Starting from API Level {@link android.os.Build.VERSION_CODES#N}, * the system can deal with the situation where the application directly * implements this class but one or more of the following methods are * not implemented.
*Text input is the result of the synergy of two essential components: * an Input Method Engine (IME) and an editor. The IME can be a * software keyboard, a handwriting interface, an emoji palette, a * speech-to-text engine, and so on. There are typically several IMEs * installed on any given Android device. In Android, IMEs extend * {@link android.inputmethodservice.InputMethodService}. * For more information about how to create an IME, see the * * Creating an input method guide. * * The editor is the component that receives text and displays it. * Typically, this is an {@link android.widget.EditText} instance, but * some applications may choose to implement their own editor for * various reasons. This is a large and complicated task, and an * application that does this needs to make sure the behavior is * consistent with standard EditText behavior in Android. An editor * needs to interact with the IME, receiving commands through * this InputConnection interface, and sending commands through * {@link android.view.inputmethod.InputMethodManager}. An editor * should start by implementing * {@link android.view.View#onCreateInputConnection(EditorInfo)} * to return its own input connection.
* *If you are implementing your own IME, you will need to call the * methods in this interface to interact with the application. Be sure * to test your IME with a wide range of applications, including * browsers and rich text editors, as some may have peculiarities you * need to deal with. Remember your IME may not be the only source of * changes on the text, and try to be as conservative as possible in * the data you send and as liberal as possible in the data you * receive.
* *If you are implementing your own editor, you will probably need * to provide your own subclass of {@link BaseInputConnection} to * answer to the commands from IMEs. Please be sure to test your * editor with as many IMEs as you can as their behavior can vary a * lot. Also be sure to test with various languages, including CJK * languages and right-to-left languages like Arabic, as these may * have different input requirements. When in doubt about the * behavior you should adopt for a particular call, please mimic the * default TextView implementation in the latest Android version, and * if you decide to drift from it, please consider carefully that * inconsistencies in text editor behavior is almost universally felt * as a bad thing by users.
* *In Android, the cursor and the selection are one and the same * thing. A "cursor" is just the special case of a zero-sized * selection. As such, this documentation uses them * interchangeably. Any method acting "before the cursor" would act * before the start of the selection if there is one, and any method * acting "after the cursor" would act after the end of the * selection.
* *An editor needs to be able to keep track of a currently * "composing" region, like the standard edition widgets do. The * composition is marked in a specific style: see * {@link android.text.Spanned#SPAN_COMPOSING}. IMEs use this to help * the user keep track of what part of the text they are currently * focusing on, and interact with the editor using * {@link InputConnection#setComposingText(CharSequence, int)}, * {@link InputConnection#setComposingRegion(int, int)} and * {@link InputConnection#finishComposingText()}. * The composing region and the selection are completely independent * of each other, and the IME may use them however they see fit.
*/ public interface InputConnection { /** * Flag for use with {@link #getTextAfterCursor} and * {@link #getTextBeforeCursor} to have style information returned * along with the text. If not set, {@link #getTextAfterCursor} * sends only the raw text, without style or other spans. If set, * it may return a complex CharSequence of both text and style * spans. Editor authors: you should strive to * send text with styles if possible, but it is not required. */ static final int GET_TEXT_WITH_STYLES = 0x0001; /** * Flag for use with {@link #getExtractedText} to indicate you * would like to receive updates when the extracted text changes. */ public static final int GET_EXTRACTED_TEXT_MONITOR = 0x0001; /** * Get n characters of text before the current cursor * position. * *This method may fail either if the input connection has * become invalid (such as its process crashing) or the editor is * taking too long to respond with the text (it is given a couple * seconds to return). In either case, null is returned. This * method does not affect the text in the editor in any way, nor * does it affect the selection or composing spans.
* *If {@link #GET_TEXT_WITH_STYLES} is supplied as flags, the * editor should return a {@link android.text.SpannableString} * with all the spans set on the text.
