LatinIME/java/src/com/android/inputmethod/latin/WordComposer.java

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/*
* Copyright (C) 2008 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.event.CombinerChain;
import com.android.inputmethod.event.Event;
import com.android.inputmethod.latin.utils.CollectionUtils;
import com.android.inputmethod.latin.utils.CoordinateUtils;
import com.android.inputmethod.latin.utils.StringUtils;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
/**
* A place to store the currently composing word with information such as adjacent key codes as well
*/
public final class WordComposer {
private static final int MAX_WORD_LENGTH = Constants.DICTIONARY_MAX_WORD_LENGTH;
private static final boolean DBG = LatinImeLogger.sDBG;
public static final int CAPS_MODE_OFF = 0;
// 1 is shift bit, 2 is caps bit, 4 is auto bit but this is just a convention as these bits
// aren't used anywhere in the code
public static final int CAPS_MODE_MANUAL_SHIFTED = 0x1;
public static final int CAPS_MODE_MANUAL_SHIFT_LOCKED = 0x3;
public static final int CAPS_MODE_AUTO_SHIFTED = 0x5;
public static final int CAPS_MODE_AUTO_SHIFT_LOCKED = 0x7;
private CombinerChain mCombinerChain;
// An array of code points representing the characters typed so far.
// The array is limited to MAX_WORD_LENGTH code points, but mTypedWord extends past that
// and mCodePointSize can go past that. If mCodePointSize is greater than MAX_WORD_LENGTH,
// this just does not contain the associated code points past MAX_WORD_LENGTH.
private int[] mPrimaryKeyCodes;
// The list of events that served to compose this string.
private final ArrayList<Event> mEvents;
private final InputPointers mInputPointers = new InputPointers(MAX_WORD_LENGTH);
// This is the typed word, as a StringBuilder. This has the same contents as mPrimaryKeyCodes
// but under a StringBuilder representation for ease of use, depending on what is more useful
// at any given time. However this is not limited in size, while mPrimaryKeyCodes is limited
// to MAX_WORD_LENGTH code points.
private final StringBuilder mTypedWord;
// The previous word (before the composing word). Used as context for suggestions. May be null
// after resetting and before starting a new composing word, or when there is no context like
// at the start of text for example. It can also be set to null externally when the user
// enters a separator that does not let bigrams across, like a period or a comma.
private String mPreviousWordForSuggestion;
private String mAutoCorrection;
private boolean mIsResumed;
private boolean mIsBatchMode;
// A memory of the last rejected batch mode suggestion, if any. This goes like this: the user
// gestures a word, is displeased with the results and hits backspace, then gestures again.
// At the very least we should avoid re-suggesting the same thing, and to do that we memorize
// the rejected suggestion in this variable.
// TODO: this should be done in a comprehensive way by the User History feature instead of
// as an ad-hockery here.
private String mRejectedBatchModeSuggestion;
// Cache these values for performance
private int mCapsCount;
private int mDigitsCount;
private int mCapitalizedMode;
private int mTrailingSingleQuotesCount;
// This is the number of code points entered so far. This is not limited to MAX_WORD_LENGTH.
// In general, this contains the size of mPrimaryKeyCodes, except when this is greater than
// MAX_WORD_LENGTH in which case mPrimaryKeyCodes only contain the first MAX_WORD_LENGTH
// code points.
private int mCodePointSize;
private int mCursorPositionWithinWord;
/**
* Whether the user chose to capitalize the first char of the word.
*/
private boolean mIsFirstCharCapitalized;
public WordComposer() {
mCombinerChain = new CombinerChain();
mPrimaryKeyCodes = new int[MAX_WORD_LENGTH];
mEvents = CollectionUtils.newArrayList();
mTypedWord = new StringBuilder(MAX_WORD_LENGTH);
mAutoCorrection = null;
mTrailingSingleQuotesCount = 0;
mIsResumed = false;
mIsBatchMode = false;
mCursorPositionWithinWord = 0;
mRejectedBatchModeSuggestion = null;
mPreviousWordForSuggestion = null;
refreshSize();
}
public WordComposer(final WordComposer source) {
mCombinerChain = source.mCombinerChain;
mPrimaryKeyCodes = Arrays.copyOf(source.mPrimaryKeyCodes, source.mPrimaryKeyCodes.length);
mEvents = new ArrayList<Event>(source.mEvents);
mTypedWord = new StringBuilder(source.mTypedWord);
mInputPointers.copy(source.mInputPointers);
mCapsCount = source.mCapsCount;
mDigitsCount = source.mDigitsCount;
mIsFirstCharCapitalized = source.mIsFirstCharCapitalized;
mCapitalizedMode = source.mCapitalizedMode;
mTrailingSingleQuotesCount = source.mTrailingSingleQuotesCount;
mIsResumed = source.mIsResumed;
mIsBatchMode = source.mIsBatchMode;
mCursorPositionWithinWord = source.mCursorPositionWithinWord;
mRejectedBatchModeSuggestion = source.mRejectedBatchModeSuggestion;
mPreviousWordForSuggestion = source.mPreviousWordForSuggestion;
refreshSize();
}
/**
* Clear out the keys registered so far.
