/*
* Copyright (C) 2006 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 android.text.method;
import android.text.Editable;
import android.text.NoCopySpan;
import android.text.Spannable;
import android.text.Spanned;
import android.view.KeyEvent;
import android.view.View;
import android.view.KeyCharacterMap;
/**
* This base class encapsulates the behavior for tracking the state of
* meta keys such as SHIFT, ALT and SYM as well as the pseudo-meta state of selecting text.
* <p>
* Key listeners that care about meta state should inherit from this class;
* you should not instantiate this class directly in a client.
* </p><p>
* This class provides two mechanisms for tracking meta state that can be used
* together or independently.
* </p>
* <ul>
* <li>Methods such as {@link #handleKeyDown(long, int, KeyEvent)} and
* {@link #getMetaState(long)} operate on a meta key state bit mask.</li>
* <li>Methods such as {@link #onKeyDown(View, Editable, int, KeyEvent)} and
* {@link #getMetaState(CharSequence, int)} operate on meta key state flags stored
* as spans in an {@link Editable} text buffer. The spans only describe the current
* meta key state of the text editor; they do not carry any positional information.</li>
* </ul>
* <p>
* The behavior of this class varies according to the keyboard capabilities
* described by the {@link KeyCharacterMap} of the keyboard device such as
* the {@link KeyCharacterMap#getModifierBehavior() key modifier behavior}.
* </p><p>
* {@link MetaKeyKeyListener} implements chorded and toggled key modifiers.
* When key modifiers are toggled into a latched or locked state, the state
* of the modifier is stored in the {@link Editable} text buffer or in a
* meta state integer managed by the client. These latched or locked modifiers
* should be considered to be held <b>in addition to</b> those that the
* keyboard already reported as being pressed in {@link KeyEvent#getMetaState()}.
* In other words, the {@link MetaKeyKeyListener} augments the meta state
* provided by the keyboard; it does not replace it. This distinction is important
* to ensure that meta keys not handled by {@link MetaKeyKeyListener} such as
* {@link KeyEvent#KEYCODE_CAPS_LOCK} or {@link KeyEvent#KEYCODE_NUM_LOCK} are
* taken into consideration.
* </p><p>
* To ensure correct meta key behavior, the following pattern should be used
* when mapping key codes to characters:
* </p>
* <code>
* private char getUnicodeChar(TextKeyListener listener, KeyEvent event, Editable textBuffer) {
* // Use the combined meta states from the event and the key listener.
* int metaState = event.getMetaState() | listener.getMetaState(textBuffer);
* return event.getUnicodeChar(metaState);
* }
* </code>
*/
public abstract class MetaKeyKeyListener {
/**
* Flag that indicates that the SHIFT key is on.
* Value equals {@link KeyEvent#META_SHIFT_ON}.
*/
public static final int META_SHIFT_ON = KeyEvent.META_SHIFT_ON;
/**
* Flag that indicates that the ALT key is on.
* Value equals {@link KeyEvent#META_ALT_ON}.
*/
public static final int META_ALT_ON = KeyEvent.META_ALT_ON;
/**
* Flag that indicates that the SYM key is on.
* Value equals {@link KeyEvent#META_SYM_ON}.
*/
public static final int META_SYM_ON = KeyEvent.META_SYM_ON;
/**
* Flag that indicates that the SHIFT key is locked in CAPS mode.
*/
public static final int META_CAP_LOCKED = KeyEvent.META_CAP_LOCKED;
/**
* Flag that indicates that the ALT key is locked.
*/
public static final int META_ALT_LOCKED = KeyEvent.META_ALT_LOCKED;
/**
* Flag that indicates that the SYM key is locked.
*/
public static final int META_SYM_LOCKED = KeyEvent.META_SYM_LOCKED;
/**
* @hide pending API review
*/
public static final int META_SELECTING = KeyEvent.META_SELECTING;
// These bits are privately used by the meta key key listener.
