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I have a library with an IJobMaker entity that creates a certain amount of IJob objects to be run on threads of their own managed by the user. To track each IJob's progress I implement the observer pattern with an IProgressObserver within every job. The difficulty arises when I wish to report on OVERALL progress.

The ideal for me would be to have IProgressOverserver.ReportProgress(float jobProgress, float overallProgress that reports both job and overall progress.IJobMaker can be aware of each job's portion of the overall work and somehow gather everyone's reports.

Two main questions arise:

  1. Synchronization mechanism? Keeping a mutex inside IJobMaker for example could harm performance because IProgressOverserver.ReportProgress gets called a lot and a mutex could incur a context switch and what not. InterlockedIncrement looks like a good option but since there's no such function for floating point, I would be forced to report progress by integer increments. (I'd like to stay away from c++0x features or Boost)

  2. Design pattern? IJob's progress is reported from within its deepest algorithms. I need every such a report to both communicate with a central entity for overall progress calculation and call the IProgressObserver.ReportProgress method which resides in IJob.

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2 Answers

up vote 0 down vote accepted

First of all, it's quite bad practice to use floats in such cases. Use an integer.

There is another suggestion. You can use segmentation - synchronise only few threads by one mutex/atomic (one segment). And then collect total among all segments.

Also, there is good place to start looking around highly parallel algorithms: http://www.1024cores.net/home/lock-free-algorithms

UDPATE There is example of problems with the float

#include <iostream>
using namespace std;
int main() {
    float f = 0;
    for(int i=0; i<100000-98; ++i)
        f += 0.00001;
    cout << f << endl;

So, if you have 100 jobs with 1000 steps each, you will have 1.0 result in 98 earlier than you could expect.

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can you elaborate as to why it is bad to use floats? also, I'm not sure I understand what you mean by segmentation. How can I sync only a few threads? –  Leo Oct 12 '11 at 22:13
Floats are designed for wide range of values. I don't think you have progress range between 1E-200 - 1E200. For your situation you could have AtomicInteger and do precise calculations, but I never heard about AtomicFloat. Yes, you could group few threads by few segments. It allows sync fewer threads on a single mutex. –  kan Oct 13 '11 at 8:26
but then I would have to sync the segments to get the final answer. Maybe it would work if I allowed some delay from the moment some IJob progresses until the user gets the overall progress report. Yet since I want an immediate answer I'd have to sync within segments and between segments which seems just as hurtful. regarding floats, I can have the range be between 0 and 1. integers are also wide ranged but only a subrange is used. –  Leo Oct 13 '11 at 12:04
Ok, you are right then. In this case the best solution is the atomic integer, I suppose, because it doesn't do syscalls as mutexes. I don't understand you about the range. Just use an integer range e.g. between 0 and 1 billion, it will give better precision than the same size floating number type. Otherwise you could face a problem then 0.01 + ..hundred times.. + 0.01 != 1 –  kan Oct 13 '11 at 12:42
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A couple of suggestions on the threading front:

  1. Don't report every tiniest bit of progress. Only report to the main thread once a certain predefined amount of progress has been made, or a certain predefined amount of time has passed, or the sub-job has finished. This could greatly cut down on the amount of synchronization.
  2. If you implement #1, a mutex might work pretty well.
  3. If the mutex turns out to be too expensive, you could report progress using an atomic integer variable: simply scale the values from "no progress" to "all done" to 0...INT_MAX.

As far as designing the API, it shouldn't be too difficult to come up with something sensible. My general advice would be to not overengineer it.

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I am reporting as "roughly" as I can and still I believe using a lock could have a bad impact on performance. No matter how far away my reports are, I can always scale things enough to bottleneck on the lock. (having large numbers of threads and IJobs) This library should be able to scale to 10s of cores. –  Leo Oct 12 '11 at 19:18
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