• Nessa aula, você aprendeu como:
• Criar um projeto base com o TSDX, React e Storybook;
• Escrever uma story para apresentar o componente criado no Storybook;
• Construir a biblioteca localmente, para testar o código desenvolvido;
• Importar o componente criado no ambiente de teste local.

Para conseguir acompanhar a criação da aplicação em React, é necessário que você tenha o Node instalado. A versão do node utilizada nas aulas foi a: v16.13.2. Mas não deu certo nesta versão, dando certo na versão v16.14.2

https://www.treinaweb.com.br/blog/instalando-e-gerenciando-varias-versoes-do-node-js-com-nvm

• Nesse projeto, nós não vamos utilizar o npm, mas sim o yarn.

• Caso você não tenha ele disponível, execute o comando: npm i -g yarn

• OBS: o yarn deve ser na versão 4.2.2 (yarn@4.2.2)

• Depois rodar isso para instalar todas as dependências yarn

• Para subir a aplicação com o Storybook já configurado: yarn storybook

• Esse curso vai utilizar o Storybook na versão 6. Se você precisa trabalhar com a versão 7, dá uma olhada na formação de Next.js e Tailwind.

yarn add -D @types/styled-components

yarn build (Para compilar o projeto)

• Entrar em “example”, e fazer um yarn para instalar as dependencias

• Para startar: yarn start

• Subir um projeto para o GitHub;
• Conectar-se ao NPM;
• Configurar o package.json corretamente, para que o pacote seja publicado com sucesso.

1 - Primeiro cria um repositório no GitHub 2 - Na pasta do projeto rodar "git init" 3 - Rodar "git add ." para adicionar todos os arquivos 4 - Fazer o commit (git commit -am "Iniciando o projeto de design system") 5 - git branch -M main 6 - git remote add origin https://github.com/lisifrancis/alurabooks-ds.git 7 - git push -u origin main

1 - Se cadastra gratuitamente no NPM 2 - npm login 3 - npm publish --access=public (publiquei o pacote ds-alurabooks-vlisiane@0.1.0)

1 - npx create-react-app alurabooks-consumer --template typescript 2 - npm start 3 - npm install ds-alurabooks-vlisiane

• Evoluir um componente existente;
• Atualizar uma story para contemplar suas variantes;
• Criar um componente de input de texto;
• Atualizar a versão do pacote NPM manualmente.

1 - Depois de fazer as alterações nos componentes, incrementar a versão no package.json seguindo as regras desse link https://docs.npmjs.com/about-semantic-versioning 2 - npm publish --access=public 3 - git branch 4 - git commit -am 'adicionando variantes do AbBotao' 5 - git push origin main

Automatizando a publicação git e NPM: 1 - yarn add -D auto (-D significa que só vai ser necessário em tempo de desenvolvimento) 2 - Adicionar "release": "auto shipit --base-branch=main" em package.json 3 - Criar e configurar push.yaml em github\workflows 4 - Vai no repositório do projeto no git -> Settings -> Security -> Secrets -> Actions 5 - Clica em "New repository secret" e nomeia como NPM_TOKEN 4 - Para pegar o valor, vai no NPM -> Perfil -> Access Tokens -> gerar um new classic token, marcar Publish, nomeei como "Github Action AluraBooks-DS", gera o token, copia e cola lá no Github 5 - git add . 6 - git commit -am 'adicionando github action' 7 - git push origin main

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Congrats! You just saved yourself hours of work by bootstrapping this project with TSDX. Let’s get you oriented with what’s here and how to use it.

This TSDX setup is meant for developing React component libraries (not apps!) that can be published to NPM. If you’re looking to build a React-based app, you should use create-react-app, razzle, nextjs, gatsby, or react-static.

If you’re new to TypeScript and React, checkout this handy cheatsheet

TSDX scaffolds your new library inside /src, and also sets up a Parcel-based playground for it inside /example.

The recommended workflow is to run TSDX in one terminal:

npm start # or yarn start

This builds to /dist and runs the project in watch mode so any edits you save inside src causes a rebuild to /dist.