// They are deliberately assigned values outside of the representable range of an 'int'
// so as not to conflict with any meta key states publicly defined by KeyEvent.
private static final long META_CAP_USED = 1L << 32;
private static final long META_ALT_USED = 1L << 33;
private static final long META_SYM_USED = 1L << 34;
private static final long META_CAP_PRESSED = 1L << 40;
private static final long META_ALT_PRESSED = 1L << 41;
private static final long META_SYM_PRESSED = 1L << 42;
private static final long META_CAP_RELEASED = 1L << 48;
private static final long META_ALT_RELEASED = 1L << 49;
private static final long META_SYM_RELEASED = 1L << 50;
private static final long META_SHIFT_MASK = META_SHIFT_ON
| META_CAP_LOCKED | META_CAP_USED
| META_CAP_PRESSED | META_CAP_RELEASED;
private static final long META_ALT_MASK = META_ALT_ON
| META_ALT_LOCKED | META_ALT_USED
| META_ALT_PRESSED | META_ALT_RELEASED;
private static final long META_SYM_MASK = META_SYM_ON
| META_SYM_LOCKED | META_SYM_USED
| META_SYM_PRESSED | META_SYM_RELEASED;
private static final Object CAP = new NoCopySpan.Concrete();
private static final Object ALT = new NoCopySpan.Concrete();
private static final Object SYM = new NoCopySpan.Concrete();
private static final Object SELECTING = new NoCopySpan.Concrete();
private static final int PRESSED_RETURN_VALUE = 1;
private static final int LOCKED_RETURN_VALUE = 2;
/**
* Resets all meta state to inactive.
*/
public static void resetMetaState(Spannable text) {
text.removeSpan(CAP);
text.removeSpan(ALT);
text.removeSpan(SYM);
text.removeSpan(SELECTING);
}
/**
* Gets the state of the meta keys.
*
* @param text the buffer in which the meta key would have been pressed.
*
* @return an integer in which each bit set to one represents a pressed
* or locked meta key.
*/
public static final int getMetaState(CharSequence text) {
return getActive(text, CAP, META_SHIFT_ON, META_CAP_LOCKED) |
getActive(text, ALT, META_ALT_ON, META_ALT_LOCKED) |
getActive(text, SYM, META_SYM_ON, META_SYM_LOCKED) |
getActive(text, SELECTING, META_SELECTING, META_SELECTING);
}
/**
* Gets the state of the meta keys for a specific key event.
*
* For input devices that use toggled key modifiers, the `toggled' state
* is stored into the text buffer. This method retrieves the meta state
* for this event, accounting for the stored state. If the event has been
* created by a device that does not support toggled key modifiers, like
* a virtual device for example, the stored state is ignored.
*
* @param text the buffer in which the meta key would have been pressed.
* @param event the event for which to evaluate the meta state.
* @return an integer in which each bit set to one represents a pressed
* or locked meta key.
*/
public static final int getMetaState(final CharSequence text, final KeyEvent event) {
int metaState = event.getMetaState();
if (event.getKeyCharacterMap().getModifierBehavior()
== KeyCharacterMap.MODIFIER_BEHAVIOR_CHORDED_OR_TOGGLED) {
metaState |= getMetaState(text);
}
return metaState;
}
// As META_SELECTING is @hide we should not mention it in public comments, hence the
// omission in @param meta
/**
* Gets the state of a particular meta key.
*
* @param meta META_SHIFT_ON, META_ALT_ON, META_SYM_ON
* @param text the buffer in which the meta key would have been pressed.
*
* @return 0 if inactive, 1 if active, 2 if locked.
*/
public static final int getMetaState(CharSequence text, int meta) {
switch (meta) {
case META_SHIFT_ON:
return getActive(text, CAP, PRESSED_RETURN_VALUE, LOCKED_RETURN_VALUE);
case META_ALT_ON:
return getActive(text, ALT, PRESSED_RETURN_VALUE, LOCKED_RETURN_VALUE);
case META_SYM_ON:
return getActive(text, SYM, PRESSED_RETURN_VALUE, LOCKED_RETURN_VALUE);
case META_SELECTING:
return getActive(text, SELECTING, PRESSED_RETURN_VALUE, LOCKED_RETURN_VALUE);
default:
return 0;
}
}
/**
* Gets the state of a particular meta key to use with a particular key event.
*
* If the key event has been created by a device that does not support toggled
* key modifiers, like a virtual keyboard for example, only the meta state in
* the key event is considered.
*
* @param meta META_SHIFT_ON, META_ALT_ON, META_SYM_ON
* @param text the buffer in which the meta key would have been pressed.
* @param event the event for which to evaluate the meta state.
* @return 0 if inactive, 1 if active, 2 if locked.
