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java.lang.Object javax.microedition.lcdui.Item javax.microedition.lcdui.TextField
A TextField
is an editable text component that may be
placed into
a Form
. It can be
given a piece of text that is used as the initial value.
A TextField
has a maximum size, which is the
maximum number of characters
that can be stored in the object at any time (its capacity). This limit is
enforced when the TextField
instance is constructed,
when the user is editing text within the TextField
, as well as
when the application program calls methods on the
TextField
that modify its
contents. The maximum size is the maximum stored capacity and is unrelated
to the number of characters that may be displayed at any given time.
The number of characters displayed and their arrangement into rows and
columns are determined by the device.
The implementation may place a boundary on the maximum size, and the
maximum size actually assigned may be smaller than the application had
requested. The value actually assigned will be reflected in the value
returned by getMaxSize()
. A defensively-written
application should compare this value to the maximum size requested and be
prepared to handle cases where they differ.
The TextField
shares the concept of input
constraints with the TextBox
class. The different
constraints allow the application to request that the user's input be
restricted in a variety of ways. The implementation is required to
restrict the user's input as requested by the application. For example, if
the application requests the NUMERIC
constraint on a
TextField
, the
implementation must allow only numeric characters to be entered.
The actual contents of the text object are set and modified by
and are
reported to the application through the TextBox
and
TextField
APIs. The displayed contents may differ
from the actual contents if the implementation has chosen to provide
special formatting suitable for the text object's constraint setting.
For example, a PHONENUMBER
field might be displayed with
digit separators and punctuation as
appropriate for the phone number conventions in use, grouping the digits
into country code, area code, prefix, etc. Any spaces or punctuation
provided are not considered part of the text object's actual contents. For
example, a text object with the PHONENUMBER
constraint might display as
follows:
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but the actual contents of the object visible to the application
through the APIs would be the string
"4085551212
".
The size
method reflects the number of characters in the
actual contents, not the number of characters that are displayed, so for
this example the size
method would return 10
.
Some constraints, such as DECIMAL
, require the
implementation to perform syntactic validation of the contents of the text
object. The syntax checking is performed on the actual contents of the
text object, which may differ from the displayed contents as described
above. Syntax checking is performed on the initial contents passed to the
constructors, and it is also enforced for all method calls that affect the
contents of the text object. The methods and constructors throw
IllegalArgumentException
if they would result in the contents
of the text object not conforming to the required syntax.
The value passed to the setConstraints()
method
consists of a restrictive constraint setting described above, as well as a
variety of flag bits that modify the behavior of text entry and display.
The value of the restrictive constraint setting is in the low order
16
bits
of the value, and it may be extracted by combining the constraint value
with the CONSTRAINT_MASK
constant using the bit-wise
AND
(&
) operator.
The restrictive constraint settings are as follows:
ANY
EMAILADDR
NUMERIC
PHONENUMBER
URL
DECIMAL
The modifier flags reside in the high order 16
bits
of the constraint
value, that is, those in the complement of the
CONSTRAINT_MASK
constant.
The modifier flags may be tested individually by combining the constraint
value with a modifier flag using the bit-wise AND
(&
) operator. The
modifier flags are as follows:
PASSWORD
UNEDITABLE
SENSITIVE
NON_PREDICTIVE
INITIAL_CAPS_WORD
INITIAL_CAPS_SENTENCE
The TextField
shares the concept of input
modes with the TextBox
class. The application can request that the
implementation use a particular input mode when the user initiates editing
of a TextField
or TextBox
. The input
mode is a concept that exists within
the user interface for text entry on a particular device. The application
does not request an input mode directly, since the user interface for text
entry is not standardized across devices. Instead, the application can
request that the entry of certain characters be made convenient. It can do
this by passing the name of a Unicode character subset to the setInitialInputMode()
method. Calling this method
requests that the implementation set the mode of the text entry user
interface so that it is convenient for the user to enter characters in this
subset. The application can also request that the input mode have certain
behavioral characteristics by setting modifier flags in the constraints
value.
The requested input mode should be used whenever the user initiates the
editing of a TextBox
or TextField
object.
If the user had changed input
modes in a previous editing session, the application's requested input mode
should take precedence over the previous input mode set by the user.
However, the input mode is not restrictive, and the user is allowed to
change the input mode at any time during editing. If editing is already in
progress, calls to the setInitialInputMode
method do not
affect the current input mode, but instead take effect at the next time the
user initiates editing of this text object.
The initial input mode is a hint to the implementation. If the implementation cannot provide an input mode that satisfies the application's request, it should use a default input mode.
