Research on programming languages, compilers, functional programming, devtools.
- Courses
- Books
- Learning Paths
- Experiments
- Papers
- Programming Language Design / PLT
- Compiler
- PL Paradigms
- Interpreter
- PL Research
- Type System
- Parsers
- Backend
- Program Synthesis
- Language Learnings
- Browser
- Web UI
- Careers
- People in PL
- 🎥 301 - Organization of Programming Languages
- 🎥 Benjamin Pierce - Software foundations
- 🎥 CIS352 - Principles of Programming Languages
- 🎥 CMSC 430: Design and Implementation of Programming Languages
- 🎥 CS 3520/6520 - Programming Languages
- 🎥 CS3110 - Functional Data Structures
- 🎥 CS3MI3 - Principles of Programming Languages
- 🎥 CS520 - Theories Of Programming Languages
- 🎥 CSE340 - Principles of Programming Languages
- 🎥 LINFO1131 - Advanced programming language concepts
- 💻 Accelerated 1
- 💻 All the courses Matthias Felleisen teach
- 💻 Building a Parser from scratch
- 💻 CMSC330 - Organization of Programming Languages
- 💻 CMU - CS6120 - Advanced Compilers
- 💻 Compilers — Stanford
- 💻 Compilers Design Recipe
- 💻 Compilers: Theory and Practice — Udacity
- 💻 Concepts in Programming Languages
- 💻 COP 4020 - Programming Languages I
- 💻 COS 326 - Functional Programming
- 💻 CS 242: Programming Languages, Fall 2019
- 💻 CS019 - Accelerated Introduction to Computer Science
- 💻 CS164 Programming Languages and Compilers
- 💻 CS242 - Programming Languages - Stanford
- 💻 CS2500 - Fundamentals of Computer Science
- 💻 CIS 341 - Compilers
- 💻 CSCI1730 - Programming Languages - Application and Interpretation
- 💻 CSE 131 - Compiler Construction
- 💻 CSE230 - Principles/Programming Languages
- 💻 Essentials of Programming Languages
- 💻 Fundamentals 1
- 💻 Fundamentals 2
- 💻 Hack Your Own Language
- 💻 History of Programming Languages
- 💻 Indiana University Compiler Course
- 💻 Introduction to Compiler Construction
- 💻 Jay McCarthy - 406 Compiler Construction
- 💻 Matthias Felleisen - Intensive Principles of Programming Languages
- 💻 Matthias Felleisen - Principles of Programming Languages
- 💻 Principles of Compiler Design
- 💻 Programming Language Foundations in Agda
- 💻 Programming Languages and Logic
- 💻 Programming Languages Course given by DCC-UFMG
- 💻 Programming Languages Ⅰ
- 💻 Programming Languages Ⅱ
- 💻 Ray Total Courses
- 💻 Theory of Programming Languages
- 📚 Compiler Construction
- 📚 Compiler Design
- 📚 Compiling with Continuations
- 📚 Concepts of Programming Languages
- 📚 Discrete Mathematics for Computing
- 📚 Engineering a Compiler
- 📚 Homotopy Type Theory
- 📚 How to Design Programs: An Introduction to Programming and Computing
- 📚 HTDP
- 📚 Human-Centered Programming Languages
- 📚 Introduction to Compilers and Language Design
- 📚 Modern Compiler Design
- 📚 Modern Compiler Implementation in C
- 📚 Parsing Techniques: A Practical Guide
- 📚 Parsing Techniques. A Practical Guide
- 📚 Practical Foundations for Programming Languages
- 📚 Programming Languages: Application and Interpretation
- 📚 SICP — Structure and Interpretation of Computer
- 📚 The Elements Of Computing Systems
- 📚 Thinking with Types: Type-Level Programming in Haskell
- 📚 Type Theory and Formal Proof: An Introduction
- 📚 Type Theory and Functional Programming
- Advanced Programming Languages
- Compiler Engineer Path
- Learn Type Theory
- PLR & Compiler Learning Path
- Programming Language Theory Path
- So You Want to Be a (Compiler) Wizard
- Programming languages resources
- A miniature model of the Typescript compiler
- An interpreter for the Lox programming language
- An interpreter for the Monkey programming language
- How the TypeScript compiler works
- 📜 10 papers that all PhD students in programming languages ought to know
