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I've done some processing on the image processing stage of a chamfer matcher written in OpenCV, and it seems that 70% of the time is spend on one function:

void ImageProcessor::CarryOutOrientationTransform(int iReadBin, int iUpdateBin)
    cv::MatIterator_<float> lUpdateImageIterator;

    cv::MatConstIterator_<float> lReadImageIterator;

    for(lUpdateImageIterator = 
        lReadImageIterator = 
        lReadImageIterator != mOrientationBins[iReadBin].end<float>();
        lUpdateImageIterator++, lReadImageIterator++)
        if( *lReadImageIterator + mOrientationCost < *lUpdateImageIterator)
            *lUpdateImageIterator = *lReadImageIterator+mOrientationCost;

The function is called as follows:

//Transform over the image clockwise 1.5 times
for(int lI = 0; 
    lI <= mNumberOfOrientationBins + (mNumberOfOrientationBins-1)/2; 
    ( lI % mNumberOfOrientationBins,
      (lI+1) % mNumberOfOrientationBins );

and the reverse anti-clockwise.

ImageProcessing::mOrientationBins is a

std::vector<cv::Mat> mOrientationBins;

The rest of the time is spent carrying out line segmentation and binning, distance transforming over all 20 bins and then integrating over all the images. (I've disabled matching). The time spent on the orientation transform seems unreasonably large compared to the rest. Cachegrind also reports that the number of L1 and LL misses is much higher than the rest of the code. I can't understand this given that iterator passes through in linear fashion and the L1 associativity is 2.

Is the time spent on the code reasonable or have I missed trick?

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Have you tried moving mOrientationBins[iReadBin].end<float>() outside the for loop? –  Luchian Grigore Dec 17 '11 at 18:03
I tried that and in a quick test, it ran in 2/3 of the time - thanks for that! I'm amazed the compiler can't work out that it's not going to change and do that for you. –  Nick Westlake Dec 17 '11 at 18:08

2 Answers 2

up vote 0 down vote accepted

I think you will gain even more if writing the loop with plain, old pointer style:

void ImageProcessor::CarryOutOrientationTransform(int iReadBin, int iUpdateBin)
    float* updatePtr = (float*)mOrientationBins[iUpdateBin].data;
    float* readPtr = (float*)mOrientationBins[iReadBin].data;

    // here I supposed the matices are continuous. 
    // If not, you must separe it in a double for, accessing with j + i*step

    int i, length = mOrientationBins[iReadBin].cols*

        if( readPtr[i] + mOrientationCost < updatePtr[i])
            updatePtr[i] = readPtr[i] + mOrientationCost;

Using interators in such a context is not recommended - they are clean and safe, but a bit lazy.

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Move mOrientationBins[iReadBin].end<float>() outside the for loop.

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