*/
public static final int getMetaState(final CharSequence text, final int meta,
final KeyEvent event) {
int metaState = event.getMetaState();
if (event.getKeyCharacterMap().getModifierBehavior()
== KeyCharacterMap.MODIFIER_BEHAVIOR_CHORDED_OR_TOGGLED) {
metaState |= getMetaState(text);
}
if (META_SELECTING == meta) {
// #getMetaState(long, int) does not support META_SELECTING, but we want the same
// behavior as #getMetaState(CharSequence, int) so we need to do it here
if ((metaState & META_SELECTING) != 0) {
// META_SELECTING is only ever set to PRESSED and can't be LOCKED, so return 1
return 1;
}
return 0;
}
return getMetaState(metaState, meta);
}
private static int getActive(CharSequence text, Object meta,
int on, int lock) {
if (!(text instanceof Spanned)) {
return 0;
}
Spanned sp = (Spanned) text;
int flag = sp.getSpanFlags(meta);
if (flag == LOCKED) {
return lock;
} else if (flag != 0) {
return on;
} else {
return 0;
}
}
/**
* Call this method after you handle a keypress so that the meta
* state will be reset to unshifted (if it is not still down)
* or primed to be reset to unshifted (once it is released).
*/
public static void adjustMetaAfterKeypress(Spannable content) {
adjust(content, CAP);
adjust(content, ALT);
adjust(content, SYM);
}
/**
* Returns true if this object is one that this class would use to
* keep track of any meta state in the specified text.
*/
public static boolean isMetaTracker(CharSequence text, Object what) {
return what == CAP || what == ALT || what == SYM ||
what == SELECTING;
}
/**
* Returns true if this object is one that this class would use to
* keep track of the selecting meta state in the specified text.
*/
public static boolean isSelectingMetaTracker(CharSequence text, Object what) {
return what == SELECTING;
}
private static void adjust(Spannable content, Object what) {
int current = content.getSpanFlags(what);
if (current == PRESSED)
content.setSpan(what, 0, 0, USED);
else if (current == RELEASED)
content.removeSpan(what);
}
/**
* Call this if you are a method that ignores the locked meta state
* (arrow keys, for example) and you handle a key.
*/
protected static void resetLockedMeta(Spannable content) {
resetLock(content, CAP);
resetLock(content, ALT);
resetLock(content, SYM);
resetLock(content, SELECTING);
}
private static void resetLock(Spannable content, Object what) {
int current = content.getSpanFlags(what);
if (current == LOCKED)
content.removeSpan(what);
}
/**
* Handles presses of the meta keys.
*/
public boolean onKeyDown(View view, Editable content, int keyCode, KeyEvent event) {
if (keyCode == KeyEvent.KEYCODE_SHIFT_LEFT || keyCode == KeyEvent.KEYCODE_SHIFT_RIGHT) {
press(content, CAP);
return true;
}
if (keyCode == KeyEvent.KEYCODE_ALT_LEFT || keyCode == KeyEvent.KEYCODE_ALT_RIGHT
|| keyCode == KeyEvent.KEYCODE_NUM) {
press(content, ALT);
return true;
}
if (keyCode == KeyEvent.KEYCODE_SYM) {
press(content, SYM);
return true;
}
return false; // no super to call through to
}
private void press(Editable content, Object what) {
int state = content.getSpanFlags(what);
if (state == PRESSED)
; // repeat before use
else if (state == RELEASED)
content.setSpan(what, 0, 0, LOCKED);
else if (state == USED)
; // repeat after use
else if (state == LOCKED)
content.removeSpan(what);
else
content.setSpan(what, 0, 0, PRESSED);
}
/**
* Start selecting text.
* @hide pending API review
*/
public static void startSelecting(View view, Spannable content) {
content.setSpan(SELECTING, 0, 0, PRESSED);
}
/**
* Stop selecting text. This does not actually collapse the selection;
* call {@link android.text.Selection#setSelection} too.
* @hide pending API review
*/
public static void stopSelecting(View view, Spannable content) {
content.removeSpan(SELECTING);
}
/**
* Handles release of the meta keys.