*/
public void reset() {
mCombinerChain.reset();
mTypedWord.setLength(0);
mEvents.clear();
mAutoCorrection = null;
mCapsCount = 0;
mDigitsCount = 0;
mIsFirstCharCapitalized = false;
mTrailingSingleQuotesCount = 0;
mIsResumed = false;
mIsBatchMode = false;
mCursorPositionWithinWord = 0;
mRejectedBatchModeSuggestion = null;
mPreviousWordForSuggestion = null;
refreshSize();
}
private final void refreshSize() {
mCodePointSize = mTypedWord.codePointCount(0, mTypedWord.length());
}
/**
* Number of keystrokes in the composing word.
* @return the number of keystrokes
*/
public final int size() {
return mCodePointSize;
}
public final boolean isComposingWord() {
return size() > 0;
}
// TODO: make sure that the index should not exceed MAX_WORD_LENGTH
public int getCodeAt(int index) {
if (index >= MAX_WORD_LENGTH) {
return -1;
}
return mPrimaryKeyCodes[index];
}
public InputPointers getInputPointers() {
return mInputPointers;
}
private static boolean isFirstCharCapitalized(final int index, final int codePoint,
final boolean previous) {
if (index == 0) return Character.isUpperCase(codePoint);
return previous && !Character.isUpperCase(codePoint);
}
/**
* Add a new event for a key stroke, with the pressed key's code point with the touch point
* coordinates.
*/
public void add(final Event event) {
final int primaryCode = event.mCodePoint;
final int keyX = event.mX;
final int keyY = event.mY;
final int newIndex = size();
mCombinerChain.processEvent(mEvents, event);
// TODO: remove mTypedWord and compute it dynamically when necessary. We also need to
// make the views of the composing word a SpannableString.
mTypedWord.replace(0, mTypedWord.length(),
mCombinerChain.getComposingWordWithCombiningFeedback().toString());
mEvents.add(event);
refreshSize();
mCursorPositionWithinWord = mCodePointSize;
if (newIndex < MAX_WORD_LENGTH) {
mPrimaryKeyCodes[newIndex] = primaryCode >= Constants.CODE_SPACE
? Character.toLowerCase(primaryCode) : primaryCode;
// In the batch input mode, the {@code mInputPointers} holds batch input points and
// shouldn't be overridden by the "typed key" coordinates
// (See {@link #setBatchInputWord}).
if (!mIsBatchMode) {
// TODO: Set correct pointer id and time
mInputPointers.addPointerAt(newIndex, keyX, keyY, 0, 0);
}
}
mIsFirstCharCapitalized = isFirstCharCapitalized(
newIndex, primaryCode, mIsFirstCharCapitalized);
if (Character.isUpperCase(primaryCode)) mCapsCount++;
if (Character.isDigit(primaryCode)) mDigitsCount++;
if (Constants.CODE_SINGLE_QUOTE == primaryCode) {
++mTrailingSingleQuotesCount;
} else {
mTrailingSingleQuotesCount = 0;
}
mAutoCorrection = null;
}
public void setCursorPositionWithinWord(final int posWithinWord) {
mCursorPositionWithinWord = posWithinWord;
// TODO: compute where that puts us inside the events
}
public boolean isCursorFrontOrMiddleOfComposingWord() {
if (DBG && mCursorPositionWithinWord > mCodePointSize) {
throw new RuntimeException("Wrong cursor position : " + mCursorPositionWithinWord
+ "in a word of size " + mCodePointSize);
}
return mCursorPositionWithinWord != mCodePointSize;
}
/**
* When the cursor is moved by the user, we need to update its position.
* If it falls inside the currently composing word, we don't reset the composition, and
* only update the cursor position.
*
* @param expectedMoveAmount How many java chars to move the cursor. Negative values move
* the cursor backward, positive values move the cursor forward.
* @return true if the cursor is still inside the composing word, false otherwise.