* *IME authors: please consider this will * trigger an IPC round-trip that will take some time. Assume this * method consumes a lot of time. Also, please keep in mind the * Editor may choose to return less characters than requested even * if they are available for performance reasons.
* *Editor authors: please be careful of race * conditions in implementing this call. An IME can make a change * to the text and use this method right away; you need to make * sure the returned value is consistent with the result of the * latest edits. Also, you may return less than n characters if performance * dictates so, but keep in mind IMEs are relying on this for many * functions: you should not, for example, limit the returned value to * the current line, and specifically do not return 0 characters unless * the cursor is really at the start of the text.
* * @param n The expected length of the text. * @param flags Supplies additional options controlling how the text is * returned. May be either 0 or {@link #GET_TEXT_WITH_STYLES}. * @return the text before the cursor position; the length of the * returned text might be less than n. */ public CharSequence getTextBeforeCursor(int n, int flags); /** * Get n characters of text after the current cursor * position. * *This method may fail either if the input connection has * become invalid (such as its process crashing) or the client is * taking too long to respond with the text (it is given a couple * seconds to return). In either case, null is returned. * *
This method does not affect the text in the editor in any * way, nor does it affect the selection or composing spans.
* *If {@link #GET_TEXT_WITH_STYLES} is supplied as flags, the * editor should return a {@link android.text.SpannableString} * with all the spans set on the text.
* *IME authors: please consider this will * trigger an IPC round-trip that will take some time. Assume this * method consumes a lot of time.
* *Editor authors: please be careful of race * conditions in implementing this call. An IME can make a change * to the text and use this method right away; you need to make * sure the returned value is consistent with the result of the * latest edits. Also, you may return less than n characters if performance * dictates so, but keep in mind IMEs are relying on this for many * functions: you should not, for example, limit the returned value to * the current line, and specifically do not return 0 characters unless * the cursor is really at the end of the text.
* * @param n The expected length of the text. * @param flags Supplies additional options controlling how the text is * returned. May be either 0 or {@link #GET_TEXT_WITH_STYLES}. * * @return the text after the cursor position; the length of the * returned text might be less than n. */ public CharSequence getTextAfterCursor(int n, int flags); /** * Gets the selected text, if any. * *This method may fail if either the input connection has * become invalid (such as its process crashing) or the client is * taking too long to respond with the text (it is given a couple * of seconds to return). In either case, null is returned.
* *This method must not cause any changes in the editor's * state.
* *If {@link #GET_TEXT_WITH_STYLES} is supplied as flags, the * editor should return a {@link android.text.SpannableString} * with all the spans set on the text.
* *IME authors: please consider this will * trigger an IPC round-trip that will take some time. Assume this * method consumes a lot of time.
* *Editor authors: please be careful of race * conditions in implementing this call. An IME can make a change * to the text or change the selection position and use this * method right away; you need to make sure the returned value is * consistent with the results of the latest edits.
* * @param flags Supplies additional options controlling how the text is * returned. May be either 0 or {@link #GET_TEXT_WITH_STYLES}. * @return the text that is currently selected, if any, or null if * no text is selected. In {@link android.os.Build.VERSION_CODES#N} and * later, returns false when the target application does not implement * this method. */ public CharSequence getSelectedText(int flags); /** * Retrieve the current capitalization mode in effect at the * current cursor position in the text. See * {@link android.text.TextUtils#getCapsMode TextUtils.getCapsMode} * for more information. * *This method may fail either if the input connection has * become invalid (such as its process crashing) or the client is * taking too long to respond with the text (it is given a couple * seconds to return). In either case, 0 is returned.
* *This method does not affect the text in the editor in any * way, nor does it affect the selection or composing spans.
* *Editor authors: please be careful of race * conditions in implementing this call. An IME can change the * cursor position and use this method right away; you need to make * sure the returned value is consistent with the results of the * latest edits and changes to the cursor position.
