/* * 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.latin; import com.android.inputmethod.latin.settings.Settings; import android.test.suitebuilder.annotation.LargeTest; import android.text.TextUtils; import android.view.inputmethod.BaseInputConnection; @LargeTest public class InputLogicTests extends InputTestsBase { public void testTypeWord() { final String WORD_TO_TYPE = "abcd"; type(WORD_TO_TYPE); assertEquals("type word", WORD_TO_TYPE, mEditText.getText().toString()); } public void testPickSuggestionThenBackspace() { final String WORD_TO_TYPE = "this"; final String EXPECTED_RESULT = "thi"; type(WORD_TO_TYPE); pickSuggestionManually(WORD_TO_TYPE); mLatinIME.onUpdateSelection(0, 0, WORD_TO_TYPE.length(), WORD_TO_TYPE.length(), -1, -1); type(Constants.CODE_DELETE); assertEquals("press suggestion then backspace", EXPECTED_RESULT, mEditText.getText().toString()); } public void testPickAutoCorrectionThenBackspace() { final String WORD_TO_TYPE = "tgis"; final String WORD_TO_PICK = "this"; final String EXPECTED_RESULT = "thi"; type(WORD_TO_TYPE); // Choose the auto-correction. For "tgis", the auto-correction should be "this". pickSuggestionManually(WORD_TO_PICK); mLatinIME.onUpdateSelection(0, 0, WORD_TO_TYPE.length(), WORD_TO_TYPE.length(), -1, -1); assertEquals("pick typed word over auto-correction then backspace", WORD_TO_PICK, mEditText.getText().toString()); type(Constants.CODE_DELETE); assertEquals("pick typed word over auto-correction then backspace", EXPECTED_RESULT, mEditText.getText().toString()); } public void testPickTypedWordOverAutoCorrectionThenBackspace() { final String WORD_TO_TYPE = "tgis"; final String EXPECTED_RESULT = "tgi"; type(WORD_TO_TYPE); // Choose the typed word. pickSuggestionManually(WORD_TO_TYPE); mLatinIME.onUpdateSelection(0, 0, WORD_TO_TYPE.length(), WORD_TO_TYPE.length(), -1, -1); assertEquals("pick typed word over auto-correction then backspace", WORD_TO_TYPE, mEditText.getText().toString()); type(Constants.CODE_DELETE); assertEquals("pick typed word over auto-correction then backspace", EXPECTED_RESULT, mEditText.getText().toString()); } public void testPickDifferentSuggestionThenBackspace() { final String WORD_TO_TYPE = "tgis"; final String WORD_TO_PICK = "thus"; final String EXPECTED_RESULT = "thu"; type(WORD_TO_TYPE); // Choose the second suggestion, which should be "thus" when "tgis" is typed. pickSuggestionManually(WORD_TO_PICK); mLatinIME.onUpdateSelection(0, 0, WORD_TO_TYPE.length(), WORD_TO_TYPE.length(), -1, -1); assertEquals("pick different suggestion then backspace", WORD_TO_PICK, mEditText.getText().toString()); type(Constants.CODE_DELETE); assertEquals("pick different suggestion then backspace", EXPECTED_RESULT, mEditText.getText().toString()); } public void testDeleteSelection() { final String STRING_TO_TYPE = "some text delete me some text"; final int typedLength = STRING_TO_TYPE.length(); final int SELECTION_START = 10; final int SELECTION_END = 19; final String EXPECTED_RESULT = "some text some text"; type(STRING_TO_TYPE); // There is no IMF to call onUpdateSelection for us so we must do it by hand. // Send once to simulate the cursor actually responding to the move caused by typing. // This is necessary because LatinIME is bookkeeping to avoid confusing a real cursor // move with a move triggered by LatinIME inputting stuff. mLatinIME.onUpdateSelection(0, 