const path = require('path') const timers = require('timers') const Module = require('module') process.atomBinding = function (name) { try { return process.binding('atom_' + process.type + '_' + name) } catch (error) { if (/No such module/.test(error.message)) { return process.binding('atom_common_' + name) } } } if (!process.env.ELECTRON_HIDE_INTERNAL_MODULES) { // Add common/api/lib to module search paths. Module.globalPaths.push(path.join(__dirname, 'api')) } // setImmediate and process.nextTick makes use of uv_check and uv_prepare to // run the callbacks, however since we only run uv loop on requests, the // callbacks wouldn't be called until something else activated the uv loop, // which would delay the callbacks for arbitrary long time. So we should // initiatively activate the uv loop once setImmediate and process.nextTick is // called. var wrapWithActivateUvLoop = function (func) { return function () { process.activateUvLoop() return func.apply(this, arguments) } } process.nextTick = wrapWithActivateUvLoop(process.nextTick) global.setImmediate = wrapWithActivateUvLoop(timers.setImmediate) global.clearImmediate = timers.clearImmediate if (process.type === 'browser') { // setTimeout needs to update the polling timeout of the event loop, when // called under Chromium's event loop the node's event loop won't get a chance // to update the timeout, so we have to force the node's event loop to // recalculate the timeout in browser process. global.setTimeout = wrapWithActivateUvLoop(timers.setTimeout) global.setInterval = wrapWithActivateUvLoop(timers.setInterval) } // If we're running as a Windows Store app, __dirname will be set // to C:/Program Files/WindowsApps. // // Nobody else get's to install there, changing the path is forbidden // We can therefore say that we're running as appx if (process.platform === 'win32' && __dirname.indexOf('\\Program Files\\WindowsApps\\') === 2) { process.windowsStore = true }