# is it possible to optimize that code?

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I'm interested in speed, not good looking code, that is why I'm using array and not list(of integer).

I have an array looking like: 0,1,0,1,1,0,1,0,1,1,1,0,0,1

I'm interesting in the position of each number so I can later pick one randomly.

so what I do is looping through the array to take position number of each 1 then creating a new array looking like this: 2,4,5,7,9,10,11,14

is bitwise could be used here? I have no idea

code look like:

``````Private Function theThing() As Integer()
Dim x As Integer
'arIn() would be a parameter
Dim arIn() As Integer = {0, 1, 0, 1, 1, 0, 1, 0, 1, 1, 1, 0, 0, 1}
Dim ar() As Integer = Nothing
Dim arCount As Integer = -1

For x = 1 To arIn.GetUpperBound(0)
If arIn(x) = 1 Then
arCount += 1
End If
Next

If arCount > -1 Then
'using redim preseve is slower than the loop above
ReDim ar(arCount)

arCount = 0
For x = 1 To arIn.GetUpperBound(0)
If arIn(x) = 1 Then
ar(arCount) = x
arCount += 1
End If
Next
End If

Return ar
End Function
``````

* EDIT *

current solution(10% to 15% faster) is now

``````Private Function theThing() As Integer
Dim ar() As Integer = {0, 1, 0, 1, 1, 0, 1, 0, 1, 1, 1, 0, 0, 1}
Dim arLenght As Integer = ar.GetUpperBound(0)
Dim arCount As Integer = 0
Dim x As Integer

For x = 1 To arLenght
If ar(x) = 1 Then
ar(arCount) = x
arCount += 1
End If
Next

dim r As New Random()

Return ar(r.Next(arCount))
End Function
``````

I don't think it can be optimized more than that, unless someone find a way to do exactly what the solution does but way faster

Before this question, my whole thing was able to do about 25500 run each 10 seconds.

Now, it can do over 32250 all the time, a 21% increase, thanks!

-
 Note the two more optimizations that I've hinted at in my code - Promoting "r" and "ar" to a global variables. These allocations are probably the slowest things in the procedure right now (after the inevitable r.Next, of course). – Vilx- Jan 8 '09 at 1:34 "r" is already in fact at the class level, for the code above i moved it inside the function, for the ar, I'm not sure if moving it to the class level would help since the length always change – Fredou Jan 8 '09 at 1:43 Fredou, you're now returning one element of the array which means you'll have to do this function EVERY TIME you want a value, yes? That doesn't strike me as more efficient at all. Better to return the array and select element outside of this function, methinks. – paxdiablo Jan 8 '09 at 1:46 @Pax what I was doing with the array was simply checking if it was nothing or not then doing the random, I removed a if outside that function which is good – Fredou Jan 8 '09 at 1:49 If you have to pick several items off of the same list then it is definately better to cache "ar" instead of recalculating it every time. – Vilx- Jan 8 '09 at 1:53

Few tips on the original algorithm:

1. Try storing the results of arIn.GetUpperBound(0) in a variable. I don't know how VB makes it's loops, but there is a chance that the function gets called once every iteration. You should check that though.
2. That `If arCount > -1` is always going to be true. Remove it.

If you wish to keep the same inputs/outputs, then I don't think there is much else that can be improved.

Now if you wanted a function that does the random selection too, then it might be a bit better. I'll write in C# since I know it better. You should be able to understand:

``````public static int GetRandomSetBit(int[] AllBits)
{
// Perhaps check here if AllBits is null/empty. I'll skip that for now.

int L = AllBits.Length;
int SetBitCount = 0;

// No point to save a few bytes here. Also - you can make a global array
// large enough for all occasions and skip allocating it every time.
// In that case consider automatic resizing and watch out for
int[] GoodPositions = new int[L];

for ( int i = 0; i < L; i++ )
if ( AllBits[i] != 0 )
{
GoodPositions[SetBitCount] = i;
SetBitCount++;
}
Random r = new Random(); // Should use one global instance
return GoodPositions[r.Next(SetBitCount)];
}
``````

I'm afraid it won't get any better than that. Not unless you can somehow change the inputs/outputs or requirements.

-
+1 for storing the getupperbound(0), went from 25500-26500 to, for my 5 test, over 27000-27400 run, over 10 secs in a loop – Fredou Jan 8 '09 at 1:09
sometime there will be not true bit, that is why i do the check for arcount > -1 (fixed my code above to make it -1) – Fredou Jan 8 '09 at 1:12
Bad choice. Now you've upset the counter and it will be off by 1. You should just leave it alone (set to 0 at start, not -1) and remove the IF. Then it will work fine. – Vilx- Jan 8 '09 at 1:19
and I wish I could give you another +1 for the idea of doing the random on the setbitcount(doing over 28000 now), I will probably mark you as the answer if there is no better way for the next 30 minutes – Fredou Jan 8 '09 at 1:23
Bet you can't because then accessing each value will require several bitwise operations. Now it's just an array lookup. – Vilx- Jan 8 '09 at 16:40

Instead of storing an array of integers, why not put them all into one integer?

``````oldArray = [0, 1, 1, 0, 1]
newValue =  22     (binary 10110)
``````

If you want to check if a particular bit position is set, do a bitwise comparison with two to the power of that position:

``````is position 2 set?
value:    10110
4 (2^2):  00100
result:   00100 --> true

is position 0 set?
value:    10110
1 (2^0):  00001
result:   00000 --> false
``````

Do a search for bitwise comparison and you should find a lot of help.

