A miniature model of the Typescript compiler, intended to teach the structure of the real Typescript compiler
This project contains two models of the compiler: micro-typescript and centi-typescript.
micro-typescript started when I started reading Modern Compiler Implementation in ML because I wanted to learn more about compiler backends. When I started building the example compiler I found I disagreed with the implementation of nearly everything in the frontend. So I wrote my own, and found that I had just written a small Typescript.
I realised a small Typescript would be useful to others who want to learn how the Typescript compiler works. So I rewrote it in Typescript and added some exercises to let you practise with it. micro-typescript is the smallest compiler I can imagine, implementing just a tiny slice of Typescript: var
declarations, assignments and numeric literals. The only two types are string
and number
.
So that's micro-typescript: a textbook compiler that implements a tiny bit of Typescript in a way that's a tiny bit like the Typescript compiler. centi-typescript, on the other hand, is a 1/100 scale model of the Typescript compiler. It's intended as a reference in code for peopple who want to see how the Typescript compiler actually works, without the clutter caused by real-life compatibility and requirements. Currently centi-typescript is most complete in the checker, because most of Typescript's complexity is there.
git clone https://github.com/sandersn/mini-typescript
cd mini-typescript
code .
# Get set up
npm i
npm run build
# Or have your changes instantly happen
npm run build --watch
# Run the compiler:
npm run mtsc ./tests/singleVar.ts
git checkout centi-typescript
npm run build
- This is an example of the way that Typescript's compiler does things. A compiler textbook will help you learn compilers. This project will help you learn Typescript's code.
- This is only a tiny slice of the language, also unlike a textbook. Often I only put it one instance of a thing, like nodes that introduce a scope, to keep the code size small.
- There is no laziness, caching or node reuse, so the checker and transformer code do not teach you those aspects of the design.
- There's no surrounding infrastructure, like a language service or a program builder. This is just a model of tsc.
- Add EmptyStatement.
- Make semicolon a statement ender, not statement separator.
- Hint: You'll need a predicate to peek at the next token and decide if it's the start of an element.
- Bonus: Switch from semicolon to newline as statement ender.
- Add string literals.
- Add
let
.- Make sure the binder resolves variables declared with
var
andlet
the same way. The simplest way is to add akind
property toSymbol
. - Add use-before-declaration errors in the checker.
- Finally, add an ES2015 -> ES5 transform that transforms
let
tovar
.
- Make sure the binder resolves variables declared with
- Allow var to have multiple declarations.
- Check that all declarations have the same type.
- Add objects and object types.
Type
will need to become more complicated.
- Add
interface
.- Make sure the binder resolves types declared with
type
andinterface
the same way. - After the basics are working, allow interface to have multiple declarations.
- Interfaces should have an object type, but that object type should combine the properties from every declaration.
- Make sure the binder resolves types declared with
- Add an ES5 transformer that converts
let
->var
. - Add function declarations and function calls.
- Add arrow functions with an appropriate transform in ES5.