* * @param reqModes The desired modes to retrieve, as defined by * {@link android.text.TextUtils#getCapsMode TextUtils.getCapsMode}. These * constants are defined so that you can simply pass the current * {@link EditorInfo#inputType TextBoxAttribute.contentType} value * directly in to here. * @return the caps mode flags that are in effect at the current * cursor position. See TYPE_TEXT_FLAG_CAPS_* in {@link android.text.InputType}. */ public int getCursorCapsMode(int reqModes); /** * Retrieve the current text in the input connection's editor, and * monitor for any changes to it. This function returns with the * current text, and optionally the input connection can send * updates to the input method when its text changes. * *This method may fail either if the input connection has * become invalid (such as its process crashing) or the client is * taking too long to respond with the text (it is given a couple * seconds to return). In either case, null is returned.
* *Editor authors: as a general rule, try to comply with the
* fields in request for how many chars to return,
* but if performance or convenience dictates otherwise, please
* feel free to do what is most appropriate for your case. Also,
* if the
* {@link #GET_EXTRACTED_TEXT_MONITOR} flag is set, you should be
* calling
* {@link InputMethodManager#updateExtractedText(View, int, ExtractedText)}
* whenever you call
* {@link InputMethodManager#updateSelection(View, int, int, int, int)}.
The lengths are supplied in Java chars, not in code points * or in glyphs.
* *Since this method only operates on text before and after the * selection, it can't affect the contents of the selection. This * may affect the composing span if the span includes characters * that are to be deleted, but otherwise will not change it. If * some characters in the composing span are deleted, the * composing span will persist but get shortened by however many * chars inside it have been removed.
* *IME authors: please be careful not to * delete only half of a surrogate pair. Also take care not to * delete more characters than are in the editor, as that may have * ill effects on the application. Calling this method will cause * the editor to call * {@link android.inputmethodservice.InputMethodService#onUpdateSelection(int, int, int, int, int, int)} * on your service after the batch input is over.
* *Editor authors: please be careful of race * conditions in implementing this call. An IME can make a change * to the text or change the selection position and use this * method right away; you need to make sure the effects are * consistent with the results of the latest edits. Also, although * the IME should not send lengths bigger than the contents of the * string, you should check the values for overflows and trim the * indices to the size of the contents to avoid crashes. Since * this changes the contents of the editor, you need to make the * changes known to the input method by calling * {@link InputMethodManager#updateSelection(View, int, int, int, int)}, * but be careful to wait until the batch edit is over if one is * in progress.
* * @param beforeLength The number of characters before the cursor to be deleted, in code unit. * If this is greater than the number of existing characters between the beginning of the * text and the cursor, then this method does not fail but deletes all the characters in * that range. * @param afterLength The number of characters after the cursor to be deleted, in code unit. * If this is greater than the number of existing characters between the cursor and * the end of the text, then this method does not fail but deletes all the characters in * that range. * @return true on success, false if the input connection is no longer valid. */ public boolean deleteSurroundingText(int beforeLength, int afterLength); /** * A variant of {@link #deleteSurroundingText(int, int)}. Major differences are: * *Editor authors: In addition to the requirement in * {@link #deleteSurroundingText(int, int)}, make sure to do nothing when one ore more invalid * surrogate pairs are found in the requested range.
* * @see #deleteSurroundingText(int, int) * * @param beforeLength The number of characters before the cursor to be deleted, in code points. * If this is greater than the number of existing characters between the beginning of the * text and the cursor, then this method does not fail but deletes all the characters in * that range. * @param afterLength The number of characters after the cursor to be deleted, in code points. * If this is greater than the number of existing characters between the cursor and * the end of the text, then this method does not fail but deletes all the characters in * that range. * @return true on success, false if the input connection is no longer valid. Returns * {@code false} when the target application does not implement this method. */ public boolean deleteSurroundingTextInCodePoints(int beforeLength, int afterLength); /** * Replace the currently composing text with the given text, and * set the new cursor position. Any composing text set previously * will be removed automatically. * *If there is any composing span currently active, all
* characters that it comprises are removed. The passed text is
* added in its place, and a composing span is added to this
* text. If there is no composing span active, the passed text is
* added at the cursor position (removing selected characters
* first if any), and a composing span is added on the new text.
