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Just wondering why do we have 'char' type of size=2Bytes in c#(.net) unlike 1Byte in other programming languages?

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up vote 20 down vote accepted

A char is unicode in C#, therefore the number of possible characters exceeds 255. So you'll need two bytes.

Extended ASCII for example has a 255-char set, and can therefore be stored in one single byte. That's also the whole purpose of the System.Encoding namespace, as different systems can have different charsets, and char sizes. C# can therefore handle one/four/etc. char bytes, but Unicode UTF-16 is default.

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With Unicode being a 21-bit code it's a bit of a stretch to say that that's why you need two bytes. – Joey Mar 9 '13 at 13:20
The charactors are represented using UTF-16, which means each charactor uses at least 16 bits or 2 bytes (even ASCII charactors which only require 7 bits). If the unicode value is larger enough, a single charactor that would print to the screen will actually require two chars. – Cemafor Jul 19 '13 at 13:21
The first sentence in this answer ignores the existence of variable width characters. – kervin Mar 21 '15 at 0:11

I'm guessing with “other programming languages” you mean C. C has actually two different char types: char and wchar_t. char may be one byte long, wchar_t not necessarily.

In C# (and .NET) for that matter, all character strings are encoded as Unicode in UTF-16. That's why a char in .NET represents a single UTF-16 code unit which may be a code point or half of a surrogate pair (not actually a character, then).

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Actually C#, or more accurately the CLR's, size of char is consistent with most other managed languages. Managed languages, like Java, tend to be newer and have items like unicode support built in from the ground up. The natural extension of supporting unicode strings is to have unicode char's.

Older languages like C/C++ started in ASCII only and only later added unicode support.

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Because a character in a C# string defaults to the UTF-16 encoding of Unicode, which is 2 bytes (by default).

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Because strings in .NET are encoded as 2 byte Unicode charactes.

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(a) Strings are sequences of characters. (b) There are no 2-byte Unicode characters. You may be looking for the terms code unit and code point. And with the latter, there are still no 16 bit, only 21. – Joey Jan 25 '10 at 17:09
UTF-8/16/32 != Unicode – Lucas Jan 25 '10 at 18:34
So what is the relation between a C# character and Unicode code point? – JohnM2 Jan 27 '10 at 23:28
A C# character is a UTF-16 code unit which may describe one Unicode code point or is half of a surrogate pair. – Joey Aug 8 '11 at 22:46

C# using 16 bit character width probably has more to do with performance rather than anything else.

Firstly if you use UTF-8 you can fit every character in the "right" amount of space. This is because UTF-8 is variable width. ASCII chars will use 8 bits while larger characters will use more.

But variable length character encoding encourages a O(n) algorithm complexity in common scenarios. E.g. Retrieving a character at a particular location in a string. There have been public discussions on this point. But the simplest solution is to continue using a character width that fits most of your charset, truncating the others. Now you have a fixed character width.

Strictly speaking, UTF-16 is also a variable width encoding, so C# ( and Java for that matter ) are using something of a hybrid since their character widths are never 32 bits.

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I would vote this up for the first, second, and final paragraphs; but I would vote it down for the third paragraph. It's still better than the other answers including the top/accepted answer though. P.S. you have a typo: "Now it you have a fixed character width". – hippietrail Apr 24 '15 at 4:16
@hippietrail I'm curious, what about the 3rd paragraph do you believe is incorrect. Can you get a character at a specific location in a variable-width char string using better than O(n)? – kervin Apr 24 '15 at 21:39
Because it argues that the reason was to have fixed length encoding in common scenarios. The legitimate scenarios for treating text as fixed length are few. There common ones are only toy, ignorant, and short-sighted ones that inevitably lead to bugs. Not only did the C# developers know this but C# development was only initiated three years after Unicode moved beyond 16-bit and Microsoft was a key member of the Unicode consortium all along. Now these were surely factors in the decision for UCS-2 for Java and Windows NT but for C# the reasons can only have been legacy and momentum. – hippietrail Apr 25 '15 at 0:40
@hippietrail I'm not sure requiring a O(n) charAt() and other functions can be considered 'toy' or 'short-sighted'. At any rate, this is reason I got from compiler writers themselves ( not c# though ), but the same algorithmic limitations would apply. – kervin Apr 25 '15 at 0:49
Well Eric is as authoritative as they get, so great find. The BSTR part basically adds the length in the front of the array. You are correct some functions treat C# strings as UTF-16 but as Eric eludes to they will break in rare situations. Eric frames it as historical, but I am sure if there was a better space to performance trade-off somewhere today other than fixed-width 16 bit, then he and the Java team would have taken it. – kervin Apr 25 '15 at 15:47

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