# Reading byte array vs int array and bit shifting - what's faster?

Is one of these decidedly faster?

``````var scan0 = (uint*)bitmapData.Scan0;
int length = pixels.Length;
for (int i = 0; i < length; i++)
{
uint j = scan0[i];
float a = (j >> 24) / 255f;
pixels[i] = new Vector(
(j >> 16 & 0xff) * a / 255,
(j >> 8 & 0xff) * a / 255,
(j & 0xff) * a / 255);
}
``````

versus

``````var scan0 = (byte*)bitmapData.Scan0;
int length = pixels.Length * 4;
for (int i = 0; i < length; i += 4)
{
float a = scan0[i + 3] / 255f;
pixels[i / 4] = new Vector(
scan0[i + 2] * a / 255,
scan0[i + 1] * a / 255,
scan0[i] * a / 255);
}
``````
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It seems like this would be quite easy for you to measure yourself - however, I would guess that the performance would be somewhat identical on modern processors. –  driis Jul 28 '11 at 9:19
Maybe. Why not find out? –  thasc Jul 28 '11 at 9:19
Also, remember that being fast isn't the be-all and end-all. The second one is an awful lot more readable, and that's valuable. –  thasc Jul 28 '11 at 9:21
In the first example, you don't need to AND-ize the shifted "j" with 0xFF. Simply cast the shift to a byte before dividing by 255. –  Mario Vernari Jul 28 '11 at 10:12
As a side-note: I'd calculate `a2 = a*(1/255f)` and multiply the pixel values with that. That might be even faster. But do benchmarks to know which is fastest. –  CodesInChaos Jul 28 '11 at 10:15

In a 32 bit application, the second is about 2.5 times faster than the first. In a 64 bit application, the second is about 25% faster than the first.

Note that there is a bug in your second code. As you are adding four in each iteration, you will place the objects in every fourth item in the `pixels` array, and cause an `IndexOutOfRangeException` exception when it runs out of array.

Slightly faster (about 5%) than the second is to move the pointer for each pixel:

``````byte* scan0 = (byte*)bitmapData.Scan0;
for (int i = 0; i < pixels.Length; i++) {
float a = scan0[3] / 255f;
pixels[i] = new Vector(
scan0[2] * a / 255,
scan0[1] * a / 255,
scan0[0] * a / 255
);
scan0 += 4;
}
``````

Note also that if you are reading data from a `Bitmap` image, it is not stored as a continuous array of pixel data. There may be padding between the scan lines, so the code can only read pixels from a single scan line, it can not safely read data from an entire image.

### Edit:

Also, I just realised that you put the length of the array in a variable and used that in the loop. That will just make the code slower instead of faster, as the compiler can't optimise away the range check on the array accesses.

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I think the bit shift "Your first solution" is faster. however you can test it by using `Stopwatch`. Start the `stopwatch` before the call the method, run the method multiple time, and then stop the watch and check its `ElapcedMilliseconds`. Like:

``````System.Diagnostics.Stopwatch watch = Stopwatch.StartNew();
//run your method that want to test its executable time multi time
for (int testIndex = 0; testIndex < 100; testIndex++)
{
TestWithShift();
}

watch.Stop();
Console.WriteLine("Test with shift time: {0}", watch.ElapcedMilliseconds);
``````

And repeat the test for the other method. Hope that helps.

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