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I was optimizing an algorithm. I ran into a strange oddity.

The following:

//The following is completely unused
vector<int>** rotated_squares;
rotated_squares = new vector<int>*[31];
for (int i=0;i<31;++i) {
    rotated_squares[i] = new vector<int>[31];

    //Lots of computation, using other vectors, but not rotated_squares

. . . is at least ten times slower than:

    //The exact same computation as above.

I have no idea what could be causing this. The only thing I can think of is that it is an artifact of the underlying implementation somehow. To that end, using Visual Studio 2010 for C++ compiler.

EDIT: Clarification, the computation below is the part that becomes slower. The memory allocations at the top are almost negligible when profiling.

So the issue is that I add the lines at the top, and the code runs about ten times slower. By debugging, the extra memory allocation takes a fraction of a second, but the computation code, which normally takes about eight seconds, starts to take several minutes.

EDIT: By popular demand, the source of the algorithm can be found here: The point is that the #if 1 can be set or unset and the code compiles fine--but with it, it runs much slower in the computation section.

EDIT: I have reduced the code to the following: In my code, this causes the problem. However, making a simple test case (i.e. a main function with just this code) does not show the problem.

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closed as too localized by iammilind, Luchian Grigore, Vlad Lazarenko, Andrey, Graviton Nov 28 '12 at 4:57

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Allocating memory can be a very slow operation. – Cornstalks Nov 18 '12 at 6:53
What is Vec2? Does it make a difference to put size2[1] instead of just 31? And what does "The exact same computation as above" mean? – d_inevitable Nov 18 '12 at 6:53
"The exact same computation as above" means identical code. Clarified the problem--the computation code gets slower--it's not slower purely due to the memory allocation. No difference substituting size2[n] with its value 31. Vec2 is a custom type--problem still occurs when using "int" instead. – imallett Nov 18 '12 at 7:06
You obviously know about std::vector<>, so why are you using new T[]? – GManNickG Nov 18 '12 at 7:14
I suppose vector<vector<vector<int>>> looked bad. Doesn't matter; I just tried it and got the same issue. – imallett Nov 18 '12 at 7:24

2 Answers 2

up vote 2 down vote accepted

With C+++03 and a std::vector< T const > you've passed into Undefined Behavior land. I am not sure of the situation with C++11, even after using like 10 minutes trawling the standard. But possibly the same, and in that case no special explanation is needed.

However, it might be that the code that you haven't shown, and that's allegedly slowing down, is referencing rotated_squares.

It might also be that the added code causes a cache miss.

It's rather difficult to reproduce without the code, but it just might help to put the slowed-down code in its own function.

Engaging ESP circuit overdrive… Concentrating… Nope, that didn't work either.

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Code posted. Also tried putting code in its own function (didn't help). I had considered cache coherency issues, but I'm not sure how such a thing would happen. The computation runs a comparatively long time. Any cache miss that happens would be a one-off thing. If rotated_squares were in the cache, then it would be removed immediately on a single cache miss, and then never cause problems again. – imallett Nov 18 '12 at 7:43

I have no idea what could be causing this.


vector<const Vec2>** rotated_squares;
rotated_squares = new vector<const Vec2>*[size2[1]]; //size2[1]==31
for (int i=0;i<size2[1];++i) {
    rotated_squares[i] = new vector<const Vec2>[size2[0]]; //size2[0]==31


share|improve this answer
Question clarified. By debugging, I see that the memory allocation takes next to no time, but the computation below somehow starts taking LOTS more time. – imallett Nov 18 '12 at 7:11
@IanMallett in that case, it's good that you didn't show us the code that is actually causing the problem, but code that you say makes no difference. </sarcasm> – Luchian Grigore Nov 18 '12 at 7:12
Serious Question: How can code that has no side effect (e.g. allocating a vector of ints) cause a slowdown later? Either something weird is happening with memory (I doubt cache coherency could be the issue) or there is a side effect outside of my code happening in the std::vector class. Either way, my actual computation is irrelevant, yes? – imallett Nov 18 '12 at 7:20
@IanMallett It's clearly not irrelevant. If it is, you can replace it with a simple cout and I doubt that would be 10 times slower with the allocation. Narrow it down and post the code. – Luchian Grigore Nov 18 '12 at 7:23
@Ian - re: "How can code that has no side effect (e.g. allocating a vector of ints)" - but that code does have a side effect: it allocates a vector of ints. Sometimes corrupting the free store can make programs run very slowly because the data they see doesn't satisfy the program's invariants and the program runs off into long, irrelevant loops. If some piece of code is messing up the free store, adding or removing otherwise irrelevant allocations changes the layout of the free store and can change the behavior of the program. These things are nasty to debug. – Pete Becker Nov 18 '12 at 13:27

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