Jun 13, 2026

OLTP – Phase 8 B-Tree Index

Without an index, every query scans every row. WHERE id = 42 on a million-row table reads all million rows to find one. That’s O(n) — slow.

A B+ tree index is a sorted data structure that maps key values (like id) to the physical location of rows (page number + slot). It enables O(log n) lookups — finding a row in a million-row table reads 3-4 pages instead of thousands.

This is the same reason a book index exists: instead of reading every page to find “B-tree,” you check the index at the back, which tells you the page number directly.

PostgreSQL

Jun 10, 2026

OLTP – Phase 7 Query Executor (The Integration Phase)

Before this phase, the parser and storage engine were separate systems. The parser could turn SQL into an AST, and the storage engine could read/write rows — but they didn’t talk to each other. Queries were still built manually in Go code.

Phase 7 connects everything. The Executor takes a SQL string, parses it, looks up the table in the catalog, converts the AST to an execution plan, runs it, and returns results.

PostgreSQL

Jun 06, 2026

OLTP – Phase 6 SQL Parser

Until now, every query is built manually in Go — constructing executor nodes and expression structs by hand. That works for testing, but a real database needs to understand SQL text. Phase 6 adds a parser that turns a SQL string like SELECT name, age FROM users WHERE age > 25 into a tree of Go structs (an AST) that the executor can work with. This phase is pure syntax — no storage, no execution. It takes a string and produces a data structure.

PostgreSQL

Jun 03, 2026

OLTP – Phase 5 Buffer Pool Manager

Every time the database reads a row, it calls HeapFile.ReadPage() which seeks to a position in the file, reads 4096 bytes from disk, and copies them into memory. When a sequential scan reads page 0, then page 1, then page 0 again — it reads page 0 from disk twice. The OS has a page cache that might help, but the database can’t control or rely on it.

Phase 5 adds a buffer pool: a fixed-size array of page-sized slots in memory. When you need a page, the pool checks if it’s already cached. If so, you get the in-memory copy instantly. If not, it reads from disk and caches it for next time.

This is the single biggest performance optimization in any database. Everything else — indexes, query optimization, parallel scans — builds on top of having fast page access.

PostgreSQL

May 30, 2026

OLTP – Phase 4 Sequential Scan and Filtering

Phase 3 gave us table.ScanAll() — iterate through every row. But there’s no way to say “only rows where age > 25” or “only the name column.” Phase 4 adds that.

This is the first time the database actually looks at what’s inside the rows. Before this, data was just stored and retrieved. Now it’s evaluated.

PostgreSQL

May 27, 2026

OLTP – Phase 3 Table and Catalog

Phase 1 gave us pages and heap files (raw byte storage on disk). Phase 2 gave us schemas and serialization (typed values to/from bytes). But these two layers don’t know about each other — you’d have to manually serialize values, manually find a page with space, manually write it back.

Phase 3 connects them. A Table ties a schema to a heap file so you can just say InsertRow(values). A Catalog manages multiple tables so you can say GetTable("users").

PostgreSQL

May 23, 2026

OLTP – Phase 2 Tuple/Record Format

In Phase 1, pages store raw bytes — InsertTuple([]byte("alice")). The page has no idea what those bytes mean. Phase 2 adds the layer that gives bytes meaning: a schema that defines columns and types, and a serializer that converts typed values to/from bytes.

After this phase, we can say “this row has an INT called id, a VARCHAR called name, and a BOOL called active” and reliably pack/unpack those values.

In PostgreSQL, this is implemented in src/backend/access/common/heaptuple.c with the tuple header defined in src/include/access/htup_details.h.

PostgreSQL

May 16, 2026

OLTP – Phase 1 Pages and Heap Files

Every database needs to store data on disk and read it back. But disks don’t work like memory — you can’t read a single byte efficiently. Disk I/O works in blocks. The operating system reads and writes in chunks (typically 4KB). Databases lean into this by organizing all data into fixed-size pages that match the OS block size.

A heap file is the simplest way to organize pages — just stack them end-to-end in a file. “Heap” means unordered: rows go wherever there’s room.

PostgreSQL

Jul 15, 2022

Prevent Unnecessary Rendering When Using React Hooks

When working with state hooks like useReducer or useState or useContext, it can become expensive to render components. If we let the framework handle rendering, all components and children components will be rendered if the parent uses state or context hooks or an action is dispatch into the reducer hook. Today we will look at optimisation to stop the rendering propagation for components which do not need to be rendered.

Typescript React

May 06, 2022

Apollo Client Fetch Policy

Last week we looked at Apollo Client and how it could be used to manage queries to GraphQL server. In today’s post, we’ll look at the different fetching policies provided to manage query data and caching.

Typescript GraphQL React

Apr 29, 2022

Query Graphql With Apollo Client React

Apollo client allows us to easily manage our GraphQL queries and data from the clientside. It provides functionalities such as caching, loading state and data propagation to components and most importantly; is compatible with all major UI frameworks. In today’s post, we’ll look at how we can simply hook Apollo client in a React application and use it to query our GraphQL server.

Typescript GraphQL React

Apr 22, 2022

Common Table Expression In Postgres

Common table expression, also called WITH queries, can be used to create auxiliary queries that can be used in larger queries. They can be used to breakdown complex queries into multiple simpler queries which are then used in a primary statement or they can also be used to write recursive queries. In today’s post, we will look at how to define CTE with examples in Postgres.

PostgreSQL

Apr 15, 2022

React Reducer Hook

useReducer hook in React allows us to manage state in a redux manner. This is useful for handling complex state in a single object, as opposed to useState which is better used with single variable state. With useReducer, we can define a reducer, a set of actions to interact with the state and use a dispatcher to dispatch the actions from our component. In today’s post we will look at how we can use useReducer with example.

React Typescript

Apr 08, 2022

React Memo Hook

useMemo hook in React can be used to memoize values. Memoization is used as an optimization by caching previous result of computation and directly returning the result when teh same inputs are requested. In today’s post, we’ll look at how we can use useMemo.

React Typescript

Apr 01, 2022

React Callback Hook

Callback hook in React can be used to memoized a callback function to skip unnecessary rendering. In today’s post we will see why we would useCallback hook.

React Typescript
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