- 📜 A syntactic approach to type soundness
- 📜 A Theory of Type Polymorphism in Programming
- 📜 Abstracting Gradual Typing
- 📜 An Axiomatic Basis for Computer Programming
- 📜 Call-by-name, call-by-value, and the λ-calculus
- 📜 Classic Papers in Programming Languages and Logic
- 📜 Efficient Gradual Typing
- 📜 Fundamental concepts in programming languages
- 📜 Gradual Type Theory
- 📜 Gradual Typing for Functional Languages
- 📜 Gradual Typing: A New Perspective
- 📜 How Statically-Typed Functional Programmers Write Code
- 📜 Migrating Gradual Types
- 📜 On Model Subtyping
- 📜 On Understanding Types, Data Abstraction, and Polymorphism
- 📜 Papers on programming languages: ideas from 70's for today
- 📜 Papers to read
- 📜 Pluggable Type Systems
- 📜 Programming in Homotopy Type Theory
- 📜 Refined Criteria for Gradual Typing
- 📜 Static Typing Where Possible, Dynamic Typing When Needed: The End of the Cold War Between Programming Languages
- 📜 The Behavior of Gradual Types: A User Study
- 📜 The Design Principles of the Elixir Type System
- 📜 The Next 700 Programming Languages
- 📜 Towards a theory of type structure
- 📜 Towards Practical Gradual Typing
- 📜 Type Inference Algorithms
- 📜 Type Inference for Records in a Natural Extension of ML
- 📜 Type Systems for Object-Oriented Programming Languages
- 📜 Type Systems
- 📜 What every compiler writer should know about programmers
- 📜 Why Dependent Types Matter
- 🎥 A Language Creators' Conversation: Guido van Rossum, James Gosling, Larry Wall & Anders Hejlsberg
- 🎥 A Tale of Two Asyncs: Open Source Language Design in Rust and Node.js
- 🎥 Another Go at Language Design
- 🎥 Bjarne Stroustrup : C++: evolving a useful language
- 🎥 Concepts of Programming Languages
- 🎥 CS520 Theories of Programming Languages — KAIST
- 🎥 Delimited Continuations, Demystified by Alexis King
- 🎥 Going beyond JavaScript
- 🎥 Growing a Language, by Guy Steele
- 🎥 How Rust does OSS
- 🎥 JavaScript Static Analysis for Evolving Language Specifications
- 🎥 Linguistics and Compilers
- 🎥 On understanding types, data abstraction and effects
- 🎥 Principles of Programming Languages by Robert M. Siegfried
- 🎥 Principles of Programming Languages
- 🎥 Rob Pike - What We Got Right, What We Got Wrong
- 🎥 So many programming languages so little time
- 🎥 Stephanie Weirich speaks about Programming Language Design
- 🎥 The Economics of Programming Languages
- 🎥 The Mess We're In
- 🎥 The Next Programming Language - Douglas Crockford
- 🎥 What's Next for Our Programming Languages
- 🎥 Why Programming Languages Matter
- 📜 Programming language semantics: It’s easy as 1,2,3
- 📜 Programming Language Semantics
- 📝 A Frontend Programmer's Guide to Languages
- 📝 Building a Debugger: Code Analysis
- 📝 Concepts of Programming Languages
- 📝 Grammars for programming languages
- 📝 How To Create Your Own Programming Language
- 📝 Language-oriented software engineering
- 📝 Let’s Build a Programming Language
- 📝 Minimalism in Programming Language Design
- 📝 Panel: The Future of Programming Languages
- 📝 Principles of Programming Languages
- 📝 Programming and Programming Languages
- 📝 Programming Language and Compilers Reading List
- 📝 Programming Language Foundations in Agda
- 📝 Programming language theory and practice in ReScript
- 📝 Shriram Krishnamurthi and Joe Gibbs Politz - Programming Languages: Application and Interpretation
- 📝 The Programming Language Enthusiast
- 📝 The Study of Programming Languages
- 📝 Why Study Programming Languages
- 🎥 Anders Hejlsberg on Modern Compiler Construction
- 🎥 Building a parser in C#, from first principles
- 🎥 Compiler Design course
- 🎥 How To Build A Programming Language From Scratch
- 🎥 How would compilers change in the next 10 years?
