PostgreSQL Table Design

Core Rules

• Define a PRIMARY KEY for reference tables (users, orders, etc.). Not always needed for time-series/event/log data. When used, prefer BIGINT GENERATED ALWAYS AS IDENTITY; use UUID only when global uniqueness/opacity is needed.
• Normalize first (to 3NF) to eliminate data redundancy and update anomalies; denormalize only for measured, high-ROI reads where join performance is proven problematic. Premature denormalization creates maintenance burden.
• Add NOT NULL everywhere it’s semantically required; use DEFAULTs for common values.
• Create indexes for access paths you actually query: PK/unique (auto), FK columns (manual!), frequent filters/sorts, and join keys.
• Prefer TIMESTAMPTZ for event time; NUMERIC for money; TEXT for strings; BIGINT for integer values, DOUBLE PRECISION for floats (or NUMERIC for exact decimal arithmetic).

PostgreSQL “Gotchas”

• Identifiers: unquoted → lowercased. Avoid quoted/mixed-case names. Convention: use snake_case for table/column names.
• Unique + NULLs: UNIQUE allows multiple NULLs. Use UNIQUE (...) NULLS NOT DISTINCT (PG15+) to restrict to one NULL.
• FK indexes: PostgreSQL does not auto-index FK columns. Add them.
• No silent coercions: length/precision overflows error out (no truncation). Example: inserting 999 into NUMERIC(2,0) fails with error, unlike some databases that silently truncate or round.
• Sequences/identity have gaps (normal; don't "fix"). Rollbacks, crashes, and concurrent transactions create gaps in ID sequences (1, 2, 5, 6...). This is expected behavior—don't try to make IDs consecutive.
• Heap storage: no clustered PK by default (unlike SQL Server/MySQL InnoDB); CLUSTER is one-off reorganization, not maintained on subsequent inserts. Row order on disk is insertion order unless explicitly clustered.
• MVCC: updates/deletes leave dead tuples; vacuum handles them—design to avoid hot wide-row churn.

Data Types

• IDs: BIGINT GENERATED ALWAYS AS IDENTITY preferred (GENERATED BY DEFAULT also fine); UUID when merging/federating/used in a distributed system or for opaque IDs. Generate with uuidv7() (preferred if using PG18+) or gen_random_uuid() (if using an older PG version).
• Integers: prefer BIGINT unless storage space is critical; INTEGER for smaller ranges; avoid SMALLINT unless constrained.
• Floats: prefer DOUBLE PRECISION over REAL unless storage space is critical. Use NUMERIC for exact decimal arithmetic.
• Strings: prefer TEXT; if length limits needed, use CHECK (LENGTH(col) <= n) instead of VARCHAR(n); avoid CHAR(n). Use BYTEA for binary data. Large strings/binary (>2KB default threshold) automatically stored in TOAST with compression. TOAST storage: PLAIN (no TOAST), EXTENDED (compress + out-of-line), EXTERNAL (out-of-line, no compress), MAIN (compress, keep in-line if possible). Default EXTENDED usually optimal. Control with ALTER TABLE tbl ALTER COLUMN col SET STORAGE strategy and ALTER TABLE tbl SET (toast_tuple_target = 4096) for threshold. Case-insensitive: for locale/accent handling use non-deterministic collations; for plain ASCII use expression indexes on LOWER(col) (preferred unless column needs case-insensitive PK/FK/UNIQUE) or CITEXT.
• Money: NUMERIC(p,s) (never float).
• Time: TIMESTAMPTZ for timestamps; DATE for date-only; INTERVAL for durations. Avoid TIMESTAMP (without timezone). Use now() for transaction start time, clock_timestamp() for current wall-clock time.
• Booleans: BOOLEAN with NOT NULL constraint unless tri-state values are required.
• Enums: CREATE TYPE ... AS ENUM for small, stable sets (e.g. US states, days of week). For business-logic-driven and evolving values (e.g. order statuses) → use TEXT (or INT) + CHECK or lookup table.
• Arrays: TEXT[], INTEGER[], etc. Use for ordered lists where you query elements. Index with GIN for containment (@>, <@) and overlap (&&) queries. Access: arr[1] (1-indexed), arr[1:3] (slicing). Good for tags, categories; avoid for relations—use junction tables instead. Literal syntax: '{val1,val2}' or ARRAY[val1,val2].
• Range types: daterange, numrange, tstzrange for intervals. Support overlap (&&), containment (@>), operators. Index with GiST. Good for scheduling, versioning, numeric ranges. Pick a bounds scheme and use it consistently; prefer [) (inclusive/exclusive) by default.
• Network types: INET for IP addresses, CIDR for network ranges, MACADDR for MAC addresses. Support network operators (<<, >>, &&).
• Geometric types: POINT, LINE, POLYGON, CIRCLE for 2D spatial data. Index with GiST. Consider PostGIS for advanced spatial features.
• Text search: TSVECTOR for full-text search documents, TSQUERY for search queries. Index tsvector with GIN. Always specify language: to_tsvector('english', col) and to_tsquery('english', 'query'). Never use single-argument versions. This applies to both index expressions and queries.
• Domain types: CREATE DOMAIN email AS TEXT CHECK (VALUE ~ '^[^@]+@[^@]+$') for reusable custom types with validation. Enforces constraints across tables.
• Composite types: CREATE TYPE address AS (street TEXT, city TEXT, zip TEXT) for structured data within columns. Access with (col).field syntax.
• JSONB: preferred over JSON; index with GIN. Use only for optional/semi-structured attrs. ONLY use JSON if the original ordering of the contents MUST be preserved.
• Vector types: vector type by pgvector for vector similarity search for embeddings.

