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We know that java character is 2 byte Unicode character. Assuming you are using UTF-8 character encoding, size of Unicode character can be more than 2 byte depending upon which character you are using.

My question is then how does java handles these types of characters which take more than 2 bytes. Do java allots more than 2 bytes to character in this case or it does some thing else?

Please explain.

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closed as off-topic by chrylis, Kevin Panko, LaurentG, SpringLearner, Marius Dec 4 '13 at 7:25

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possible duplicate of How does Java store UTF-16 characters in its 16-bit char type? –  Kevin Panko Dec 4 '13 at 5:50

2 Answers 2

up vote 1 down vote accepted

A Java String uses UTF-16 as an internal encoding. So, characters outside the BMP are stored as two Java char, which require 4 bytes of storage. There is an API for accessing a String as a sequence of Unicode code points which handles encoding and decoding these "surrogate pairs" transparently.

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The source code for String is publicly available. It uses, among other things, the Character.toSurrogates(int, char[], int) method which is implemented as such

static void toSurrogates(int codePoint, char[] dst, int index) {
    // We write elements "backwards" to guarantee all-or-nothing
    dst[index+1] = lowSurrogate(codePoint);
    dst[index] = highSurrogate(codePoint);

A String has a backing char[]. When it needs to store a character that doesn't fit in 2 bytes, it stores it in two chars (4 bytes). Now obviously, this is called appropriately, ie. the String method knows which index it's storing the codepoint into and increments it so that the next character is 2 positions away.

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