I have two tables in MySQL. Table Person has the following columns:

id name fruits

The fruits column may hold null or an array of strings like ('apple', 'orange', 'banana'), or ('strawberry'), etc. The second table is Table Fruit and has the following three columns:

fruit_name color price
apple red 2
orange orange 3
----------- -------- ------

So how should I design the fruits column in the first table so that it can hold array of strings that take values from the fruit_name column in the second table? Since there is no array data type in MySQL, how should I do it?


7 Answers 7


The proper way to do this is to use multiple tables and JOIN them in your queries.

For example:

`name` VARCHAR(50)

`color` VARCHAR(20),
`price` INT

CREATE TABLE person_fruit (
`person_id` INT NOT NULL,
`fruit_name` VARCHAR(20) NOT NULL,
PRIMARY KEY(`person_id`, `fruit_name`)

The person_fruit table contains one row for each fruit a person is associated with and effectively links the person and fruits tables together, I.E.

1 | "banana"
1 | "apple"
1 | "orange"
2 | "straberry"
2 | "banana"
2 | "apple"

When you want to retrieve a person and all of their fruit you can do something like this:

SELECT p.*, f.*
FROM person p
INNER JOIN person_fruit pf
ON pf.person_id = p.id
INNER JOIN fruits f
ON f.fruit_name = pf.fruit_name
  • 13
    The third table is the link table between Person and Fruit. So if a person has 100 fruits. I need to create 100 rows in the third table, right? Is this efficient?
    – tonga
    Commented Jun 28, 2013 at 19:11
  • 2
    @tonga Exactly, each of the 100 rows would have the same person_id but a different fruit_name. This is is effectively an implementation of the theory from Janus' answer.
    – Bad Wolf
    Commented Jun 28, 2013 at 19:14
  • 2
    Is it always true that any relation between two tables needs to be stored in the third table? Can I just do a query to find the relation by just storing the primary keys from two tables?
    – tonga
    Commented Jun 28, 2013 at 19:20
  • 5
    Yes, which is how the example is setup now. Any information about the person should be in the person table, any information about the fruit in the fruits table, and any information specifically about the relationship between a particular person and a particular fruit in the person_fruit table. Because in this example there isn't any additional information the person_fruit table is only two columns, the primary keys of the person and fruits tables. Quantity of a specific fruit is an example of something else that could go in the person_fruit table however.
    – Bad Wolf
    Commented Jun 28, 2013 at 19:26
  • 4
    Would it not be better to use a INT for a key in fruits and only have this INT in person_fruit? So the name can be changed later and would also need less space if you have not many more rows in fruits than in person_fruit. Commented Aug 21, 2017 at 8:43

The reason that there are no arrays in SQL, is because most people don't really need it. Relational databases (SQL is exactly that) work using relations, and most of the time, it is best if you assign one row of a table to each "bit of information". For example, where you may think "I'd like a list of stuff here", instead make a new table, linking the row in one table with the row in another table.[1] That way, you can represent M:N relationships. Another advantage is that those links will not clutter the row containing the linked item. And the database can index those rows. Arrays typically aren't indexed.

If you don't need relational databases, you can use e.g. a key-value store.

Read about database normalization, please. The golden rule is "[Every] non-key [attribute] must provide a fact about the key, the whole key, and nothing but the key.". An array does too much. It has multiple facts and it stores the order (which is not related to the relation itself). And the performance is poor (see above).

Imagine that you have a person table and you have a table with phone calls by people. Now you could make each person row have a list of his phone calls. But every person has many other relationships to many other things. Does that mean my person table should contain an array for every single thing he is connected to? No, that is not an attribute of the person itself.

[1]: It is okay if the linking table only has two columns (the primary keys from each table)! If the relationship itself has additional attributes though, they should be represented in this table as columns.

  • 5
    Thanks Janus. That makes sense. Now I understand why MySQL doesn't support array type in a column.
    – tonga
    Commented Jun 28, 2013 at 19:07
  • 3
    @Sai - For the stuff I'm doing, do I really need the NoSQL solution?
    – tonga
    Commented Jun 28, 2013 at 19:48
  • 1
    OK, so if I have a table in which a field contains a numerical array of thousands of elements, e.g., some 2D data collected from a sensor, is it much better to use NoSQL DB?
    – tonga
    Commented Jun 28, 2013 at 19:53
  • 7
    @tonga: The amount of data doesn't determine the db type to use, the nature of the data does. If there are no relations, you don't need at relational database. But since this is the industry standard, you may keep it and just not use the relational features. Most data is relational in some way! A common reason for denormalizing relational databases or using key-value stores is because of performance reasons. But those problems only arise once you have MILLIONS of rows! Don't optimize prematurely! I'd recommend going just going with an SQL db (I recommend PostgreSQL). If you have problems, ask. Commented Jun 28, 2013 at 19:58
  • 3
    PostgreSQL also has key-value stores built-in, which means it'd be even easier to move away from the relational model if it doesn't fit you. Commented Jun 28, 2013 at 20:00

MySQL 5.7 now provides a JSON data type. This new datatype provides a convenient new way to store complex data: lists, dictionaries, etc.