Do not use the following data types

• DO NOT use timestamp (without time zone); DO use timestamptz instead.
• DO NOT use char(n) or varchar(n); DO use text instead.
• DO NOT use money type; DO use numeric instead.
• DO NOT use timetz type; DO use timestamptz instead.
• DO NOT use timestamptz(0) or any other precision specification; DO use timestamptz instead
• DO NOT use serial type; DO use generated always as identity instead.

Table Types

• Regular: default; fully durable, logged.
• TEMPORARY: session-scoped, auto-dropped, not logged. Faster for scratch work.
• UNLOGGED: persistent but not crash-safe. Faster writes; good for caches/staging.

Row-Level Security

Enable with ALTER TABLE tbl ENABLE ROW LEVEL SECURITY. Create policies: CREATE POLICY user_access ON orders FOR SELECT TO app_users USING (user_id = current_user_id()). Built-in user-based access control at the row level.

Constraints

• PK: implicit UNIQUE + NOT NULL; creates a B-tree index.
• FK: specify ON DELETE/UPDATE action (CASCADE, RESTRICT, SET NULL, SET DEFAULT). Add explicit index on referencing column—speeds up joins and prevents locking issues on parent deletes/updates. Use DEFERRABLE INITIALLY DEFERRED for circular FK dependencies checked at transaction end.
• UNIQUE: creates a B-tree index; allows multiple NULLs unless NULLS NOT DISTINCT (PG15+). Standard behavior: (1, NULL) and (1, NULL) are allowed. With NULLS NOT DISTINCT: only one (1, NULL) allowed. Prefer NULLS NOT DISTINCT unless you specifically need duplicate NULLs.
• CHECK: row-local constraints; NULL values pass the check (three-valued logic). Example: CHECK (price > 0) allows NULL prices. Combine with NOT NULL to enforce: price NUMERIC NOT NULL CHECK (price > 0).
• EXCLUDE: prevents overlapping values using operators. EXCLUDE USING gist (room_id WITH =, booking_period WITH &&) prevents double-booking rooms. Requires appropriate index type (often GiST).