0, typedLength, typedLength, -1, -1); mInputConnection.setSelection(SELECTION_START, SELECTION_END); // And now we simulate the user actually selecting some text. mLatinIME.onUpdateSelection(typedLength, typedLength, SELECTION_START, SELECTION_END, -1, -1); type(Constants.CODE_DELETE); assertEquals("delete selection", EXPECTED_RESULT, mEditText.getText().toString()); } public void testDeleteSelectionTwice() { final String STRING_TO_TYPE = "some text delete me some text"; final int typedLength = STRING_TO_TYPE.length(); final int SELECTION_START = 10; final int SELECTION_END = 19; final String EXPECTED_RESULT = "some text some text"; type(STRING_TO_TYPE); // There is no IMF to call onUpdateSelection for us so we must do it by hand. // Send once to simulate the cursor actually responding to the move caused by typing. // This is necessary because LatinIME is bookkeeping to avoid confusing a real cursor // move with a move triggered by LatinIME inputting stuff. mLatinIME.onUpdateSelection(0, 0, typedLength, typedLength, -1, -1); mInputConnection.setSelection(SELECTION_START, SELECTION_END); // And now we simulate the user actually selecting some text. mLatinIME.onUpdateSelection(typedLength, typedLength, SELECTION_START, SELECTION_END, -1, -1); type(Constants.CODE_DELETE); type(Constants.CODE_DELETE); assertEquals("delete selection twice", EXPECTED_RESULT, mEditText.getText().toString()); } public void testAutoCorrect() { final String STRING_TO_TYPE = "tgis "; final String EXPECTED_RESULT = "this "; type(STRING_TO_TYPE); assertEquals("simple auto-correct", EXPECTED_RESULT, mEditText.getText().toString()); } public void testAutoCorrectWithQuote() { final String STRING_TO_TYPE = "didn' "; final String EXPECTED_RESULT = "didn't "; type(STRING_TO_TYPE); assertEquals("auto-correct with quote", EXPECTED_RESULT, mEditText.getText().toString()); } public void testAutoCorrectWithPeriod() { final String STRING_TO_TYPE = "tgis."; final String EXPECTED_RESULT = "this."; type(STRING_TO_TYPE); assertEquals("auto-correct with period", EXPECTED_RESULT, mEditText.getText().toString()); } public void testAutoCorrectWithPeriodThenRevert() { final String STRING_TO_TYPE = "tgis."; final String EXPECTED_RESULT = "tgis."; type(STRING_TO_TYPE); mLatinIME.onUpdateSelection(0, 0, STRING_TO_TYPE.length(), STRING_TO_TYPE.length(), -1, -1); type(Constants.CODE_DELETE); assertEquals("auto-correct with period then revert", EXPECTED_RESULT, mEditText.getText().toString()); } public void testAutoCorrectWithSpaceThenRevert() { final String STRING_TO_TYPE = "tgis "; final String EXPECTED_RESULT = "tgis "; type(STRING_TO_TYPE); mLatinIME.onUpdateSelection(0, 0, STRING_TO_TYPE.length(), STRING_TO_TYPE.length(), -1, -1); type(Constants.CODE_DELETE); assertEquals("auto-correct with space then revert", EXPECTED_RESULT, mEditText.getText().toString()); } public void testAutoCorrectToSelfDoesNotRevert() { final String STRING_TO_TYPE = "this "; final String EXPECTED_RESULT = "this"; type(STRING_TO_TYPE); mLatinIME.onUpdateSelection(0, 0, STRING_TO_TYPE.length(), STRING_TO_TYPE.length(), -1, -1); type(Constants.CODE_DELETE); assertEquals("auto-correct with space does not revert", EXPECTED_RESULT, mEditText.getText().toString()); } public void testDoubleSpace() { // Set default pref just in case setBooleanPreference(Settings.PREF_KEY_USE_DOUBLE_SPACE_PERIOD, true, true); // U+1F607 is an emoji final