Security News
Supply Chain Attack Detected in Solana's web3.js Library
A supply chain attack has been detected in versions 1.95.6 and 1.95.7 of the popular @solana/web3.js library.
electron-compile
Advanced tools
Electron supporting package to compile JS and CSS in Electron applications
electron-compile compiles JS and CSS on the fly with a single call in your app's 'ready' function.
For JavaScript:
For CSS:
For HTML:
For JSON:
Install electron-prebuilt-compile
instead of the electron
:
npm install electron-prebuilt-compile --save-dev
and keep using electron as usual.
Tada! You did it!
Yeah. electron-prebuilt-compile
is like an electron
that Just Works with all of these languages above.
First, add electron-compile
and electron-compilers
as a devDependency
.
npm install --save electron-compile
npm install --save-dev electron-compilers
Create a new file that will be the entry point of your app (perhaps changing 'main' in package.json) - you need to pass in the root directory of your application, which will vary based on your setup. The root directory is the directory that your package.json
is in.
// Assuming this file is ./src/es6-init.js
var appRoot = path.join(__dirname, '..');
require('electron-compile').init(appRoot, require.resolve('./main'));
From then on, you can now simply include files directly in your HTML, no need for cross-compilation:
<head>
<script src="main.coffee"></script>
<link rel="stylesheet" href="main.less" />
</head>
or just require them in:
require('./mylib') // mylib.ts
In your main file, before you create a BrowserWindow
instance:
import {enableLiveReload} from 'electron-compile';
enableLiveReload();
If you are using React, you can also enable Hot Module Reloading for both JavaScript JSX files as well as TypeScript, with a bit of setup:
npm install --save react-hot-loader@next
enableLiveReload({strategy: 'react-hmr'});
in your main file, after app.ready
(similar to above).compilerc
:{
"application/javascript": {
"presets": ["react", "es2017-node7"],
"plugins": ["react-hot-loader/babel", "transform-async-to-generator"]
}
}
index.html
, replace your initial call to render
:Typical code without React HMR:
import * as React from 'react';
import * as ReactDOM from 'react-dom';
import { MyApp } from './my-app';
ReactDOM.render(<MyApp/>, document.getElementById('app'));
Rewrite this as:
import * as React from 'react';
import * as ReactDOM from 'react-dom';
import { AppContainer } from 'react-hot-loader';
const render = () => {
// NB: We have to re-require MyApp every time or else this won't work
// We also need to wrap our app in the AppContainer class
const MyApp = require('./myapp').MyApp;
ReactDOM.render(<AppContainer><MyApp/></AppContainer>, document.getElementById('app'));
}
render();
if (module.hot) { module.hot.accept(render); }
electron-compile uses the debug module, set the DEBUG environment variable to debug what electron-compile is doing:
## Debug just electron-compile
DEBUG=electron-compile:* npm start
## Grab everything except for Babel which is very noisy
DEBUG=*,-babel npm start
If you've got a .babelrc
and that's all you want to customize, you can simply use it directly. electron-compile will respect it, even the environment-specific settings. If you want to customize other compilers, use a .compilerc
or .compilerc.json
file. Here's an example:
{
"application/javascript": {
"presets": ["es2016-node5", "react"],
"sourceMaps": "inline"
},
"text/less": {
"dumpLineNumbers": "comments"
}
}
.compilerc
also accepts environments with the same syntax as .babelrc
:
{
"env": {
"development": {
"application/javascript": {
"presets": ["es2016-node5", "react"],
"sourceMaps": "inline"
},
"text/less": {
"dumpLineNumbers": "comments"
}
},
"production": {
"application/javascript": {
"presets": ["es2016-node5", "react"],
"sourceMaps": "none"
}
}
}
}
The opening Object is a list of MIME Types, and options passed to the compiler implementation. These parameters are documented here:
With passthrough
enabled, electron-compile will return your source files completely unchanged!
In this example .compilerc
, JavaScript files won't be compiled:
{
"application/javascript": {
"passthrough": true
},
"text/less": {
"dumpLineNumbers": "comments"
}
}
By far, the easiest way to do this is via using electron-forge. electron-forge handles every aspect of packaging your app on all platforms and helping you publish it. Unless you have a very good reason, you should be using it!
electron-compile comes with a command-line application to pre-create a cache for you.
Usage: electron-compile --appdir [root-app-dir] paths...
Options:
-a, --appdir The top-level application directory (i.e. where your
package.json is)
-v, --verbose Print verbose information
-h, --help Show help
Run electron-compile
on all of your application assets, even if they aren't strictly code (i.e. your static assets like PNGs). electron-compile will recursively walk the given directories.
electron-compile --appDir /path/to/my/app ./src ./static
Compilation also has its own API, check out the documentation for more information.
FAQs
Electron supporting package to compile JS and CSS in Electron applications
The npm package electron-compile receives a total of 3,658 weekly downloads. As such, electron-compile popularity was classified as popular.
We found that electron-compile demonstrated a not healthy version release cadence and project activity because the last version was released a year ago. It has 2 open source maintainers collaborating on the project.
Did you know?
Socket for GitHub automatically highlights issues in each pull request and monitors the health of all your open source dependencies. Discover the contents of your packages and block harmful activity before you install or update your dependencies.
Security News
A supply chain attack has been detected in versions 1.95.6 and 1.95.7 of the popular @solana/web3.js library.
Research
Security News
A malicious npm package targets Solana developers, rerouting funds in 2% of transactions to a hardcoded address.
Security News
Research
Socket researchers have discovered malicious npm packages targeting crypto developers, stealing credentials and wallet data using spyware delivered through typosquats of popular cryptographic libraries.