215 lines
5.8 KiB
Markdown
215 lines
5.8 KiB
Markdown
---
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name: sql-optimization-patterns
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description: Master SQL query optimization, indexing strategies, and EXPLAIN analysis to dramatically improve database performance and eliminate slow queries. Use when debugging slow queries, designing database schemas, or optimizing application performance.
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---
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# SQL Optimization Patterns
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Transform slow database queries into lightning-fast operations through systematic optimization, proper indexing, and query plan analysis.
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## When to Use This Skill
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- Debugging slow-running queries
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- Designing performant database schemas
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- Optimizing application response times
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- Reducing database load and costs
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- Improving scalability for growing datasets
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- Analyzing EXPLAIN query plans
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- Implementing efficient indexes
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- Resolving N+1 query problems
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## Core Concepts
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### 1. Query Execution Plans (EXPLAIN)
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Understanding EXPLAIN output is fundamental to optimization.
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**PostgreSQL EXPLAIN:**
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```sql
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-- Basic explain
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EXPLAIN SELECT * FROM users WHERE email = 'user@example.com';
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-- With actual execution stats
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EXPLAIN ANALYZE
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SELECT * FROM users WHERE email = 'user@example.com';
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-- Verbose output with more details
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EXPLAIN (ANALYZE, BUFFERS, VERBOSE)
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SELECT u.*, o.order_total
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FROM users u
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JOIN orders o ON u.id = o.user_id
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WHERE u.created_at > NOW() - INTERVAL '30 days';
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```
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**Key Metrics to Watch:**
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- **Seq Scan**: Full table scan (usually slow for large tables)
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- **Index Scan**: Using index (good)
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- **Index Only Scan**: Using index without touching table (best)
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- **Nested Loop**: Join method (okay for small datasets)
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- **Hash Join**: Join method (good for larger datasets)
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- **Merge Join**: Join method (good for sorted data)
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- **Cost**: Estimated query cost (lower is better)
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- **Rows**: Estimated rows returned
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- **Actual Time**: Real execution time
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### 2. Index Strategies
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Indexes are the most powerful optimization tool.
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**Index Types:**
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- **B-Tree**: Default, good for equality and range queries
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- **Hash**: Only for equality (=) comparisons
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- **GIN**: Full-text search, array queries, JSONB
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- **GiST**: Geometric data, full-text search
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- **BRIN**: Block Range INdex for very large tables with correlation
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```sql
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-- Standard B-Tree index
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CREATE INDEX idx_users_email ON users(email);
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-- Composite index (order matters!)
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CREATE INDEX idx_orders_user_status ON orders(user_id, status);
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-- Partial index (index subset of rows)
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CREATE INDEX idx_active_users ON users(email)
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WHERE status = 'active';
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-- Expression index
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CREATE INDEX idx_users_lower_email ON users(LOWER(email));
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-- Covering index (include additional columns)
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CREATE INDEX idx_users_email_covering ON users(email)
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INCLUDE (name, created_at);
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-- Full-text search index
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CREATE INDEX idx_posts_search ON posts
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USING GIN(to_tsvector('english', title || ' ' || body));
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-- JSONB index
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CREATE INDEX idx_metadata ON events USING GIN(metadata);
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```
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### 3. Query Optimization Patterns
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**Avoid SELECT \*:**
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```sql
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-- Bad: Fetches unnecessary columns
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SELECT * FROM users WHERE id = 123;
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-- Good: Fetch only what you need
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SELECT id, email, name FROM users WHERE id = 123;
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```
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**Use WHERE Clause Efficiently:**
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```sql
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-- Bad: Function prevents index usage
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SELECT * FROM users WHERE LOWER(email) = 'user@example.com';
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-- Good: Create functional index or use exact match
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CREATE INDEX idx_users_email_lower ON users(LOWER(email));
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-- Then:
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SELECT * FROM users WHERE LOWER(email) = 'user@example.com';
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-- Or store normalized data
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SELECT * FROM users WHERE email = 'user@example.com';
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```
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**Optimize JOINs:**
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```sql
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-- Bad: Cartesian product then filter
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SELECT u.name, o.total
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FROM users u, orders o
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WHERE u.id = o.user_id AND u.created_at > '2024-01-01';
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-- Good: Filter before join
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SELECT u.name, o.total
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FROM users u
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JOIN orders o ON u.id = o.user_id
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WHERE u.created_at > '2024-01-01';
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-- Better: Filter both tables
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SELECT u.name, o.total
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FROM (SELECT * FROM users WHERE created_at > '2024-01-01') u
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JOIN orders o ON u.id = o.user_id;
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```
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## Detailed patterns and worked examples
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Detailed pattern documentation lives in `references/details.md`. Read that file when the navigation tier above is insufficient.
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## Best Practices
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1. **Index Selectively**: Too many indexes slow down writes
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2. **Monitor Query Performance**: Use slow query logs
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3. **Keep Statistics Updated**: Run ANALYZE regularly
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4. **Use Appropriate Data Types**: Smaller types = better performance
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5. **Normalize Thoughtfully**: Balance normalization vs performance
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6. **Cache Frequently Accessed Data**: Use application-level caching
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7. **Connection Pooling**: Reuse database connections
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8. **Regular Maintenance**: VACUUM, ANALYZE, rebuild indexes
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```sql
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-- Update statistics
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ANALYZE users;
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ANALYZE VERBOSE orders;
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-- Vacuum (PostgreSQL)
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VACUUM ANALYZE users;
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VACUUM FULL users; -- Reclaim space (locks table)
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-- Reindex
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REINDEX INDEX idx_users_email;
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REINDEX TABLE users;
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```
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## Common Pitfalls
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- **Over-Indexing**: Each index slows down INSERT/UPDATE/DELETE
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- **Unused Indexes**: Waste space and slow writes
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- **Missing Indexes**: Slow queries, full table scans
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- **Implicit Type Conversion**: Prevents index usage
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- **OR Conditions**: Can't use indexes efficiently
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- **LIKE with Leading Wildcard**: `LIKE '%abc'` can't use index
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- **Function in WHERE**: Prevents index usage unless functional index exists
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## Monitoring Queries
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```sql
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-- Find slow queries (PostgreSQL)
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SELECT query, calls, total_time, mean_time
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FROM pg_stat_statements
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ORDER BY mean_time DESC
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LIMIT 10;
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-- Find missing indexes (PostgreSQL)
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SELECT
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schemaname,
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tablename,
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seq_scan,
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seq_tup_read,
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idx_scan,
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seq_tup_read / seq_scan AS avg_seq_tup_read
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FROM pg_stat_user_tables
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WHERE seq_scan > 0
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ORDER BY seq_tup_read DESC
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LIMIT 10;
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-- Find unused indexes (PostgreSQL)
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SELECT
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schemaname,
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tablename,
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indexname,
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idx_scan,
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idx_tup_read,
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idx_tup_fetch
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FROM pg_stat_user_indexes
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WHERE idx_scan = 0
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ORDER BY pg_relation_size(indexrelid) DESC;
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```
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