String GC_TAG = GCUtils.class.getSimpleName(); public static final int GC_TRY_COUNT = 2; // GC_TRY_LOOP_MAX is used for the hard limit of GC wait, // GC_TRY_LOOP_MAX should be greater than GC_TRY_COUNT. public static final int GC_TRY_LOOP_MAX = 5; private static final long GC_INTERVAL = DateUtils.SECOND_IN_MILLIS; private static GCUtils sInstance = new GCUtils(); private int mGCTryCount = 0; public static GCUtils getInstance() { return sInstance; } public void reset() { mGCTryCount = 0; } public boolean tryGCOrWait(String metaData, Throwable t) { if (mGCTryCount == 0) { System.gc(); } if (++mGCTryCount > GC_TRY_COUNT) { LatinImeLogger.logOnException(metaData, t); return false; } else { try { Thread.sleep(GC_INTERVAL); return true; } catch (InterruptedException e) { Log.e(GC_TAG, "Sleep was interrupted."); LatinImeLogger.logOnException(metaData, t); return false; } } } } public static boolean hasMultipleEnabledIMEsOrSubtypes(InputMethodManager imm) { return imm.getEnabledInputMethodList().size() > 1 // imm.getEnabledInputMethodSubtypeList(null, false) will return the current IME's enabled // input method subtype (The current IME should be LatinIME.) || imm.getEnabledInputMethodSubtypeList(null, false).size() > 1; } public static String getInputMethodId(InputMethodManager imm, String packageName) { for (final InputMethodInfo imi : imm.getEnabledInputMethodList()) { if (imi.getPackageName().equals(packageName)) return imi.getId(); } throw new RuntimeException("Can not find input method id for " + packageName); } public static boolean shouldBlockedBySafetyNetForAutoCorrection(SuggestedWords suggestions, Suggest suggest) { // Safety net for auto correction. // Actually if we hit this safety net, it's actually a bug. if (suggestions.size() <= 1 || suggestions.mTypedWordValid) return false; // If user selected aggressive auto correction mode, there is no need to use the safety // net. if (suggest.isAggressiveAutoCorrectionMode()) return false; CharSequence typedWord = suggestions.getWord(0); // If the length of typed word is less than MINIMUM_SAFETY_NET_CHAR_LENGTH, // we should not use net because relatively edit distance can be big. if (typedWord.length() < MINIMUM_SAFETY_NET_CHAR_LENGTH) return false; CharSequence candidateWord = suggestions.getWord(1); final int typedWordLength = typedWord.length(); final int maxEditDistanceOfNativeDictionary = typedWordLength < 5 ? 2 : typedWordLength / 2; final int distance = Utils.editDistance(typedWord, candidateWord); if (DBG) { Log.d(TAG, "Autocorrected edit distance = " + distance + ", " + maxEditDistanceOfNativeDictionary); } if (distance > maxEditDistanceOfNativeDictionary) { if (DBG) { Log.d(TAG, "Safety net: before = " + typedWord + ", after = " + candidateWord); Log.w(TAG, "(Error) The edit distance of this correction exceeds limit. " + "Turning off auto-correction."); } return true; } else { return false; } } /* package */ static class RingCharBuffer { private static RingCharBuffer sRingCharBuffer = new RingCharBuffer(); private static final char PLACEHOLDER_DELIMITER_CHAR = '\uFFFC'; private static final int INVALID_COORDINATE = -2; /* package */ static final int BUFSIZE = 20; private InputMethodService mContext; private boolean mEnabled = false; private boolean mUsabilityStudy = false; private int mEnd = 0; /* package */ int mLength = 0; private char[] mCharBuf = new char[BUFSIZE]; private int[] mXBuf = new int[BUFSIZE]; private int[] mYBuf = new int[BUFSIZE]; private RingCharBuffer() { // Intentional empty constructor for singleton. } public static RingCharBuffer getInstance() { return sRingCharBuffer; } public static RingCharBuffer init(InputMethodService context, boolean enabled, boolean usabilityStudy) { sRingCharBuffer.mContext = context; sRingCharBuffer.mEnabled = enabled || usabilityStudy; sRingCharBuffer.mUsabilityStudy = usabilityStudy; UsabilityStudyLogUtils.getInstance().init(context); return sRingCharBuffer; } private int normalize(int in) { int ret = in % BUFSIZE; return ret < 0 ? ret + BUFSIZE : ret; } public void push(char c, int x, int y) { if (!mEnabled) return; if (mUsabilityStudy) { UsabilityStudyLogUtils.getInstance().writeChar(c, x, y); } mCharBuf[mEnd] = c; mXBuf[mEnd] = x; mYBuf[mEnd] = y; mEnd = normalize(mEnd + 1); if (mLength < BUFSIZE) { ++mLength; } } public char pop() { if (mLength < 1) { return PLACEHOLDER_DELIMITER_CHAR; } else { mEnd = normalize(mEnd - 1); --mLength; return mCharBuf[mEnd]; } } public char getLastChar() { if (mLength < 1) { return PLACEHOLDER_DELIMITER_CHAR; } else { return mCharBuf[normalize(mEnd - 1)]; } } public int getPreviousX(char c, int back) { int index = normalize(mEnd - 2 - back); if (mLength <= back || Character.toLowerCase(c) != Character.toLowerCase(mCharBuf[index])) { return INVALID_COORDINATE; } else { return mXBuf[index]; } } public int getPreviousY(char c, int back) { int index = normalize(mEnd - 2 - back); if (mLength <= back || Character.toLowerCase(c) != Character.toLowerCase(mCharBuf[index])) { return INVALID_COORDINATE; } else { return mYBuf[index]; } } public String getLastString() { StringBuilder sb = new StringBuilder(); for (int i = 0; i < mLength; ++i) { char c = mCharBuf[normalize(mEnd - 1 - i)]; if (!((LatinIME)mContext).isWordSeparator(c)) { sb.append(c); } else { break; } } return sb.reverse().toString(); } public void reset() { mLength = 0; } } public static int editDistance(CharSequence s, CharSequence t) { if (s == null || t == null) { throw new IllegalArgumentException("editDistance: Arguments should not be null."); } final int sl = s.length(); final int tl = t.length(); int[][] dp = new int [sl + 1][tl + 1]; for (int i = 0; i <= sl; i++) { dp[i][0] = i; } for (int j = 0; j <= tl; j++) { dp[0][j] = j; } for (int i = 0; i < sl; ++i) { for (int j = 0; j < tl; ++j) { if (Character.toLowerCase(s.charAt(i)) == Character.toLowerCase(t.charAt(j))) { dp[i + 1][j + 1] = dp[i][j]; } else { dp[i + 1][j + 1] = 1 + Math.min(dp[i][j], Math.min(dp[i + 1][j], dp[i][j + 1])); } } } return dp[sl][tl]; } // Get the current stack trace public static String getStackTrace() { StringBuilder sb = new StringBuilder(); try { throw new RuntimeException(); } catch (RuntimeException e) { StackTraceElement[] frames = e.getStackTrace(); // Start at 1 because the first frame is here and we don't care about it for (int j = 1; j < frames.length; ++j) sb.append(frames[j].toString() + "\n"); } return sb.toString(); } // In dictionary.cpp, getSuggestion() method, // suggestion scores are computed using the below formula. // original score (called 'frequency') // := pow(mTypedLetterMultiplier (this is defined 2), // (the number of matched characters between typed word and suggested word)) // * (individual word's score which defined in the unigram dictionary, // and this score is defined in range [0, 255].) // Then, the following processing is applied. // - If the dictionary word is matched up to the point of the user entry // (full match up to min(before.length(), after.length()) // => Then multiply by FULL_MATCHED_WORDS_PROMOTION_RATE (this is defined 1.2) // - If the word is a true full match except for differences in accents or // capitalization, then treat it as if the frequency was 255. // - If before.length() == after.length() // => multiply by mFullWordMultiplier (this is defined 2)) // So, maximum original score is pow(2, min(before.length(), after.length())) * 255 * 2 * 1.2 // For historical reasons we ignore the 1.2 modifier (because the measure for a good // autocorrection threshold was done at a time when it didn't exist). This doesn't change // the result. // So, we can normalize original score by dividing pow(2, min(b.l(),a.l())) * 255 * 2. private static final int MAX_INITIAL_SCORE = 255; private static final int TYPED_LETTER_MULTIPLIER = 2; private static final int FULL_WORD_MULTIPLIER = 2; public static double calcNormalizedScore(CharSequence before, CharSequence after, int score) { final int beforeLength = before.length(); final int afterLength = after.length(); if (beforeLength == 0 || afterLength == 0) return 0; final int distance = editDistance(before, after); // If afterLength < beforeLength, the algorithm is suggesting a word by excessive character // correction. final double maximumScore = MAX_INITIAL_SCORE * Math.pow(TYPED_LETTER_MULTIPLIER, Math.min(beforeLength, afterLength)) * FULL_WORD_MULTIPLIER; // add a weight based on edit distance. // distance <= max(afterLength, beforeLength) == afterLength, // so, 