iwmlib/browser/store.js

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const electron = require('electron')
const path = require('path')
const fs = require('fs')
class Store {
constructor(opts) {
// Renderer process has to get `app` module via `remote`, whereas the main process can get it directly
// app.getPath('userData') will return a string of the user's app data directory path.
const userDataPath = (electron.app || electron.remote.app).getPath('userData')
// We'll use the `configName` property to set the file name and path.join to bring it all together as a string
this.path = path.join(userDataPath, opts.configName + '.json')
this.data = parseDataFile(this.path, opts.defaults)
this.data = Object.assign(opts.defaults, this.data)
}
// This will just return the property on the `data` object
get(key) {
return this.data[key]
}
// ...and this will set it
set(key, val) {
this.data[key] = val
// Wait, I thought using the node.js' synchronous APIs was bad form?
// We're not writing a server so there's not nearly the same IO demand on the process
// Also if we used an async API and our app was quit before the asynchronous write had a chance to complete,
// we might lose that data. Note that in a real app, we would try/catch this.
fs.writeFileSync(this.path, JSON.stringify(this.data))
}
}
function parseDataFile(filePath, defaults) {
// We'll try/catch it in case the file doesn't exist yet, which will be the case on the first application run.
// `fs.readFileSync` will return a JSON string which we then parse into a Javascript object
try {
return JSON.parse(fs.readFileSync(filePath))
} catch(error) {
// if there was some kind of error, return the passed in defaults instead.
return defaults
}
}
// expose the class
module.exports = Store