Note that JavaScript libraries are not packaged in Nix. Only JavaScript applications are.
Building the package:
nix-build -E '(import ./pkgs.nix {}).callPackage ./default.nix {}'
Building the releases:
nix-build ./release.nix --attr application
nix-build ./release.nix --attr docker
nix-build ./release.nix --attr package.linux.x64.elf
nix-build ./release.nix --attr package.windows.x64.exe
nix-build ./release.nix --attr package.macos.x64.macho
Install into Nix user profile:
nix-env -f ./release.nix --install --attr application
Install into Docker:
loaded="$(docker load --input "$(nix-build ./release.nix --attr docker)")"
image="$(cut -d' ' -f3 <<< "$loaded")"
docker run -it "$image"
Run nix-shell
, and once you're inside, you can use:
# install (or reinstall packages from package.json)
npm install
# build the dist
npm run build
# run the repl (this allows you to import from ./src)
npm run ts-node
# run the tests
npm run test
# lint the source code
npm run lint
# automatically fix the source
npm run lintfix
When calling executables in development, use this style:
npm run typescript-demo-lib -- p1 p2 p3
The --
is necessary to make npm
understand that the parameters are for your own executable, and not parameters to npm
.
$ npm run ts-node
> import fs from 'fs';
> fs
> import { Library } from '@';
> Library
> import Library as Library2 from './src/lib/Library';
You can also create test files in ./src
, and run them with npm run ts-node ./src/test.ts
.
This allows you to test individual pieces of typescript code, and it makes it easier when doing large scale architecting of TypeScript code.
Due to microsoft/TypeScript#10866, you cannot use path aliases without a bundler like Webpack to further transform the generated JavaScript code in order to resolve the path aliases. Because this is a simple library demonstration, there's no need to use a bundler. In fact, for such libraries, it is far more efficient to not bundle the code.
However, we have left the path alias configuration in tsconfig.json
, jest.config.js
and in the tests we are making use of the @
alias.
When developing on multiple NPM packages, it can be easier to use npm link
so that changes are immediately reflected rather than repeatedly publishing packages. To do this, you need to use npm link
. After linking a local directory, you need to provide tsconfig.json
paths so TypeScript compiler can find the right files.
For example when linking @matrixai/db
located in ../js-db
:
npm link ../js-db
You would need to add these paths to tsconfig.json
:
"paths": {
"@": ["index"],
"@/*": ["*"],
"@matrixai/db": ["../node_modules/@matrixai/db/src"],
"@matrixai/db/*": ["../node_modules/@matrixai/db/src/*"]
},
There are some nuances when packaging with native modules. Included native modules are level witch include leveldown and utp-native.
If a module is not set to public then pkg defaults to including it as bytecode.
To avoid this breaking with the --no-bytecode
flag we need to add --public-packages "*"
To get leveldown to work with pkg we need to include the prebuilds with the executable.
after building with pkg you need to copy from node_modules/leveldown/prebuilds
-> path_to_executable/prebuilds
You only need to include the prebuilds for the arch you are targeting. e.g. for linux-x64 you need prebuild/linux-x64
.
The folder structure for the executable should look like this.
- linux_executable_elf
- prebuilds
- linux-x64
- (node files)
- linux-x64
Including utp-native is simpler, you just need to add it as an asset for pkg. Add the following lines to the package.json.
"pkg": {
"assets": "node_modules/utp-native/**/*"
}
To make sure that the worker threads work properly you need to include the compiled worker scripts as an asset.
This can be fixed by adding the following to package.json
"pkg": {
"assets": "dist/bin/worker.js"
}
If you need to include multiple assets then add them as an array.
"pkg": {
"assets": [
"node_modules/utp-native/**/*",
"dist/bin/worker.js"
]
}
npm run docs
See the docs at: https://matrixai.github.io/TypeScript-Demo-Lib-Native/
Publishing is handled automatically by the staging pipeline.
Prerelease:
# npm login
npm version prepatch --preid alpha # premajor/preminor/prepatch
git push --follow-tags
Release:
# npm login
npm version patch # major/minor/patch
git push --follow-tags
Manually:
# npm login
npm version patch # major/minor/patch
npm run build
npm publish --access public
git push
git push --tags