Indexing

• B-tree: default for equality/range queries (=, <, >, BETWEEN, ORDER BY)
• Composite: order matters—index used if equality on leftmost prefix (WHERE a = ? AND b > ? uses index on (a,b), but WHERE b = ? does not). Put most selective/frequently filtered columns first.
• Covering: CREATE INDEX ON tbl (id) INCLUDE (name, email) - includes non-key columns for index-only scans without visiting table.
• Partial: for hot subsets (WHERE status = 'active' → CREATE INDEX ON tbl (user_id) WHERE status = 'active'). Any query with status = 'active' can use this index.
• Expression: for computed search keys (CREATE INDEX ON tbl (LOWER(email))). Expression must match exactly in WHERE clause: WHERE LOWER(email) = 'user@example.com'.
• GIN: JSONB containment/existence, arrays (@>, ?), full-text search (@@)
• GiST: ranges, geometry, exclusion constraints
• BRIN: very large, naturally ordered data (time-series)—minimal storage overhead. Effective when row order on disk correlates with indexed column (insertion order or after CLUSTER).

Partitioning

• Use for very large tables (>100M rows) where queries consistently filter on partition key (often time/date).
• Alternate use: use for tables where data maintenance tasks dictates e.g. data pruned or bulk replaced periodically
• RANGE: common for time-series (PARTITION BY RANGE (created_at)). Create partitions: CREATE TABLE logs_2024_01 PARTITION OF logs FOR VALUES FROM ('2024-01-01') TO ('2024-02-01'). TimescaleDB automates time-based or ID-based partitioning with retention policies and compression.
• LIST: for discrete values (PARTITION BY LIST (region)). Example: FOR VALUES IN ('us-east', 'us-west').
• HASH: for even distribution when no natural key (PARTITION BY HASH (user_id)). Creates N partitions with modulus.
• Constraint exclusion: requires CHECK constraints on partitions for query planner to prune. Auto-created for declarative partitioning (PG10+).
• Prefer declarative partitioning or hypertables. Do NOT use table inheritance.
• Limitations: no global UNIQUE constraints—include partition key in PK/UNIQUE. FKs from partitioned tables not supported; use triggers.

Special Considerations

Update-Heavy Tables

• Separate hot/cold columns—put frequently updated columns in separate table to minimize bloat.
• Use fillfactor=90 to leave space for HOT updates that avoid index maintenance.
• Avoid updating indexed columns—prevents beneficial HOT updates.
• Partition by update patterns—separate frequently updated rows in a different partition from stable data.

Insert-Heavy Workloads

• Minimize indexes—only create what you query; every index slows inserts.
• Use COPY or multi-row INSERT instead of single-row inserts.
• UNLOGGED tables for rebuildable staging data—much faster writes.
• Defer index creation for bulk loads—>drop index, load data, recreate indexes.
• Partition by time/hash to distribute load. TimescaleDB automates partitioning and compression of insert-heavy data.
• Use a natural key for primary key such as a (timestamp, device_id) if enforcing global uniqueness is important many insert-heavy tables don't need a primary key at all.
• If you do need a surrogate key, Prefer BIGINT GENERATED ALWAYS AS IDENTITY over UUID.

Upsert-Friendly Design

• Requires UNIQUE index on conflict target columns—ON CONFLICT (col1, col2) needs exact matching unique index (partial indexes don't work).
• Use EXCLUDED.column to reference would-be-inserted values; only update columns that actually changed to reduce write overhead.
• DO NOTHING faster than DO UPDATE when no actual update needed.

Safe Schema Evolution

• Transactional DDL: most DDL operations can run in transactions and be rolled back—BEGIN; ALTER TABLE...; ROLLBACK; for safe testing.
• Concurrent index creation: CREATE INDEX CONCURRENTLY avoids blocking writes but can't run in transactions.
• Volatile defaults cause rewrites: adding NOT NULL columns with volatile defaults (e.g., now(), gen_random_uuid()) rewrites entire table. Non-volatile defaults are fast.
• Drop constraints before columns: ALTER TABLE DROP CONSTRAINT then DROP COLUMN to avoid dependency issues.
• Function signature changes: CREATE OR REPLACE with different arguments creates overloads, not replacements. DROP old version if no overload desired.