That said, arrays don't map well databases which is why object-relational maps can be quite complex. Historically people have stored lists/arrays in MySQL by creating a table that describes them and adding each value as its own record. The table may have only 2 or 3 columns, or it may contain many more. How you store this type of data really depends on characteristics of the data.

For example, does the list contain a static or dynamic number of entries? Will the list stay small, or is it expected to grow to millions of records? Will there be lots of reads on this table? Lots of writes? Lots of updates? These are all factors that need to be considered when deciding how to store collections of data.

Also, Key/Value data stores, Document stores such as Cassandra, MongoDB, Redis etc provide a good solution as well. Just be aware of where the data is actually being stored (if its being stored on disk or in memory). Not all of your data needs to be in the same database. Some data does not map well to a relational database and you may have reasons for storing it elsewhere, or you may want to use an in-memory key:value database as a hot-cache for data stored on disk somewhere or as an ephemeral storage for things like sessions.


A sidenote to consider, you can store arrays in Postgres.

  • 14
    Additional note: they can be indexed, so queries checking for existence of specific values in an array can be very fast. Same goes for complex JSON types.
    – timetofly
    Commented Aug 6, 2018 at 14:08
  • 12
    This doesn't answer the question in any way. OP asked about MySQL.
    – jhpratt
    Commented Jul 30, 2019 at 1:44
  • 2
    If you use ArrayField in Postgres and have a exhaustive list of values in that column(like a fixed list of tags), you can create a GIN index - it will dramatically speed up the queries on that column.
    – lumos42
    Commented Aug 20, 2019 at 8:25
  • And arrays can be unnested and returned as if values came from a join. Commented Apr 18 at 17:26

In MySQL, use the JSON type.

Contra the answers above, the SQL standard has included array types for almost twenty years; they are useful, even if MySQL has not implemented them.

In your example, however, you'll likely want to create three tables: person and fruit, then person_fruit to join them.

DROP TABLE IF EXISTS person_fruit;

  person_id   INT           NOT NULL AUTO_INCREMENT,
  person_name VARCHAR(1000) NOT NULL,
  PRIMARY KEY (person_id)

  fruit_id    INT           NOT NULL AUTO_INCREMENT,
  fruit_name  VARCHAR(1000) NOT NULL,
  fruit_color VARCHAR(1000) NOT NULL,
  fruit_price INT           NOT NULL,
  PRIMARY KEY (fruit_id)

CREATE TABLE person_fruit (
  pf_person INT NOT NULL,
  pf_fruit  INT NOT NULL,
  PRIMARY KEY (pf_id),
  FOREIGN KEY (pf_person) REFERENCES person (person_id),
  FOREIGN KEY (pf_fruit) REFERENCES fruit (fruit_id)

INSERT INTO person (person_name)
  ('John'); -- again

INSERT INTO fruit (fruit_name, fruit_color, fruit_price)
  ('apple', 'red', 1),
  ('orange', 'orange', 2),
  ('pineapple', 'yellow', 3);

INSERT INTO person_fruit (pf_person, pf_fruit)
  (1, 1),
  (1, 2),
  (2, 2),
  (2, 3),
  (3, 1),
  (3, 2),
  (3, 3);

If you wish to associate the person with an array of fruits, you can do so with a view:

DROP VIEW IF EXISTS person_fruit_summary;
CREATE VIEW person_fruit_summary AS
    person_id                                                                                              AS pfs_person_id,
    max(person_name)                                                                                       AS pfs_person_name,
    cast(concat('[', group_concat(json_quote(fruit_name) ORDER BY fruit_name SEPARATOR ','), ']') as json) AS pfs_fruit_name_array
    INNER JOIN person_fruit
      ON person.person_id = person_fruit.pf_person
    INNER JOIN fruit
      ON person_fruit.pf_fruit = fruit.fruit_id

The view shows the following data:

| pfs_person_id | pfs_person_name | pfs_fruit_name_array             |
|             1 | John            | ["apple", "orange"]              |
|             2 | Mary            | ["orange", "pineapple"]          |
|             3 | John            | ["apple", "orange", "pineapple"] |

In 5.7.22, you'll want to use JSON_ARRAYAGG, rather than hack the array together from a string.

  • Keep in mind that using JSON_ARRAYAGG isn't without cost in terms of performance, native SQL array support would eliminate the encoding and the decoding.
    – gouessej
    Commented Jul 3, 2023 at 13:56

Use database field type BLOB to store arrays.

Ref: http://us.php.net/manual/en/function.serialize.php

Return Values

Returns a string containing a byte-stream representation of value that can be stored anywhere.

Note that this is a binary string which may include null bytes, and needs to be stored and handled as such. For example, serialize() output should generally be stored in a BLOB field in a database, rather than a CHAR or TEXT field.

  • Using blobs to store arrays is even worse than using JSON_ARRAYAGG in terms of performance.
    – gouessej
    Commented Jul 3, 2023 at 13:57

you can store your array using group_Concat like that

 INSERT into Table1 (fruits)  (SELECT GROUP_CONCAT(fruit_name) from table2)
 WHERE ..... //your clause here

HERE an example in fiddle

  • 9
    Not well explained. Bad table names.
    – Martin F
    Commented Mar 14, 2015 at 0:20

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