MySQL recommends using utf8mb4 character set because it can fully support four-byte characters such as emojis. Traditional utf8 only supports three-byte characters, which will cause errors or garbled codes when storing Emoji or special text. Therefore, if the application involves user input emojis or minority texts, utf8mb4 must be used to ensure the data is stored correctly. For example, the VARCHAR (255) field can store 255 emoji characters normally under utf8mb4. The content will not be lost. It is recommended to set the database table and field character set to utf8mb4. At the same time, the connection layer should also set charset=utf8mb4 to fully support more Unicode characters including ancient characters, mathematical symbols, musical symbols and rare Chinese characters. However, it should be noted that utf8mb4 takes up more space. The field length may need to be adjusted to avoid exceeding the line size limit of 65535 bytes. ALTER must be executed when upgrading. DATABASE and ALTER TABLE modify the character set and check the index length to prevent limits from being exceeded.
MySQL recommends using the utf8mb4 character set, mainly because it can fully support four-byte characters, such as common emojis. In contrast, traditional utf8 actually only supports up to three bytes of characters in MySQL, which leads to expressions like?, ??? that cannot be stored correctly, and forced insertion may cause errors or become garbled.
So if your application scenario involves user input expressions, certain special language characters (such as some ethnic minority characters or rare Chinese characters), then using utf8mb4 is a must.
No more errors in storage of Emoji expressions
Many websites and apps allow users to enter emoticons, such as comments, nicknames, messages, etc. If the database uses utf8, an error may occur when inserting these expressions, or the data is truncated and replaced with a question mark.
This problem can be completely solved by using utf8mb4. For example, the field is defined as VARCHAR(255), and 255 characters of emoticons can be stored normally under utf8mb4 (each emoticon accounts for 4 bytes), without errors or loss of content.
suggestion:
- Set the character sets of database, table and fields to utf8mb4
- The connection layer should also be set charset=utf8mb4, for example, add this parameter to the connection string in PHP or Python.
Supports more languages ??and special characters
utf8mb4 not only supports expressions, but also covers more Unicode characters, including some ancient characters, mathematical symbols, musical symbols, and some rare Chinese characters. This is very important for internationalization projects.
For example, some users may contain Vietnamese accented letters, Tibetan characters, or even hieroglyphs (such as certain game IDs or user names), and these characters may also have compatibility issues if they are using utf8.
Notice:
- Although utf8mb4 is more comprehensive, it also takes up more space (for example, it was originally a character with a maximum of 3 bytes, but now it needs to leave 4 bytes)
- It is recommended to evaluate whether the field length needs to be adjusted to avoid exceeding the maximum row size limit (65535 bytes)
Upgrade precautions
If you are already using utf8 and want to switch to utf8mb4, you need to pay attention to a few points:
Modify the default character set of the database
ALTER DATABASE your_db CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;Modify existing tables and fields
ALTER TABLE your_table CONVERT TO CHARACTER SET utf8mb4 COLLATE utf8mb4_unicode_ci;Check the index length because utf8mb4 calculates the length by bytes. If the original index is built on VARCHAR(255), it will become 1020 bytes (255×4) under utf8mb4, which may exceed the maximum limit. At this time, you need to shorten the field length or use the prefix index instead.
Basically that's it. Although the changes are not complicated, details are easy to ignore, especially when upgrading in old projects, you should pay attention to backup and testing.
The above is the detailed content of Why is it recommended to use the utf8mb4 character set?. For more information, please follow other related articles on the PHP Chinese website!
Hot AI Tools
Undress AI Tool
Undress images for free
Undresser.AI Undress
AI-powered app for creating realistic nude photos
AI Clothes Remover
Online AI tool for removing clothes from photos.
Clothoff.io
AI clothes remover
Video Face Swap
Swap faces in any video effortlessly with our completely free AI face swap tool!
Hot Article
Hot Tools
Notepad++7.3.1
Easy-to-use and free code editor
SublimeText3 Chinese version
Chinese version, very easy to use
Zend Studio 13.0.1
Powerful PHP integrated development environment
Dreamweaver CS6
Visual web development tools
SublimeText3 Mac version
God-level code editing software (SublimeText3)
Connecting to MySQL Database Using the Command Line Client
Jul 07, 2025 am 01:50 AM
The most direct way to connect to MySQL database is to use the command line client. First enter the mysql-u username -p and enter the password correctly to enter the interactive interface; if you connect to the remote database, you need to add the -h parameter to specify the host address. Secondly, you can directly switch to a specific database or execute SQL files when logging in, such as mysql-u username-p database name or mysql-u username-p database name
Handling character sets and collations issues in MySQL
Jul 08, 2025 am 02:51 AM
Character set and sorting rules issues are common when cross-platform migration or multi-person development, resulting in garbled code or inconsistent query. There are three core solutions: First, check and unify the character set of database, table, and fields to utf8mb4, view through SHOWCREATEDATABASE/TABLE, and modify it with ALTER statement; second, specify the utf8mb4 character set when the client connects, and set it in connection parameters or execute SETNAMES; third, select the sorting rules reasonably, and recommend using utf8mb4_unicode_ci to ensure the accuracy of comparison and sorting, and specify or modify it through ALTER when building the library and table.