*/
public boolean onKeyUp(View view, Editable content, int keyCode, KeyEvent event) {
if (keyCode == KeyEvent.KEYCODE_SHIFT_LEFT || keyCode == KeyEvent.KEYCODE_SHIFT_RIGHT) {
release(content, CAP, event);
return true;
}
if (keyCode == KeyEvent.KEYCODE_ALT_LEFT || keyCode == KeyEvent.KEYCODE_ALT_RIGHT
|| keyCode == KeyEvent.KEYCODE_NUM) {
release(content, ALT, event);
return true;
}
if (keyCode == KeyEvent.KEYCODE_SYM) {
release(content, SYM, event);
return true;
}
return false; // no super to call through to
}
private void release(Editable content, Object what, KeyEvent event) {
int current = content.getSpanFlags(what);
switch (event.getKeyCharacterMap().getModifierBehavior()) {
case KeyCharacterMap.MODIFIER_BEHAVIOR_CHORDED_OR_TOGGLED:
if (current == USED)
content.removeSpan(what);
else if (current == PRESSED)
content.setSpan(what, 0, 0, RELEASED);
break;
default:
content.removeSpan(what);
break;
}
}
public void clearMetaKeyState(View view, Editable content, int states) {
clearMetaKeyState(content, states);
}
public static void clearMetaKeyState(Editable content, int states) {
if ((states&META_SHIFT_ON) != 0) content.removeSpan(CAP);
if ((states&META_ALT_ON) != 0) content.removeSpan(ALT);
if ((states&META_SYM_ON) != 0) content.removeSpan(SYM);
if ((states&META_SELECTING) != 0) content.removeSpan(SELECTING);
}
/**
* Call this if you are a method that ignores the locked meta state
* (arrow keys, for example) and you handle a key.
*/
public static long resetLockedMeta(long state) {
if ((state & META_CAP_LOCKED) != 0) {
state &= ~META_SHIFT_MASK;
}
if ((state & META_ALT_LOCKED) != 0) {
state &= ~META_ALT_MASK;
}
if ((state & META_SYM_LOCKED) != 0) {
state &= ~META_SYM_MASK;
}
return state;
}
// ---------------------------------------------------------------------
// Version of API that operates on a state bit mask
// ---------------------------------------------------------------------
/**
* Gets the state of the meta keys.
*
* @param state the current meta state bits.
*
* @return an integer in which each bit set to one represents a pressed
* or locked meta key.
*/
public static final int getMetaState(long state) {
int result = 0;
if ((state & META_CAP_LOCKED) != 0) {
result |= META_CAP_LOCKED;
} else if ((state & META_SHIFT_ON) != 0) {
result |= META_SHIFT_ON;
}
if ((state & META_ALT_LOCKED) != 0) {
result |= META_ALT_LOCKED;
} else if ((state & META_ALT_ON) != 0) {
result |= META_ALT_ON;
}
if ((state & META_SYM_LOCKED) != 0) {
result |= META_SYM_LOCKED;
} else if ((state & META_SYM_ON) != 0) {
result |= META_SYM_ON;
}
return result;
}
/**
* Gets the state of a particular meta key.
*
* @param state the current state bits.
* @param meta META_SHIFT_ON, META_ALT_ON, or META_SYM_ON
*
* @return 0 if inactive, 1 if active, 2 if locked.
*/
public static final int getMetaState(long state, int meta) {
switch (meta) {
case META_SHIFT_ON:
if ((state & META_CAP_LOCKED) != 0) return LOCKED_RETURN_VALUE;
if ((state & META_SHIFT_ON) != 0) return PRESSED_RETURN_VALUE;
return 0;
case META_ALT_ON:
if ((state & META_ALT_LOCKED) != 0) return LOCKED_RETURN_VALUE;
if ((state & META_ALT_ON) != 0) return PRESSED_RETURN_VALUE;
return 0;
case META_SYM_ON:
if ((state & META_SYM_LOCKED) != 0) return LOCKED_RETURN_VALUE;
if ((state & META_SYM_ON) != 0) return PRESSED_RETURN_VALUE;
return 0;
default:
return 0;
}
}
/**
* Call this method after you handle a keypress so that the meta
* state will be reset to unshifted (if it is not still down)
* or primed to be reset to unshifted (once it is released). Takes
* the current state, returns the new state.
*/
public static long adjustMetaAfterKeypress(long state) {
if ((state & META_CAP_PRESSED) != 0) {
state = (state & ~META_SHIFT_MASK) | META_SHIFT_ON | META_CAP_USED;
} else if ((state & META_CAP_RELEASED) != 0) {
state &= ~META_SHIFT_MASK;
}
if ((state & META_ALT_PRESSED) != 0) {
state = (state & ~META_ALT_MASK) | META_ALT_ON | META_ALT_USED;
} else if ((state & META_ALT_RELEASED) != 0) {
state &= ~META_ALT_MASK;
}
if ((state & META_SYM_PRESSED) != 0) {
state = (state & ~META_SYM_MASK) | META_SYM_ON | META_SYM_USED;
} else if ((state & META_SYM_RELEASED) != 0) {
state &= ~META_SYM_MASK;
}
return state;
}
/**
* Handles presses of the meta keys.