Then run either Storybook or the example playground:

Run inside another terminal:

yarn storybook

This loads the stories from ./stories.

NOTE: Stories should reference the components as if using the library, similar to the example playground. This means importing from the root project directory. This has been aliased in the tsconfig and the storybook webpack config as a helper.

Then run the example inside another:

cd example
npm i # or yarn to install dependencies
npm start # or yarn start

The default example imports and live reloads whatever is in /dist, so if you are seeing an out of date component, make sure TSDX is running in watch mode like we recommend above. No symlinking required, we use Parcel's aliasing.

To do a one-off build, use npm run build or yarn build.

To run tests, use npm test or yarn test.

Code quality is set up for you with prettier, husky, and lint-staged. Adjust the respective fields in package.json accordingly.

Jest tests are set up to run with npm test or yarn test.

Calculates the real cost of your library using size-limit with npm run size and visulize it with npm run analyze.

This is the folder structure we set up for you:

/example
  index.html
  index.tsx       # test your component here in a demo app
  package.json
  tsconfig.json
/src
  index.tsx       # EDIT THIS
/test
  blah.test.tsx   # EDIT THIS
/stories
  Thing.stories.tsx # EDIT THIS
/.storybook
  main.js
  preview.js
.gitignore
package.json
README.md         # EDIT THIS
tsconfig.json

We do not set up react-testing-library for you yet, we welcome contributions and documentation on this.

TSDX uses Rollup as a bundler and generates multiple rollup configs for various module formats and build settings. See Optimizations for details.

tsconfig.json is set up to interpret dom and esnext types, as well as react for jsx. Adjust according to your needs.

Two actions are added by default:

• main which installs deps w/ cache, lints, tests, and builds on all pushes against a Node and OS matrix
• size which comments cost comparison of your library on every pull request using size-limit

Please see the main tsdx optimizations docs. In particular, know that you can take advantage of development-only optimizations:

// ./types/index.d.ts
declare var __DEV__: boolean;

// inside your code...
if (__DEV__) {
  console.log('foo');
}

You can also choose to install and use invariant and warning functions.

CJS, ESModules, and UMD module formats are supported.

The appropriate paths are configured in package.json and dist/index.js accordingly. Please report if any issues are found.

The Playground is just a simple Parcel app, you can deploy it anywhere you would normally deploy that. Here are some guidelines for manually deploying with the Netlify CLI (npm i -g netlify-cli):

cd example # if not already in the example folder
npm run build # builds to dist
netlify deploy # deploy the dist folder

Alternatively, if you already have a git repo connected, you can set up continuous deployment with Netlify:

netlify init
# build command: yarn build && cd example && yarn && yarn build
# directory to deploy: example/dist
# pick yes for netlify.toml

Per Palmer Group guidelines, always use named exports. Code split inside your React app instead of your React library.

There are many ways to ship styles, including with CSS-in-JS. TSDX has no opinion on this, configure how you like.

For vanilla CSS, you can include it at the root directory and add it to the files section in your package.json, so that it can be imported separately by your users and run through their bundler's loader.

We recommend using np.

When creating a new package with TSDX within a project set up with Lerna, you might encounter a Cannot resolve dependency error when trying to run the example project. To fix that you will need to make changes to the package.json file inside the example directory.

The problem is that due to the nature of how dependencies are installed in Lerna projects, the aliases in the example project's package.json might not point to the right place, as those dependencies might have been installed in the root of your Lerna project.

Change the alias to point to where those packages are actually installed. This depends on the directory structure of your Lerna project, so the actual path might be different from the diff below.

   "alias": {
-    "react": "../node_modules/react",
-    "react-dom": "../node_modules/react-dom"
+    "react": "../../../node_modules/react",
+    "react-dom": "../../../node_modules/react-dom"
   },

An alternative to fixing this problem would be to remove aliases altogether and define the dependencies referenced as aliases as dev dependencies instead. However, that might cause other problems.