String[] STRINGS_TO_TYPE = new String[] { "this ", "a+ ", "\u1F607 ", ".. ", ") ", "( ", "% " }; final String[] EXPECTED_RESULTS = new String[] { "this. ", "a+. ", "\u1F607. ", ".. ", "). ", "( ", "%. " }; for (int i = 0; i < STRINGS_TO_TYPE.length; ++i) { mEditText.setText(""); type(STRINGS_TO_TYPE[i]); assertEquals("double space processing", EXPECTED_RESULTS[i], mEditText.getText().toString()); } } public void testCancelDoubleSpace() { final String STRING_TO_TYPE = "this "; final String EXPECTED_RESULT = "this "; type(STRING_TO_TYPE); type(Constants.CODE_DELETE); assertEquals("double space make a period", EXPECTED_RESULT, mEditText.getText().toString()); } private void testDoubleSpacePeriodWithSettings(final boolean expectsPeriod, final Object... settingsKeysValues) { final Object[] oldSettings = new Object[settingsKeysValues.length / 2]; final String STRING_WITHOUT_PERIOD = "this "; final String STRING_WITH_PERIOD = "this. "; final String EXPECTED_RESULT = expectsPeriod ? STRING_WITH_PERIOD : STRING_WITHOUT_PERIOD; try { for (int i = 0; i < settingsKeysValues.length; i += 2) { if (settingsKeysValues[i + 1] instanceof String) { oldSettings[i / 2] = setStringPreference((String)settingsKeysValues[i], (String)settingsKeysValues[i + 1], "0"); } else { oldSettings[i / 2] = setBooleanPreference((String)settingsKeysValues[i], (Boolean)settingsKeysValues[i + 1], false); } } mLatinIME.loadSettings(); mEditText.setText(""); type(STRING_WITHOUT_PERIOD); assertEquals("double-space-to-period with specific settings " + TextUtils.join(" ", settingsKeysValues), EXPECTED_RESULT, mEditText.getText().toString()); } finally { // Restore old settings for (int i = 0; i < settingsKeysValues.length; i += 2) { if (null == oldSettings[i / 2]) { break; } if (oldSettings[i / 2] instanceof String) { setStringPreference((String)settingsKeysValues[i], (String)oldSettings[i / 2], ""); } else { setBooleanPreference((String)settingsKeysValues[i], (Boolean)oldSettings[i / 2], false); } } } } public void testDoubleSpacePeriod() { // Reset settings to default, else these tests will go flaky. setStringPreference(Settings.PREF_SHOW_SUGGESTIONS_SETTING, "0", "0"); setStringPreference(Settings.PREF_AUTO_CORRECTION_THRESHOLD, "1", "1"); setBooleanPreference(Settings.PREF_KEY_USE_DOUBLE_SPACE_PERIOD, true, true); testDoubleSpacePeriodWithSettings(true /* expectsPeriod */); // "Suggestion visibility" to "always hide" testDoubleSpacePeriodWithSettings(true, Settings.PREF_SHOW_SUGGESTIONS_SETTING, "2"); // "Suggestion visibility" to "portrait only" testDoubleSpacePeriodWithSettings(true, Settings.PREF_SHOW_SUGGESTIONS_SETTING, "1"); // "Suggestion visibility" to "always show" testDoubleSpacePeriodWithSettings(true, Settings.PREF_SHOW_SUGGESTIONS_SETTING, "0"); // "Double-space period" to "off" testDoubleSpacePeriodWithSettings(false, Settings.PREF_KEY_USE_DOUBLE_SPACE_PERIOD, false); // "Auto-correction" to "off" testDoubleSpacePeriodWithSettings(true, Settings.PREF_AUTO_CORRECTION_THRESHOLD, "0"); // "Auto-correction" to "modest" testDoubleSpacePeriodWithSettings(true, Settings.PREF_AUTO_CORRECTION_THRESHOLD, "1"); // "Auto-correction" to "very aggressive" testDoubleSpacePeriodWithSettings(true, Settings.PREF_AUTO_CORRECTION_THRESHOLD, "3"); // "Suggestion visibility" to "always hide" and "Auto-correction" to "off" testDoubleSpacePeriodWithSettings(true, Settings.PREF_SHOW_SUGGESTIONS_SETTING, "0", Settings.PREF_AUTO_CORRECTION_THRESHOLD, "0"); // "Suggestion