- 🎥 Implementing a bignum calculator
- 🎥 JavaScript ∩ WebAssembly
- 🎥 JavaScript implementation in SpiderMonkey
- 🎥 KAIST CS420: Compiler Design
- 🎥 Lexical Scanning in Go
- 🎥 Mozilla Hacks Compiler Compiler
- 🎥 Quick look at the TypeScript Compiler API
- 🎥 Rethinking compiler technology in a heterogeneous world
- 🎥 The business of selling compilers
- 🎥 Typescript Compiler explained by the Author Anders Hejlsberg
- 🎥 Understanding compiler optimization
- 📝 A miniature model of the Typescript compiler
- 📝 Alias analysis in React Compiler
- 📝 Alias analysis
- 📝 An Incremental Approach to Compiler Construction
- 📝 An Introduction to Interpreters and JIT Compilation
- 📝 AST (Abstract Syntax Tree)
- 📝 Bob Nystrom - Expression Parsing Made Easy
- 📝 Building a Parser from scratch
- 📝 Compiler Theory and Reactivity
- 📝 Compilers and Interpreters
- 📝 Compilers Resources
- 📝 Compilers: Nuts and bolts of Programming Languages
- 📝 Compiling Scheme to C with closure conversion
- 📝 Compiling to Java
- 📝 Compiling to lambda-calculus
- 📝 Douglas Crockford - Top Down Operator Precedence
- 📝 Dr. Dobbs - Bob: A Tiny Object-Oriented Language
- 📝 Flattening ASTs (and Other Compiler Data Structures)
- 📝 Fredrik Lundh - Simple Town-Down Parsing In Python
- 📝 Garbage Collection Algorithms
- 📝 How to implement a programming language in JavaScript
- 📝 IU Compiler Course
- 📝 Jack W. Crenshaw - Let’s Build a Compiler!
- 📝 Language grammar
- 📝 Lessons from Writing a Compiler
- 📝 Let's build a compiler
- 📝 Let's make a Teeny Tiny compiler, part 1
- 📝 Let's make a Teeny Tiny compiler, part 2
- 📝 Let's make a Teeny Tiny compiler, part 3
- 📝 Lexical Analysis
- 📝 Lexing in JS style
- 📝 Make a Lisp
- 📝 Nick Desaulniers - Interpreter, Compiler, JIT
- 📝 Parsing Algorithms
- 📝 Pursuit of Performance on Building a JavaScript Compiler
- 📝 Resources for Amateur Compiler Writers
- 📝 Scheme from Scratch - Introduction
- 📝 TypeScript Compiler Notes
- 📝 Understanding GC in JSC From Scratch
- 📝 Which Interpreters are Faster, AST or Bytecode?
- 📝 Write you a Haskell
- 🎥 Compiling with Continuations or without? Whatever
- 📝 Continuation-passing style in JavaScript
- 📝 Continuation-passing style
- 🎥 Cheaply writing a fast interpreter
- 💻 Building an Interpreter from scratch
- 💻 Crafting an Interpreter
- 📝 (How to Write a (Lisp) Interpreter (in Python))
- 📝 A Python Interpreter Written in Python
- 📝 Building an Interpreter
- 📝 Crafting Interpreters
- 📝 How languages work #1: String interpolation
- 📝 Implementing a Simple Compiler on 25 Lines of JavaScript
- 📝 Let’s Build A Simple Interpreter
- 📝 Little lisp interpreter
- 📝 Little Lisp interpreter
- 📝 Pratt Parsers: Expression Parsing Made Easy
- 📝 What do people mean when they say “transpiler”?
- 🎥 "Hindley-Milner Type Inference — Part 1
- 🎥 "Hindley-Milner Type Inference — Part 2
- 🎥 "Propositions as Types" by Philip Wadler
- 🎥 A Taste of Type Theory
- 🎥 A Type System From Scratch
- 🎥 Bringing Types to Elixir by Giuseppe Castagna and Guillaume Duboc
- 🎥 Discrete Math — Dr. Trefor Bazett
- 🎥 Gradual Type Theory
- 🎥 Gradual Typing: A New Perspective
- 🎥 How to Evaluate the Performance of Gradual Type Systems
- 🎥 Let's build a typesystem in Haskell!
- 🎥 The Hindley-Milner Type System
- 🎥 Thinking with Types
- 🎥 Type Systems - The Good, Bad and Ugly
- 🎥 Type-safe embedded domain-specific languages 1/4
- 🎥 Type-safe embedded domain-specific languages 2/4
- 🎥 Type-safe embedded domain-specific languages 3/4
- 🎥 Type-safe embedded domain-specific languages 4/4
- 🎥 Types and Programming Languages Book club
- 🎥 Types are like the Weather, Type Systems are like Weathermen
- 🎥 Typing the Untyped: Soundness in Gradual Type Systems
- 🎥 What is Decidable about Gradual Types?
