AgentSkillsCN

database-patterns

当您设计数据库架构、实现存储库模式、编写优化查询、管理迁移任务,或为 SQL/NoSQL 数据库进行索引与事务管理时,此功能将助您事半功倍。

SKILL.md
--- frontmatter
name: database-patterns
version: 1.0.0
description: Use when designing database schemas, implementing repository patterns, writing optimized queries, managing migrations, or working with indexes and transactions for SQL/NoSQL databases.
keywords:
  - database design
  - schema design
  - repository pattern
  - SQL queries
  - PostgreSQL
  - MySQL
  - MongoDB
  - indexes
  - migrations
  - transactions
plugin: dev
updated: 2026-01-20

Database Patterns

Overview

Database design and access patterns for relational and NoSQL databases.

Schema Design

Normalization Levels

LevelDescriptionUse Case
1NFAtomic values, no repeating groupsBase requirement
2NFNo partial dependenciesMost applications
3NFNo transitive dependenciesOLTP systems
DenormalizedRedundant data for readsRead-heavy, analytics

Common Table Patterns

sql
-- Users table
CREATE TABLE users (
    id UUID PRIMARY KEY DEFAULT gen_random_uuid(),
    email VARCHAR(255) UNIQUE NOT NULL,
    password_hash VARCHAR(255) NOT NULL,
    name VARCHAR(255) NOT NULL,
    status VARCHAR(20) DEFAULT 'active',
    created_at TIMESTAMP DEFAULT CURRENT_TIMESTAMP,
    updated_at TIMESTAMP DEFAULT CURRENT_TIMESTAMP
);

-- Soft delete pattern
ALTER TABLE users ADD COLUMN deleted_at TIMESTAMP NULL;
CREATE INDEX idx_users_deleted ON users(deleted_at) WHERE deleted_at IS NULL;

-- Audit columns
ALTER TABLE users ADD COLUMN created_by UUID REFERENCES users(id);
ALTER TABLE users ADD COLUMN updated_by UUID REFERENCES users(id);

Relationships

sql
-- One-to-Many
CREATE TABLE orders (
    id UUID PRIMARY KEY,
    user_id UUID NOT NULL REFERENCES users(id),
    total DECIMAL(10,2) NOT NULL,
    created_at TIMESTAMP DEFAULT CURRENT_TIMESTAMP
);
CREATE INDEX idx_orders_user ON orders(user_id);

-- Many-to-Many
CREATE TABLE order_products (
    order_id UUID REFERENCES orders(id) ON DELETE CASCADE,
    product_id UUID REFERENCES products(id) ON DELETE CASCADE,
    quantity INT NOT NULL,
    price DECIMAL(10,2) NOT NULL,
    PRIMARY KEY (order_id, product_id)
);

-- Self-referential (tree/hierarchy)
CREATE TABLE categories (
    id UUID PRIMARY KEY,
    name VARCHAR(255) NOT NULL,
    parent_id UUID REFERENCES categories(id)
);
CREATE INDEX idx_categories_parent ON categories(parent_id);

Indexing Strategies

Index Types

TypeUse CaseExample
B-treeRange, equalityMost columns
HashEquality onlyExact matches
GINArrays, JSON, full-textJSONB, text search
GiSTGeometric, range typesPostGIS, IP ranges

Index Guidelines

sql
-- Primary key (automatic)
CREATE TABLE users (id UUID PRIMARY KEY);

-- Foreign keys
CREATE INDEX idx_orders_user ON orders(user_id);

-- Frequent filters
CREATE INDEX idx_users_status ON users(status);

-- Composite for multi-column queries
CREATE INDEX idx_orders_user_status ON orders(user_id, status);

-- Partial index for common queries
CREATE INDEX idx_active_users ON users(email) WHERE status = 'active';

-- Expression index
CREATE INDEX idx_users_email_lower ON users(LOWER(email));

When NOT to Index

  • Small tables (< 1000 rows)
  • Frequently updated columns
  • Low cardinality columns
  • Columns rarely used in WHERE

Query Patterns

Efficient Queries

sql
-- Use specific columns, not *
SELECT id, name, email FROM users WHERE id = $1;

-- Limit results
SELECT * FROM users ORDER BY created_at DESC LIMIT 20;

-- Exists vs COUNT
SELECT EXISTS(SELECT 1 FROM users WHERE email = $1);

-- Batch inserts
INSERT INTO users (name, email) VALUES
    ('User 1', 'user1@example.com'),
    ('User 2', 'user2@example.com'),
    ('User 3', 'user3@example.com');

Pagination

sql
-- Offset pagination (simple but slow for large offsets)
SELECT * FROM users ORDER BY created_at DESC LIMIT 20 OFFSET 100;

-- Cursor pagination (better performance)
SELECT * FROM users
WHERE created_at < $cursor
ORDER BY created_at DESC
LIMIT 20;

-- Keyset pagination with tie-breaker
SELECT * FROM users
WHERE (created_at, id) < ($cursor_time, $cursor_id)
ORDER BY created_at DESC, id DESC
LIMIT 20;

