If I have a decimal number, how do I convert it to base 36 in Java?

11A. Base 36 goes all the way from 0 to Z. Imagine it like a hardcore hexadecimal. – Chris Dennett Feb 20 '11 at 23:49

@SOE, it makes no difference how 9 + 1 is <i>graphically/printably represented</i> in base 36. The value that comes after 9 in any base is binary 1001 + 1 = 1010. In hex notation, this value is represented by the printable character 'A', but it could just as well be '%' or '/' even [gulp] the space character. – Pete Wilson Feb 20 '11 at 23:54

2Base 42 would have been somewhat more appropriate... – Thorbjørn Ravn Andersen Feb 21 '11 at 0:03

226 letters + 10 digits = 36 – enb081 Apr 15 '13 at 7:42
Given a number i
, use Integer.toString(i, 36)
.

2Or use the constant
Integer.toString(i, Character.MAX_RADIX)
I don't imagine it will change any time soon. ;) – Peter Lawrey Feb 21 '11 at 11:51 
14but it might change (since its value is not specified), and then the answer would not be base 36, so better stick with plain old Integer.toString(i, 36) – djb Jan 26 '12 at 19:26

Have a look at the java code sample on the base_36 wikiepedia site: en.wikipedia.org/wiki/Base_36 – edbras Aug 22 '14 at 23:33
See the documentation for Integer.toString
http://docs.oracle.com/javase/7/docs/api/java/lang/Integer.html#toString(int,%20int)
toString
public static String toString(int i, int radix)
....
The following ASCII characters are used as digits:
0123456789abcdefghijklmnopqrstuvwxyz
What is radix
? You're in luck for Base 36 (and it makes sense)
http://docs.oracle.com/javase/7/docs/api/java/lang/Character.html#MAX_RADIX
public static final int MAX_RADIX 36
The following can work for any base, not just 36. Simply replace the String contents of code
.
Encode:
int num = 586403532;
String code = "0123456789abcdefghijklmnopqrstuvwxyz";
String text = "";
j = (int)Math.ceil(Math.log(num)/Math.log(code.length()));
for(int i = 0; i < j; i++){
//i goes to log base code.length() of num (using change of base formula)
text += code.charAt(num%code.length());
num /= code.length();
}
Decode:
String text = "0vn4p9";
String code = "0123456789abcdefghijklmnopqrstuvwxyz";
int num = 0;
j = text.length
for(int i = 0; i < j; i++){
num += code.indexOf(text.charAt(0))*Math.pow(code.length(), i);
text = text.substring(1);
}

4

1I am sorry but the encoding part is just plain wrong:log(0) is undefined an will fail. log(1) yields 0 and will skip the loop entirely. Every num = code.length^x (e.g 36^1, 36^2, 36^n) will result in "0" – Oli Oct 14 '15 at 14:00

