I have been considering adding threaded procedures to my application to speed up execution, but the problem is that I honestly have no idea how to use threads, or what is considered "thread safe". For example, how does a game engine utilize threads in its rendering processes, or in what contexts would threads only be considered nothing but a hindrance? Can someone point the way to some resources to help me learn more or explain here?

closed as not a real question by Kev Nov 3 '11 at 14:02

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    That is extremely general. A thread is just a worker that executes commands. "Thread safety" is making sure that two or more threads don't cause problems when they interact. As far as a game engine utilizing threads...there are about a million ways to do that. – Travis Gockel Jan 23 '10 at 1:10
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    To be blunt. Forget about adding threads. This is like saying you have a basic understanding of first aid and wanting to do brain surgery. Go back and learn the basics. – Martin York Jan 23 '10 at 2:04
  • This question is just too broad to be answered in any reasonable way. – Kev Nov 3 '11 at 14:03

10 Answers 10


This is a very broad topic. But here are the things I would want to know if I knew nothing about threads:

  • They are units of execution within a single process that happen "in parallel" - what this means is that the current unit of execution in the processor switches rapidly. This can be achieved via different means. Switching is called "context switching", and there is some overhead associated with this.

  • They can share memory! This is where problems can occur. I talk about this more in depth in a later bullet point.

  • The benefit of parallelizing your application is that logic that uses different parts of the machine can happen simultaneously. That is, if part of your process is I/O-bound and part of it is CPU-bound, the I/O intensive operation doesn't have to wait until the CPU-intensive operation is done. Some languages also allow you to run threads at the same time if you have a multicore processor (and thus parallelize CPU-intensive operations as well), though this is not always the case.

  • Thread-safe means that there are no race conditions, which is the term used for problems that occur when the execution of your process depends on timing (something you don't want to rely on). For example, if you have threads A and B both incrementing a shared counter C, you could see the case where A reads the value of C, then B reads the value of C, then A overwrites C with C+1, then B overwrites C with C+1. Notice that C only actually increments once!

  • A couple of common ways avoid race conditions include synchronization, which excludes mutual access to shared state, or just not having any shared state at all. But this is just the tip of the iceberg - thread-safety is quite a broad topic.

I hope that helps! Understand that this was a very quick introduction to something that requires a good bit of learning. I would recommend finding a resource about multithreading in your preferred language, whatever that happens to be, and giving it a thorough read.

  • That helped me tremendously! Thank you! – Orm Jan 23 '10 at 1:22
  • +1 good introduction to the topic. – Grundlefleck Jan 23 '10 at 1:22
  • @Orm: very welcome; I'm glad it was helpful. – danben Jan 23 '10 at 1:24
  • That actually gives me an idea about how to thread my rendering. Split the container with the stored game objects in half then have two threads simultaneously render either the first or second half. Or split the container into quarters or eights. If I am wrong in this, stop me now. – Orm Jan 23 '10 at 1:34
  • @Orm: I am not familiar with games development, but I guess that the bottleneck is the actual rendering to the screen? So if you have several threads going through the game objects to create the off-screen buffers for the image, and the renderer can quickly swap in the pre-computed buffers, then that should speed it up. You then have to be careful about how these threads then split up which objects to render, your splitting up idea sounds reasonable. – Grundlefleck Jan 23 '10 at 1:41

There are four things you should know about threads.

  1. Threads are like processes, but they share memory.

  2. Threads often have hardware, OS, and language support, which might make them better than processes.

  3. There are lots of fussy little things that threads need to support (like locks and semaphores) so they don't get the memory they share into an inconsistent state. This makes them a little difficult to use.

  4. Locking isn't automatic (in the languages I know), so you have to be very careful with the memory they (implicitly) share.


Threads don't speed up applications. Algorithms speed up applications. Threads can be used in algorithms, if appropriate.

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    Threads can speed up your application, under certain conditions. Such as when serial, blocking tasks can be split up into parallel tasks. The effect is increased on multi-core systems, which is becoming the norm. Consider a task which must make a TCP/IP request and wait for a response. If this task blocks on one thread, 10 of them will take 10x the time. If parallelised, this can be reduced to just over 1x the amount of time. – Grundlefleck Jan 23 '10 at 1:18
  • ... or is this just a correction of terminology? :) – Grundlefleck Jan 23 '10 at 1:21
  • Yeah, I have studied in an algorithms class and am always studying algorithms, but I wanted to broaden my horizons a bit more with multi-core processors becoming the norm. – Orm Jan 23 '10 at 1:32
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    For the negative voter: I'm a firm believer that you only introduce threads into an algorithm when it makes sense. No sooner. – Richard Pennington Jan 23 '10 at 2:47

Well someone will probably answer this better, but threads are for the purpose of having background processing that won't freeze the user interface. You don't want to stop accepting keyboard input or mouse input, and tell the user, "just a moment, I want to finish this computation, it will only be a few more seconds." (And yet its amazing how many times commercial programs do this.