visibility" to "always hide" and "Auto-correction" to "off" testDoubleSpacePeriodWithSettings(false, Settings.PREF_SHOW_SUGGESTIONS_SETTING, "0", Settings.PREF_AUTO_CORRECTION_THRESHOLD, "0", Settings.PREF_KEY_USE_DOUBLE_SPACE_PERIOD, false); } public void testBackspaceAtStartAfterAutocorrect() { final String STRING_TO_TYPE = "tgis "; final int typedLength = STRING_TO_TYPE.length(); final String EXPECTED_RESULT = "this "; final int NEW_CURSOR_POSITION = 0; type(STRING_TO_TYPE); mLatinIME.onUpdateSelection(0, 0, typedLength, typedLength, -1, -1); mInputConnection.setSelection(NEW_CURSOR_POSITION, NEW_CURSOR_POSITION); mLatinIME.onUpdateSelection(typedLength, typedLength, NEW_CURSOR_POSITION, NEW_CURSOR_POSITION, -1, -1); type(Constants.CODE_DELETE); assertEquals("auto correct then move cursor to start of line then backspace", EXPECTED_RESULT, mEditText.getText().toString()); } public void testAutoCorrectThenMoveCursorThenBackspace() { final String STRING_TO_TYPE = "and tgis "; final int typedLength = STRING_TO_TYPE.length(); final String EXPECTED_RESULT = "andthis "; final int NEW_CURSOR_POSITION = STRING_TO_TYPE.indexOf('t'); type(STRING_TO_TYPE); mLatinIME.onUpdateSelection(0, 0, typedLength, typedLength, -1, -1); mInputConnection.setSelection(NEW_CURSOR_POSITION, NEW_CURSOR_POSITION); mLatinIME.onUpdateSelection(typedLength, typedLength, NEW_CURSOR_POSITION, NEW_CURSOR_POSITION, -1, -1); type(Constants.CODE_DELETE); assertEquals("auto correct then move cursor then backspace", EXPECTED_RESULT, mEditText.getText().toString()); } public void testNoSpaceAfterManualPick() { final String WORD_TO_TYPE = "this"; final String EXPECTED_RESULT = WORD_TO_TYPE; type(WORD_TO_TYPE); pickSuggestionManually(WORD_TO_TYPE); assertEquals("no space after manual pick", EXPECTED_RESULT, mEditText.getText().toString()); } public void testManualPickThenType() { final String WORD1_TO_TYPE = "this"; final String WORD2_TO_TYPE = "is"; final String EXPECTED_RESULT = "this is"; type(WORD1_TO_TYPE); pickSuggestionManually(WORD1_TO_TYPE); type(WORD2_TO_TYPE); assertEquals("manual pick then type", EXPECTED_RESULT, mEditText.getText().toString()); } public void testManualPickThenSeparator() { final String WORD1_TO_TYPE = "this"; final String WORD2_TO_TYPE = "!"; final String EXPECTED_RESULT = "this!"; type(WORD1_TO_TYPE); pickSuggestionManually(WORD1_TO_TYPE); type(WORD2_TO_TYPE); assertEquals("manual pick then separator", EXPECTED_RESULT, mEditText.getText().toString()); } // This test matches the one in InputLogicTestsNonEnglish. In some non-English languages, // ! and ? are clustering punctuation signs. public void testClusteringPunctuation() { final String WORD1_TO_TYPE = "test"; final String WORD2_TO_TYPE = "!!?!:!"; final String EXPECTED_RESULT = "test!!?!:!"; type(WORD1_TO_TYPE); pickSuggestionManually(WORD1_TO_TYPE); type(WORD2_TO_TYPE); assertEquals("clustering punctuation", EXPECTED_RESULT, mEditText.getText().toString()); } public void testManualPickThenStripperThenPick() { final String WORD_TO_TYPE = "this"; final String STRIPPER = "\n"; final String EXPECTED_RESULT = "this\nthis"; type(WORD_TO_TYPE); pickSuggestionManually(WORD_TO_TYPE); type(STRIPPER); type(WORD_TO_TYPE); pickSuggestionManually(WORD_TO_TYPE); assertEquals("manual pick then \\n then manual