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I have read a question about UTF-8, UTF-16 and UCS-2 and almost all answers give the statement that UCS-2 is obsolete and C# uses UTF-16.

However, all my attempts to create the 4-byte character U+1D11E in C# failed, so I actually think C# uses the UCS-2 subset of UTF-16 only.

There are my tries:

string s = "\u1D11E"; // gives the 2 character string "ᴑE", because \u1D11 is ᴑ
string s = (char) 0x1D11E; // won't compile because of an overflow
string s = Encoding.Unicode.GetString(new byte[] {0xD8, 0x34, 0xDD, 0x1E}); // gives 㓘ờ

Are C# strings really UTF-16 or are they actually UCS-2? If they are UTF-16, how would I get the violin clef into my C# string?

share|improve this question
The simplest thing is to just include the character in the source code, that is string s = "𝄞";. I suggest you save your .cs file with UTF-8 encoding. This character in the Supplementary Multilingual Plane will take up four octets in UTF-8. When held in memory it will take up two UTF-16 code units, or char values, a so-called surrogate pair. – Jeppe Stig Nielsen Jan 2 '14 at 0:10
Yes, I read about that on Wikipedia and that's why I tried the Encoding.GetString() method. – Thomas Weller Jan 2 '14 at 0:11
up vote 11 down vote accepted

Use capital U instead:

  string s = "\U0001D11E";

And you overlooked that most machines are little-endian:

  string t = Encoding.Unicode.GetString(new byte[] { 0x34, 0xD8, 0x1E, 0xDD });
share|improve this answer
I absolutely like that you found my bug in the byte-by-byte encoding. Although other answers also found the capital U solution, this is the reason why I accept your answer. – Thomas Weller Jan 2 '14 at 0:07
But unless your .cs source file is saved in some 1-byte "ANSI" codepage, you should consider simply doing string s = "𝄞";. That is pretty natural. – Jeppe Stig Nielsen Jan 2 '14 at 0:13

C# definitely uses UTF-16. The correct way to define characters above the U+0000 - U+FFFF range is using the escape sequence that permits defining characters using 8 hex digits:

string s = "\U0001D11E";

If you use \u1D11E it's interpreted as the U+1D11 character followed by an E.

One thing to keep in mind when using these characters is that the String.Length property and most string methods work on UTF-16 code units, not Unicode characters. From MSDN documentation:

The Length property returns the number of Char objects in this instance, not the number of Unicode characters. The reason is that a Unicode character might be represented by more than one Char. Use the System.Globalization.StringInfo class to work with each Unicode character instead of each Char.

share|improve this answer
+1 because I didn't know about StringInfo. However, the two variants above also display as 2 characters on the screen. – Thomas Weller Jan 1 '14 at 23:51
What do you use to display the string on the screen? – Joni Jan 1 '14 at 23:53
I tried WinForms with a label and a textbox, default font (possibly Arial) – Thomas Weller Jan 1 '14 at 23:55
That should work. I have spotted another problem though; see the update. – Joni Jan 1 '14 at 23:57

According to the C# specification, characters of more than 4 hex characters' length are encoded using \U (uppercase U) and 8 hexadecimal characters. Once encoded correctly in the string, it can be correctly exported using any unicode encoding;

string s = "\U0001D11E";

foreach (var b in Encoding.UTF32.GetBytes(s))


foreach (var b in Encoding.Unicode.GetBytes(s))

> 1e
> d1
> 01
> 00
> 34
> d8
> 1e
> dd
share|improve this answer
Your example uses UTF-32 to get the bytes. I asked for UTF-16. – Thomas Weller Jan 2 '14 at 0:13
@ThomasW. I just used UTF32 to show in a clear way that the 4 byte character was encoded correctly into the string using \U. UTF-16, being a less than 4 byte per character multi byte encoding makes the connection between the hex dump of the bytes and the original value less clear. – Joachim Isaksson Jan 2 '14 at 0:17
@ThomasW. Added a UTF-16 example. – Joachim Isaksson Jan 2 '14 at 0:32

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