Here are some good Stack Overflow questions which might help:
http://stackoverflow.com/questions/276706/what-are-bitwise-operators
http://stackoverflow.com/questions/47981/how-do-you-set-clear-and-toggle-a-single-bit-in-c

-
 I want to store the location of each true bit so I can do a random on the list to pick one, I'm interested on the position. – Fredou Jan 8 '09 at 0:34 Breaks if there's more than 32 array indexes. – paxdiablo Jan 8 '09 at 1:03 your bit positions are off by one place. 8 = 1000bin, 16 = 10000bin aka 2^3 2^2 2^1 2^0 – Tanj Jan 8 '09 at 1:06 +1 - the problem description is begging for a bit vector implementation. Note to Pax, there are ways to implement that with arbitrary size. – Ian Varley Jan 8 '09 at 1:40 ah, thanks Tanj - editing now. – nickf Jan 8 '09 at 3:37

I find it hard to believe that a redim preserve would be slower than your loop unless it were itself inside the loop.

In which case, for raw speed, don't count the number of 1's in arIn just to set the size of ar. Since ar can never be bigger than arIn, just set it to the same size and redim-preserve at the end (won't be slower since it's outside the loop and will always be trimming, not expanding - VB hopefully can do this in-place rather than allocating more memory). In addition, cache size of arIn in case VB calculates it each time through the loop (likely if ReDim's are allowed).

``````Private Function theThing() As Integer()
Dim x As Integer
'arIn() would be a parameter
Dim arIn() As Integer = {0, 1, 0, 1, 1, 0, 1, 0, 1, 1, 1, 0, 0, 1}
Dim ar(arIn.GetUpperBound(0)) As Integer
Dim arCount As Integer
Dim arInCount As Integer

arCount = 0
arInCount = arIn.GetUpperBound(0)
For x = 1 To arInCount
If arIn(x) = 1 Then
ar(arCount) = x
arCount += 1
End If
Next

ReDim Preserve ar(arCount)
Return ar
End Function
``````

Alternatively, you could remove the redim altogether if you tweak slightly what's returned. Make the return array one bigger than the input array and use the first element to control which parts of the array you'll select randomly.

For your sample, the returned array would be:

``````{8,2,4,5,7,9,10,11,14,?,?,?,?,?,?} (? values are irrelevant).
^ <-------+--------> <----+---->
|         |               |
|         |               +-- These are unused.
|         |
|         +-- These are used.
|
+-- This is the count of elements to use.
``````

That code would be:

``````Private Function theThing() As Integer()
Dim x As Integer
'arIn() would be a parameter
Dim arIn() As Integer = {0, 1, 0, 1, 1, 0, 1, 0, 1, 1, 1, 0, 0, 1}
Dim ar(arIn.GetUpperBound(0)+1) As Integer
Dim arCount As Integer
Dim arInCount As Integer

arCount = 0
arInCount = arIn.GetUpperBound(0)
For x = 1 To arInCount
If arIn(x) = 1 Then
ar(arCount) = x
arCount += 1
End If
Next

ar(0) = arCount
Return ar
End Function
``````

Then, in your code which selects a random value from ar, instead of:

``````rndval = rnd(ar.GetUpperBound)
``````

use:

``````rndval = rnd(ar(0) + 1)
``````
-
 yes you are correct, Vilx- made me realize that earlier when I did my test with the preserve, it was inside the loop which was really bad – Fredou Jan 8 '09 at 1:31 Then my first solution is probably better, especially if you wish to minimize changes to the calling code. – paxdiablo Jan 8 '09 at 1:35 result of my question can be found here codeproject.com/KB/vb/CodeBehindSudoku.aspx , thanks! – Fredou Apr 22 '09 at 13:27

I think that when Recursive cited BitArray, he meant something like this:

``````using System.Collections.Generic;
using System;
using System.Collections;

class Program
{
static void Main(string[] args)
{
var input = new BitArray(new byte[] { 0x5A /*01011010b*/
, 0xE4 /*11100100b*/ });
var output = new List<int>();
var offset = 1;
foreach (var bit in input)
{
if (bit)
{
}
offset++;
}
}
}
``````
-

Disable Overflow Checking.
Project Properties -> Compile -> Advanced Compile Options -> Remove Integer Overflow Checks.
If you need overflow checking for the rest of the project you may move the code to a new project (for example a DLL) and disable overflow checking for that new project.

Also make sure that you are running a release build(optimizations enabled) and you are not debugging it.

