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double **array = new double* [X];
for (int i=0; i<X; i++)
    array[i] = new double [Y];

array[x][y] = n;

or

double *array = new double [X*Y];

array[x*Y+y] = n;

Second version is created faster, but access is in first version faster (e.g. image processing using convolution), isn't it? Or is it all negligible?

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5  
Run them both with representative data, time them and see. You can't reliably predict performance from reading code, there are too many factors at play like the compiler, how you configure the compiler, cache effects, etc. – polkadotcadaver Dec 15 '13 at 18:26
    
*(array+(x*Y+y)) or *(*(array+x)+y) isn't predictable? 2 summations + one multiplication + one dereferentiation versus 2 deferentiations + 2 summations... – mb84 Dec 15 '13 at 18:29
    
No, it isn't! You asked if it was negligible - if I disagree with trying to work out relative performance without running code, then I cannot disagree more with trying to quantify that difference. – polkadotcadaver Dec 15 '13 at 18:48
up vote 2 down vote accepted

In theory the second version should be faster, because the entire array is allocated contiguouslly, so its more cache-friendly than the first.

But in practice, profile it and see what happens. This kind of performance questions depends heavily on your architecture, OS, etc.

My advise here (In addition to profiling) is: Consider to use standard containers (A std::vector<std::vector<T>> in this case) which had been profiled, tested, and also make your life easier moving you away from raw-pointers and manual memory management.

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Ok, I have: 1000x1000 image with conventional implemented Fourier transform on double arrays: Windows 7 Pro 64-bit, VC++ 2010 Express -> exactly the same (2:11 minutes)!

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1  
Have you enabled compiler optimizations? Be sure you are not compiling in debug mode. – Manu343726 Dec 15 '13 at 18:57
    
@Manu343726: yeah, there we go! In Release mode (that means with optimizations) 1:44 minutes second version vs 1:59 minutes first version! Thanks! – mb84 Dec 15 '13 at 19:15

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