*/
public boolean moveCursorByAndReturnIfInsideComposingWord(final int expectedMoveAmount) {
// TODO: should uncommit the composing feedback
mCombinerChain.reset();
int actualMoveAmountWithinWord = 0;
int cursorPos = mCursorPositionWithinWord;
final int[] codePoints;
if (mCodePointSize >= MAX_WORD_LENGTH) {
// If we have more than MAX_WORD_LENGTH characters, we don't have everything inside
// mPrimaryKeyCodes. This should be rare enough that we can afford to just compute
// the array on the fly when this happens.
codePoints = StringUtils.toCodePointArray(mTypedWord.toString());
} else {
codePoints = mPrimaryKeyCodes;
}
if (expectedMoveAmount >= 0) {
// Moving the cursor forward for the expected amount or until the end of the word has
// been reached, whichever comes first.
while (actualMoveAmountWithinWord < expectedMoveAmount && cursorPos < mCodePointSize) {
actualMoveAmountWithinWord += Character.charCount(codePoints[cursorPos]);
++cursorPos;
}
} else {
// Moving the cursor backward for the expected amount or until the start of the word
// has been reached, whichever comes first.
while (actualMoveAmountWithinWord > expectedMoveAmount && cursorPos > 0) {
--cursorPos;
actualMoveAmountWithinWord -= Character.charCount(codePoints[cursorPos]);
}
}
// If the actual and expected amounts differ, we crossed the start or the end of the word
// so the result would not be inside the composing word.
if (actualMoveAmountWithinWord != expectedMoveAmount) return false;
mCursorPositionWithinWord = cursorPos;
return true;
}
public void setBatchInputPointers(final InputPointers batchPointers) {
mInputPointers.set(batchPointers);
mIsBatchMode = true;
}
public void setBatchInputWord(final String word) {
reset();
mIsBatchMode = true;
final int length = word.length();
for (int i = 0; i < length; i = Character.offsetByCodePoints(word, i, 1)) {
final int codePoint = Character.codePointAt(word, i);
// We don't want to override the batch input points that are held in mInputPointers
// (See {@link #add(int,int,int)}).
add(Event.createEventForCodePointFromUnknownSource(codePoint));
}
}
/**
* Set the currently composing word to the one passed as an argument.
* This will register NOT_A_COORDINATE for X and Ys, and use the passed keyboard for proximity.
* @param codePoints the code points to set as the composing word.
* @param coordinates the x, y coordinates of the key in the CoordinateUtils format
* @param previousWord the previous word, to use as context for suggestions. Can be null if
* the context is nil (typically, at start of text).
*/
public void setComposingWord(final int[] codePoints, final int[] coordinates,
final CharSequence previousWord) {
reset();
final int length = codePoints.length;
for (int i = 0; i < length; ++i) {
add(Event.createEventForCodePointFromAlreadyTypedText(codePoints[i],
CoordinateUtils.xFromArray(coordinates, i),
CoordinateUtils.yFromArray(coordinates, i)));
}
mIsResumed = true;
mPreviousWordForSuggestion = null == previousWord ? null : previousWord.toString();
}
/**
* Delete the last composing unit as a result of hitting backspace.
*/
public void deleteLast(final Event event) {
mCombinerChain.processEvent(mEvents, event);
mTypedWord.replace(0, mTypedWord.length(),
mCombinerChain.getComposingWordWithCombiningFeedback().toString());
mEvents.add(event);
refreshSize();
// We may have deleted the last one.
if (0 == size()) {
mIsFirstCharCapitalized = false;
}
if (mTrailingSingleQuotesCount > 0) {
--mTrailingSingleQuotesCount;
} else {
int i = mTypedWord.length();
while (i > 0) {
i = mTypedWord.offsetByCodePoints(i, -1);
if (Constants.CODE_SINGLE_QUOTE != mTypedWord.codePointAt(i)) break;
++mTrailingSingleQuotesCount;
}
}
mCursorPositionWithinWord = mCodePointSize;
mAutoCorrection = null;
}
/**
* Returns the word as it was typed, without any correction applied.
* @return the word that was typed so far. Never returns null.
*/
public String getTypedWord() {
return mTypedWord.toString();
}
public String getPreviousWordForSuggestion() {
return mPreviousWordForSuggestion;
}
/**
* Whether or not the user typed a capital letter as the first letter in the word
* @return capitalization preference
*/
public boolean isFirstCharCapitalized() {
return mIsFirstCharCapitalized;
}
public int trailingSingleQuotesCount() {
return mTrailingSingleQuotesCount;
}
/**
* Whether or not all of the user typed chars are upper case
* @return true if all user typed chars are upper case, false otherwise
*/
public boolean isAllUpperCase() {
if (size() <= 1) {
return mCapitalizedMode == CAPS_MODE_AUTO_SHIFT_LOCKED
|| mCapitalizedMode == CAPS_MODE_MANUAL_SHIFT_LOCKED;
} else {
return mCapsCount == size();
}
}
public boolean wasShiftedNoLock() {
return mCapitalizedMode == CAPS_MODE_AUTO_SHIFTED
|| mCapitalizedMode == CAPS_MODE_MANUAL_SHIFTED;
}
/**
* Returns true if more than one character is upper case, otherwise returns false.