The input mode that results from the application's request is not a restriction on the set of characters the user is allowed to enter. The user MUST be allowed to switch input modes to enter any character that is allowed within the current constraint setting. The constraint setting takes precedence over an input mode request, and the implementation may refuse to supply a particular input mode if it is inconsistent with the current constraint setting.
For example, if the current constraint is ANY
, the call
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should set the initial input mode to allow entry of uppercase Latin
characters. This does not restrict input to these characters, and the user
will be able to enter other characters by switching the input mode to allow
entry of numerals or lowercase Latin letters. However, if the current
constraint is NUMERIC
, the implementation may ignore
the request to set an
initial input mode allowing MIDP_UPPERCASE_LATIN
characters because these
characters are not allowed in a TextField
whose
constraint is NUMERIC
. In
this case, the implementation may instead use an input mode that allows
entry of numerals, since such an input mode is most appropriate for entry
of data under the NUMERIC
constraint.
A string is used to name the Unicode character subset passed as a
parameter to the
setInitialInputMode()
method.
String comparison is case sensitive.
Unicode character blocks can be named by adding the prefix
"UCB
_" to the
the string names of fields representing Unicode character blocks as defined
in the J2SE class java.lang.Character.UnicodeBlock
. Any
Unicode character block may be named in this fashion. For convenience, the
most common Unicode character blocks are listed below.
UCB_BASIC_LATIN
UCB_GREEK
UCB_CYRILLIC
UCB_ARMENIAN
UCB_HEBREW
UCB_ARABIC
UCB_DEVANAGARI
UCB_BENGALI
UCB_THAI
UCB_HIRAGANA
UCB_KATAKANA
UCB_HANGUL_SYLLABLES
"Input subsets" as defined by the J2SE class
java.awt.im.InputSubset
may be named by adding the prefix
"IS_
" to the string names of fields
representing input subsets as defined
in that class. Any defined input subset may be used. For convenience, the
names of the currently defined input subsets are listed below.
IS_FULLWIDTH_DIGITS
IS_FULLWIDTH_LATIN
IS_HALFWIDTH_KATAKANA
IS_HANJA
IS_KANJI
IS_LATIN
IS_LATIN_DIGITS
IS_SIMPLIFIED_HANZI
IS_TRADITIONAL_HANZI
MIDP has also defined the following character subsets:
MIDP_UPPERCASE_LATIN
- the subset ofIS_LATIN
that corresponds to uppercase Latin letters
MIDP_LOWERCASE_LATIN
- the subset ofIS_LATIN
that corresponds to lowercase Latin letters
Finally, implementation-specific character subsets may be named with
strings that have a prefix of "X_
". In
order to avoid namespace conflicts,
it is recommended that implementation-specific names include the name of
the defining company or organization after the initial
"X_
" prefix.
For example, a Japanese language application might have a particular
TextField
that the application intends to be used
primarily for input of
words that are "loaned" from languages other than Japanese. The
application might request an input mode facilitating Hiragana input by
issuing the following method call:
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Implementations need not compile in all the strings listed above. Instead, they need only to compile in the strings that name Unicode character subsets that they support. If the subset name passed by the application does not match a known subset name, the request should simply be ignored without error, and a default input mode should be used. This lets implementations support this feature reasonably inexpensively. However, it has the consequence that the application cannot tell whether its request has been accepted, nor whether the Unicode character subset it has requested is actually a valid subset.