As far as thread safe, it means a function that does not have some internal saved state. If it did you couldn't have multiple threads using it simutaneously.

As far as thread programming you just have to start doing it, and then you'll start encountering various issues unique to thread programming, for example simultaneuous access to data, in which case you have to decide to use some syncronization method such as critical sections or mutexes or something else, each one having slightly different nuances in their behavior.

As far as the differences between processes and threads (which you didn't ask) processes are an OS level entity, whereas threads are associated with a program. In certain instances your program may want to create a process rather than a thread.

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    Though anything stateless is thread-safe, thread-safe does NOT mean stateless – danben Jan 23 '10 at 1:17
  • Sorry, I'm in a picky mood... "... threads are for the purpose of having background processing that won't freeze the user interface." - that reads as if that is the exclusive purpose of threading, which is definitely not true, though it is one of the uses. – Grundlefleck Jan 23 '10 at 1:20

Threads are simply a way of executing multiple things simultaneously (assuming that the platform on which they are being run is capable of parallel execution). Thread safety is simply (well, nothing with threads is truly simple) making sure that the threads don't affect each other in harmful ways.

In general, you are unlikely to see systems use multiple threads for rendering graphics on the screen due to the multiple performance implications and complexity issues that may arise from that. Other tasks related to state management (or AI) can potentially be moved to separate threads however.


First rule of threading: don't thread. Second rule of threading: if you have to violate rule one...don't. Third rule: OK, fine you have to use threads, so before proceeding get your head into the pitfalls, understand locking and the common thread problems such as deadlock and livelocking.

Understand that threading does not speed up anything, it is only useful to background long-running processes allowing the user can do something else with the application. If you have to allow the user to interact with the application while the app does something else in the background, like poll a socket or wait for ansynchronous input from elsewhere in the application, then you may indeed require threading.

The thread sections in both Effective Java and Clean Code are good introductions to threads and their pitfalls.

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    First rule of generalizations: don't generalize. – danben Jan 23 '10 at 1:27
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    Multithreading does provide a speedup when you have a parallelizable, CPU-bound task and there are multiple processors (or cores) available. Divide the work into n threads and get the job done in roughly 1/n time, where n is less than or equal to the number of processors. – Wyzard Jan 23 '10 at 6:16
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    This is true, and more applicable these days with more multi-core processors than ever. Point taken. But utilizing threads simply for optimization even in multi-processor environments is a dicey proposition, advisable only if your architecture is necessarily asynchronous, for instance when writing a server of some kind that will spin off multiple workers, etc. – Dave Sims Jan 23 '10 at 14:05
  • The point I was trying to make (and probably botched) about "don't thread" is that threading introduces a host of risks and unpredictability to your codebase that it is advisable to avoid if you possibly can. Threading for its own sake just to "speed up" an application is not a good idea, particularly in OO environments where locks, mutexes and the like can create an increasingly complex and unpredictable environment. Thar be dragons. – Dave Sims Jan 23 '10 at 14:11
  • Well, as my initial design of my rendering engine turned out to be fundamentally flawed anyway, so threads my not be necessary after this revision. – Orm Jan 25 '10 at 1:37

Since the question is tagged with 'Java', I assume you are familiar with Java, in which case this is a great introductory tutorial http://java.sun.com/docs/books/tutorial/essential/concurrency/


Orm, great question to ask. I think all serious programmers should learn about threads, cause eventually you will at least consider using them and you really want to be prepared when it happens. Concurrency bugs can be incredibly subtle and the best way to avoid them is to know what idioms are safe(-ish).

I highly recommend you take the time to read the book Concurrent Programming in Java: Design Principles and Patterns by Doug Lea: http://gee.cs.oswego.edu/dl/cpj/

Lea takes the time not only to teach you the concepts, but also to show you the correct and incorrect ways to use the concurrent programming primitives (in Java but also helpful for any other environment that uses shared-memory locking/signaling style concurrency). Most of all he teaches respect for the difficulty of concurrent programming.

I should add that this style of concurrent programming is the most common but not the only approach. There's also message passing, which is safer but forces you to structure your algorithm differently.


Since the original post is very broad, and also tagged with C++, I think the following pointers are relevant:

Anthony Williams, maintainer of the Boost Thread Library, has been working on a book called "C++ Concurrency in Action", a description of which you can find here. The first (introductory) chapter is available for free in pdf form here.

Also, Herb Sutter (known, among other things, for his "Exceptional C++" series) has been writing a book to be called "Effective Concurrency", many articles of which are available in draft form here.


There's a nice book, Java Concurrency in Practice, http://www.javaconcurrencyinpractice.com/ .

  • Although this is an awesome book, it assumes prior knowledge of the basic mechanisms of concurrency in Java, which the asker is probably not ready for. – Grundlefleck Jan 23 '10 at 1:12
  • That's right, I forgot it doesn't include an intro. – Ondra Žižka Jan 23 '10 at 4:07

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