- 🎥 Why Static Typing Came Back
- 💻 Building a Typechecker from scratch
- 📜 How to evaluate the performance of gradual type systems
- 📜 Optimizing and Evaluating Transient Gradual Typing
- 📜 Putting gradual types to work
- 📜 Safe & Efficient Gradual Typing for TypeScript
- 📜 What Is Decidable about Gradual Types?
- 📝 A brief introduction to type theory and the univalence axiom
- 📝 A reckless introduction to Hindley-Milner type inference
- 📝 An accessible introduction to type theory and implementing a type-checker
- 📝 Bootstrapping a Type System
- 📝 Gradual Typing from Theory to Practice
- 📝 Hindley-Milner Type Checking AST
- 📝 How should I read type system notation?
- 📝 Introduction to Type Theory
- 📝 MyPy TypeChecker
- 📝 Programming and Programming Languages: Type Inference
- 📝 Propositions as types: explained
- 📝 Python internals: Symbol tables, part 1
- 📝 Python internals: Symbol tables, part 2
- 📝 Strong arrows: a new approach to gradual typing
- 📝 Type Checking If Expressions
- 📝 Type inference under the hood
- 📝 Type system of the React compiler
- 📝 Type Systems by Luca Cardelli, Microsoft Research
- 📝 Type Theory Workshop
- 📝 Understanding types as sets
- 📝 What is Gradual Typing
- 📚 A Science of Concurrent Programs
- 📚 The Art of Multiprocessor Programming
- 📚 The Parallel Event Loop Model and Runtime
- 🎥 A horrifically deep dive into TypeScript module resolution
- 🎥 A Trip into the Compiler
- 🎥 Advanced Types in TypeScript
- 🎥 AreTheTypesWrong with Andrew Branch
- 🎥 Hidden Gems of TypeScript compiler
- 🎥 How safe is "safe enough" for TypeScript
- 🎥 How the TypeScript Compiler Compiles
- 🎥 The Road to Private Methods
- 🎥 Type Level Programming in TypeScript
- 🎥 Typescript Performance: Going Beyond The Surface
- 🎥 TypeScript Performance
- 🎥 Typescript Type System
- 📝 @typescript/analyze-trace
- 📝 A preview of Ezno's checker
- 📝 An Introduction To Type Programming In TypeScript
- 📝 Debugging the TypeScript Codebase
- 📝 Designing with types: Making illegal states unrepresentable
- 📝 Investigating TypeScript compiler APIs
- 📝 JavaScript scope, Closures, and the TypeScript compiler
- 📝 Making Sense of TypeScript Generics
- 📝 Making sense of TypeScript using set theory
- 📝 Modules in TypeScript
- 📝 Optimizing TypeScript Memory Usage
- 📝 Reconstructing TypeScript, part 0: intro and background
- 📝 Reconstructing TypeScript, part 1: bidirectional type checking
- 📝 Reconstructing TypeScript, part 2: functions and function calls
- 📝 Reconstructing TypeScript, part 3: operators and singleton types
- 📝 Reconstructing TypeScript, part 4: union types
- 📝 Reconstructing TypeScript, part 5: intersection types
- 📝 Reconstructing TypeScript, part 6: narrowing
- 📝 Static TypeScript
- 📝 Type level programming in TypeScript
- 📝 Types as axioms, or: playing god with static types
- 📝 TypeScript / How the compiler compiles
- 📝 TypeScript and the dawn of gradual types
- 📝 TypeScript AST Resources
- 📝 TypeScript Bytecode Interpreter / Runtime Types
- 📝 TypeScript Compiler API: Improve API Integrations Using Code Generation
- 📝 TypeScript Compiler Internals
- 📝 TypeScript Compiler Manual
- 📝 TypeScript Modules - Theory
- 📝 TypeScript Performance Tracing
- 📝 TypeScript Performance
- 📝 TypeScript's type-independent output
- 📝 The Making of a TypeScript Feature: Inferring Type Predicates
- 🎥 Create Your Own JavaScript Runtime
- 🎥 Ectype - bringing type safety (and more!) to vanilla JavaScript
- 🎥 Implementing one feature set in two JavaScript engines
- 🎥 JavaScript and C++ in Node.js core
- 🎥 Node.js startup performance
- 🎥 Static Hermes: the Next Generation of Hermes
- 🎥 TC39 – From the proposal to ECMAScript - Step by Step
- 📝
