how to add custom image as emoji in android InputMethodService. i have tried using
ImageGetter imageGetter = new ImageGetter() {
public Drawable getDrawable(String source) {
StringTokenizer st = new StringTokenizer(str, ".");
Drawable d = new BitmapDrawable(getResources(),emoticons[Integer.parseInt(st.nextToken()) - 1]);
d.setBounds(0, 0, d.getIntrinsicWidth(), d.getIntrinsicHeight());
return d;
}
};
Spanned cs = Html.fromHtml("<img src ='"+ str +"'/>", imageGetter, null);
getCurrentInputConnection().commitText(cs,1);
but only getting a obj text image. is there any way to add custom emoji to message(whatsapp /twitter) in android
Edit :
in my application if i type hello using my custom keyboard i have to insert a custom hello picture in edit field for every app installed in phone.
can it achieved ?
Edit : 2
i have checked it using convert mage to base64 also but nothing happen with Tag
ImageGetter imageGetter = new ImageGetter() {
@Override
public Drawable getDrawable(String source) {
byte [] encodeByte=Base64.decode("iVBORw0KGgoAAAANSUhEUgAAAAUAAAAFCAYAAACNbyblAAAAHElEQVQI12P4//8/w38GIAXDIBKE0DHxgljNBAAO9TXL0Y4OHwAAAABJRU5ErkJggg==",Base64.DEFAULT);
Bitmap bitmap=BitmapFactory.decodeByteArray(encodeByte, 0, encodeByte.length);
Drawable d = new BitmapDrawable(bitmap);
Log.e("Chk", "Height : "+d.getIntrinsicHeight());
Log.e("Chk", "Width : " + d.getIntrinsicWidth());
return d;
}
};
Spanned cs = Html.fromHtml("<img src='data:image/png;base64, iVBORw0KGgoAAAANSUhEUgAAAAUAAAAFCAYAAACNbyblAAAAHElEQVQI12P4//8/w38GIAXDIBKE0DHxgljNBAAO9TXL0Y4OHwAAAABJRU5ErkJggg=='/>", imageGetter,null);
Log.e("Chk", "12 : " + 12);
getCurrentInputConnection().setComposingText(cs,1);
Edit : 3
I am using this InputMethodService class in my custom keyboard application.
package com.example.android.softkeyboard;
import java.util.ArrayList;
import java.util.List;
import android.graphics.Bitmap;
import android.graphics.BitmapFactory;
import android.graphics.drawable.BitmapDrawable;
import android.graphics.drawable.Drawable;
import android.inputmethodservice.InputMethodService;
import android.inputmethodservice.Keyboard;
import android.inputmethodservice.KeyboardView;
import android.text.Html;
import android.text.Html.ImageGetter;
import android.text.Spanned;
import android.text.method.MetaKeyKeyListener;
import android.util.Base64;
import android.view.KeyCharacterMap;
import android.view.KeyEvent;
import android.view.View;
import android.view.inputmethod.CompletionInfo;
import android.view.inputmethod.EditorInfo;
import android.view.inputmethod.InputConnection;
public class SoftKeyboard extends InputMethodService implements
KeyboardView.OnKeyboardActionListener {
static final boolean DEBUG = false;
static final boolean PROCESS_HARD_KEYS = true;
private KeyboardView mInputView;
private CandidateView mCandidateView;
private CompletionInfo[] mCompletions;
private StringBuilder mComposing = new StringBuilder();
private boolean mPredictionOn;
private boolean mCompletionOn;
private int mLastDisplayWidth;
private boolean mCapsLock;
private long mLastShiftTime;
private long mMetaState;
private Keyboard mSymbolsKeyboard;
private Keyboard mSymbolsShiftedKeyboard;
private Keyboard mQwertyKeyboard;
private String mWordSeparators;
StringBuilder strBldrFrEmoji;
private void makeKeyboards() {
if (mQwertyKeyboard != null) {
// Configuration changes can happen after the keyboard gets
// recreated,
// so we need to be able to re-build the keyboards if the available
// space has changed.
int displayWidth = getMaxWidth();
if (displayWidth == mLastDisplayWidth)
return;
mLastDisplayWidth = displayWidth;
}
mQwertyKeyboard = new LatinKeyboard(this, R.xml.qwerty);
mSymbolsKeyboard = new LatinKeyboard(this, R.xml.symbols);
mSymbolsShiftedKeyboard = new LatinKeyboard(this, R.xml.symbols_shift);
}
@Override
public void onCreate() {
super.onCreate();
makeKeyboards();
mWordSeparators = getResources().getString(R.string.word_separators);
}
@Override
public View onCreateInputView() {
// We call makeKeyboards() here to regenerate them if needed due to
// a configuration change.