*/
public static long handleKeyDown(long state, int keyCode, KeyEvent event) {
if (keyCode == KeyEvent.KEYCODE_SHIFT_LEFT || keyCode == KeyEvent.KEYCODE_SHIFT_RIGHT) {
return press(state, META_SHIFT_ON, META_SHIFT_MASK,
META_CAP_LOCKED, META_CAP_PRESSED, META_CAP_RELEASED, META_CAP_USED);
}
if (keyCode == KeyEvent.KEYCODE_ALT_LEFT || keyCode == KeyEvent.KEYCODE_ALT_RIGHT
|| keyCode == KeyEvent.KEYCODE_NUM) {
return press(state, META_ALT_ON, META_ALT_MASK,
META_ALT_LOCKED, META_ALT_PRESSED, META_ALT_RELEASED, META_ALT_USED);
}
if (keyCode == KeyEvent.KEYCODE_SYM) {
return press(state, META_SYM_ON, META_SYM_MASK,
META_SYM_LOCKED, META_SYM_PRESSED, META_SYM_RELEASED, META_SYM_USED);
}
return state;
}
private static long press(long state, int what, long mask,
long locked, long pressed, long released, long used) {
if ((state & pressed) != 0) {
// repeat before use
} else if ((state & released) != 0) {
state = (state &~ mask) | what | locked;
} else if ((state & used) != 0) {
// repeat after use
} else if ((state & locked) != 0) {
state &= ~mask;
} else {
state |= what | pressed;
}
return state;
}
/**
* Handles release of the meta keys.
*/
public static long handleKeyUp(long state, int keyCode, KeyEvent event) {
if (keyCode == KeyEvent.KEYCODE_SHIFT_LEFT || keyCode == KeyEvent.KEYCODE_SHIFT_RIGHT) {
return release(state, META_SHIFT_ON, META_SHIFT_MASK,
META_CAP_PRESSED, META_CAP_RELEASED, META_CAP_USED, event);
}
if (keyCode == KeyEvent.KEYCODE_ALT_LEFT || keyCode == KeyEvent.KEYCODE_ALT_RIGHT
|| keyCode == KeyEvent.KEYCODE_NUM) {
return release(state, META_ALT_ON, META_ALT_MASK,
META_ALT_PRESSED, META_ALT_RELEASED, META_ALT_USED, event);
}
if (keyCode == KeyEvent.KEYCODE_SYM) {
return release(state, META_SYM_ON, META_SYM_MASK,
META_SYM_PRESSED, META_SYM_RELEASED, META_SYM_USED, event);
}
return state;
}
private static long release(long state, int what, long mask,
long pressed, long released, long used, KeyEvent event) {
switch (event.getKeyCharacterMap().getModifierBehavior()) {
case KeyCharacterMap.MODIFIER_BEHAVIOR_CHORDED_OR_TOGGLED:
if ((state & used) != 0) {
state &= ~mask;
} else if ((state & pressed) != 0) {
state |= what | released;
}
break;
default:
state &= ~mask;
break;
}
return state;
}
/**
* Clears the state of the specified meta key if it is locked.
* @param state the meta key state
* @param which meta keys to clear, may be a combination of {@link #META_SHIFT_ON},
* {@link #META_ALT_ON} or {@link #META_SYM_ON}.
*/
public long clearMetaKeyState(long state, int which) {
if ((which & META_SHIFT_ON) != 0 && (state & META_CAP_LOCKED) != 0) {
state &= ~META_SHIFT_MASK;
}
if ((which & META_ALT_ON) != 0 && (state & META_ALT_LOCKED) != 0) {
state &= ~META_ALT_MASK;
}
if ((which & META_SYM_ON) != 0 && (state & META_SYM_LOCKED) != 0) {
state &= ~META_SYM_MASK;
}
return state;
}
/**
* The meta key has been pressed but has not yet been used.
*/
private static final int PRESSED =
Spannable.SPAN_MARK_MARK | (1 << Spannable.SPAN_USER_SHIFT);
/**
* The meta key has been pressed and released but has still
* not yet been used.
*/
private static final int RELEASED =
Spannable.SPAN_MARK_MARK | (2 << Spannable.SPAN_USER_SHIFT);
/**
* The meta key has been pressed and used but has not yet been released.
*/
private static final int USED =
Spannable.SPAN_MARK_MARK | (3 << Spannable.SPAN_USER_SHIFT);
/**
* The meta key has been pressed and released without use, and then
* pressed again; it may also have been released again.
*/
private static final int LOCKED =
Spannable.SPAN_MARK_MARK | (4 << Spannable.SPAN_USER_SHIFT);
}