pick", EXPECTED_RESULT, mEditText.getText().toString()); } public void testManualPickThenSpaceThenType() { final String WORD1_TO_TYPE = "this"; final String WORD2_TO_TYPE = " is"; final String EXPECTED_RESULT = "this is"; type(WORD1_TO_TYPE); pickSuggestionManually(WORD1_TO_TYPE); type(WORD2_TO_TYPE); assertEquals("manual pick then space then type", EXPECTED_RESULT, mEditText.getText().toString()); } public void testManualPickThenManualPick() { final String WORD1_TO_TYPE = "this"; final String WORD2_TO_PICK = "is"; final String EXPECTED_RESULT = "this is"; type(WORD1_TO_TYPE); pickSuggestionManually(WORD1_TO_TYPE); // Here we fake picking a word through bigram prediction. pickSuggestionManually(WORD2_TO_PICK); assertEquals("manual pick then manual pick", EXPECTED_RESULT, mEditText.getText().toString()); } public void testDeleteWholeComposingWord() { final String WORD_TO_TYPE = "this"; type(WORD_TO_TYPE); for (int i = 0; i < WORD_TO_TYPE.length(); ++i) { type(Constants.CODE_DELETE); } assertEquals("delete whole composing word", "", mEditText.getText().toString()); } public void testResumeSuggestionOnBackspace() { final String STRING_TO_TYPE = "and this "; final int typedLength = STRING_TO_TYPE.length(); type(STRING_TO_TYPE); assertEquals("resume suggestion on backspace", -1, BaseInputConnection.getComposingSpanStart(mEditText.getText())); assertEquals("resume suggestion on backspace", -1, BaseInputConnection.getComposingSpanEnd(mEditText.getText())); mLatinIME.onUpdateSelection(0, 0, typedLength, typedLength, -1, -1); type(Constants.CODE_DELETE); assertEquals("resume suggestion on backspace", 4, BaseInputConnection.getComposingSpanStart(mEditText.getText())); assertEquals("resume suggestion on backspace", 8, BaseInputConnection.getComposingSpanEnd(mEditText.getText())); } private void helperTestComposing(final String wordToType, final boolean shouldBeComposing) { mEditText.setText(""); type(wordToType); assertEquals("start composing inside text", shouldBeComposing ? 0 : -1, BaseInputConnection.getComposingSpanStart(mEditText.getText())); assertEquals("start composing inside text", shouldBeComposing ? wordToType.length() : -1, BaseInputConnection.getComposingSpanEnd(mEditText.getText())); } public void testStartComposing() { // Should start composing on a letter helperTestComposing("a", true); type(" "); // To reset the composing state // Should not start composing on quote helperTestComposing("'", false); type(" "); helperTestComposing("'-", false); type(" "); // Should not start composing on dash helperTestComposing("-", false); type(" "); helperTestComposing("-'", false); type(" "); helperTestComposing("a-", true); type(" "); helperTestComposing("a'", true); } // TODO: Add some tests for non-BMP characters public void testAutoCorrectByUserHistory() { final String WORD_TO_BE_CORRECTED = "qpmx"; final String NOT_CORRECTED_RESULT = "qpmx "; final String DESIRED_WORD = "qpmz"; final String CORRECTED_RESULT = "qpmz "; final int typeCountNotToAutocorrect = 1; final int typeCountToAutoCorrect = 16; int startIndex = 0; int endIndex = 0; for (int i = 0; i < typeCountNotToAutocorrect; i++) { type(DESIRED_WORD); type(Constants.CODE_SPACE); } startIndex = mEditText.getText().length(); type(WORD_TO_BE_CORRECTED); type(Constants.CODE_SPACE); endIndex = mEditText.getText().length(); assertEquals("not auto-corrected by user history", NOT_CORRECTED_RESULT, mEditText.getText().subSequence(startIndex, endIndex).toString()); for (int i = typeCountNotToAutocorrect; i < typeCountToAutoCorrect; i++) { type(DESIRED_WORD); type(Constants.CODE_SPACE); } startIndex = mEditText.getText().length(); type(WORD_TO_BE_CORRECTED); type(Constants.CODE_SPACE); endIndex = mEditText.getText().length(); assertEquals("auto-corrected by user history", CORRECTED_RESULT, mEditText.getText().subSequence(startIndex, endIndex).toString()); } public void testPredictionsAfterSpace() { final String WORD_TO_TYPE = "Barack "; type(WORD_TO_TYPE); sleep(DELAY_TO_WAIT_FOR_PREDICTIONS); runMessages(); // Test the first prediction is displayed final SuggestedWords suggestedWords = mLatinIME.getSuggestedWordsForTest(); assertEquals("predictions after space", "Obama", suggestedWords.size() > 0 ? suggestedWords.getWord(0) : null); } public void testPredictionsWithDoubleSpaceToPeriod() { mLatinIME.clearPersonalizedDictionariesForTest(); final String WORD_TO_TYPE = "Barack "; type(WORD_TO_TYPE); sleep(DELAY_TO_WAIT_FOR_PREDICTIONS); runMessages(); // No need to test here, testPredictionsAfterSpace is testing it already type(" "); sleep(DELAY_TO_WAIT_FOR_PREDICTIONS); runMessages(); // Test the predictions have been cleared SuggestedWords suggestedWords = mLatinIME.getSuggestedWordsForTest(); assertEquals("predictions cleared after double-space-to-period", suggestedWords.size(), 0); type(Constants.CODE_DELETE); sleep(DELAY_TO_WAIT_FOR_PREDICTIONS); runMessages(); // Test the first prediction is displayed suggestedWords = mLatinIME.getSuggestedWordsForTest(); assertEquals("predictions after cancel double-space-to-period", "Obama", suggestedWords.size() > 0 ? suggestedWords.getWord(0) : null); } public void testPredictionsAfterManualPick() { final String WORD_TO_TYPE = "Barack"; type(WORD_TO_TYPE); // Choose the auto-correction. For "Barack", the auto-correction should be "Barack". pickSuggestionManually(WORD_TO_TYPE); sleep(DELAY_TO_WAIT_FOR_PREDICTIONS); runMessages(); // Test the first prediction is displayed final SuggestedWords suggestedWords = mLatinIME.getSuggestedWordsForTest(); assertEquals("predictions after manual pick", "Obama", suggestedWords.size() > 0 ? suggestedWords.getWord(0) : null); } public void testPredictionsAfterPeriod() { mLatinIME.clearPersonalizedDictionariesForTest(); final String WORD_TO_TYPE = "Barack. "; type(WORD_TO_TYPE); sleep(DELAY_TO_WAIT_FOR_PREDICTIONS); runMessages(); SuggestedWords suggestedWords = mLatinIME.getSuggestedWordsForTest(); assertEquals("No prediction after period after inputting once.", 0, suggestedWords.size()); type(WORD_TO_TYPE); sleep(DELAY_TO_WAIT_FOR_PREDICTIONS); runMessages(); suggestedWords = mLatinIME.getSuggestedWordsForTest(); assertEquals("Beginning-of-Sentence prediction after inputting 2 times.", "Barack", suggestedWords.size() > 0 ? suggestedWords.getWord(0) : null); } public void testPredictionsAfterRecorrection() { final String PREFIX = "A "; final String WORD_TO_TYPE = "Barack"; final String FIRST_NON_TYPED_SUGGESTION = "Barrack"; final int endOfPrefix = PREFIX.length(); final int endOfWord = endOfPrefix + WORD_TO_TYPE.length(); final int endOfSuggestion = endOfPrefix + FIRST_NON_TYPED_SUGGESTION.length(); final int indexForManualCursor = endOfPrefix + 3; // +3 because it's after "Bar" in "Barack" type(PREFIX); mLatinIME.onUpdateSelection(0, 