0 <= distance / afterLength <= 1 final double weight = 1.0 - (double) distance / afterLength; return (score / maximumScore) * weight; } public static class UsabilityStudyLogUtils { private static final String TAG = "UsabilityStudyLogUtils"; private static final String FILENAME = "log.txt"; private static final UsabilityStudyLogUtils sInstance = new UsabilityStudyLogUtils(); private final Handler mLoggingHandler; private File mFile; private File mDirectory; private InputMethodService mIms; private PrintWriter mWriter; private final Date mDate; private final SimpleDateFormat mDateFormat; private UsabilityStudyLogUtils() { mDate = new Date(); mDateFormat = new SimpleDateFormat("dd MMM HH:mm:ss.SSS"); HandlerThread handlerThread = new HandlerThread("UsabilityStudyLogUtils logging task", Process.THREAD_PRIORITY_BACKGROUND); handlerThread.start(); mLoggingHandler = new Handler(handlerThread.getLooper()); } public static UsabilityStudyLogUtils getInstance() { return sInstance; } public void init(InputMethodService ims) { mIms = ims; mDirectory = ims.getFilesDir(); } private void createLogFileIfNotExist() { if ((mFile == null || !mFile.exists()) && (mDirectory != null && mDirectory.exists())) { try { mWriter = getPrintWriter(mDirectory, FILENAME, false); } catch (IOException e) { Log.e(TAG, "Can't create log file."); } } } public void writeBackSpace() { UsabilityStudyLogUtils.getInstance().write("\t0\t0"); } public void writeChar(char c, int x, int y) { String inputChar = String.valueOf(c); switch (c) { case '\n': inputChar = ""; break; case '\t': inputChar = ""; break; case ' ': inputChar = ""; break; } UsabilityStudyLogUtils.getInstance().write(inputChar + "\t" + x + "\t" + y); LatinImeLogger.onPrintAllUsabilityStudyLogs(); } public void write(final String log) { mLoggingHandler.post(new Runnable() { @Override public void run() { createLogFileIfNotExist(); final long currentTime = System.currentTimeMillis(); mDate.setTime(currentTime); final String printString = String.format("%s\t%d\t%s\n", mDateFormat.format(mDate), currentTime, log); if (LatinImeLogger.sDBG) { Log.d(TAG, "Write: " + log); } mWriter.print(printString); } }); } public void printAll() { mLoggingHandler.post(new Runnable() { @Override public void run() { mWriter.flush(); StringBuilder sb = new StringBuilder(); BufferedReader br = getBufferedReader(); String line; try { while ((line = br.readLine()) != null) { sb.append('\n'); sb.append(line); } } catch (IOException e) { Log.e(TAG, "Can't read log file."); } finally { if (LatinImeLogger.sDBG) { Log.d(TAG, "output all logs\n" + sb.toString()); } mIms.getCurrentInputConnection().commitText(sb.toString(), 0); try { br.close(); } catch (IOException e) { // ignore. } } } }); } public void clearAll() { mLoggingHandler.post(new Runnable() { @Override public void run() { if (mFile != null && mFile.exists()) { if (LatinImeLogger.sDBG) { Log.d(TAG, "Delete log file."); } mFile.delete(); mWriter.close(); } } }); } private BufferedReader getBufferedReader() { createLogFileIfNotExist(); try { return new BufferedReader(new FileReader(mFile)); } catch (FileNotFoundException e) { return null; } } private PrintWriter getPrintWriter( File dir, String filename, boolean renew) throws IOException { mFile = new File(dir, filename); if (mFile.exists()) { if (renew) { mFile.delete(); } } return new PrintWriter(new FileOutputStream(mFile), true /* autoFlush */); } } // Please refer to TextView.isPasswordInputType public static boolean isPasswordInputType(int inputType) { final int variation = inputType & (InputType.TYPE_MASK_CLASS | InputType.TYPE_MASK_VARIATION); return (variation == (InputType.TYPE_CLASS_TEXT | InputType.TYPE_TEXT_VARIATION_PASSWORD)) || (variation == (InputType.TYPE_CLASS_TEXT | InputType.TYPE_TEXT_VARIATION_WEB_PASSWORD)) || (variation == (InputType.TYPE_CLASS_NUMBER | InputType.TYPE_NUMBER_VARIATION_PASSWORD)); } // Please refer to TextView.isVisiblePasswordInputType public static boolean isVisiblePasswordInputType(int inputType) { final int variation = inputType & (InputType.TYPE_MASK_CLASS | InputType.TYPE_MASK_VARIATION); return variation == (InputType.TYPE_CLASS_TEXT | InputType.TYPE_TEXT_VARIATION_VISIBLE_PASSWORD); } }