MySQL is a relational database management system (RDBMS). It is an open-source, multi-user, multi-threaded database system that allows for storing and managing structured data in tables. It uses the Structured Query Language (SQL) to manage and manipulate data.
Key Features of MySQL:
Open Source
Cross-Platform
Relational Database: MySQL is based on a relational database model, which stores data in tables (also known as relations).
High Performance: It is optimized for speed and can handle a large amount of data efficiently.
ACID Compliant: MySQL supports the ACID (Atomicity, Consistency, Isolation, Durability) properties, ensuring that database transactions are processed reliably.
Atomicity ensures that a transaction is treated as a single, indivisible unit. Either all of the operations within a transaction are completed successfully, or none of them are applied. In other words, a transaction is atomic: it is "all or nothing."
Consistency ensures that a transaction takes the database from one valid state to another valid state. After a transaction, all data must be in a consistent state, adhering to all defined rules, constraints, and relationships.
Isolation ensures that transactions are executed in isolation from one another, even if they occur concurrently. Each transaction should be executed as if it is the only transaction being processed, preventing interference from other transactions.
Durability ensures that once a transaction is committed, it is permanent, even in the case of system failures like power outages or crashes. The changes made by the transaction are saved to disk and will survive any subsequent failures.
Multi-User Access: MySQL allows multiple users to access the database simultaneously without affecting performance.
SQL Keywords
CREATE
CREATE DATABASE
The CREATE DATABASE command is used to create a new database. In Mongoose, you don't need to explicitly create a database; it is automatically created when you connect to the database.
// DB is created if it doesn't existmongoose.connect('mongodb://localhost/my_database');
CREATEDATABASEmy_database;
USE DATABASE
The USE DB_NAME is used to select the database to use. In Mongoose, this is handled by the connection string.
The CREATE INDEX command is used to create an index on a table to improve query performance. In MongoDB, this is the same.
UserSchema.index({email:1});// Unnamed IndexUserSchema.index({email:1},{name:'idx_email'});// Named Index
-- Syntax: CREATE INDEX index_name ON table_name (column_name);CREATEINDEXidx_emailONUsers(email);-- Named IndexCREATEINDEXONUsers(email);-- Unnamed Index
DESCRIBE
Used in SQL to view the structure of a table (its columns, data types, constraints, etc.). Mongoose Example: In MongoDB, there isn't a direct equivalent to DESCRIBE. However, you can inspect a schema programmatically.
console.log(UserSchema.paths);// Outputs details about the schema fields and types
DESCRIBEUsers;
INSERT
The INSERT INTO command is used to insert new rows in a table. In mongoose you would insert a new document into a collection/(Model).
// In mongoose its equivalent to .save() or .create();constnewUser=newUser({name:'John Doe',email:'john@example.com'});newUser.save()
The SELECT statement in SQL is used to retrieve data from a database. In Mongoose, this is equivalent to using the .find() method to query a collection.
constusers=awaitUser.find();// Fetches all usersconst{name,email}=awaitUser.findById(1);// Fetches user with id = 1
SELECT*FROMUsers;-- all usersSELECTname,emailFROMUsersWHEREid=1;-- user of id 1
UPDATE
The UPDATE statement is used to modify the existing records in a table. In mongoose you use find and update or .update()
// update all user of name kbconstquery={name:"kb"};User.update(query,{name:"thekbbohara"})
-- update all user of name kbUPDATEUsersSETname="thekbbohara",email="thekbbohara@gmail.com"WHEREname="kb";
DELETE
The DELETE statement is used to delete existing records in a table. In mongoose we'd use deleteOne, deleteMany or find and delete.
User.deleteOne({_id:1})// All users whose name is notKb will be deleted.User.deleteMany({name:"notKb"})
DELETEFROMUsersWHEREid=1;DELETEFROMUsersWHEREname="notKb"-- All users whose name is notKb will be deleted.
ALTER
The ALTER TABLE statement in SQL is used to modify the structure of an existing table (add column, drop column and modify column).
