java.lang.Object | |
↳ | android.view.KeyCharacterMap |
Describes the keys provided by a keyboard device and their associated labels.
Nested Classes | |||||||||||
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KeyCharacterMap.KeyData |
This class was deprecated
in API level 11.
instead use
getDisplayLabel(int)
,
getNumber(int)
and
get(int, int)
.
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KeyCharacterMap.UnavailableException |
Thrown by
load(int)
when a key character map could not be loaded.
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Constants | |||||||||||
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int | ALPHA | A keyboard with all the letters, and maybe some numbers. | |||||||||
int | BUILT_IN_KEYBOARD |
This constant was deprecated
in API level 11.
This constant should no longer be used because there is no
guarantee that a device has a built-in keyboard that can be used for
typing text. There might not be a built-in keyboard, the built-in keyboard
might be a
NUMERIC
or
SPECIAL_FUNCTION
keyboard, or there
might be multiple keyboards installed including external keyboards.
When interpreting key presses received from the framework, applications should
use the device id specified in the
KeyEvent
received.
When synthesizing key presses for delivery elsewhere or when translating key presses
from unknown keyboards, applications should use the special
VIRTUAL_KEYBOARD
device id.
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int | COMBINING_ACCENT | ||||||||||
int | COMBINING_ACCENT_MASK |
Mask the return value from
get(int, int)
with this value to get
a printable representation of the accent character of a "dead key."
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int | FULL | A full PC-style keyboard. | |||||||||
char | HEX_INPUT | This private-use character is used to trigger Unicode character input by hex digits. | |||||||||
int | MODIFIER_BEHAVIOR_CHORDED | Modifier keys may be chorded with character keys. | |||||||||
int | MODIFIER_BEHAVIOR_CHORDED_OR_TOGGLED | Modifier keys may be chorded with character keys or they may toggle into latched or locked states when pressed independently. | |||||||||
int | NUMERIC | A numeric (12-key) keyboard. | |||||||||
char | PICKER_DIALOG_INPUT | This private-use character is used to bring up a character picker for miscellaneous symbols. | |||||||||
int | PREDICTIVE | A keyboard with all the letters, but with more than one letter per key. | |||||||||
int | SPECIAL_FUNCTION | A keyboard that is only used to control special functions rather than for typing. | |||||||||
int | VIRTUAL_KEYBOARD | The id of a generic virtual keyboard with a full layout that can be used to synthesize key events. |
[Expand]
Inherited Constants
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From interface
android.os.Parcelable
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CREATOR |
Public Methods | |||||||||||
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Describe the kinds of special objects contained in this Parcelable's
marshalled representation.
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Queries the framework about whether any physical keys exist on the
any keyboard attached to the device that are capable of producing the given key code.
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Queries the framework about whether any physical keys exist on the
any keyboard attached to the device that are capable of producing the given
array of key codes.
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Gets the Unicode character generated by the specified key and meta
key state combination.
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Get the character that is produced by combining the dead key producing accent
with the key producing character c.
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Gets the primary character for this key.
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Get an array of KeyEvent objects that if put into the input stream
could plausibly generate the provided sequence of characters.
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This method was deprecated
in API level 11.
instead use
getDisplayLabel(int)
,
getNumber(int)
or
get(int, int)
.
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Gets the keyboard type.
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Gets the first character in the character array that can be generated
by the specified key code.
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Gets the first character in the character array that can be generated
by the specified key code.
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Gets a constant that describes the behavior of this keyboard's modifier keys
such as
KEYCODE_SHIFT_LEFT
.
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Gets the number or symbol associated with the key.
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Returns true if the specified key produces a glyph.
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Loads the key character maps for the keyboard with the specified device id.
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Flatten this object in to a Parcel.
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Protected Methods | |||||||||||
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Invoked when the garbage collector has detected that this instance is no longer reachable.
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[Expand]
Inherited Methods
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From class
java.lang.Object
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From interface
android.os.Parcelable
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A keyboard with all the letters, and maybe some numbers.