* Finally, the cursor is moved to the location specified by
* newCursorPosition.
This is usually called by IMEs to add or remove or change * characters in the composing span. Calling this method will * cause the editor to call * {@link android.inputmethodservice.InputMethodService#onUpdateSelection(int, int, int, int, int, int)} * on the current IME after the batch input is over.
* *Editor authors: please keep in mind the * text may be very similar or completely different than what was * in the composing span at call time, or there may not be a * composing span at all. Please note that although it's not * typical use, the string may be empty. Treat this normally, * replacing the currently composing text with an empty string. * Also, be careful with the cursor position. IMEs rely on this * working exactly as described above. Since this changes the * contents of the editor, you need to make the changes known to * the input method by calling * {@link InputMethodManager#updateSelection(View, int, int, int, int)}, * but be careful to wait until the batch edit is over if one is * in progress. Note that this method can set the cursor position * on either edge of the composing text or entirely outside it, * but the IME may also go on to move the cursor position to * within the composing text in a subsequent call so you should * make no assumption at all: the composing text and the selection * are entirely independent.
* * @param text The composing text with styles if necessary. If no style * object attached to the text, the default style for composing text * is used. See {@link android.text.Spanned} for how to attach style * object to the text. {@link android.text.SpannableString} and * {@link android.text.SpannableStringBuilder} are two * implementations of the interface {@link android.text.Spanned}. * @param newCursorPosition The new cursor position around the text. If * > 0, this is relative to the end of the text - 1; if <= 0, this * is relative to the start of the text. So a value of 1 will * always advance you to the position after the full text being * inserted. Note that this means you can't position the cursor * within the text, because the editor can make modifications to * the text you are providing so it is not possible to correctly * specify locations there. * @return true on success, false if the input connection is no longer * valid. */ public boolean setComposingText(CharSequence text, int newCursorPosition); /** * Mark a certain region of text as composing text. If there was a * composing region, the characters are left as they were and the * composing span removed, as if {@link #finishComposingText()} * has been called. The default style for composing text is used. * *The passed indices are clipped to the contents bounds. If * the resulting region is zero-sized, no region is marked and the * effect is the same as that of calling {@link #finishComposingText()}. * The order of start and end is not important. In effect, the * region from start to end and the region from end to start is * the same. Editor authors, be ready to accept a start that is * greater than end.
* *Since this does not change the contents of the text, editors should not call * {@link InputMethodManager#updateSelection(View, int, int, int, int)} and * IMEs should not receive * {@link android.inputmethodservice.InputMethodService#onUpdateSelection(int, int, int, int, int, int)}. *
* *This has no impact on the cursor/selection position. It may * result in the cursor being anywhere inside or outside the * composing region, including cases where the selection and the * composing region overlap partially or entirely.
* * @param start the position in the text at which the composing region begins * @param end the position in the text at which the composing region ends * @return true on success, false if the input connection is no longer * valid. In {@link android.os.Build.VERSION_CODES#N} and later, false is returned when the * target application does not implement this method. */ public boolean setComposingRegion(int start, int end); /** * Have the text editor finish whatever composing text is * currently active. This simply leaves the text as-is, removing * any special composing styling or other state that was around * it. The cursor position remains unchanged. * *IME authors: be aware that this call may be * expensive with some editors.
* *Editor authors: please note that the cursor * may be anywhere in the contents when this is called, including * in the middle of the composing span or in a completely * unrelated place. It must not move.
