Between utf8_general_ci
and utf8_unicode_ci
, are there any differences in terms of performance?
This post describes it very nicely.
In short: utf8_unicode_ci
uses the Unicode Collation Algorithm as defined in the Unicode standards, whereas utf8_general_ci
is a more simple sort order which results in "less accurate" sorting results.
See the mysql manual, Unicode Character Sets section:
For any Unicode character set, operations performed using the _general_ci collation are faster than those for the _unicode_ci collation. For example, comparisons for the utf8_general_ci collation are faster, but slightly less correct, than comparisons for utf8_unicode_ci. The reason for this is that utf8_unicode_ci supports mappings such as expansions; that is, when one character compares as equal to combinations of other characters. For example, in German and some other languages “ß” is equal to “ss”. utf8_unicode_ci also supports contractions and ignorable characters. utf8_general_ci is a legacy collation that does not support expansions, contractions, or ignorable characters. It can make only one-to-one comparisons between characters.
So to summarize, utf_general_ci uses a smaller and less correct (according to the standard) set of comparisons than utf_unicode_ci which should implement the entire standard. The general_ci set will be faster because there is less computation to do.
In brief words:
If you need better sorting order - use utf8_unicode_ci
(this is the preferred method),
but if you utterly interested in performance - use utf8_general_ci
, but know that it is a little outdated.
The differences in terms of performance are very slight.
For those people still arriving at this question in 2020 or later, there are newer options that may be better than both of these. For example, utf8_unicode_520_ci
.
All these collations are for the UTF-8 character encoding. The differences are in how text is sorted and compared.
_unicode_ci
and _general_ci
are two different sets of rules for sorting and comparing text according to the way we expect. Newer versions of MySQL introduce new sets of rules, too, such as _unicode_520_ci
for equivalent rules based on Unicode 5.2, or the MySQL 8.x specific _0900_ai_ci
for equivalent rules based on Unicode 9.0 (and with no equivalent _general_ci
variant). People reading this now should probably use one of these newer collations instead of either _unicode_ci
or _general_ci
. The description of those older collations below is provided for interest only.
MySQL is currently transitioning away from an older, flawed UTF-8 implementation. For now, you need to use utf8mb4
instead of utf8
for the character encoding part, to ensure you are getting the fixed version. The flawed version remains for backward compatibility, though it is being deprecated.
Key differences
utf8mb4_unicode_ci
is based on the official Unicode rules for universal sorting and comparison, which sorts accurately in a wide range of languages.
utf8mb4_general_ci
is a simplified set of sorting rules which aims to do as well as it can while taking many short-cuts designed to improve speed. It does not follow the Unicode rules and will result in undesirable sorting or comparison in some situations, such as when using particular languages or characters.
On modern servers, this performance boost will be all but negligible. It was devised in a time when servers had a tiny fraction of the CPU performance of today's computers.
Benefits of utf8mb4_unicode_ci
over utf8mb4_general_ci
utf8mb4_unicode_ci
, which uses the Unicode rules for sorting and comparison, employs a fairly complex algorithm for correct sorting in a wide range of languages and when using a wide range of special characters. These rules need to take into account language-specific conventions; not everybody sorts their characters in what we would call 'alphabetical order'.
As far as Latin (ie "European") languages go, there is not much difference between the Unicode sorting and the simplified utf8mb4_general_ci
sorting in MySQL, but there are still a few differences:
For examples, the Unicode collation sorts "ß" like "ss", and "Œ" like "OE" as people using those characters would normally want, whereas utf8mb4_general_ci
sorts them as single characters (presumably like "s" and "e" respectively).
Some Unicode characters are defined as ignorable, which means they shouldn't count toward the sort order and the comparison should move on to the next character instead. utf8mb4_unicode_ci
handles these properly.
In non-latin languages, such as Asian languages or languages with different alphabets, there may be a lot more differences between Unicode sorting and the simplified utf8mb4_general_ci
sorting. The suitability of utf8mb4_general_ci
will depend heavily on the language used. For some languages, it'll be quite inadequate.
What should you use?
There is almost certainly no reason to use utf8mb4_general_ci
anymore, as we have left behind the point where CPU speed is low enough that the performance difference would be important. Your database will almost certainly be limited by other bottlenecks than this.
In the past, some people recommended to use utf8mb4_general_ci
except when accurate sorting was going to be important enough to justify the performance cost. Today, that performance cost has all but disappeared, and developers are treating internationalization more seriously.
There's an argument to be made that if speed is more important to you than accuracy, you may as well not do any sorting at all. It's trivial to make an algorithm faster if you do not need it to be accurate. So, utf8mb4_general_ci
is a compromise that's probably not needed for speed reasons and probably also not suitable for accuracy reasons.