In Mongoose, the equivalent operation would be modifying the schema to include the new field and then handling updates to existing documents if necessary.
// Update the UserSchema to add the 'age' fieldconstUserSchema=newmongoose.Schema({name:String,email:String,age:Number,// New field});
-- Adds an 'age' column to the Users tableALTERTABLEUsersADDageINT;-- Delete 'Email' column from Users tableALTERTABLEUsersDROPCOLUMNemail;-- Makes 'id' column unsigned and auto-incrementingALTERTABLEUsersMODIFYCOLUMNidINTUNSIGNEDAUTO_INCREMENT;
JOIN
A JOIN clause is used to combine rows from two or more tables, based on a related column between them. In MongoDB, joins are not natively supported like in relational databases. Instead, you typically use aggregation pipelines like $lookup for similar functionality.
// MongoDB Example: Using $lookup for a JOIN-like operationdb.orders.aggregate([{$lookup:{from:"users",// Target collection to join withlocalField:"user_id",// Field in 'orders'foreignField:"_id",// Field in 'users'as:"userDetails"// Alias for joined data}}]);
INNER JOIN
The INNER JOIN keyword selects records that have matching values in both tables.
In MySQL there are three main data types: string, numeric, and date and time. But in MongoDB, there are a variety of data types, but they differ from those in MySQL. MongoDB uses BSON (Binary JSON) to store data, which supports a rich set of data types. Here's a comparison of common data types in MySQL and MongoDB:
String Data Types
MySQL
MongoDB (BSON)
Notes
CHAR, VARCHAR
String
Both store textual data. MongoDB's String is analogous to VARCHAR.
TEXT, TINYTEXT, etc.
String
No separate TEXT type in MongoDB; all textual data is stored as String.
Numeric Data Types
MySQL
MongoDB (BSON)
Notes
INT, SMALLINT, etc.
NumberInt
Represents 32-bit integers.
BIGINT
NumberLong
Represents 64-bit integers.
FLOAT, DOUBLE
NumberDouble
Represents floating-point numbers.
DECIMAL, NUMERIC
String or custom
MongoDB doesn't have an exact equivalent; use String for precision.
Date and Time Data Types
MySQL
MongoDB (BSON)
Notes
DATE
Date
Both store date-only values.
DATETIME, TIMESTAMP
Date
MongoDB stores both date and time as a Date object.
TIME
String or custom
MongoDB does not have a direct TIME type; store as String if needed.
YEAR
String or Int
Represented using String or NumberInt.
Boolean Data Types
MySQL
MongoDB (BSON)
Notes
BOOLEAN, TINYINT(1)
Boolean
Both store true/false values.
Binary Data Types
MySQL
MongoDB (BSON)
Notes
BLOB, TINYBLOB, etc.
BinData
MongoDB's BinData is used for storing binary data like files.
JSON/Array Data Types
MySQL
MongoDB (BSON)
Notes
JSON
Object
MongoDB natively stores JSON-like documents as Object.
N/A
Array
MongoDB has a native Array type for storing lists of values.
Other Data Types
MySQL
MongoDB (BSON)
Notes
ENUM
String or custom
Use a String field with validation for enumerated values.
SET
Array
Use an Array to represent sets of values.
N/A
ObjectId
Unique identifier type in MongoDB, typically used as a primary key.
N/A
Decimal128
Used for high-precision decimal numbers in MongoDB.
PRIMARY KEY
Ensures that each row in a table has a unique identifier.
constUserSchema=newmongoose.Schema({_id:{type:mongoose.Schema.Types.ObjectId,auto:true},// Auto-generated unique ID (default primary key in MongoDB)name:{type:String,required:true}});constUser=mongoose.model('User',UserSchema);
Ensures a column's values correspond to values in another table.
constPostSchema=newmongoose.Schema({title:{type:String,required:true},content:{type:String},userId:{type:mongoose.Schema.Types.ObjectId,ref:'User'}// Reference to the User model});constUser=mongoose.model('User',UserSchema);constPost=mongoose.model('Post',PostSchema);
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