0, endOfPrefix, endOfPrefix, -1, -1); type(WORD_TO_TYPE); pickSuggestionManually(FIRST_NON_TYPED_SUGGESTION); mLatinIME.onUpdateSelection(endOfPrefix, endOfPrefix, endOfSuggestion, endOfSuggestion, -1, -1); runMessages(); type(" "); mLatinIME.onUpdateSelection(endOfSuggestion, endOfSuggestion, endOfSuggestion + 1, endOfSuggestion + 1, -1, -1); sleep(DELAY_TO_WAIT_FOR_PREDICTIONS); runMessages(); // Simulate a manual cursor move mInputConnection.setSelection(indexForManualCursor, indexForManualCursor); mLatinIME.onUpdateSelection(endOfSuggestion + 1, endOfSuggestion + 1, indexForManualCursor, indexForManualCursor, -1, -1); sleep(DELAY_TO_WAIT_FOR_PREDICTIONS); runMessages(); pickSuggestionManually(WORD_TO_TYPE); mLatinIME.onUpdateSelection(indexForManualCursor, indexForManualCursor, endOfWord, endOfWord, -1, -1); sleep(DELAY_TO_WAIT_FOR_PREDICTIONS); runMessages(); // Test the first prediction is displayed final SuggestedWords suggestedWords = mLatinIME.getSuggestedWordsForTest(); assertEquals("predictions after recorrection", "Obama", suggestedWords.size() > 0 ? suggestedWords.getWord(0) : null); } public void testComposingMultipleBackspace() { final String WORD_TO_TYPE = "radklro"; final int TIMES_TO_TYPE = 3; final int TIMES_TO_BACKSPACE = 8; type(WORD_TO_TYPE); type(Constants.CODE_DELETE); type(Constants.CODE_DELETE); type(Constants.CODE_DELETE); type(WORD_TO_TYPE); type(Constants.CODE_DELETE); type(Constants.CODE_DELETE); type(WORD_TO_TYPE); type(Constants.CODE_DELETE); type(Constants.CODE_DELETE); type(Constants.CODE_DELETE); assertEquals("composing with multiple backspace", WORD_TO_TYPE.length() * TIMES_TO_TYPE - TIMES_TO_BACKSPACE, mEditText.getText().length()); } public void testManySingleQuotes() { final String WORD_TO_AUTOCORRECT = "i"; final String WORD_AUTOCORRECTED = "I"; final String QUOTES = "''''''''''''''''''''"; final String WORD_TO_TYPE = WORD_TO_AUTOCORRECT + QUOTES + " "; final String EXPECTED_RESULT = WORD_AUTOCORRECTED + QUOTES + " "; type(WORD_TO_TYPE); assertEquals("auto-correct with many trailing single quotes", EXPECTED_RESULT, mEditText.getText().toString()); } public void testManySingleQuotesOneByOne() { final String WORD_TO_AUTOCORRECT = "i"; final String WORD_AUTOCORRECTED = "I"; final String QUOTES = "''''''''''''''''''''"; final String WORD_TO_TYPE = WORD_TO_AUTOCORRECT + QUOTES + " "; final String EXPECTED_RESULT = WORD_AUTOCORRECTED + QUOTES + " "; for (int i = 0; i < WORD_TO_TYPE.length(); ++i) { type(WORD_TO_TYPE.substring(i, i+1)); sleep(DELAY_TO_WAIT_FOR_PREDICTIONS); runMessages(); } assertEquals("type many trailing single quotes one by one", EXPECTED_RESULT, mEditText.getText().toString()); } public void testTypingSingleQuotesOneByOne() { final String WORD_TO_TYPE = "it's "; final String EXPECTED_RESULT = WORD_TO_TYPE; for (int i = 0; i < WORD_TO_TYPE.length(); ++i) { type(WORD_TO_TYPE.substring(i, i+1)); sleep(DELAY_TO_WAIT_FOR_PREDICTIONS); runMessages(); } assertEquals("type words letter by letter", EXPECTED_RESULT, mEditText.getText().toString()); } public void testSwitchLanguages() { final String WORD_TO_TYPE_FIRST_PART = "com"; final String WORD_TO_TYPE_SECOND_PART = "md "; final String EXPECTED_RESULT = "comme "; changeLanguage("en"); type(WORD_TO_TYPE_FIRST_PART); changeLanguage("fr"); type(WORD_TO_TYPE_SECOND_PART); assertEquals("Composing continues after switching languages", EXPECTED_RESULT, mEditText.getText().toString()); } }