Field Summary | |
static int |
ANY
The user is allowed to enter any text. |
static int |
CONSTRAINT_MASK
The mask value for determining the constraint mode. |
static int |
DECIMAL
The user is allowed to enter numeric values with optional decimal fractions, for example "-123", "0.123", or ".5". |
static int |
EMAILADDR
The user is allowed to enter an e-mail address. |
static int |
INITIAL_CAPS_SENTENCE
This flag is a hint to the implementation that during text editing, the initial letter of each sentence should be capitalized. |
static int |
INITIAL_CAPS_WORD
This flag is a hint to the implementation that during text editing, the initial letter of each word should be capitalized. |
static int |
NON_PREDICTIVE
Indicates that the text entered does not consist of words that are likely to be found in dictionaries typically used by predictive input schemes. |
static int |
NUMERIC
The user is allowed to enter only an integer value. |
static int |
PASSWORD
Indicates that the text entered is confidential data that should be obscured whenever possible. |
static int |
PHONENUMBER
The user is allowed to enter a phone number. |
static int |
SENSITIVE
Indicates that the text entered is sensitive data that the implementation must never store into a dictionary or table for use in predictive, auto-completing, or other accelerated input schemes. |
static int |
UNEDITABLE
Indicates that editing is currently disallowed. |
static int |
URL
The user is allowed to enter a URL. |
Fields inherited from class javax.microedition.lcdui.Item |
BUTTON, HYPERLINK, LAYOUT_2, LAYOUT_BOTTOM, LAYOUT_CENTER, LAYOUT_DEFAULT, LAYOUT_EXPAND, LAYOUT_LEFT, LAYOUT_NEWLINE_AFTER, LAYOUT_NEWLINE_BEFORE, LAYOUT_RIGHT, LAYOUT_SHRINK, LAYOUT_TOP, LAYOUT_VCENTER, LAYOUT_VEXPAND, LAYOUT_VSHRINK, PLAIN |
Constructor Summary | |
TextField(String label,
String text,
int maxSize,
int constraints)
Creates a new TextField object with the given label, initial
contents, maximum size in characters, and constraints. |
Method Summary | |
void |
delete(int offset,
int length)
Deletes characters from the TextField . |
int |
getCaretPosition()
Gets the current input position. |
int |
getChars(char[] data)
Copies the contents of the TextField into a
character array starting at
index zero. |
int |
getConstraints()
Gets the current input constraints of the TextField . |
int |
getMaxSize()
Returns the maximum size (number of characters) that can be stored in this TextField . |
String |
getString()
Gets the contents of the TextField as a string value. |
void |
insert(char[] data,
int offset,
int length,
int position)
Inserts a subrange of an array of characters into the contents of the TextField . |
void |
insert(String src,
int position)
Inserts a string into the contents of the TextField . |
void |
setChars(char[] data,
int offset,
int length)
Sets the contents of the TextField from a
character array, replacing the
previous contents. |
void |
setConstraints(int constraints)
Sets the input constraints of the TextField . |
void |
setInitialInputMode(String characterSubset)
Sets a hint to the implementation as to the input mode that should be used when the user initiates editing of this TextField . |
int |
setMaxSize(int maxSize)
Sets the maximum size (number of characters) that can be contained in this TextField . |
void |
setString(String text)
Sets the contents of the TextField as a string
value, replacing the
previous contents. |
int |
size()
Gets the number of characters that are currently stored in this TextField . |
Methods inherited from class javax.microedition.lcdui.Item |
addCommand, getLabel, getLayout, getMinimumHeight, getMinimumWidth, getPreferredHeight, getPreferredWidth, notifyStateChanged, removeCommand, setDefaultCommand, setItemCommandListener, setLabel, setLayout, setPreferredSize |
Methods inherited from class java.lang.Object |
equals, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait |
Field Detail |
public static final int ANY
Constant 0
is assigned to ANY
.
public static final int EMAILADDR
Constant 1
is assigned to EMAILADDR
.
public static final int NUMERIC
Integer.parseInt(String)
.
The minus sign consumes space in the text object. It is thus
impossible to enter negative numbers into a text object whose maximum
size is 1
.
Constant 2
is assigned to NUMERIC
.
public static final int PHONENUMBER
The exact set of characters allowed is specific to the device and to the device's network and may include non-numeric characters, such as a "+" prefix character.
Some platforms may provide the capability to initiate voice calls
using the MIDlet.platformRequest
method.
Constant 3
is assigned to PHONENUMBER
.
public static final int URL
Constant 4
is assigned to URL
.
public static final int DECIMAL
The implementation may display a period "." or a comma "," for the decimal fraction separator, depending on the conventions in use on the device. Similarly, the implementation may display other device-specific characters as part of a decimal string, such as spaces or commas for digit separators. However, the only characters allowed in the actual contents of the text object are period ".", minus sign "-", and the decimal digits.
The actual contents of a DECIMAL
text object may be
empty. If the actual contents are not empty, they must conform to a
subset of the syntax for a FloatingPointLiteral
as defined
by the Java Language Specification, section 3.10.2. This
subset syntax is defined as follows: the actual contents
must consist of an optional minus sign
"-", followed by one or more whole-number decimal digits,
followed by an optional fraction separator, followed by zero or more
decimal fraction digits. The whole-number decimal digits may be
omitted if the fraction separator and one or more decimal fraction
digits are present.
The syntax defined above is also enforced whenever the application attempts to set or modify the contents of the text object by calling a constructor or a method.
Parsing this string value into a numeric value suitable for
computation is the responsibility of the application. If the contents
are not empty, the result can be parsed successfully by
Double.valueOf
and related methods if they are present
in the runtime environment.