makeKeyboards();
mInputView = (KeyboardView) getLayoutInflater().inflate(R.layout.input,
null);
mInputView.setOnKeyboardActionListener(this);
mInputView.setKeyboard(mQwertyKeyboard);
return mInputView;
}
@Override
public View onCreateCandidatesView() {
mCandidateView = new CandidateView(this);
mCandidateView.setService(this);
return mCandidateView;
}
@Override
public void onStartInputView(EditorInfo attribute, boolean restarting) {
super.onStartInputView(attribute, restarting);
// Reset our state. We want to do this even if restarting, because
// the underlying state of the text editor could have changed in any
// way.
mComposing.setLength(0);
updateCandidates();
if (!restarting) {
// Clear shift states.
mMetaState = 0;
}
mPredictionOn = false;
mCompletionOn = false;
mCompletions = null;
Keyboard keyboard;
// We are now going to initialize our state based on the type of
// text being edited.
switch (attribute.inputType & EditorInfo.TYPE_MASK_CLASS) {
case EditorInfo.TYPE_CLASS_NUMBER:
case EditorInfo.TYPE_CLASS_DATETIME:
// Numbers and dates default to the symbols keyboard, with
// no extra features.
keyboard = mSymbolsKeyboard;
break;
case EditorInfo.TYPE_CLASS_PHONE:
// Phones will also default to the symbols keyboard, though
// often you will want to have a dedicated phone keyboard.
keyboard = mSymbolsKeyboard;
break;
case EditorInfo.TYPE_CLASS_TEXT:
// This is general text editing. We will default to the
// normal alphabetic keyboard, and assume that we should
// be doing predictive text (showing candidates as the
// user types).
keyboard = mQwertyKeyboard;
mPredictionOn = true;
// We now look for a few special variations of text that will
// modify our behavior.
int variation = attribute.inputType
& EditorInfo.TYPE_MASK_VARIATION;
if (variation == EditorInfo.TYPE_TEXT_VARIATION_PASSWORD) {
// Do not display predictions / what the user is typing
// when they are entering a password.
mPredictionOn = false;
}
if (variation == EditorInfo.TYPE_TEXT_VARIATION_EMAIL_ADDRESS
|| variation == EditorInfo.TYPE_TEXT_VARIATION_URI) {
// Our predictions are not useful for e-mail addresses
// or URIs.
mPredictionOn = false;
}
if ((attribute.inputType & EditorInfo.TYPE_TEXT_FLAG_AUTO_COMPLETE) != 0) {
// If this is an auto-complete text view, then our predictions
// will not be shown and instead we will allow the editor
// to supply their own. We only show the editor's
// candidates when in fullscreen mode, otherwise relying
// own it displaying its own UI.
mPredictionOn = false;
mCompletionOn = isFullscreenMode();
}
// We also want to look at the current state of the editor
// to decide whether our alphabetic keyboard should start out
// shifted.
updateShiftKeyState(attribute);
break;
default:
// For all unknown input types, default to the alphabetic
// keyboard with no special features.
keyboard = mQwertyKeyboard;
}
// Apply the selected keyboard to the input view.
if (mInputView != null) {
mInputView.setKeyboard(keyboard);
mInputView.closing();
}
}
@Override
public void onFinishInput() {
super.onFinishInput();
// Clear current composing text and candidates.
mComposing.setLength(0);
updateCandidates();
// We only hide the candidates window when finishing input on
// a particular editor, to avoid popping the underlying application
// up and down if the user is entering text into the bottom of
// its window.
setCandidatesViewShown(false);
if (mInputView != null) {
mInputView.closing();
}
}
@Override
public void onUpdateSelection(int oldSelStart, int oldSelEnd,
int newSelStart, int newSelEnd, int candidatesStart,
int candidatesEnd) {
// If the current selection in the text view changes, we should
// clear whatever candidate text we have.