* * @return true on success, false if the input connection * is no longer valid. */ public boolean finishComposingText(); /** * Commit text to the text box and set the new cursor position. * *This method removes the contents of the currently composing * text and replaces it with the passed CharSequence, and then * moves the cursor according to {@code newCursorPosition}. If there * is no composing text when this method is called, the new text is * inserted at the cursor position, removing text inside the selection * if any. This behaves like calling * {@link #setComposingText(CharSequence, int) setComposingText(text, newCursorPosition)} * then {@link #finishComposingText()}.
* *Calling this method will cause the editor to call * {@link android.inputmethodservice.InputMethodService#onUpdateSelection(int, int, int, int, int, int)} * on the current IME after the batch input is over. * Editor authors, for this to happen you need to * make the changes known to the input method by calling * {@link InputMethodManager#updateSelection(View, int, int, int, int)}, * but be careful to wait until the batch edit is over if one is * in progress.
* * @param text The text to commit. This may include styles. * @param newCursorPosition The new cursor position around the text, * in Java characters. If > 0, this is relative to the end * of the text - 1; if <= 0, this is relative to the start * of the text. So a value of 1 will always advance the cursor * to the position after the full text being inserted. Note that * this means you can't position the cursor within the text, * because the editor can make modifications to the text * you are providing so it is not possible to correctly specify * locations there. * @return true on success, false if the input connection is no longer * valid. */ public boolean commitText(CharSequence text, int newCursorPosition); /** * Commit a completion the user has selected from the possible ones * previously reported to {@link InputMethodSession#displayCompletions * InputMethodSession#displayCompletions(CompletionInfo[])} or * {@link InputMethodManager#displayCompletions * InputMethodManager#displayCompletions(View, CompletionInfo[])}. * This will result in the same behavior as if the user had * selected the completion from the actual UI. In all other * respects, this behaves like {@link #commitText(CharSequence, int)}. * *IME authors: please take care to send the * same object that you received through * {@link android.inputmethodservice.InputMethodService#onDisplayCompletions(CompletionInfo[])}. *
* *Editor authors: if you never call * {@link InputMethodSession#displayCompletions(CompletionInfo[])} or * {@link InputMethodManager#displayCompletions(View, CompletionInfo[])} then * a well-behaved IME should never call this on your input * connection, but be ready to deal with misbehaving IMEs without * crashing.
* *Calling this method (with a valid {@link CompletionInfo} object) * will cause the editor to call * {@link android.inputmethodservice.InputMethodService#onUpdateSelection(int, int, int, int, int, int)} * on the current IME after the batch input is over. * Editor authors, for this to happen you need to * make the changes known to the input method by calling * {@link InputMethodManager#updateSelection(View, int, int, int, int)}, * but be careful to wait until the batch edit is over if one is * in progress.
* * @param text The committed completion. * @return true on success, false if the input connection is no longer * valid. */ public boolean commitCompletion(CompletionInfo text); /** * Commit a correction automatically performed on the raw user's input. A * typical example would be to correct typos using a dictionary. * *Calling this method will cause the editor to call * {@link android.inputmethodservice.InputMethodService#onUpdateSelection(int, int, int, int, int, int)} * on the current IME after the batch input is over. * Editor authors, for this to happen you need to * make the changes known to the input method by calling * {@link InputMethodManager#updateSelection(View, int, int, int, int)}, * but be careful to wait until the batch edit is over if one is * in progress.
* * @param correctionInfo Detailed information about the correction. * @return true on success, false if the input connection is no longer valid. * In {@link android.os.Build.VERSION_CODES#N} and later, returns false * when the target application does not implement this method. */ public boolean commitCorrection(CorrectionInfo correctionInfo); /** * Set the selection of the text editor. To set the cursor * position, start and end should have the same value. * *Since this moves the cursor, calling this method will cause * the editor to call * {@link android.inputmethodservice.InputMethodService#onUpdateSelection(int, int, int, int, int, int)} * on the current IME after the batch input is over. * Editor authors, for this to happen you need to * make the changes known to the input method by calling * {@link InputMethodManager#updateSelection(View, int, int, int, int)}, * but be careful to wait until the batch edit is over if one is * in progress.