Implementing Transactions and Understanding ACID Properties in MySQL
Jul 08, 2025 am 02:50 AM
MySQL supports transaction processing, and uses the InnoDB storage engine to ensure data consistency and integrity. 1. Transactions are a set of SQL operations, either all succeed or all fail to roll back; 2. ACID attributes include atomicity, consistency, isolation and persistence; 3. The statements that manually control transactions are STARTTRANSACTION, COMMIT and ROLLBACK; 4. The four isolation levels include read not committed, read submitted, repeatable read and serialization; 5. Use transactions correctly to avoid long-term operation, turn off automatic commits, and reasonably handle locks and exceptions. Through these mechanisms, MySQL can achieve high reliability and concurrent control.
Managing Character Sets and Collations in MySQL
Jul 07, 2025 am 01:41 AM
The setting of character sets and collation rules in MySQL is crucial, affecting data storage, query efficiency and consistency. First, the character set determines the storable character range, such as utf8mb4 supports Chinese and emojis; the sorting rules control the character comparison method, such as utf8mb4_unicode_ci is case-sensitive, and utf8mb4_bin is binary comparison. Secondly, the character set can be set at multiple levels of server, database, table, and column. It is recommended to use utf8mb4 and utf8mb4_unicode_ci in a unified manner to avoid conflicts. Furthermore, the garbled code problem is often caused by inconsistent character sets of connections, storage or program terminals, and needs to be checked layer by layer and set uniformly. In addition, character sets should be specified when exporting and importing to prevent conversion errors
Using Common Table Expressions (CTEs) in MySQL 8
Jul 12, 2025 am 02:23 AM
CTEs are a feature introduced by MySQL8.0 to improve the readability and maintenance of complex queries. 1. CTE is a temporary result set, which is only valid in the current query, has a clear structure, and supports duplicate references; 2. Compared with subqueries, CTE is more readable, reusable and supports recursion; 3. Recursive CTE can process hierarchical data, such as organizational structure, which needs to include initial query and recursion parts; 4. Use suggestions include avoiding abuse, naming specifications, paying attention to performance and debugging methods.
Strategies for MySQL Query Performance Optimization
Jul 13, 2025 am 01:45 AM
MySQL query performance optimization needs to start from the core points, including rational use of indexes, optimization of SQL statements, table structure design and partitioning strategies, and utilization of cache and monitoring tools. 1. Use indexes reasonably: Create indexes on commonly used query fields, avoid full table scanning, pay attention to the combined index order, do not add indexes in low selective fields, and avoid redundant indexes. 2. Optimize SQL queries: Avoid SELECT*, do not use functions in WHERE, reduce subquery nesting, and optimize paging query methods. 3. Table structure design and partitioning: select paradigm or anti-paradigm according to read and write scenarios, select appropriate field types, clean data regularly, and consider horizontal tables to divide tables or partition by time. 4. Utilize cache and monitoring: Use Redis cache to reduce database pressure and enable slow query
Designing a Robust MySQL Database Backup Strategy
Jul 08, 2025 am 02:45 AM
To design a reliable MySQL backup solution, 1. First, clarify RTO and RPO indicators, and determine the backup frequency and method based on the acceptable downtime and data loss range of the business; 2. Adopt a hybrid backup strategy, combining logical backup (such as mysqldump), physical backup (such as PerconaXtraBackup) and binary log (binlog), to achieve rapid recovery and minimum data loss; 3. Test the recovery process regularly to ensure the effectiveness of the backup and be familiar with the recovery operations; 4. Pay attention to storage security, including off-site storage, encryption protection, version retention policy and backup task monitoring.
Optimizing complex JOIN operations in MySQL
Jul 09, 2025 am 01:26 AM
TooptimizecomplexJOINoperationsinMySQL,followfourkeysteps:1)EnsureproperindexingonbothsidesofJOINcolumns,especiallyusingcompositeindexesformulti-columnjoinsandavoidinglargeVARCHARindexes;2)ReducedataearlybyfilteringwithWHEREclausesandlimitingselected