if (mComposing.length() > 0
&& (newSelStart != candidatesEnd || newSelEnd != candidatesEnd)) {
mComposing.setLength(0);
updateCandidates();
InputConnection ic = getCurrentInputConnection();
if (ic != null) {
ic.finishComposingText();
}
}
}
@Override
public void onDisplayCompletions(CompletionInfo[] completions) {
if (mCompletionOn) {
mCompletions = completions;
if (completions == null) {
setSuggestions(null, false, false);
return;
}
List<String> stringList = new ArrayList<String>();
for (int i = 0; i < (completions != null ? completions.length : 0); i++) {
CompletionInfo ci = completions[i];
if (ci != null)
stringList.add(ci.getText().toString());
}
setSuggestions(stringList, true, true);
}
}
private boolean translateKeyDown(int keyCode, KeyEvent event) {
mMetaState = MetaKeyKeyListener.handleKeyDown(mMetaState, keyCode,
event);
int c = event.getUnicodeChar(MetaKeyKeyListener
.getMetaState(mMetaState));
mMetaState = MetaKeyKeyListener.adjustMetaAfterKeypress(mMetaState);
InputConnection ic = getCurrentInputConnection();
if (c == 0 || ic == null) {
return false;
}
boolean dead = false;
if ((c & KeyCharacterMap.COMBINING_ACCENT) != 0) {
dead = true;
c = c & KeyCharacterMap.COMBINING_ACCENT_MASK;
}
if (mComposing.length() > 0) {
char accent = mComposing.charAt(mComposing.length() - 1);
int composed = KeyEvent.getDeadChar(accent, c);
if (composed != 0) {
c = composed;
mComposing.setLength(mComposing.length() - 1);
}
}
onKey(c, null);
return true;
}
@Override
public boolean onKeyDown(int keyCode, KeyEvent event) {
switch (keyCode) {
case KeyEvent.KEYCODE_BACK:
// The InputMethodService already takes care of the back
// key for us, to dismiss the input method if it is shown.
// However, our keyboard could be showing a pop-up window
// that back should dismiss, so we first allow it to do that.
if (event.getRepeatCount() == 0 && mInputView != null) {
if (mInputView.handleBack()) {
return true;
}
}
break;
case KeyEvent.KEYCODE_DEL:
// Special handling of the delete key: if we currently are
// composing text for the user, we want to modify that instead
// of let the application to the delete itself.
if (mComposing.length() > 0) {
onKey(Keyboard.KEYCODE_DELETE, null);
return true;
}
break;
default:
// For all other keys, if we want to do transformations on
// text being entered with a hard keyboard, we need to process
// it and do the appropriate action.
if (PROCESS_HARD_KEYS) {
if (keyCode == KeyEvent.KEYCODE_SPACE
&& (event.getMetaState() & KeyEvent.META_ALT_ON) != 0) {
// A silly example: in our input method, Alt+Space
// is a shortcut for 'android' in lower case.
InputConnection ic = getCurrentInputConnection();
if (ic != null) {
// First, tell the editor that it is no longer in the
// shift state, since we are consuming this.
ic.clearMetaKeyStates(KeyEvent.META_ALT_ON);
keyDownUp(KeyEvent.KEYCODE_A);
keyDownUp(KeyEvent.KEYCODE_N);
keyDownUp(KeyEvent.KEYCODE_D);
keyDownUp(KeyEvent.KEYCODE_R);
keyDownUp(KeyEvent.KEYCODE_O);
keyDownUp(KeyEvent.KEYCODE_I);
keyDownUp(KeyEvent.KEYCODE_D);
// And we consume this event.
return true;
}
}
if (mPredictionOn && translateKeyDown(keyCode, event)) {
return true;
}
}
}
return super.onKeyDown(keyCode, event);
}
@Override
public boolean onKeyUp(int keyCode, KeyEvent event) {
// If we want to do transformations on text being entered with a hard
// keyboard, we need to process the up events to update the meta key
// state we are tracking.
