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Was the position of UTF-16 surrogates area (U+D800..U+DFFF) chosen at random or does it have some logical reason, that it is on this place?

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You might find some interesting observations at C: Most efficient way to determine how many bytes will be needed for a UTF-16 string from a UTF-8 string. –  hippietrail May 30 '13 at 2:44

2 Answers 2

up vote 6 down vote accepted

The surrogates area was added in Unicode 2.0, to expand the code beyond 65536 code points while retaining compatibility with the existing 16-bit representation. To encode the 20 bits necessary to represent the 1048576 new code points, they took 1024 characters to represent the first 10 bits and 1024 to represent the second 10 bits (they used 2048 characters instead of 1024 to allow the code to be self-synchronizing). For efficiency in recognizing the characters, it would be best if all 2048 shared a (binary) prefix.

I can only guess that they wanted to shove this unusually-purposed block to higher rather than lower codepoints. The blocks 0xE000–0xE7FF, 0xE800–0xEFFF, and 0xF000–0xF7FF were already reserved for the "private use" area, and 0xF800–0xFFFF was also partially reserved for private use and partially used for other codes. So 0xD800–0xDFFF would have been the highest block available.

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The way they did it makes a neat division of the BMP into "normal" characters U+0000 - U+D7FF and "special" characters (surrogates, private use, compatibility characters, and noncharacters) U+D800 - U+FFFF. –  dan04 Mar 5 '11 at 4:05

Unicode was originally designed as a 16-bit code, and had already assigned a bunch of characters before the need for “supplementary planes” was recognized. The largest available block was U+A000 – U+DFFF, so surrogates would have to go somewhere in there.

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They could have as easily gone in U+2800–U+2FFF, U+3800–U+3FFF, or U+4000–U+47FF. –  Anomie Mar 5 '11 at 1:15

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