Per the MySQL docs, there are four TEXT types:

  2. TEXT

What is the maximum length that I can store in a column of each data type assuming the character encoding is UTF-8?

  • 39
    Take for example the TEXT type. It can contain 65535 bytes of data. UTF-8 contains multi-byte characters. Therefore, if you filled the field using only the danish character "Ø", you would only get 32767 characters, as that UTF-8 character is composed of two bytes. If you filled it with "a", you would get 65535 characters. Sep 18, 2013 at 10:36
  • 3
    Also consider reading Which DATATYPE is better to use TEXT or VARCHAR Aug 23, 2016 at 10:48

4 Answers 4


From the documentation (MySQL 8) :

      Type | Maximum length
  TINYTEXT |           255 (2 8−1) bytes
      TEXT |        65,535 (216−1) bytes = 64 KiB
MEDIUMTEXT |    16,777,215 (224−1) bytes = 16 MiB
  LONGTEXT | 4,294,967,295 (232−1) bytes =  4 GiB

Note that the number of characters that can be stored in your column will depend on the character encoding.

  • 3
    @Bridge Not sure I understand, but this means that TINYTEXT can get up to 255 characters, am I right???
    – ltdev
    May 27, 2014 at 13:19
  • 10
    @Lykos Yes, well - depending on the characters. From the documentation: A TEXT column with a maximum length of 255 (28 – 1) characters. The effective maximum length is less if the value contains multi-byte characters. See Ankan's answer for more detail.
    – Bridge
    May 27, 2014 at 14:05
  • 5
    @aurel.g This is how you really answer question. And I agree with Christophe, this is how mySQL should present its parameters--even if just as a supplementary shorthand to their...arcane text view.
    – cbmtrx
    Nov 4, 2015 at 18:16
  • 2
    @GaborSch So you're saying the documentation is wrong? I'm afraid I have just written a test which inserts 65535 characters into a TEXT column with no problem.
    – Bridge
    Oct 21, 2016 at 12:45
  • 126
    Why is it harder to find this in the docs than in stackoverflow Sep 11, 2018 at 11:52

Expansion of the same answer

  1. This SO post outlines in detail the overheads and storage mechanisms.
  2. As noted from point (1), A VARCHAR should always be used instead of TINYTEXT. However, when using VARCHAR, the max rowsize should not exceeed 65535 bytes.
  3. As outlined here http://dev.mysql.com/doc/refman/5.0/en/charset-unicode-utf8.html, max 3 bytes for utf-8.


  1. So the worst case assumptions (3 bytes per utf-8 char) to best case (1 byte per utf-8 char)
  2. Assuming the english language has an average of 4.5 letters per word
  3. x is the number of bytes allocated


      Type | A= worst case (x/3) | B = best case (x) | words estimate (A/4.5) - (B/4.5)
  TINYTEXT |              85     | 255               | 18 - 56
      TEXT |          21,845     | 65,535            | 4,854.44 - 14,563.33  
MEDIUMTEXT |       5,592,415     | 16,777,215        | 1,242,758.8 - 3,728,270
  LONGTEXT |   1,431,655,765     | 4,294,967,295     | 318,145,725.5 - 954,437,176.6

Please refer to Chris V's answer as well : https://stackoverflow.com/a/35785869/1881812

  • 4
    What is the rationale for this "A VARCHAR should always be used instead of TINYTEXT"? Wouldn't it be better (because more storage efficient) to use the smaller TINYTEXT sometimes?
    – vlasits
    Apr 21, 2014 at 20:46
  • 27
    @vlasits read the included SO post for details. (1) all text types, including tinytext are stored as objects outside the row which is one overhead (2) These objects are then referenced by addresses 8 or 16 bytes. so no matter how tiny your tinytext is, you are adding unnecessary overheads, that too for a max size of 255 bytes. it is clear that varchar should be used, which wont have any of the above overheads. Apr 22, 2014 at 14:08
  • 4
    @Ankan-Zerob Given that it appears very clear that TINYTEXT should never be used over VARCHAR, what is the rationale for even having it as an option? Is there some obscure use-case where it is necessary? May 25, 2015 at 20:15
  • 5
    @nextgentech Have a look at dev.mysql.com/doc/refman/5.0/en/column-count-limit.html. A record size is limited to 64 KiB. A table is limited to 4k columns. A TINYTEXT counts 1 byte + 8 byte against the record size, whereas a VARCHAR(255) counts from 1 byte + 255 byte up to 2 byte + 1020 byte (4 byte UTF-8 characters) against the record size.
    – Shi
    May 31, 2015 at 0:37
  • 2
    I like expressing field sizes in words, but... English is normally considered to have around 5 characters per word, and there is also a space character to be stored; however, English will always be close to 1 byte per UTF-8 character, so I would divide by 6 giving around 40 / 10,000 / 2,700,000 / 710,000,000 words for the different sizes. Languages with lots of accents such as Polish would have slightly fewer words; Greek, Hebrew, Arabic, etc (with mostly 2-byte sequences) about half; CJK ideographs are 3 or 4-byte sequences, but I don't know how long words are.
    – ChrisV
    Feb 29, 2016 at 19:05

Rising to @Ankan-Zerob's challenge, this is my estimate of the maximum length which can be stored in each text type measured in words:

      Type |         Bytes | English words | Multi-byte words
  TINYTEXT |           255 |           ±44 |              ±23
      TEXT |        65,535 |       ±11,000 |           ±5,900
MEDIUMTEXT |    16,777,215 |    ±2,800,000 |       ±1,500,000
  LONGTEXT | 4,294,967,295 |  ±740,000,000 |     ±380,000,000

In English, 4.8 letters per word is probably a good average (eg norvig.com/mayzner.html), though word lengths will vary according to domain (e.g. spoken language vs. academic papers), so there's no point being too precise. English is mostly single-byte ASCII characters, with very occasional multi-byte characters, so close to one-byte-per-letter. An extra character has to be allowed for inter-word spaces, so I've rounded down from 5.8 bytes per word. Languages with lots of accents such as say Polish would store slightly fewer words, as would e.g. German with longer words.

Languages requiring multi-byte characters such as Greek, Arabic, Hebrew, Hindi, Thai, etc, etc typically require two bytes per character in UTF-8. Guessing wildly at 5 letters per word, I've rounded down from 11 bytes per word.

CJK scripts (Hanzi, Kanji, Hiragana, Katakana, etc) I know nothing of; I believe characters mostly require 3 bytes in UTF-8, and (with massive simplification) they might be considered to use around 2 characters per word, so they would be somewhere between the other two. (CJK scripts are likely to require less storage using UTF-16, depending).

This is of course ignoring storage overheads etc.


This is nice but doesn't answer the question:

"A VARCHAR should always be used instead of TINYTEXT." Tinytext is useful if you have wide rows - since the data is stored off the record. There is a performance overhead, but it does have a use.

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