One other thing I'll add is that even if you know your application only supports the English language, it may still need to deal with people's names, which can often contain characters used in other languages in which it is just as important to sort correctly. Using the Unicode rules for everything helps add peace of mind that the very smart Unicode people have worked very hard to make sorting work properly.
What the parts mean
Firstly, ci
is for case-insensitive sorting and comparison. This means it's suitable for textual data, and case is not important. The other types of collation are cs
(case-sensitive) for textual data where case is important, and bin
, for where the encoding needs to match, bit for bit, which is suitable for fields which are really encoded binary data (including, for example, Base64). Case-sensitive sorting leads to some weird results and case-sensitive comparison can result in duplicate values differing only in letter case, so case-sensitive collations are falling out of favor for textual data - if case is significant to you, then otherwise ignorable punctuation and so on is probably also significant, and a binary collation might be more appropriate.
Next, unicode
or general
refers to the specific sorting and comparison rules - in particular, the way text is normalized or compared. There are many different sets of rules for the utf8mb4 character encoding, with unicode
and general
being two that attempt to work well in all possible languages rather than one specific one. The differences between these two sets of rules are the subject of this answer. Note that unicode
uses rules from Unicode 4.0. Recent versions of MySQL and MariaDB add the rulesets unicode_520
using rules from Unicode 5.2, and MySQL 8.x adds 0900
(dropping the "unicode_" part) using rules from Unicode 9.0.
And lastly, utf8mb4
is of course the character encoding used internally. In this answer I'm talking only about Unicode based encodings.
I wanted to know what is the performance difference between using utf8_general_ci
and utf8_unicode_ci
, but I did not find any benchmarks listed on the internet, so I decided to create benchmarks myself.
I created a very simple table with 500,000 rows:
CREATE TABLE test(
ID INT(11) DEFAULT NULL,
Description VARCHAR(20) DEFAULT NULL
)
ENGINE = INNODB
CHARACTER SET utf8
COLLATE utf8_general_ci;
Then I filled it with random data by running this stored procedure:
CREATE PROCEDURE randomizer()
BEGIN
DECLARE i INT DEFAULT 0;
DECLARE random CHAR(20) ;
theloop: loop
SET random = CONV(FLOOR(RAND() * 99999999999999), 20, 36);
INSERT INTO test VALUES (i+1, random);
SET i=i+1;
IF i = 500000 THEN
LEAVE theloop;
END IF;
END LOOP theloop;
END
Then I created the following stored procedures to benchmark simple SELECT
, SELECT
with LIKE
, and sorting (SELECT
with ORDER BY
):
CREATE PROCEDURE benchmark_simple_select()
BEGIN
DECLARE i INT DEFAULT 0;
theloop: loop
SELECT *
FROM test
WHERE Description = 'test' COLLATE utf8_general_ci;
SET i = i + 1;
IF i = 30 THEN
LEAVE theloop;
END IF;
END LOOP theloop;
END;
CREATE PROCEDURE benchmark_select_like()
BEGIN
DECLARE i INT DEFAULT 0;
theloop: loop
SELECT *
FROM test
WHERE Description LIKE '%test' COLLATE utf8_general_ci;
SET i = i + 1;
IF i = 30 THEN
LEAVE theloop;
END IF;
END LOOP theloop;
END;
CREATE PROCEDURE benchmark_order_by()
BEGIN
DECLARE i INT DEFAULT 0;
theloop: loop
SELECT *
FROM test
WHERE ID > FLOOR(1 + RAND() * (400000 - 1))
ORDER BY Description COLLATE utf8_general_ci LIMIT 1000;
SET i = i + 1;
IF i = 10 THEN
LEAVE theloop;
END IF;
END LOOP theloop;
END;
In the stored procedures above utf8_general_ci
collation is used, but of course during the tests I used both utf8_general_ci
and utf8_unicode_ci
.
I called each stored procedure 5 times for each collation (5 times for utf8_general_ci
and 5 times for utf8_unicode_ci
) and then calculated the average values.
My results are:
benchmark_simple_select()
utf8_general_ci
: 9,957 ms utf8_unicode_ci
: 10,271 ms In this benchmark using utf8_unicode_ci
is slower than utf8_general_ci
by 3.2%.
benchmark_select_like()
utf8_general_ci
: 11,441 ms utf8_unicode_ci
: 12,811 ms In this benchmark using utf8_unicode_ci
is slower than utf8_general_ci
by 12%.
benchmark_order_by()
utf8_general_ci
: 11,944 ms utf8_unicode_ci
: 12,887 ms In this benchmark using utf8_unicode_ci
is slower than utf8_general_ci
by 7.9%.
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