The sign and the fraction separator consume space in the text object. Applications should account for this when assigning a maximum size for the text object.
Constant 5
is assigned to DECIMAL
.
public static final int PASSWORD
*
" character. The
PASSWORD
modifier is useful for entering
confidential information
such as passwords or personal identification numbers (PINs).
Data entered into a PASSWORD
field is treated
similarly to SENSITIVE
in that the implementation must never store the contents into a
dictionary or table for use in predictive, auto-completing, or other
accelerated input schemes. If the PASSWORD
bit is
set in a constraint
value, the SENSITIVE
and
NON_PREDICTIVE
bits are also considered to be
set, regardless of their actual values. In addition, the
INITIAL_CAPS_WORD
and
INITIAL_CAPS_SENTENCE
flag bits should be ignored
even if they are set.
The PASSWORD
modifier can be combined with
other input constraints
by using the bit-wise OR
operator (|
).
The PASSWORD
modifier is not
useful with some constraint values such as
EMAILADDR
, PHONENUMBER
,
and URL
. These combinations are legal, however,
and no exception is
thrown if such a constraint is specified.
Constant 0x10000
is assigned to
PASSWORD
.
public static final int UNEDITABLE
The UNEDITABLE
modifier can be combined with
other input constraints
by using the bit-wise OR
operator (|
).
Constant 0x20000
is assigned to UNEDITABLE
.
public static final int SENSITIVE
The SENSITIVE
modifier can be combined with other input
constraints by using the bit-wise OR
operator
(|
).
Constant 0x40000
is assigned to
SENSITIVE
.
public static final int NON_PREDICTIVE
The NON_PREDICTIVE
modifier can be combined
with other input
constraints by using the bit-wise OR
operator
(|
).
Constant 0x80000
is assigned to
NON_PREDICTIVE
.
public static final int INITIAL_CAPS_WORD
If the application specifies both the
INITIAL_CAPS_WORD
and the
INITIAL_CAPS_SENTENCE
flags,
INITIAL_CAPS_WORD
behavior should be used.
The INITIAL_CAPS_WORD
modifier can be combined
with other input
constraints by using the bit-wise OR
operator
(|
).
Constant 0x100000
is assigned to
INITIAL_CAPS_WORD
.
public static final int INITIAL_CAPS_SENTENCE
If the application specifies both the
INITIAL_CAPS_WORD
and the
INITIAL_CAPS_SENTENCE
flags,
INITIAL_CAPS_WORD
behavior should be used.
The INITIAL_CAPS_SENTENCE
modifier can be
combined with other input
constraints by using the bit-wise OR
operator
(|
).
Constant 0x200000
is assigned to
INITIAL_CAPS_SENTENCE
.
public static final int CONSTRAINT_MASK
AND
operation with a value returned by
getConstraints()
and
CONSTRAINT_MASK
in order to retrieve the current
constraint mode,
in order to remove any modifier flags such as the
PASSWORD
flag.
Constant 0xFFFF
is assigned to
CONSTRAINT_MASK
.
Constructor Detail |
public TextField(String label, String text, int maxSize, int constraints)
TextField
object with the given label, initial
contents, maximum size in characters, and constraints.
If the text parameter is null
, the
TextField
is created empty.
The maxSize
parameter must be greater than zero.
An IllegalArgumentException
is thrown if the
length of the initial contents string exceeds maxSize
.
However,
the implementation may assign a maximum size smaller than the
application had requested. If this occurs, and if the length of the
contents exceeds the newly assigned maximum size, the contents are
truncated from the end in order to fit, and no exception is thrown.
label
- item labeltext
- the initial contents, or null
if the
TextField
is to be emptymaxSize
- the maximum capacity in charactersconstraints
- see input constraints
IllegalArgumentException
- if maxSize
is zero or less
IllegalArgumentException
- if the value of the constraints
parameter
is invalid
IllegalArgumentException
- if text
is illegal
for the specified constraints
IllegalArgumentException
- if the length of the string exceeds
the requested maximum capacityMethod Detail |
public String getString()
TextField
as a string value.
setString(java.lang.String)
public void setString(String text)
TextField
as a string
value, replacing the
previous contents.
text
- the new value of the TextField
, or
null
if the TextField is to be made empty
IllegalArgumentException
- if text
is illegal for the current
input constraints
IllegalArgumentException
- if the text would exceed the current
maximum capacitygetString()
public int getChars(char[] data)
TextField
into a
character array starting at
index zero. Array elements beyond the characters copied are left
unchanged.
data
- the character array to receive the value
ArrayIndexOutOfBoundsException
- if the array is too short for the
contents
NullPointerException
- if data
is null
setChars(char[], int, int)
public void setChars(char[] data, int offset, int length)
TextField
from a
character array, replacing the
previous contents. Characters are copied from the region of the
data
array
starting at array index offset
and running for
length
characters.