An alphabetic keyboard supports text entry directly but may have a condensed
layout with a small form factor. In contrast to a
full keyboard
, some
symbols may only be accessible using special on-screen character pickers.
In addition, to improve typing speed and accuracy, the framework provides
special affordances for alphabetic keyboards such as auto-capitalization
and toggled / locked shift and alt keys.
This type of keyboard is generally designed for thumb typing.
This constant was deprecated
in API level 11.
This constant should no longer be used because there is no
guarantee that a device has a built-in keyboard that can be used for
typing text. There might not be a built-in keyboard, the built-in keyboard
might be a
NUMERIC
or
SPECIAL_FUNCTION
keyboard, or there
might be multiple keyboards installed including external keyboards.
When interpreting key presses received from the framework, applications should
use the device id specified in the
KeyEvent
received.
When synthesizing key presses for delivery elsewhere or when translating key presses
from unknown keyboards, applications should use the special
VIRTUAL_KEYBOARD
device id.
The id of the device's primary built in keyboard is always 0.
Mask the return value from
get(int, int)
with this value to get
a printable representation of the accent character of a "dead key."
A full PC-style keyboard.
A full keyboard behaves like a PC keyboard. All symbols are accessed directly by pressing keys on the keyboard without on-screen support or affordances such as auto-capitalization.
This type of keyboard is generally designed for full two hand typing.
This private-use character is used to trigger Unicode character input by hex digits.
Modifier keys may be chorded with character keys.
Modifier keys may be chorded with character keys or they may toggle into latched or locked states when pressed independently.
A numeric (12-key) keyboard.
A numeric keyboard supports text entry using a multi-tap approach. It may be necessary to tap a key multiple times to generate the desired letter or symbol.
This type of keyboard is generally designed for thumb typing.
This private-use character is used to bring up a character picker for miscellaneous symbols.
A keyboard with all the letters, but with more than one letter per key.
This type of keyboard is generally designed for thumb typing.
A keyboard that is only used to control special functions rather than for typing.
A special function keyboard consists only of non-printing keys such as HOME and POWER that are not actually used for typing.
The id of a generic virtual keyboard with a full layout that can be used to
synthesize key events. Typically used with
getEvents(char[])
.
Describe the kinds of special objects contained in this Parcelable's marshalled representation.
Queries the framework about whether any physical keys exist on the any keyboard attached to the device that are capable of producing the given key code.
keyCode | The key code to query. |
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Queries the framework about whether any physical keys exist on the any keyboard attached to the device that are capable of producing the given array of key codes.
keyCodes | The array of key codes to query. |
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Gets the Unicode character generated by the specified key and meta key state combination.
Returns the Unicode character that the specified key would produce
when the specified meta bits (see
MetaKeyKeyListener
)
were active.
Returns 0 if the key is not one that is used to type Unicode characters.
If the return value has bit
COMBINING_ACCENT
set, the
key is a "dead key" that should be combined with another to
actually produce a character -- see
getDeadChar(int, int)
--
after masking with
COMBINING_ACCENT_MASK
.
keyCode | The key code. |
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metaState | The meta key modifier state. |
Get the character that is produced by combining the dead key producing accent with the key producing character c. For example, getDeadChar('`', 'e') returns è. getDeadChar('^', ' ') returns '^' and getDeadChar('^', '^') returns '^'.
accent | The accent character. eg. '`' |
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c | The basic character. |
Gets the primary character for this key. In other words, the label that is physically printed on it.
keyCode | The key code. |
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Get an array of KeyEvent objects that if put into the input stream could plausibly generate the provided sequence of characters. It is not guaranteed that the sequence is the only way to generate these events or that it is optimal.
This function is primarily offered for instrumentation and testing purposes.
It may fail to map characters to key codes. In particular, the key character
map for the
built-in keyboard
device id may be empty.
Consider using the key character map associated with the
virtual keyboard
device id instead.
For robust text entry, do not use this function. Instead construct a
KeyEvent
with action code
ACTION_MULTIPLE
that contains
the desired string using
KeyEvent(long, String, int, int)
.
chars | The sequence of characters to generate. |
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KeyEvent
objects, or null if the given char array
can not be generated using the current key character map.