if (PROCESS_HARD_KEYS) {
if (mPredictionOn) {
mMetaState = MetaKeyKeyListener.handleKeyUp(mMetaState,
keyCode, event);
}
}
return super.onKeyUp(keyCode, event);
}
private void commitTyped(InputConnection inputConnection) {
if (mComposing.length() > 0) {
inputConnection.commitText(mComposing, mComposing.length());
mComposing.setLength(0);
updateCandidates();
}
}
private void updateShiftKeyState(EditorInfo attr) {
if (attr != null && mInputView != null
&& mQwertyKeyboard == mInputView.getKeyboard()) {
int caps = getCurrentInputConnection().getCursorCapsMode(
attr.inputType);
mInputView.setShifted(mCapsLock || caps != 0);
}
}
private boolean isAlphabet(int code) {
if (Character.isLetter(code)) {
return true;
} else {
return false;
}
}
private void keyDownUp(int keyEventCode) {
getCurrentInputConnection().sendKeyEvent(
new KeyEvent(KeyEvent.ACTION_DOWN, keyEventCode));
getCurrentInputConnection().sendKeyEvent(
new KeyEvent(KeyEvent.ACTION_UP, keyEventCode));
}
private void sendKey(int keyCode) {
;
switch (keyCode) {
case '\n':
keyDownUp(KeyEvent.KEYCODE_ENTER);
break;
default:
if (keyCode >= '0' && keyCode <= '9') {
keyDownUp(keyCode - '0' + KeyEvent.KEYCODE_0);
} else {
getCurrentInputConnection().commitText(
String.valueOf((char) keyCode), 1);
}
break;
}
}
public void onKey(int primaryCode, int[] keyCodes) {
if (primaryCode == 32 || primaryCode == -5 || primaryCode == 10) {
if (strBldrFrEmoji != null) {
strBldrFrEmoji = null;
}
}
if (isWordSeparator(primaryCode)) {
if (mComposing.length() > 0) {
commitTyped(getCurrentInputConnection());
}
sendKey(primaryCode);
updateShiftKeyState(getCurrentInputEditorInfo());
} else if (primaryCode == Keyboard.KEYCODE_DELETE) {
handleBackspace();
} else if (primaryCode == Keyboard.KEYCODE_SHIFT) {
handleShift();
} else if (primaryCode == Keyboard.KEYCODE_CANCEL) {
handleClose();
return;
} else if (primaryCode == LatinKeyboardView.KEYCODE_OPTIONS) {
// Show a menu or somethin'
} else if (primaryCode == Keyboard.KEYCODE_MODE_CHANGE
&& mInputView != null) {
Keyboard current = mInputView.getKeyboard();
if (current == mSymbolsKeyboard
|| current == mSymbolsShiftedKeyboard) {
current = mQwertyKeyboard;
} else {
current = mSymbolsKeyboard;
}
mInputView.setKeyboard(current);
if (current == mSymbolsKeyboard) {
current.setShifted(false);
}
} else {
handleCharacter(primaryCode, keyCodes);
}
}
private void updateCandidates() {
if (!mCompletionOn) {
if (mComposing.length() > 0) {
ArrayList<String> list = new ArrayList<String>();
list.add(mComposing.toString());
setSuggestions(list, true, true);
} else {
setSuggestions(null, false, false);
}
}
}
public void setSuggestions(List<String> suggestions, boolean completions,
boolean typedWordValid) {
if (mCandidateView != null) {
mCandidateView.setSuggestions(suggestions, completions,
typedWordValid);
if (suggestions != null && suggestions.size() > 0) {
setCandidatesViewShown(true);
} else if (isFullscreenMode()) {
setCandidatesViewShown(true);
}
}
}
private void handleBackspace() {
final int length = mComposing.length();
if (length > 1) {
mComposing.delete(length - 1, length);
getCurrentInputConnection().setComposingText(mComposing,
mComposing.length());
updateCandidates();
} else if (length > 0) {
mComposing.setLength(0);
getCurrentInputConnection().commitText("", 0);
updateCandidates();
} else {
keyDownUp(KeyEvent.KEYCODE_DEL);
}
updateShiftKeyState(getCurrentInputEditorInfo());
}
private void handleShift() {
if (mInputView == null) {
return;
}
Keyboard currentKeyboard = mInputView.getKeyboard();
if (mQwertyKeyboard == currentKeyboard) {
// Alphabet keyboard
checkToggleCapsLock();
mInputView.setShifted(mCapsLock || !mInputView.isShifted());
} else if (currentKeyboard == mSymbolsKeyboard) {
mSymbolsKeyboard.setShifted(true);
mInputView.setKeyboard(mSymbolsShiftedKeyboard);
mSymbolsShiftedKeyboard.setShifted(true);
} else if (currentKeyboard == mSymbolsShiftedKeyboard) {
mSymbolsShiftedKeyboard.setShifted(false);
mInputView.setKeyboard(mSymbolsKeyboard);
mSymbolsKeyboard.setShifted(false);
}
}
private void handleCharacter(int primaryCode, int[] keyCodes) {