*/
public boolean isMostlyCaps() {
return mCapsCount > 1;
}
/**
* Returns true if we have digits in the composing word.
*/
public boolean hasDigits() {
return mDigitsCount > 0;
}
/**
* Saves the caps mode and the previous word at the start of composing.
*
* WordComposer needs to know about the caps mode for several reasons. The first is, we need
* to know after the fact what the reason was, to register the correct form into the user
* history dictionary: if the word was automatically capitalized, we should insert it in
* all-lower case but if it's a manual pressing of shift, then it should be inserted as is.
* Also, batch input needs to know about the current caps mode to display correctly
* capitalized suggestions.
* @param mode the mode at the time of start
* @param previousWord the previous word as context for suggestions. May be null if none.
*/
public void setCapitalizedModeAndPreviousWordAtStartComposingTime(final int mode,
final CharSequence previousWord) {
mCapitalizedMode = mode;
mPreviousWordForSuggestion = null == previousWord ? null : previousWord.toString();
}
/**
* Returns whether the word was automatically capitalized.
* @return whether the word was automatically capitalized
*/
public boolean wasAutoCapitalized() {
return mCapitalizedMode == CAPS_MODE_AUTO_SHIFT_LOCKED
|| mCapitalizedMode == CAPS_MODE_AUTO_SHIFTED;
}
/**
* Sets the auto-correction for this word.
*/
public void setAutoCorrection(final String correction) {
mAutoCorrection = correction;
}
/**
* @return the auto-correction for this word, or null if none.
*/
public String getAutoCorrectionOrNull() {
return mAutoCorrection;
}
/**
* @return whether we started composing this word by resuming suggestion on an existing string
*/
public boolean isResumed() {
return mIsResumed;
}
// `type' should be one of the LastComposedWord.COMMIT_TYPE_* constants above.
// committedWord should contain suggestion spans if applicable.
public LastComposedWord commitWord(final int type, final CharSequence committedWord,
final String separatorString, final String prevWord) {
// Note: currently, we come here whenever we commit a word. If it's a MANUAL_PICK
// or a DECIDED_WORD we may cancel the commit later; otherwise, we should deactivate
// the last composed word to ensure this does not happen.
final int[] primaryKeyCodes = mPrimaryKeyCodes;
mPrimaryKeyCodes = new int[MAX_WORD_LENGTH];
final LastComposedWord lastComposedWord = new LastComposedWord(primaryKeyCodes, mEvents,
mInputPointers, mTypedWord.toString(), committedWord, separatorString,
prevWord, mCapitalizedMode);
mInputPointers.reset();
if (type != LastComposedWord.COMMIT_TYPE_DECIDED_WORD
&& type != LastComposedWord.COMMIT_TYPE_MANUAL_PICK) {
lastComposedWord.deactivate();
}
mCapsCount = 0;
mDigitsCount = 0;
mIsBatchMode = false;
mPreviousWordForSuggestion = committedWord.toString();
mTypedWord.setLength(0);
mCombinerChain.reset();
mEvents.clear();
mCodePointSize = 0;
mTrailingSingleQuotesCount = 0;
mIsFirstCharCapitalized = false;
mCapitalizedMode = CAPS_MODE_OFF;
refreshSize();
mAutoCorrection = null;
mCursorPositionWithinWord = 0;
mIsResumed = false;
mRejectedBatchModeSuggestion = null;
return lastComposedWord;
}
// Call this when the recorded previous word should be discarded. This is typically called
// when the user inputs a separator that's not whitespace (including the case of the
// double-space-to-period feature).
public void discardPreviousWordForSuggestion() {
mPreviousWordForSuggestion = null;
}
public void resumeSuggestionOnLastComposedWord(final LastComposedWord lastComposedWord,
final String previousWord) {
mPrimaryKeyCodes = lastComposedWord.mPrimaryKeyCodes;
mEvents.clear();
Collections.copy(mEvents, lastComposedWord.mEvents);
mInputPointers.set(lastComposedWord.mInputPointers);
mTypedWord.setLength(0);
mCombinerChain.reset();
mTypedWord.append(lastComposedWord.mTypedWord);
refreshSize();
mCapitalizedMode = lastComposedWord.mCapitalizedMode;
mAutoCorrection = null; // This will be filled by the next call to updateSuggestion.
mCursorPositionWithinWord = mCodePointSize;
mRejectedBatchModeSuggestion = null;
mIsResumed = true;
mPreviousWordForSuggestion = previousWord;
}
public boolean isBatchMode() {
return mIsBatchMode;
}
public void setRejectedBatchModeSuggestion(final String rejectedSuggestion) {
mRejectedBatchModeSuggestion = rejectedSuggestion;
}
public String getRejectedBatchModeSuggestion() {
return mRejectedBatchModeSuggestion;
}
}