How can I convert, in Java, the ASCII code (which is an integer from [0, 255] range) to its corresponding ASCII character?
For example:
65 -> "A"
102 -> "f"
How can I convert, in Java, the ASCII code (which is an integer from [0, 255] range) to its corresponding ASCII character?
For example:
65 -> "A"
102 -> "f"
Character.toString(char)
, stackoverflow.com/a/6210938/923560 provides additional solutions.
(char)
designation? In other words, why can't I just put Character.toString(i);
? (Java noob)
Oct 9, 2015 at 14:19
Integer
type, you will get a "java.lang.Integer cannot be cast to java.lang.Character" error. Add a cast to int
first, e.g.: Character.toString((char)(int)myInteger);
Jun 7, 2016 at 4:00
i
values (0-255) would be from the ISO-8859-1 character set. (The question asker declined to identify which "extended ASCII" [vague term] was wanted, except by accepting this answer.)
Nov 3, 2017 at 13:30
System.out.println((char)65);
would print "A"
(char) 65
to find out what character it is.
String.valueOf
(
Character.toChars(int)
)
Assuming the integer is, as you say, between 0 and 255, you'll get an array with a single character back from Character.toChars
, which will become a single-character string when passed to String.valueOf
.
Using Character.toChars
is preferable to methods involving a cast from int
to char
(i.e. (char) i
) for a number of reasons, including that Character.toChars
will throw an IllegalArgumentException
if you fail to properly validate the integer while the cast will swallow the error (per the narrowing primitive conversions specification), potentially giving an output other than what you intended.
toChars
.
Oct 8, 2011 at 0:51
Character.toString((char) i)
is faster than String.valueOf(Character.toChars(i))
. Running a quick benchmark of converting 1,000,000 random integers in the given range (100 times, to be safe) on my machine gives an average time of 153.07 nanoseconds vs. 862.39 nanoseconds. However, in any interesting application, there will be far more important things to optimize. The added value of the safe, deterministic handling and ease of expanding outside the [0,255] range should it be required outweighs the minor performance hit.
new String(new char[] { 65 })
You will end up with a string of length one, whose single character has the (ASCII) code 65. In Java chars are numeric data types.
An easier way of doing the same:
Type cast integer to character, let int n
be the integer,
then:
Char c=(char)n;
System.out.print(c)//char c will store the converted value.
One can iterate from a to z like this
int asciiForLowerA = 97;
int asciiForLowerZ = 122;
for(int asciiCode = asciiForLowerA; asciiCode <= asciiForLowerZ; asciiCode++){
search(sCurrentLine, searchKey + Character.toString ((char) asciiCode));
}
for (int i = 0; i < 256; i++) {
System.out.println(i + " -> " + (char) i);
}
char lowercase = 'f';
int offset = (int) 'a' - (int) 'A';
char uppercase = (char) ((int) lowercase - offset);
System.out.println("The uppercase letter is " + uppercase);
String numberString = JOptionPane.showInputDialog(null,
"Enter an ASCII code:",
"ASCII conversion", JOptionPane.QUESTION_MESSAGE);
int code = (int) numberString.charAt(0);
System.out.println("The character for ASCII code "
+ code + " is " + (char) code);
This is an example, which shows that by converting an int to char, one can determine the corresponding character to an ASCII code.
public class sample6
{
public static void main(String... asf)
{
for(int i =0; i<256; i++)
{
System.out.println( i + ". " + (char)i);
}
}
}
upper answer only near solving the Problem. heres your answer:
Integer.decode(Character.toString(char c));