if (strBldrFrEmoji == null) {
strBldrFrEmoji = new StringBuilder();
}
strBldrFrEmoji.append(String.valueOf((char) primaryCode));
checkEnteredText(strBldrFrEmoji.toString());
if (isInputViewShown()) {
if (mInputView.isShifted()) {
primaryCode = Character.toUpperCase(primaryCode);
}
}
if (isAlphabet(primaryCode) && mPredictionOn) {
mComposing.append((char) primaryCode);
getCurrentInputConnection().setComposingText(mComposing,
mComposing.length());
updateShiftKeyState(getCurrentInputEditorInfo());
updateCandidates();
} else {
getCurrentInputConnection().commitText(
String.valueOf((char) primaryCode), 1);
}
}
void checkEnteredText(String str1) {
if (str1.length() > 0) {
if (str1.equalsIgnoreCase("hello")) {
/**
ImageGetter imageGetter = new ImageGetter() {
public Drawable getDrawable(String source) {
Drawable d = new BitmapDrawable(getResources(),BitmapFactory.decodeResource(getResources(),
R.drawable.ic_smiley));
d.setBounds(0, 0, d.getIntrinsicWidth(), d.getIntrinsicHeight());
return d;
}
};
Spanned cs = Html.fromHtml("<a href='http://www.google.com'><img src ='"+ str1 +"'/><a>", imageGetter, null);
*/
ImageGetter imageGetter = new ImageGetter() {
@Override
public Drawable getDrawable(String source) {
byte[] encodeByte = Base64
.decode("iVBORw0KGgoAAAANSUhEUgAAAAUAAAAFCAYAAACNbyblAAAAHElEQVQI12P4//8/w38GIAXDIBKE0DHxgljNBAAO9TXL0Y4OHwAAAABJRU5ErkJggg==",
Base64.DEFAULT);
Bitmap bitmap = BitmapFactory.decodeByteArray(
encodeByte, 0, encodeByte.length);
Drawable d = new BitmapDrawable(bitmap);
return d;
}
};
Spanned cs = Html
.fromHtml(
"<img src='data:image/png;base64, iVBORw0KGgoAAAANSUhEUgAAAAUAAAAFCAYAAACNbyblAAAAHElEQVQI12P4//8/w38GIAXDIBKE0DHxgljNBAAO9TXL0Y4OHwAAAABJRU5ErkJggg=='/>",
imageGetter, null);
getCurrentInputConnection().setComposingText(cs, 1);
}
}
}
private void handleClose() {
commitTyped(getCurrentInputConnection());
// dismissSoftInput(0);
mInputView.closing();
}
private void checkToggleCapsLock() {
long now = System.currentTimeMillis();
if (mLastShiftTime + 800 > now) {
mCapsLock = !mCapsLock;
mLastShiftTime = 0;
} else {
mLastShiftTime = now;
}
}
private String getWordSeparators() {
return mWordSeparators;
}
public boolean isWordSeparator(int code) {
String separators = getWordSeparators();
return separators.contains(String.valueOf((char) code));
}
public void pickDefaultCandidate() {
pickSuggestionManually(0);
}
public void pickSuggestionManually(int index) {
if (mCompletionOn && mCompletions != null && index >= 0
&& index < mCompletions.length) {
CompletionInfo ci = mCompletions[index];
getCurrentInputConnection().commitCompletion(ci);
if (mCandidateView != null) {
mCandidateView.clear();
}
updateShiftKeyState(getCurrentInputEditorInfo());
} else if (mComposing.length() > 0) {
// If we were generating candidate suggestions for the current
// text, we would commit one of them here. But for this sample,
// we will just commit the current text.
commitTyped(getCurrentInputConnection());
}
}
public void swipeRight() {
if (mCompletionOn) {
pickDefaultCandidate();
}
}
public void swipeLeft() {
handleBackspace();
}
public void swipeDown() {
handleClose();
}
public void swipeUp() {
}
public void onPress(int primaryCode) {
}
public void onRelease(int primaryCode) {
}
@Override
public void onText(CharSequence text) {
}
}
You're trying to send an image to twitter/whatsapp, not an emoji. There is a difference.
Emoji literally means "picture to character" and are dependent on the phone's character set that the receiver is using. Even if you replaced the images associated with your own phone's emojis, the person you are sending the emoji to would only be able to see their own keysets of emojis. This is not what you want.
Images have nothing to do with phone keysets and will appear roughly the same no matter which phones they are sent to. You need to pipe your image to an intent associated with the application the user is currently focused on.
This is how the app referenced here : https://play.google.com/store/apps/details?id=com.plantpurple.emojidom most likely did things.