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I'm porting C++ code from Linux to Windows. During this process, I found out that the following line takes ~10 times slower under Windows (on exactly the same hardware):

list<char*>* item = new list<char*>[160000]; 

On Windows it takes ~10ms, while on Linux it takes ~1ms. Note that this is the average time. Running this row 100 times takes ~1 second on Windows.

This happens both on win32 and x64, both versions are compiled in Release, and the speed is measured via QueryPerformanceCounter (Windows) and gettimeofday (Linux).

The Linux compiler is gcc. The Windows compiler is VS2010.

Any idea why could this happen?

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I see a flamewar rising... anyways, you should probably do stuff in a loop or so, these numbers probably don't mean that much as 10ms is easily disturbed by other stuff going on. measure in the amount of a few seconds at least. But even then I would guess that teh defaul way to allocate memory on windows is slower. Just play around a bit and make it more like a pattern that you would use in your program. –  PlasmaHH Jan 26 '12 at 15:37
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@EdHeal: we fixed the time machine. you can now travel back to 1998 and live happily there. –  ssg Jan 26 '12 at 15:42
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@UmNyobe: the fact that you couldn't find QueryPerformanceCounter does not mean Windows is "bloated". –  Mooing Duck Jan 26 '12 at 15:57
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@EdHeal This is nothing to do with the OS. You appear to be saying that if Doron switched off a few services then new would be faster. Piffle say I! –  David Heffernan Jan 26 '12 at 16:04
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@DoronYaacoby The VC10 STL-list constructor allocates a (empty) node in the constructor. This could really be a big performance drawback in the 'construct' case. On the other hand, I don't know what the gcc STL does when it constructs a std::list, maybe it trades size for speed, and the VC one trades speed for size. I/you will have to take a look at the constructor(-chain) of the gcc version. Has this a performance impact in your application? –  Christopher Jan 26 '12 at 19:11

3 Answers 3

up vote 9 down vote accepted

It could be more an issue of library implementation. I would expect a single allocation in most cases, with the default constructor for list not allocating anything. So what you're trying to measure is the cost of the default constructor of list (which is executed 160000).

I say "trying to measure", because any measurements that small are measuring clock jitter and resolution more than they're measuring code execution times. You should put this in a loop, to execute it frequently enough to get a runtime of a couple of seconds. And when you do this, you need to take precautions to ensure that the compiler doesn't optimize anything out.

And under Linux, you want to measure using clock(), at least; the wall clock time you get from gettimeofday is very dependent on what else happens to happen at the same time. (Don't use clock() under Windows, however. The Windows implementation is broken.)

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I agree, this is measuring the cost of std::list's constructor, not memory allocation. Further, it would be trivial to measure the two separately, using allocation followed by placement-new[]. –  Ben Voigt Jan 26 '12 at 19:04
    
Turned out to be true, the list<> ctor is where most of the time went. –  Doron Yaacoby Jan 30 '12 at 7:15

Assuming that your benchmark is free of any measurement errors, that could be the compiler behavior, not Windows. Windows provides two options on allocating memory. One is to reserve the address space for your process but not bring pages into physical memory until they are accessed. The other is to reserve and bring them to physical memory during allocation. Initializing physical memory takes more time than just to change address space mapping.

I think the difference comes from the default behavior chosen by the compiler as "bring all the allocated memory to physical memory even if I don't access it". That takes more time but could be more performant in most scenarios.

See the relevant API documentation:

http://msdn.microsoft.com/en-us/library/windows/desktop/aa366887(v=vs.85).aspx

You can make sure to see if it's the compiler behavior by accessing all the memory of the allocated structure and include that in the benchmarks too. If it takes around the same time on both OS's that proves my point.

EDIT: As @Fanael pointed out most Windows C compilers rely on msvcrt runtime for memory allocations. It would be more appropriate to focus on runtime's behavior rather than the compiler itself.

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That would be the standard library, not the compiler itself. –  Fanael Jan 26 '12 at 15:46
    
@Fanael: that's right but since compilers come with their own stdlib implementations on Windows my statement isn't that far off. –  ssg Jan 26 '12 at 15:51
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The memory has to be touched, because you call the constructors of the std::list objects. –  Christopher Jan 26 '12 at 16:00
    
In my experience, I've also found Windows tends to page more stuff to disk when making large allocations. If he ran his test twice I'm sure the second would take no time at all. –  Mooing Duck Jan 26 '12 at 16:00
    
@ssg: Not always. GCC on Windows often does not. MinGW and MinGW-w64, except for some additional stuff they provide, use msvcrt.dll as the standard library. –  Fanael Jan 26 '12 at 16:00

I think this instruction takes less time in both OS (regardless of anything). In this case It take such few time that you may be actually measuring the resolution of your timers.

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