diff --git a/java/src/com/android/inputmethod/latin/LatinIME.java b/java/src/com/android/inputmethod/latin/LatinIME.java index 1a1dde781..955b83556 100644 --- a/java/src/com/android/inputmethod/latin/LatinIME.java +++ b/java/src/com/android/inputmethod/latin/LatinIME.java @@ -905,7 +905,7 @@ public class LatinIME extends InputMethodService implements KeyboardActionListen // refresh later. final boolean canReachInputConnection; if (!mConnection.resetCachesUponCursorMoveAndReturnSuccess(editorInfo.initialSelStart, - false /* shouldFinishComposition */)) { + editorInfo.initialSelEnd, false /* shouldFinishComposition */)) { // We try resetting the caches up to 5 times before giving up. mHandler.postResetCaches(isDifferentTextField, 5 /* remainingTries */); // mLastSelection{Start,End} are reset later in this method, don't need to do it here @@ -1107,7 +1107,8 @@ public class LatinIME extends InputMethodService implements KeyboardActionListen // TODO: revisit this when LatinIME supports hardware keyboards. // NOTE: the test harness subclasses LatinIME and overrides isInputViewShown(). // TODO: find a better way to simulate actual execution. - if (isInputViewShown() && !mConnection.isBelatedExpectedUpdate(oldSelStart, newSelStart)) { + if (isInputViewShown() && !mConnection.isBelatedExpectedUpdate(oldSelStart, newSelStart, + oldSelEnd, newSelEnd)) { // TODO: the following is probably better done in resetEntireInputState(). // it should only happen when the cursor moved, and the very purpose of the // test below is to narrow down whether this happened or not. Likewise with @@ -1133,13 +1134,13 @@ public class LatinIME extends InputMethodService implements KeyboardActionListen // Another option would be to send suggestions each time we set the composing // text, but that is probably too expensive to do, so we decided to leave things // as is. - resetEntireInputState(newSelStart); + resetEntireInputState(newSelStart, newSelEnd); } else { - // resetEntireInputState calls resetCachesUponCursorMove, but with the second - // argument as true. But in all cases where we don't reset the entire input state, - // we still want to tell the rich input connection about the new cursor position so - // that it can update its caches. - mConnection.resetCachesUponCursorMoveAndReturnSuccess(newSelStart, + // resetEntireInputState calls resetCachesUponCursorMove, but forcing the + // composition to end. But in all cases where we don't reset the entire input + // state, we still want to tell the rich input connection about the new cursor + // position so that it can update its caches. + mConnection.resetCachesUponCursorMoveAndReturnSuccess(newSelStart, newSelEnd, false /* shouldFinishComposition */); } @@ -1362,7 +1363,7 @@ public class LatinIME extends InputMethodService implements KeyboardActionListen // This will reset the whole input state to the starting state. It will clear // the composing word, reset the last composed word, tell the inputconnection about it. - private void resetEntireInputState(final int newCursorPosition) { + private void resetEntireInputState(final int newSelStart, final int newSelEnd) { final boolean shouldFinishComposition = mWordComposer.isComposingWord(); resetComposingState(true /* alsoResetLastComposedWord */); final SettingsValues settingsValues = mSettings.getCurrent(); @@ -1371,7 +1372,7 @@ public class LatinIME extends InputMethodService implements KeyboardActionListen } else { setSuggestedWords(settingsValues.mSuggestPuncList, false); } - mConnection.resetCachesUponCursorMoveAndReturnSuccess(newCursorPosition, + mConnection.resetCachesUponCursorMoveAndReturnSuccess(newSelStart, newSelEnd, shouldFinishComposition); } @@ -1714,7 +1715,7 @@ public class LatinIME extends InputMethodService implements KeyboardActionListen if (mWordComposer.isCursorFrontOrMiddleOfComposingWord()) { // If we are in the middle of a recorrection, we need to commit the recorrection // first so that we can insert the character at the current cursor position. - resetEntireInputState(mLastSelectionStart); + resetEntireInputState(mLastSelectionStart, mLastSelectionEnd); } else { commitTyped(LastComposedWord.NOT_A_SEPARATOR); } @@ -1782,7 +1783,7 @@ public class LatinIME extends InputMethodService implements KeyboardActionListen if (mWordComposer.isCursorFrontOrMiddleOfComposingWord()) { // If we are in the middle of a recorrection, we need to commit the recorrection // first so that we can insert the batch input at the current cursor position. - resetEntireInputState(mLastSelectionStart); + resetEntireInputState(mLastSelectionStart, mLastSelectionEnd); } else if (wordComposerSize <= 1) { // We auto-correct the previous (typed, not gestured) string iff it's one character // long. The reason for this is, even in the middle of gesture typing, you'll still @@ -2070,7 +2071,7 @@ public class LatinIME extends InputMethodService implements KeyboardActionListen if (mWordComposer.isCursorFrontOrMiddleOfComposingWord()) { // If we are in the middle of a recorrection, we need to commit the recorrection // first so that we can remove the character at the current cursor position. - resetEntireInputState(mLastSelectionStart); + resetEntireInputState(mLastSelectionStart, mLastSelectionEnd); // When we exit this if-clause, mWordComposer.isComposingWord() will return false. } if (mWordComposer.isComposingWord()) { @@ -2238,7 +2239,7 @@ public class LatinIME extends InputMethodService implements KeyboardActionListen if (mWordComposer.isCursorFrontOrMiddleOfComposingWord()) { // If we are in the middle of a recorrection, we need to commit the recorrection // first so that we can insert the character at the current cursor position. - resetEntireInputState(mLastSelectionStart); + resetEntireInputState(mLastSelectionStart, mLastSelectionEnd); isComposingWord = false; } // We want to find out whether to start composing a new word with this character. If so, @@ -2350,7 +2351,7 @@ public class LatinIME extends InputMethodService implements KeyboardActionListen if (mWordComposer.isCursorFrontOrMiddleOfComposingWord()) { // If we are in the middle of a recorrection, we need to commit the recorrection // first so that we can insert the separator at the current cursor position. - resetEntireInputState(mLastSelectionStart); + resetEntireInputState(mLastSelectionStart, mLastSelectionEnd); } if (mWordComposer.isComposingWord()) { // May have changed since we stored wasComposing if (currentSettings.mCorrectionEnabled) { @@ -2982,7 +2983,8 @@ public class LatinIME extends InputMethodService implements KeyboardActionListen * @param remainingTries How many times we may try again before giving up. */ private void retryResetCaches(final boolean tryResumeSuggestions, final int remainingTries) { - if (!mConnection.resetCachesUponCursorMoveAndReturnSuccess(mLastSelectionStart, false)) { + if (!mConnection.resetCachesUponCursorMoveAndReturnSuccess(mLastSelectionStart, + mLastSelectionEnd, false)) { if (0 < remainingTries) { mHandler.postResetCaches(tryResumeSuggestions, remainingTries - 1); return; diff --git a/java/src/com/android/inputmethod/latin/RichInputConnection.java b/java/src/com/android/inputmethod/latin/RichInputConnection.java index 80e137a34..4a7f530f9 100644 --- a/java/src/com/android/inputmethod/latin/RichInputConnection.java +++ b/java/src/com/android/inputmethod/latin/RichInputConnection.java @@ -57,14 +57,19 @@ public final class RichInputConnection { private static final int INVALID_CURSOR_POSITION = -1; /** - * This variable contains an expected value for the cursor position. This is where the - * cursor may end up after all the keyboard-triggered updates have passed. We keep this to - * compare it to the actual cursor position to guess whether the move was caused by a - * keyboard command or not. - * It's not really the cursor position: the cursor may not be there yet, and it's also expected - * there be cases where it never actually comes to be there. + * This variable contains an expected value for the selection start position. This is where the + * cursor or selection start may end up after all the keyboard-triggered updates have passed. We + * keep this to compare it to the actual selection start to guess whether the move was caused by + * a keyboard command or not. + * It's not really the selection start position: the selection start may not be there yet, and + * in some cases, it may never arrive there. */ private int mExpectedSelStart = INVALID_CURSOR_POSITION; // in chars, not code points + /** + * The expected selection end. Only differs from mExpectedSelStart if a non-empty selection is + * expected. The same caveats as mExpectedSelStart apply. + */ + private int mExpectedSelEnd = INVALID_CURSOR_POSITION; // in chars, not code points /** * This contains the committed text immediately preceding the cursor and the composing * text if any. It is refreshed when the cursor moves by calling upon the TextView. @@ -150,15 +155,17 @@ public final class RichInputConnection { * data, so we empty the cache and note that we don't know the new cursor position, and we * return false so that the caller knows about this and can retry later. * - * @param newSelStart The new position of the selection start, as received from the system. - * @param shouldFinishComposition Whether we should finish the composition in progress. + * @param newSelStart the new position of the selection start, as received from the system. + * @param newSelEnd the new position of the selection end, as received from the system. + * @param shouldFinishComposition whether we should finish the composition in progress. * @return true if we were able to connect to the editor successfully, false otherwise. When * this method returns false, the caches could not be correctly refreshed so they were only * reset: the caller should try again later to return to normal operation. */ public boolean resetCachesUponCursorMoveAndReturnSuccess(final int newSelStart, - final boolean shouldFinishComposition) { + final int newSelEnd, final boolean shouldFinishComposition) { mExpectedSelStart = newSelStart; + mExpectedSelEnd = newSelEnd; mComposingText.setLength(0); final boolean didReloadTextSuccessfully = reloadTextCache(); if (!didReloadTextSuccessfully) { @@ -169,11 +176,13 @@ public final class RichInputConnection { if (lengthOfTextBeforeCursor > newSelStart || (lengthOfTextBeforeCursor < Constants.EDITOR_CONTENTS_CACHE_SIZE && newSelStart < Constants.EDITOR_CONTENTS_CACHE_SIZE)) { - // newSelStart may be lying -- when rotating the device (probably a framework bug). If - // we have less chars than we asked for, then we know how many chars we have, and if we - // got more than newSelStart says, then we know it was lying. In both cases the length - // is more reliable. + // newSelStart and newSelEnd may be lying -- when rotating the device (probably a + // framework bug). If we have less chars than we asked for, then we know how many chars + // we have, and if we got more than newSelStart says, then we know it was lying. In both + // cases the length is more reliable. Note that we only have to check newSelStart (not + // newSelEnd) since if newSelEnd is wrong, the newSelStart will be wrong as well. mExpectedSelStart = lengthOfTextBeforeCursor; + mExpectedSelEnd = lengthOfTextBeforeCursor; } if (null != mIC && shouldFinishComposition) { mIC.finishComposingText(); @@ -200,6 +209,7 @@ public final class RichInputConnection { // For some reason the app thinks we are not connected to it. This looks like a // framework bug... Fall back to ground state and return false. mExpectedSelStart = INVALID_CURSOR_POSITION; + mExpectedSelEnd = INVALID_CURSOR_POSITION; Log.e(TAG, "Unable to connect to the editor to retrieve text."); return false; } @@ -351,8 +361,12 @@ public final class RichInputConnection { } if (mExpectedSelStart > beforeLength) { mExpectedSelStart -= beforeLength; + mExpectedSelEnd -= beforeLength; } else { + // There are fewer characters before the cursor in the buffer than we are being asked to + // delete. Only delete what is there. mExpectedSelStart = 0; + mExpectedSelEnd -= mExpectedSelStart; } if (null != mIC) { mIC.deleteSurroundingText(beforeLength, afterLength); @@ -387,6 +401,7 @@ public final class RichInputConnection { case KeyEvent.KEYCODE_ENTER: mCommittedTextBeforeComposingText.append("\n"); mExpectedSelStart += 1; + mExpectedSelEnd = mExpectedSelStart; break; case KeyEvent.KEYCODE_DEL: if (0 == mComposingText.length()) { @@ -398,18 +413,24 @@ public final class RichInputConnection { } else { mComposingText.delete(mComposingText.length() - 1, mComposingText.length()); } - if (mExpectedSelStart > 0) mExpectedSelStart -= 1; + if (mExpectedSelStart > 0 && mExpectedSelStart == mExpectedSelEnd) { + // TODO: Handle surrogate pairs. + mExpectedSelStart -= 1; + } + mExpectedSelEnd = mExpectedSelStart; break; case KeyEvent.KEYCODE_UNKNOWN: if (null != keyEvent.getCharacters()) { mCommittedTextBeforeComposingText.append(keyEvent.getCharacters()); mExpectedSelStart += keyEvent.getCharacters().length(); + mExpectedSelEnd = mExpectedSelStart; } break; default: final String text = new String(new int[] { keyEvent.getUnicodeChar() }, 0, 1); mCommittedTextBeforeComposingText.append(text); mExpectedSelStart += text.length(); + mExpectedSelEnd = mExpectedSelStart; break; } } @@ -444,9 +465,11 @@ public final class RichInputConnection { if (DEBUG_BATCH_NESTING) checkBatchEdit(); if (DEBUG_PREVIOUS_TEXT) checkConsistencyForDebug(); mExpectedSelStart += text.length() - mComposingText.length(); + mExpectedSelEnd = mExpectedSelStart; mComposingText.setLength(0); mComposingText.append(text); - // TODO: support values of i != 1. At this time, this is never called with i != 1. + // TODO: support values of newCursorPosition != 1. At this time, this is never called with + // newCursorPosition != 1. if (null != mIC) { mIC.setComposingText(text, newCursorPosition); if (ProductionFlag.USES_DEVELOPMENT_ONLY_DIAGNOSTICS) { @@ -782,20 +805,30 @@ public final class RichInputConnection { * this update and not the ones in-between. This is almost impossible to achieve even trying * very very hard. * - * @param oldSelStart The value of the old cursor position in the update. - * @param newSelStart The value of the new cursor position in the update. + * @param oldSelStart The value of the old selection in the update. + * @param newSelStart The value of the new selection in the update. + * @param oldSelEnd The value of the old selection end in the update. + * @param newSelEnd The value of the new selection end in the update. * @return whether this is a belated expected update or not. */ - public boolean isBelatedExpectedUpdate(final int oldSelStart, final int newSelStart) { - // If this is an update that arrives at our expected position, it's a belated update. - if (newSelStart == mExpectedSelStart) return true; - // If this is an update that moves the cursor from our expected position, it must be - // an explicit move. - if (oldSelStart == mExpectedSelStart) return false; - // The following returns true if newSelStart is between oldSelStart and - // mCurrentCursorPosition. We assume that if the updated position is between the old - // position and the expected position, then it must be a belated update. - return (newSelStart - oldSelStart) * (mExpectedSelStart - newSelStart) >= 0; + public boolean isBelatedExpectedUpdate(final int oldSelStart, final int newSelStart, + final int oldSelEnd, final int newSelEnd) { + // This update is "belated" if we are expecting it. That is, mExpectedSelStart and + // mExpectedSelEnd match the new values that the TextView is updating TO. + if (mExpectedSelStart == newSelStart && mExpectedSelEnd == newSelEnd) return true; + // This update is not belated if mExpectedSelStart and mExpeectedSelend match the old + // values, and one of newSelStart or newSelEnd is updated to a different value. In this + // case, there is likely something other than the IME that has moved the selection endpoint + // to the new value. + if (mExpectedSelStart == oldSelStart && mExpectedSelEnd == oldSelEnd + && (oldSelStart != newSelStart || oldSelEnd != newSelEnd)) return false; + // If nether of the above two cases holds, then the system may be having trouble keeping up + // with updates. If 1) the selection is a cursor, 2) newSelStart is between oldSelStart + // and mExpectedSelStart, and 3) newSelEnd is between oldSelEnd and mExpectedSelEnd, then + // assume a belated update. + return (newSelStart == newSelEnd) + && (newSelStart - oldSelStart) * (mExpectedSelStart - newSelStart) >= 0 + && (newSelEnd - oldSelEnd) * (mExpectedSelEnd - newSelEnd) >= 0; } /**