SingleEscapeCharacter - 📝 Automatic semicolon insertions in JavaScript
- 📝 Deep JavaScript
- 📝 Empty Statement
- 📝 From Research Prototypes to Continuous Integration: Guiding the Design and Implementation of JavaScript
- 📝 JavaScript Closures
- 📝 JavaScript Garbage Collector
- 📝 JavaScript Memory management
- 📝 JavaScript Static Analysis for Evolving Language Specifications
- 📝 Relation of Garbage Collector and Closure in JavaScript
- 📝 V8: full compiler
- 📝 V8: Garbage Collection
- 🎥 Things I Learned (TIL) - Nicholas Matsakis
- 📝 Notes on a smaller Rust
- 📝 Removing Garbage Collection From the Rust Language
- 📝 Rust fact vs. fiction: 5 Insights from Google's Rust journey in 2022
- 📝 Rust: Project Goals
- 📝 Rust's language ergonomics initiative
- 📝 Why Static Languages Suffer From Complexity
- 🎥 A JIT Compiler for CPython
- 🎥 Python's type system explained: Static vs dynamic typing | Guido van Rossum
- 🎥 The internet computer
- 🎥 Servo: Designing and Implementing a Parallel Browser
- 🎥 Servo: A Web View From Somewhere Else
- 🎥 Intro to Rust-lang (Building the Dom and an HTML Parser)
- 🎥 Intro to Rust-lang (Adding a Style Tree to our Browser)
- 🎥 Intro to Rust-lang (Adding a CSS engine and CSS parsing to our Browser)
- 🎥 Intro to Rust (Building a Browser Engine: Commands and Rendering in OpenGL)
- 🎥 In The Loop - setTimeout, micro tasks, requestAnimationFrame, requestIdleCallback
- 🎥 Critical rendering path - Crash course on web performance
- 🎥 Chrome University 2018: Life of a Script
- 🎥 Browser From Scratch Live Streams
- 📚 Web Browser Engineering
- 📝 Browser from scratch
- 📝 Browser from Scratch
- 📝 Browser Performance
- 📝 Building a Rust Web Browser
- 📝 Concurrent JavaScript: It can work!
- 📝 David Baron's blog: Blink engineer
- 📝 How Browsers Work: Behind the scenes of modern web browsers
- 📝 How browsers work
- 📝 Key data structures and their roles in RenderingNG
- 📝 Let's build a browser engine!
- 📝 Notes on how browsers work
- 📝 Notes on JavaScript Interpreters
- 📝 Notes on Javascript Memory Profiling in Google Chrome
- 📝 Overview of the RenderingNG architecture
- 📝 reflows & repaints: css performance making your javascript slow?
- 📝 Rendering: repaint, reflow/relayout, restyle
- 📝 RenderingNG deep-dive: LayoutNG
- 📝 RenderingNG: an architecture that makes and keeps Chrome fast for the long term
- 📝 Round-up of web browser internals resources
- 📝 Understanding Reflow and Repaint in the browser
- 📝 Web Browser Engineering
- 📝 What forces layout / reflow
- 🎥 Algebraic effects, Fibers, Coroutines
- 🎥 React Forget: React for developers and compilers
- 📝 Algebraic Effects for React Developers
- 📝 Algebraic Effects for the Rest of Us
- 📝 PL web frameworks
- 📝 React - Basic Theoretical Concepts
- 📝 React Concurrent mode
- 📝 TypeScript + fp-ts: ReaderTaskEither and React
- Chromium Engineer at Browser Company
- Senior Software Engineer at Mozilla Corporation
- JavaScript Virtual Machine Compiler Engineer at Apple
- Compiler Jobs
- Swift Type System Engineer
- Compiler Engineer
- Groq Compiler Engineer
- Modular AI Compiler Engineer
- Programming Language and Compiler Research Groups
- Indiana University Bloomington
- KAIST Programming Language Research Group
- Tokyo Institute of Technology
- Anders Hejlsberg
- Bob Nystrom
- Cynthia Richey
- Dmitry Soshnikov
- Gavin Bierman
- Gilad Bracha
- Graham Hutton
- Jihyeok Park
- Lexi Lambda
- Mads Torgersen
- Matthias Felleisen
- Niko Matsakis
- Patrick Walton
- Paulette Koronkevich
- Programming Linnguistics
- Researchers in Programming Languages and Compilers
- Roberto Giacobazzi
- Simon Peyton Jones
- StackExchange: Programming Language Design and Implementation
- Stefan Marr
- Sukyoung Ryu
- Ronald Garcia
- TK