* *This has no effect on the composing region which must stay * unchanged. The order of start and end is not important. In * effect, the region from start to end and the region from end to * start is the same. Editor authors, be ready to accept a start * that is greater than end.
* * @param start the character index where the selection should start. * @param end the character index where the selection should end. * @return true on success, false if the input connection is no longer * valid. */ public boolean setSelection(int start, int end); /** * Have the editor perform an action it has said it can do. * *This is typically used by IMEs when the user presses the key * associated with the action.
* * @param editorAction This must be one of the action constants for * {@link EditorInfo#imeOptions EditorInfo.editorType}, such as * {@link EditorInfo#IME_ACTION_GO EditorInfo.EDITOR_ACTION_GO}. * @return true on success, false if the input connection is no longer * valid. */ public boolean performEditorAction(int editorAction); /** * Perform a context menu action on the field. The given id may be one of: * {@link android.R.id#selectAll}, * {@link android.R.id#startSelectingText}, {@link android.R.id#stopSelectingText}, * {@link android.R.id#cut}, {@link android.R.id#copy}, * {@link android.R.id#paste}, {@link android.R.id#copyUrl}, * or {@link android.R.id#switchInputMethod} */ public boolean performContextMenuAction(int id); /** * Tell the editor that you are starting a batch of editor * operations. The editor will try to avoid sending you updates * about its state until {@link #endBatchEdit} is called. Batch * edits nest. * *IME authors: use this to avoid getting * calls to * {@link android.inputmethodservice.InputMethodService#onUpdateSelection(int, int, int, int, int, int)} * corresponding to intermediate state. Also, use this to avoid * flickers that may arise from displaying intermediate state. Be * sure to call {@link #endBatchEdit} for each call to this, or * you may block updates in the editor.
* *Editor authors: while a batch edit is in * progress, take care not to send updates to the input method and * not to update the display. IMEs use this intensively to this * effect. Also please note that batch edits need to nest * correctly.
* * @return true if a batch edit is now in progress, false otherwise. Since * this method starts a batch edit, that means it will always return true * unless the input connection is no longer valid. */ public boolean beginBatchEdit(); /** * Tell the editor that you are done with a batch edit previously * initiated with {@link #beginBatchEdit}. This ends the latest * batch only. * *IME authors: make sure you call this * exactly once for each call to {@link #beginBatchEdit}.
* *Editor authors: please be careful about * batch edit nesting. Updates still to be held back until the end * of the last batch edit.
* * @return true if there is still a batch edit in progress after closing * the latest one (in other words, if the nesting count is > 0), false * otherwise or if the input connection is no longer valid. */ public boolean endBatchEdit(); /** * Send a key event to the process that is currently attached * through this input connection. The event will be dispatched * like a normal key event, to the currently focused view; this * generally is the view that is providing this InputConnection, * but due to the asynchronous nature of this protocol that can * not be guaranteed and the focus may have changed by the time * the event is received. * *This method can be used to send key events to the * application. For example, an on-screen keyboard may use this * method to simulate a hardware keyboard. There are three types * of standard keyboards, numeric (12-key), predictive (20-key) * and ALPHA (QWERTY). You can specify the keyboard type by * specify the device id of the key event.
* *You will usually want to set the flag * {@link KeyEvent#FLAG_SOFT_KEYBOARD KeyEvent.FLAG_SOFT_KEYBOARD} * on all key event objects you give to this API; the flag will * not be set for you.
* *Note that it's discouraged to send such key events in normal * operation; this is mainly for use with * {@link android.text.InputType#TYPE_NULL} type text fields. Use * the {@link #commitText} family of methods to send text to the * application instead.