Common Query Patterns

sql
-- Upsert (INSERT or UPDATE)
INSERT INTO users (email, name)
VALUES ($1, $2)
ON CONFLICT (email)
DO UPDATE SET name = EXCLUDED.name, updated_at = NOW();

-- Soft delete
UPDATE users SET deleted_at = NOW() WHERE id = $1;
SELECT * FROM users WHERE deleted_at IS NULL;

-- Lock for update (prevent race conditions)
SELECT * FROM accounts WHERE id = $1 FOR UPDATE;

-- Bulk update
UPDATE orders SET status = 'shipped'
WHERE id = ANY($1::uuid[]);

Repository Pattern

Interface

typescript
interface UserRepository {
  findById(id: string): Promise<User | null>;
  findByEmail(email: string): Promise<User | null>;
  findAll(filter: UserFilter, pagination: Pagination): Promise<PaginatedResult<User>>;
  create(data: CreateUserInput): Promise<User>;
  update(id: string, data: UpdateUserInput): Promise<User>;
  delete(id: string): Promise<void>;
}

Implementation

typescript
class PostgresUserRepository implements UserRepository {
  constructor(private db: Database) {}

  async findById(id: string): Promise<User | null> {
    const result = await this.db.query(
      'SELECT * FROM users WHERE id = $1 AND deleted_at IS NULL',
      [id]
    );
    return result.rows[0] || null;
  }

  async create(data: CreateUserInput): Promise<User> {
    const result = await this.db.query(
      `INSERT INTO users (name, email, password_hash)
       VALUES ($1, $2, $3)
       RETURNING *`,
      [data.name, data.email, await hashPassword(data.password)]
    );
    return result.rows[0];
  }
}

Transaction Patterns

Basic Transaction

typescript
async function transferFunds(fromId: string, toId: string, amount: number) {
  const client = await pool.connect();
  try {
    await client.query('BEGIN');

    // Lock accounts
    await client.query(
      'SELECT * FROM accounts WHERE id IN ($1, $2) FOR UPDATE',
      [fromId, toId]
    );

    // Debit
    await client.query(
      'UPDATE accounts SET balance = balance - $1 WHERE id = $2',
      [amount, fromId]
    );

    // Credit
    await client.query(
      'UPDATE accounts SET balance = balance + $1 WHERE id = $2',
      [amount, toId]
    );

    await client.query('COMMIT');
  } catch (e) {
    await client.query('ROLLBACK');
    throw e;
  } finally {
    client.release();
  }
}

Isolation Levels

LevelDirty ReadNon-Repeatable ReadPhantom Read
Read UncommittedYesYesYes
Read CommittedNoYesYes
Repeatable ReadNoNoYes
SerializableNoNoNo
sql
-- Set isolation level
BEGIN TRANSACTION ISOLATION LEVEL SERIALIZABLE;

Migration Patterns

Migration Structure

code
migrations/
├── 001_create_users.sql
├── 002_add_user_status.sql
├── 003_create_orders.sql
└── 004_add_order_index.sql

Migration Best Practices

sql
-- Always reversible
-- UP
ALTER TABLE users ADD COLUMN phone VARCHAR(20);

-- DOWN
ALTER TABLE users DROP COLUMN phone;

-- Non-blocking index creation
CREATE INDEX CONCURRENTLY idx_users_phone ON users(phone);

-- Safe column renames (PostgreSQL)
ALTER TABLE users RENAME COLUMN name TO full_name;

-- Add NOT NULL safely
ALTER TABLE users ADD COLUMN status VARCHAR(20) DEFAULT 'active';
UPDATE users SET status = 'active' WHERE status IS NULL;
ALTER TABLE users ALTER COLUMN status SET NOT NULL;

Connection Pooling

Pool Configuration

typescript
const pool = new Pool({
  connectionString: process.env.DATABASE_URL,
  max: 20,              // Max connections
  idleTimeoutMillis: 30000,
  connectionTimeoutMillis: 2000,
});

Best Practices

  • Use connection pool (don't create new connections)
  • Release connections promptly
  • Set appropriate pool size (CPU cores * 2-4)
  • Handle connection errors gracefully

NoSQL Patterns (MongoDB/DynamoDB)

Document Design

javascript
// Embedded (for one-to-few)
{
  _id: ObjectId("..."),
  name: "John",
  addresses: [
    { type: "home", street: "123 Main St" },
    { type: "work", street: "456 Office Blvd" }
  ]
}

// Referenced (for one-to-many)
{
  _id: ObjectId("..."),
  name: "John",
  orderIds: [ObjectId("..."), ObjectId("...")]
}

DynamoDB Single-Table Design

code
PK              | SK                | Attributes
----------------|-------------------|------------------
USER#123        | METADATA          | name, email, ...
USER#123        | ORDER#001         | total, status, ...
USER#123        | ORDER#002         | total, status, ...
ORDER#001       | METADATA          | userId, total, ...
ORDER#001       | ITEM#1            | productId, qty, ...

Database design and access patterns