This method was deprecated
in API level 11.
instead use
getDisplayLabel(int)
,
getNumber(int)
or
get(int, int)
.
Get the character conversion data for a given key code.
keyCode | The keyCode to query. |
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results |
A
KeyCharacterMap.KeyData
instance that will be filled with the results.
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Gets the keyboard type.
Returns
NUMERIC
,
PREDICTIVE
,
ALPHA
,
FULL
or
SPECIAL_FUNCTION
.
Different keyboard types have different semantics. Refer to the documentation associated with the keyboard type constants for details.
Gets the first character in the character array that can be generated by the specified key code.
This is a convenience function that returns the same value as
getMatch(keyCode, chars, 0)
.
keyCode | The keycode. |
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chars | The array of matching characters to consider. |
Gets the first character in the character array that can be generated by the specified key code. If there are multiple choices, prefers the one that would be generated with the specified meta key modifier state.
keyCode | The key code. |
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chars | The array of matching characters to consider. |
metaState | The preferred meta key modifier state. |
Gets a constant that describes the behavior of this keyboard's modifier keys
such as
KEYCODE_SHIFT_LEFT
.
Currently there are two behaviors that may be combined:
This function currently returns
MODIFIER_BEHAVIOR_CHORDED
when the
keyboard type
is
FULL
or
SPECIAL_FUNCTION
and
MODIFIER_BEHAVIOR_CHORDED_OR_TOGGLED
otherwise.
In the future, the function may also take into account global keyboard
accessibility settings, other user preferences, or new device capabilities.
Gets the number or symbol associated with the key.
The character value is returned, not the numeric value. If the key is not a number, but is a symbol, the symbol is retuned.
This method is intended to to support dial pads and other numeric or symbolic entry on keyboards where certain keys serve dual function as alphabetic and symbolic keys. This method returns the number or symbol associated with the key independent of whether the user has pressed the required modifier.
For example, on one particular keyboard the keys on the top QWERTY row generate
numbers when ALT is pressed such that ALT-Q maps to '1'. So for that keyboard
when
getNumber(int)
is called with
KEYCODE_Q
it returns '1'
so that the user can type numbers without pressing ALT when it makes sense.
keyCode | The key code. |
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Returns true if the specified key produces a glyph.
keyCode | The key code. |
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Loads the key character maps for the keyboard with the specified device id.
deviceId | The device id of the keyboard. |
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UnavailableException} if the key character map could not be loaded because it was malformed or the default key character map is missing from the system. |
Flatten this object in to a Parcel.
out | The Parcel in which the object should be written. |
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flags |
Additional flags about how the object should be written.
May be 0 or
PARCELABLE_WRITE_RETURN_VALUE
.
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Invoked when the garbage collector has detected that this instance is no longer reachable. The default implementation does nothing, but this method can be overridden to free resources.
Note that objects that override
finalize
are significantly more expensive than
objects that don't. Finalizers may be run a long time after the object is no longer
reachable, depending on memory pressure, so it's a bad idea to rely on them for cleanup.
Note also that finalizers are run on a single VM-wide finalizer thread,
so doing blocking work in a finalizer is a bad idea. A finalizer is usually only necessary
for a class that has a native peer and needs to call a native method to destroy that peer.
Even then, it's better to provide an explicit
close
method (and implement
Closeable
), and insist that callers manually dispose of instances. This
works well for something like files, but less well for something like a
BigInteger
where typical calling code would have to deal with lots of temporaries. Unfortunately,
code that creates lots of temporaries is the worst kind of code from the point of view of
the single finalizer thread.
If you
must
use finalizers, consider at least providing your own
ReferenceQueue
and having your own thread process that queue.
Unlike constructors, finalizers are not automatically chained. You are responsible for
calling
super.finalize()
yourself.
Uncaught exceptions thrown by finalizers are ignored and do not terminate the finalizer thread. See Effective Java Item 7, "Avoid finalizers" for more.
Throwable |
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