I am doing some realtime image analysis on a live videostream. I am using vImage to calculate histograms and vDSP for some further processing. I have Objective-C code that has been working well over the years. I am now about to convert it to Swift. And while it works it is too slow. I have found that the main problem is converting the vImage histogram, which is UInt (vImagePixelCount), to Float that vDSP can handle. In Objective-C I am using vDSP to do the conversion:

  err = vImageHistogramCalculation_Planar8(&vBuffY,histogramY, 0);
  vDSP_vfltu32((const unsigned int*)histogramY,2,histFloatY,1,256);

However, the vImage histogram is UInt, not UInt32, so I can't use vDSP_vfltu32 in Swift. Instead I am using

  let err = vImageHistogramCalculation_Planar8(&vBuffY, &histogramY, 0)
  let histFloatY = histogramY.compactMap{ Float($0) }

The problem is that this code is more than 100 times slower than the objective-C version. Are there any alternatives that are faster?

  • Why don't you use the swift version? developer.apple.com/documentation/accelerate/… Oct 9, 2020 at 9:06
  • Try vDSP_vfltu32(histogramY, 2, &histFloatY, 1, 256) where histFloatY is a var.
    – Sweeper
    Oct 9, 2020 at 9:11
  • As mentioned in the question does vDSP_vfltu32 want UInt32 not UInt. Converting to UInt32 first is equally slow.
    – Sten
    Oct 9, 2020 at 9:58

1 Answer 1


vImageHistogramCalculation_Planar8() writes the histogram into a buffer with 256 elements of type vImagePixelCount which is a type alias for unsigned long in C, and that is a 64-bit integer on 64-bit platforms.

Your Objective-C code “cheats” by casting the unsigned long pointer to an unsigned int pointer in the call to vDSP_vfltu32 () and setting the stride to 2. So what happens here is that the lower 32-bit of each unsigned long are converted to a float. That works as long as the counts do not exceed the value 232-1.

You can do exactly the same in Swift, only that the type casting is here done by “rebinding” the memory:

let err = vImageHistogramCalculation_Planar8(&vBuffY, &histogramY, 0)
histogramY.withUnsafeBytes {
    let uint32ptr = $0.bindMemory(to: UInt32.self)
    vDSP_vfltu32(uint32ptr.baseAddress!, 2, &histFloatY, 1, 256);
  • Thanks, this might be a step in the right direction. But "withMemoryRebound" only works if the parameters have the same memory size (there is a note in the documentation). So the code crashes with a "fatal error" on 64 bit devices.
    – Sten
    Oct 10, 2020 at 18:15
  • @Sten: You are right (that constraint is new or was not enforced in previous Swift versions, so I missed that). I have updated the code to use bindMemory, please check again.
    – Martin R
    Oct 10, 2020 at 18:36
  • Thanks! it works fine and with the same performance as the Objective-c code. It has the same 2^32 limitation as the original code, but that is absolutely no problem in my case.
    – Sten
    Oct 11, 2020 at 14:47

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.