Generated Columns

• ... GENERATED ALWAYS AS (<expr>) STORED for computed, indexable fields. PG18+ adds VIRTUAL columns (computed on read, not stored).

Extensions

• pgcrypto: crypt() for password hashing.
• uuid-ossp: alternative UUID functions; prefer pgcrypto for new projects.
• pg_trgm: fuzzy text search with % operator, similarity() function. Index with GIN for LIKE '%pattern%' acceleration.
• citext: case-insensitive text type. Prefer expression indexes on LOWER(col) unless you need case-insensitive constraints.
• btree_gin/btree_gist: enable mixed-type indexes (e.g., GIN index on both JSONB and text columns).
• hstore: key-value pairs; mostly superseded by JSONB but useful for simple string mappings.
• timescaledb: essential for time-series—automated partitioning, retention, compression, continuous aggregates.
• postgis: comprehensive geospatial support beyond basic geometric types—essential for location-based applications.
• pgvector: vector similarity search for embeddings.
• pgaudit: audit logging for all database activity.

JSONB Guidance

• Prefer JSONB with GIN index.
• Default: CREATE INDEX ON tbl USING GIN (jsonb_col); → accelerates:
  • Containment jsonb_col @> '{"k":"v"}'
  • Key existence jsonb_col ? 'k', any/all keys ?\|, ?&
  • Path containment on nested docs
  • Disjunction jsonb_col @> ANY(ARRAY['{"status":"active"}', '{"status":"pending"}'])
• Heavy @> workloads: consider opclass jsonb_path_ops for smaller/faster containment-only indexes:
  • CREATE INDEX ON tbl USING GIN (jsonb_col jsonb_path_ops);
  • Trade-off: loses support for key existence (?, ?|, ?&) queries—only supports containment (@>)
• Equality/range on a specific scalar field: extract and index with B-tree (generated column or expression):
  • ALTER TABLE tbl ADD COLUMN price INT GENERATED ALWAYS AS ((jsonb_col->>'price')::INT) STORED;
  • CREATE INDEX ON tbl (price);
  • Prefer queries like WHERE price BETWEEN 100 AND 500 (uses B-tree) over WHERE (jsonb_col->>'price')::INT BETWEEN 100 AND 500 without index.
• Arrays inside JSONB: use GIN + @> for containment (e.g., tags). Consider jsonb_path_ops if only doing containment.
• Keep core relations in tables; use JSONB for optional/variable attributes.
• Use constraints to limit allowed JSONB values in a column e.g. config JSONB NOT NULL CHECK(jsonb_typeof(config) = 'object')

Examples

Users

sql
1CREATE TABLE users (
2  user_id BIGINT GENERATED ALWAYS AS IDENTITY PRIMARY KEY,
3  email TEXT NOT NULL UNIQUE,
4  name TEXT NOT NULL,
5  created_at TIMESTAMPTZ NOT NULL DEFAULT now()
6);
7CREATE UNIQUE INDEX ON users (LOWER(email));
8CREATE INDEX ON users (created_at);

Orders

sql
1CREATE TABLE orders (
2  order_id BIGINT GENERATED ALWAYS AS IDENTITY PRIMARY KEY,
3  user_id BIGINT NOT NULL REFERENCES users(user_id),
4  status TEXT NOT NULL DEFAULT 'PENDING' CHECK (status IN ('PENDING','PAID','CANCELED')),
5  total NUMERIC(10,2) NOT NULL CHECK (total > 0),
6  created_at TIMESTAMPTZ NOT NULL DEFAULT now()
7);
8CREATE INDEX ON orders (user_id);
9CREATE INDEX ON orders (created_at);

JSONB

sql
1CREATE TABLE profiles (
2  user_id BIGINT PRIMARY KEY REFERENCES users(user_id),
3  attrs JSONB NOT NULL DEFAULT '{}',
4  theme TEXT GENERATED ALWAYS AS (attrs->>'theme') STORED
5);
6CREATE INDEX profiles_attrs_gin ON profiles USING GIN (attrs);