First you have to convert your number it into the internal number format of Java (which happens to be 2based, but this does not really matter here), for example by Integer.parseInt()
(if your number is an integer less than 2^31). Then you can convert it from int
to the desired output format. The method Integer.toString(i, 36)
does this by using 0123456789abcdefghijklmnopqrstuvwxyz
as digits (the decimal digits 09 and lower case english letters in alphabetic order). If you want some other digits, you can either convert the result by replacing the "digits" (for example toUpperCase
), or do the conversion yourself  it is no magic, simply a loop of taking the remainder modulo 36 and dividing by 36 (with a lookup of the right digit).
If your number is longer than what int offers you may want to use long
(with Long
) or BigInteger
instead, they have similar radixconverters.
If your number has "digits after the point", it is a bit more difficult, as most (finite) baseXnumbers are not exactly representable as (finite) baseYnumbers if (a power of) Y is not a multiple of X.
This code works:
public class Convert {
public static void main(String[] args) {
int num= 2147483647;
String text="ABCD1";
System.out.println("num: " + num + "=>" + base10ToBase36(num));
System.out.println("text: " +text + "=>" + base36ToBase10(text));
}
private static String codeBase36 = "0123456789abcdefghijklmnopqrstuvwxyz";
//"0123456789 abcdefghij klmnopqrst uvwxyz"
//"0123456789 0123456789 0123456789 012345"
private static String max36=base10ToBase36(Integer.MAX_VALUE);
public static String base10ToBase36(int inNum) {
if(inNum<0) {
throw new NumberFormatException("Value "+inNum +" to small");
}
int num = inNum;
String text = "";
int j = (int)Math.ceil(Math.log(num)/Math.log(codeBase36.length()));
for(int i = 0; i < j; i++){
text = codeBase36.charAt(num%codeBase36.length())+text;
num /= codeBase36.length();
}
return text;
}
public static int base36ToBase10(String in) {
String text = in.toLowerCase();
if(text.compareToIgnoreCase(max36)>0) {
throw new NumberFormatException("Value "+text+" to big");
}
if(!text.replaceAll("(\\W)","").equalsIgnoreCase(text)){
throw new NumberFormatException("Value "+text+" false format");
}
int num=0;
int j = text.length();
for(int i = 0; i < j; i++){
num += codeBase36.indexOf(text.charAt(text.length()1))*Math.pow(codeBase36.length(), i);
text = text.substring(0,text.length()1);
}
return num;
}
}
If you dont want to use Integer.toString(Num , base) , for instance, in my case which I needed a 64 bit long variable, you can use the following code: Using Lists in JAVA facilitates this conversion
long toBeConverted=10000; // example, Initialized by 10000
List<Character> charArray = new ArrayList<Character>();
List<Character> charArrayFinal = new ArrayList<Character>();
int length=10; //Length of the output string
long base = 36;
while(toBeConverted!=0)
{
long rem = toBeConverted%base;
long quotient = toBeConverted/base;
if(rem<10)
rem+=48;
else
rem+=55;
charArray.add((char)rem);
toBeConverted=quotient;
}
// make the array in the reverse order
for(int i=length1;i>=0;i){
if(i>=charArray.size()){
charArrayFinal.add((char) 48); // sends 0 to fix the length of the output List
} else {
charArrayFinal.add(charArray.get(i));
}
}
Example:
(278197)_{36}=5YNP
Here is a method to convert base 10 to any given base.
public char[] base10Converter(int number, int finalBase) {
int quo;
int rem;
char[] res = new char[1];
do {
rem = number % finalBase;
quo = number / finalBase;
res = Arrays.copyOf(res, res.length + 1);
if (rem < 10) {
//Converting ints using ASCII values
rem += 48;
res[res.length  1] = (char) rem;
} else {
//Convert int > 9 to A, B, C..
rem += 55;
res[res.length  1] = (char) rem;
}
number /= finalBase;
} while (quo != 0);
//Reverse array
char[] temp = new char[res.length];
for (int i = res.length  1, j = 0; i > 0; i) {
temp[j++] = res[i];
}
return temp;
}
This can be helpful to you.The operation being performed on the 4 digit alphanumeric String and decimal number below 1679615. You can Modify code accordingly.
char[] alpaNum = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ".toCharArray();
String currentSeries = "";
int num = 481261;
String result = "";
String baseConversionStr = "";
boolean flag = true;
do
{
baseConversionStr = Integer.toString(num % 36) + baseConversionStr;
String position = "";
if(flag)
{
flag = false;
position = baseConversionStr;
}
else
{
position = Integer.toString(num % 36);
}
result += alpaNum[new Integer(position)];
num = num/36;
}
while (num > 0);
StringBuffer articleNo = new StringBuffer(result).reverse();
String finalString = "";
if(articleNo.length()==1)
{
finalString = "000"+articleNo;
}
else if(articleNo.length()==2)
{
finalString = "00"+articleNo;
}
else if(articleNo.length()==3)
{
finalString = "0"+articleNo;
}
currentSeries = finalString;
I got this code from this website in JavaScript, and this is my version in java:
public static String customBase (int N, String base) {
int radix = base.length();
String returns = "";
int Q = (int) Math.floor(Math.abs(N));
int R = 0;
while (Q != 0) {
R = Q % radix;
returns = base.charAt(R) + returns;
Q /= radix;
}
if(N == 0) {
return String.valueOf(base.toCharArray()[0]);
}
return N < 0 ? "" + returns : returns;
}
This supports negative numbers and custom bases.
Decimal Addon:
public static String customBase (double N, String base) {
String num = (String.valueOf(N));
String[] split = num.split("\\.");
if(split[0] == ""  split[1] == "") {
return "";
}
return customBase(Integer.parseInt(split[0]), base)+ "." + customBase(Integer.parseInt(split[1]), base);
}

(QR)/radix
is the same asQ/radix
in integer division, given thatR = Q % radix
. – user207421 Jul 19 '17 at 3:20 
Good point, because java truncates integers just like
Math.floor
. changing answer. :) – nathanthesnooper Jul 19 '17 at 3:23
Maybe I'm late to the party, but this is the solution I was using for getting Calc/Excel cell names by their index:
public static void main(final String[] args) {
final String base = "ABCDEFGHIJKLMNOPQRSTUVWXYZ";
System.out.println(toCustomBase(0, base));
System.out.println(toCustomBase(2, base));
System.out.println(toCustomBase(25, base));
System.out.println(toCustomBase(26, base));
System.out.println(toCustomBase(51, base));
System.out.println(toCustomBase(52, base));
System.out.println(toCustomBase(520, base));
}
public static String toCustomBase(final int num, final String base) {
final int baseSize = base.length();
if(num < baseSize) {
return String.valueOf(base.charAt(num));
}
else {
return toCustomBase(num / baseSize  1, base) + base.charAt(num % baseSize);
}
}
Results:
A
C
Z
AA
AZ
BA
TA
Basically the solution accepts any custom radix. The idea was commandeered from here.