SQL Optimizer

Software development skill, available on Zeplik

SQL Optimizer is a ready-to-run software development skill on Zeplik. Covers EXPLAIN analysis, indexing strategies, and query rewrites. Ask in plain language and Zeplik applies the skill's method for you inside the conversation, on whichever AI model you prefer.

The SQL Optimizer skill loads automatically when your request matches it, or you can invoke it directly by typing /sql-optimization-patterns in any chat. It works with attachments, connectors, and any model that supports the task, so you get the same expert method every time without setting anything up.

What the SQL Optimizer skill can do

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How the SQL Optimizer skill works

SQL Optimization Patterns

Transform slow database queries into lightning-fast operations through systematic optimization, proper indexing, and query plan analysis.

When to Use This Skill

  • Debugging slow-running queries
  • Designing performant database schemas
  • Optimizing application response times
  • Reducing database load and costs
  • Improving scalability for growing datasets
  • Analyzing EXPLAIN query plans
  • Implementing efficient indexes
  • Resolving N+1 query problems

Core Concepts

1. Query Execution Plans (EXPLAIN)

Understanding EXPLAIN output is fundamental to optimization.

PostgreSQL EXPLAIN:

-- Basic explain
EXPLAIN SELECT * FROM users WHERE email = '[email protected]';

-- With actual execution stats
EXPLAIN ANALYZE
SELECT * FROM users WHERE email = '[email protected]';

-- 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:

  • Seq Scan: Full table scan (usually slow for large tables)
  • Index Scan: Using index (good)
  • Index Only Scan: Using index without touching table (best)
  • Nested Loop: Join method (okay for small datasets)
  • Hash Join: Join method (good for larger datasets)
  • Merge Join: Join method (good for sorted data)
  • Cost: Estimated query cost (lower is better)
  • Rows: Estimated rows returned
  • Actual Time: Real execution time

2. Index Strategies

Indexes are the most powerful optimization tool.

Index Types:

  • B-Tree: Default, good for equality and range queries
  • Hash: Only for equality (=) comparisons
  • GIN: Full-text search, array queries, JSONB
  • GiST: Geometric data, full-text search
  • BRIN: Block Range INdex for very large tables with correlation
-- 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);

3. Query Optimization Patterns

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) = '[email protected]';

-- 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) = '[email protected]';

-- Or store normalized data
SELECT * FROM users WHERE email = '[email protected]';

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 patterns and worked examples

Detailed pattern documentation lives in references/details.md. Read that file when the navigation tier above is insufficient.

Best Practices

  1. Index Selectively: Too many indexes slow down writes
  2. Monitor Query Performance: Use slow query logs
  3. Keep Statistics Updated: Run ANALYZE regularly
  4. Use Appropriate Data Types: Smaller types = better performance
  5. Normalize Thoughtfully: Balance normalization vs performance
  6. Cache Frequently Accessed Data: Use application-level caching
  7. Connection Pooling: Reuse database connections
  8. Regular Maintenance: VACUUM, ANALYZE, rebuild indexes
-- 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;

Common Pitfalls

  • Over-Indexing: Each index slows down INSERT/UPDATE/DELETE
  • Unused Indexes: Waste space and slow writes
  • Missing Indexes: Slow queries, full table scans
  • Implicit Type Conversion: Prevents index usage
  • OR Conditions: Can't use indexes efficiently
  • LIKE with Leading Wildcard: LIKE '%abc' can't use index
  • Function in WHERE: Prevents index usage unless functional index exists

Monitoring Queries

-- 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;

Zeplik output presentation

Present the final deliverable as a single polished artifact: clear headings, tables where the content is tabular, fenced code where it is code. Lead with the deliverable itself; keep process commentary to a single short line. If the skill produced multiple files or sections, end with a compact list of them with one-line purposes.

How to use the SQL Optimizer skill

  1. Sign in to Zeplik

    Create a free Zeplik account or sign in. New accounts start with free credits, so you can try the SQL Optimizer skill right away.

  2. Describe your software development task

    Ask in plain language, or type /sql-optimization-patterns to invoke the skill directly. Zeplik recognizes the SQL Optimizer skill and applies its method.

  3. Review and refine the result

    Zeplik returns a clear, structured answer. Ask follow-ups in the same chat to refine it or take the next step.

Source and credit

Author
Seth Hobson
License
MIT

Adapted from the open-source wshobson/agents project and tuned to run natively on Zeplik. View source on GitHub.

Frequently asked questions

What is the SQL Optimizer skill?
SQL Optimizer is a ready-to-run software development skill on Zeplik. Covers EXPLAIN analysis, indexing strategies, and query rewrites. Ask in plain language and Zeplik applies the skill's method for you inside the conversation, on whichever AI model you prefer.
How do I use SQL Optimizer on Zeplik?
Sign in to Zeplik and ask in plain language, or type /sql-optimization-patterns in any chat to invoke it directly. The skill applies its method and returns a result you can refine in the same conversation.
Which AI model does the SQL Optimizer skill use?
Any model you choose. Zeplik works across every model in one chat, so the SQL Optimizer skill runs on your preferred model for the task.
Where does the SQL Optimizer skill come from?
The SQL Optimizer skill is adapted from the open-source wshobson/agents project (MIT) and tuned to run natively on Zeplik. The original source is linked on this page.
How much does the SQL Optimizer skill cost?
Using the skill is free to start. You only spend Zeplik credits when the assistant runs, and new accounts begin with free credits.

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