* * @param event The key event. * @return true on success, false if the input connection is no longer * valid. * * @see KeyEvent * @see KeyCharacterMap#NUMERIC * @see KeyCharacterMap#PREDICTIVE * @see KeyCharacterMap#ALPHA */ public boolean sendKeyEvent(KeyEvent event); /** * Clear the given meta key pressed states in the given input * connection. * *This can be used by the IME to clear the meta key states set * by a hardware keyboard with latched meta keys, if the editor * keeps track of these.
* * @param states The states to be cleared, may be one or more bits as * per {@link KeyEvent#getMetaState() KeyEvent.getMetaState()}. * @return true on success, false if the input connection is no longer * valid. */ public boolean clearMetaKeyStates(int states); /** * Called by the IME to tell the client when it switches between * fullscreen and normal modes. This will normally be called for * you by the standard implementation of * {@link android.inputmethodservice.InputMethodService}. * * @return true on success, false if the input connection is no longer * valid. */ public boolean reportFullscreenMode(boolean enabled); /** * API to send private commands from an input method to its * connected editor. This can be used to provide domain-specific * features that are only known between certain input methods and * their clients. Note that because the InputConnection protocol * is asynchronous, you have no way to get a result back or know * if the client understood the command; you can use the * information in {@link EditorInfo} to determine if a client * supports a particular command. * * @param action Name of the command to be performed. This must * be a scoped name, i.e. prefixed with a package name you own, so that * different developers will not create conflicting commands. * @param data Any data to include with the command. * @return true if the command was sent (whether or not the * associated editor understood it), false if the input connection is no longer * valid. */ public boolean performPrivateCommand(String action, Bundle data); /** * The editor is requested to call * {@link InputMethodManager#updateCursorAnchorInfo(android.view.View, CursorAnchorInfo)} at * once, as soon as possible, regardless of cursor/anchor position changes. This flag can be * used together with {@link #CURSOR_UPDATE_MONITOR}. */ public static final int CURSOR_UPDATE_IMMEDIATE = 1 << 0; /** * The editor is requested to call * {@link InputMethodManager#updateCursorAnchorInfo(android.view.View, CursorAnchorInfo)} * whenever cursor/anchor position is changed. To disable monitoring, call * {@link InputConnection#requestCursorUpdates(int)} again with this flag off. ** This flag can be used together with {@link #CURSOR_UPDATE_IMMEDIATE}. *
*/ public static final int CURSOR_UPDATE_MONITOR = 1 << 1; /** * Called by the input method to ask the editor for calling back * {@link InputMethodManager#updateCursorAnchorInfo(android.view.View, CursorAnchorInfo)} to * notify cursor/anchor locations. * * @param cursorUpdateMode {@link #CURSOR_UPDATE_IMMEDIATE} and/or * {@link #CURSOR_UPDATE_MONITOR}. Pass {@code 0} to disable the effect of * {@link #CURSOR_UPDATE_MONITOR}. * @return {@code true} if the request is scheduled. {@code false} to indicate that when the * application will not call * {@link InputMethodManager#updateCursorAnchorInfo(android.view.View, CursorAnchorInfo)}. * In {@link android.os.Build.VERSION_CODES#N} and later, returns {@code false} also when the * target application does not implement this method. */ public boolean requestCursorUpdates(int cursorUpdateMode); /** * Called by the {@link InputMethodManager} to enable application developers to specify a * dedicated {@link Handler} on which incoming IPC method calls from input methods will be * dispatched. * *Note: This does nothing when called from input methods.
* * @return {@code null} to use the default {@link Handler}. */ public Handler getHandler(); /** * Called by the system up to only once to notify that the system is about to invalidate * connection between the input method and the application. * *Editor authors: You can clear all the nested batch edit right now and * you no longer need to handle subsequent callbacks on this connection, including * {@link #beginBatchEdit()}}. Note that although the system tries to call this method whenever * possible, there may be a chance that this method is not called in some exceptional * situations.
* *Note: This does nothing when called from input methods.
*/ public void closeConnection(); }