If the data array is null
, the TextField
is set to be empty and the other parameters are ignored.
The offset
and length
parameters must
specify a valid range of characters within
the character array data
.
The offset
parameter must be within the
range [0..(data.length)]
, inclusive.
The length
parameter
must be a non-negative integer such that
(offset + length) <= data.length
.
data
- the source of the character dataoffset
- the beginning of the region of characters to copylength
- the number of characters to copy
ArrayIndexOutOfBoundsException
- if offset
and length
do not specify
a valid range within the data array
IllegalArgumentException
- if data
is illegal for the current
input constraints
IllegalArgumentException
- if the text would exceed the current
maximum capacitygetChars(char[])
public void insert(String src, int position)
TextField
. The string is
inserted just prior to the character indicated by the
position
parameter, where zero specifies the first
character of the contents of the TextField
. If
position
is
less than or equal to zero, the insertion occurs at the beginning of
the contents, thus effecting a prepend operation. If
position
is greater than or equal to the current size of
the contents, the insertion occurs immediately after the end of the
contents, thus effecting an append operation. For example,
text.insert(s, text.size())
always appends the string
s
to the current contents.
The current size of the contents is increased by the number of inserted characters. The resulting string must fit within the current maximum capacity.
If the application needs to simulate typing of characters it can
determining the location of the current insertion point
("caret")
using the with getCaretPosition()
method.
For example,
text.insert(s, text.getCaretPosition())
inserts the string
s
at the current caret position.
src
- the String
to be insertedposition
- the position at which insertion is to occur
IllegalArgumentException
- if the resulting contents
would be illegal for the current
input constraints
IllegalArgumentException
- if the insertion would exceed
the current
maximum capacity
NullPointerException
- if src
is null
public void insert(char[] data, int offset, int length, int position)
TextField
. The offset
and
length
parameters indicate the subrange
of the data array to be used for insertion. Behavior is otherwise
identical to insert(String, int)
.
The offset
and length
parameters must
specify a valid range of characters within
the character array data
.
The offset
parameter must be within the
range [0..(data.length)]
, inclusive.
The length
parameter
must be a non-negative integer such that
(offset + length) <= data.length
.
data
- the source of the character dataoffset
- the beginning of the region of characters to copylength
- the number of characters to copyposition
- the position at which insertion is to occur
ArrayIndexOutOfBoundsException
- if offset
and length
do not specify
a valid range within the data
array
IllegalArgumentException
- if the resulting contents
would be illegal for the current
input constraints
IllegalArgumentException
- if the insertion would exceed
the current
maximum capacity
NullPointerException
- if data
is null
public void delete(int offset, int length)
TextField
.
The offset
and length
parameters must
specify a valid range of characters within
the contents of the TextField
.
The offset
parameter must be within the
range [0..(size())]
, inclusive.
The length
parameter
must be a non-negative integer such that
(offset + length) <= size()
.
offset
- the beginning of the region to be deletedlength
- the number of characters to be deleted
IllegalArgumentException
- if the resulting contents
would be illegal for the current
input constraints
StringIndexOutOfBoundsException
- if offset
and length
do not
specify a valid range within the contents of the TextField
public int getMaxSize()
TextField
.
setMaxSize(int)
public int setMaxSize(int maxSize)
TextField
. If the current contents of the
TextField
are larger than
maxSize
, the contents are truncated to fit.
maxSize
- the new maximum size
IllegalArgumentException
- if maxSize
is zero or less.
IllegalArgumentException
- if the contents
after truncation would be illegal for the current
input constraintsgetMaxSize()
public int size()
TextField
.
TextField
public int getCaretPosition()
0
if at the beginningpublic void setConstraints(int constraints)
TextField
. If
the the current contents
of the TextField
do not match the new
constraints
, the contents are
set to empty.
constraints
- see input constraints
IllegalArgumentException
- if constraints is not any of the ones
specified in input constraintsgetConstraints()
public int getConstraints()
TextField
.
setConstraints(int)
public void setInitialInputMode(String characterSubset)
TextField
. The
characterSubset
parameter names a subset of Unicode
characters that is used by the implementation to choose an initial
input mode. If null
is passed, the implementation should
choose a default input mode.
See Input Modes for a full explanation of input modes.
characterSubset
- a string naming a Unicode character subset,
or null
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