Master SQL query optimization, indexing strategies, and EXPLAIN analysis to dramatically improve database performance and eliminate slow queries...
Transform slow database queries into lightning-fast operations through systematic optimization, proper indexing, and query plan analysis.
Understanding EXPLAIN output is fundamental to optimization.
PostgreSQL EXPLAIN:
-- Basic explain
EXPLAIN SELECT * FROM users WHERE email = 'user@example.com';
-- With actual execution stats
EXPLAIN ANALYZE
SELECT * FROM users WHERE email = 'user@example.com';
-- Verbose output with more details
EXPLAIN (ANALYZE, BUFFERS, VERBOSE)
SELECT u.*, o.order_total
FROM users u
JOIN orders o ON u.id = o.user_id
WHERE u.created_at > NOW() - INTERVAL '30 days';
Key Metrics to Watch:
Indexes are the most powerful optimization tool.
Index Types:
-- Standard B-Tree index
CREATE INDEX idx_users_email ON users(email);
-- Composite index (order matters!)
CREATE INDEX idx_orders_user_status ON orders(user_id, status);
-- Partial index (index subset of rows)
CREATE INDEX idx_active_users ON users(email)
WHERE status = 'active';
-- Expression index
CREATE INDEX idx_users_lower_email ON users(LOWER(email));
-- Covering index (include additional columns)
CREATE INDEX idx_users_email_covering ON users(email)
INCLUDE (name, created_at);
-- Full-text search index
CREATE INDEX idx_posts_search ON posts
USING GIN(to_tsvector('english', title || ' ' || body));
-- JSONB index
CREATE INDEX idx_metadata ON events USING GIN(metadata);
Avoid SELECT *:
-- Bad: Fetches unnecessary columns
SELECT * FROM users WHERE id = 123;
-- Good: Fetch only what you need
SELECT id, email, name FROM users WHERE id = 123;
Use WHERE Clause Efficiently:
-- Bad: Function prevents index usage
SELECT * FROM users WHERE LOWER(email) = 'user@example.com';
-- Good: Create functional index or use exact match
CREATE INDEX idx_users_email_lower ON users(LOWER(email));
-- Then:
SELECT * FROM users WHERE LOWER(email) = 'user@example.com';
-- Or store normalized data
SELECT * FROM users WHERE email = 'user@example.com';
Optimize JOINs:
-- Bad: Cartesian product then filter
SELECT u.name, o.total
FROM users u, orders o
WHERE u.id = o.user_id AND u.created_at > '2024-01-01';
-- Good: Filter before join
SELECT u.name, o.total
FROM users u
JOIN orders o ON u.id = o.user_id
WHERE u.created_at > '2024-01-01';
-- Better: Filter both tables
SELECT u.name, o.total
FROM (SELECT * FROM users WHERE created_at > '2024-01-01') u
JOIN orders o ON u.id = o.user_id;
Detailed pattern documentation lives in references/details.md. Read that file when the navigation tier above is insufficient.
-- Update statistics
ANALYZE users;
ANALYZE VERBOSE orders;
-- Vacuum (PostgreSQL)
VACUUM ANALYZE users;
VACUUM FULL users; -- Reclaim space (locks table)
-- Reindex
REINDEX INDEX idx_users_email;
REINDEX TABLE users;
LIKE '%abc' can't use index-- Find slow queries (PostgreSQL)
SELECT query, calls, total_time, mean_time
FROM pg_stat_statements
ORDER BY mean_time DESC
LIMIT 10;
-- Find missing indexes (PostgreSQL)
SELECT
schemaname,
tablename,
seq_scan,
seq_tup_read,
idx_scan,
seq_tup_read / seq_scan AS avg_seq_tup_read
FROM pg_stat_user_tables
WHERE seq_scan > 0
ORDER BY seq_tup_read DESC
LIMIT 10;
-- Find unused indexes (PostgreSQL)
SELECT
schemaname,
tablename,
indexname,
idx_scan,
idx_tup_read,
idx_tup_fetch
FROM pg_stat_user_indexes
WHERE idx_scan = 0
ORDER BY pg_relation_size(indexrelid) DESC;