Doesn't code take an efficiency hit by being synchronous? Why is coding synchronously a win? I found these two links in doing some research: http://bjouhier.wordpress.com/2012/03/11/fibers-and-threads-in-node-js-what-for/, https://github.com/Sage/streamlinejs/

If the goal is to prevent spaghetti code, then clearly you can have asynchronous code, with streamline.js for example, that isn't a callback pyramid, right?

2 Answers 2


You have to distinguish two things here:

  • Synchronous functions like node's fs.readFileSync, fs.statSync, etc. All these functions have a Sync in their names (*). These functions are truly synchronous and blocking. If you call them, you block the event loop and you kill node's performance. You should only use these functions in your server's initialization script (or in command-line scripts).
  • Libraries and tools like fibers or streamline.js. These solutions allow you to write your code in sync-style but the code that you write with them will still execute asynchronously. They do not block the event loop.

(*) require is also blocking.

Meteor uses fibers. Its code is written in sync-style but it is non-blocking.

The win is not on the performance side (these solutions have their own overhead so they may be marginally slower but they can also do better than raw callbacks on specific code patterns like caching). The win, and the reason why these solutions have been developed, is on the usability side: they let you write your code in sync-style, even if you are calling asynchronous functions.

Jan 25 2017 edit: I created 3 gists to illustrate non-blocking fibers: fibers-does-not-block.js, fibers-sleep-sequential.js, fibers-sleep-parallel.js

  • "They do not block the event loop." The statement is misleading as fibers have to block the event loop in critical sections. It is up to developer to decide what the critical sections are and use fibers appropriately.
    – ashim
    Commented Jan 18, 2017 at 23:14
  • @ashim. This is wrong: fibers are non-preemptive; context switches between fibers are implemented by libcoro and are completely decoupled from the event loop. Commented Jan 20, 2017 at 9:55
  • I am confused. If I put i/o operations inside a fiber, between fiber.run() fiber.yield() commands, then the rest of the program is going to wait until that section of code executed. How it is not blocking? Am I misunderstanding something?
    – ashim
    Commented Jan 22, 2017 at 17:37
  • Your fiber will start the I/O operation and then call Fiber.yield(). This yield will save the context and transfer control to the main loop which will process all the callbacks, as usual. When your I/O callback eventually fires, it will call fiber.run() from the main loop to resume execution of your fiber where it yielded before. The event loop is never blocked; it runs while your code appears to block on Fiber.yield(). Same thing with async/await: main loop runs everywhere your code awaits. Commented Jan 23, 2017 at 20:27
  • I created a small gist to illustrate callbacks firing during Fiber.yield(): gist.github.com/bjouhier/7d660269b6fae13b7e33081d391c665d Commented Jan 24, 2017 at 22:21

The code is not "synchronous" when using something like streamlinejs. The actual code will still run asynchronously. It's not very pretty to write lots of anonymous callback functions, thats where these things helps.

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