EDIT: I get 8.5s (12s if I declare the array inside the For I'm using for testing) for calling the function 50 millons times. If you are getting only 32000 either you are using very large inputs or something is slowing down your code. For example if you are counting the time inside the program and you are running it in a profiler you will get wrong results as profiling can slowdown the program dramatically. Also glitches like this http://stackoverflow.com/questions/383735/slow-methods-calls may affect performance.

-
 +1, 2.5% performance increase – Fredou Jan 8 '09 at 2:12 result of my question can be found here codeproject.com/KB/vb/CodeBehindSudoku.aspx , thanks! – Fredou Apr 22 '09 at 13:26

You might find that using For Each and a list initialized to at least the length of the input array is faster than an indexer:

``````If arIn.Length > 0 Then
Dim lstOut As New List(Of Integer)(arIn.Length)
Dim ix As Integer = 0
For Each val As Integer In arIn
If val = 1 Then
End If
ix = ix + 1
End If
Return lstOut.ToArray()
Else
Return Nothing
End If
``````

But you'd have to test it.

-
 already tried it, list(of T) is way slower than array – Fredou Jan 8 '09 at 0:37 @Fredou : way slower? For how many items? – Mitch Wheat Jan 8 '09 at 0:39 @Mitch Wheat, over a 10sec(i do way more than using my code above) loop, with array I do 26295 run, for the list(of T), 25390 run. Ok, you can remove the "way" word, but it's still slower – Fredou Jan 8 '09 at 0:54

Speed for how many items?

Changing items?

Compile time or execution time?

With what space constraints?

A known strategy is to take a few ones together and write out all combinations and their results: 0000 -> 0001 -> 4 0010 -> 3 0011 -> 3,4 0100 -> 2 0101 -> 2,4 0110 -> 2,3 ...

Why do you want to convert from this binary representation to select a random one bit? That is unlikely to help with performance. Better group them by 8 bits, use a table telling you how many 1s are in the group, and repeat 5 times. then you know how many ones there are. do a random over that and then look up the selected one.

-
 item in the array? between 0 to 36-40, what do you mean by changing items?, execution time because it can be used in a HUGE loop, no real space constraints – Fredou Jan 8 '09 at 0:31 Like I said, I'm interested in the position. – Fredou Jan 8 '09 at 1:04

This is what BitArray was made for.

-
 interesting, I will look into it. I might have to do a major recoding of my current work if it does work faster – Fredou Jan 8 '09 at 0:57 I don't see an easy way to do what I want, storing position of true value so I can do a random on that list – Fredou Jan 8 '09 at 1:00

Maybe you can squeeze the maximum performance by using a conversion table. And then apply the algorithm below:

Sorry I'm not fluent on VB anymore, so I'll have to write C#. Here's a piece of the whole code, as the entire lookupTable would have 256 items.

``````using System.Collections.Generic;

class Program
{
static void Main(string[] args)
{
var input = new byte[] { 0x5A /*01011010b*/, 0xE4 /*11100100b*/ };
var output = new List<int>();
var lookupTable = new int[][] { new int[0] /*00000000b*/
, new int[] { 8 }    /*00000001b*/
, new int[] { 7 }    /*00000010b*/
, new int[] { 7,8 }  /*00000011b*/
, new int[] { 6 }    /*00000100b*/
, new int[] { 6,8 }  /*00000101b*/
, new int[] { 6,7,8 }  /*00000111b*/
};
int offset = 0;
foreach (var value in input)
{
foreach (var position in lookupTable[(int)value])
{
}
offset += 8;
}
}
}
``````
-

If it's easy to generate a prime number slightly larger than the length of your array (depending on the size of it, this may or may not be easy), and you don't care about completely uniformly random, then you can generate a random number in that range and generate that cycle. It should find an answer within a few iterations (based on the density of 1s). Source code in c# since I don't remember vb syntax:

``````int RandomInArray(int[] ar)
{
int p = GenerateSlightlyLargerPrime(ar.Length);

int x = random.nextInt(p);
int i = x;
do
{
if (i < ar.Length && ar[i] == 1)
return i;
i = (i + x) % p;
} while (i != x);
return -1;
}
``````

Note that this isn't 100% uniformly random, but it should be fairly close.

-

I have tried a different approach. The idea is to keep getting a random entry and exit when an entry corresponding to 1 is found. This solution is not perfect because some randoms are not used which may or may not break the randomness. In addition, the speed greatly depends on the density of "1"s. Code is as follow:

``````public static int GetRandomSetBit(int[] AllBits)
{
int L = AllBits.Length;
Random r = new Random();    // Better use a global instance as this hurt performance a lot
do
{
selected = r.Next(L);

} while (AllBits[selected] == 0);
return selected;
}
``````

In my PC, if the creation of the Random object is moved into global, it can run 50000000 trials in around 11s if there are 5 "1"s out of 30. If there are up to 15 "1"s, the time it takes is shortened to around 5s.

Comparing with the code as suggested by Vilx, his code can run 50000000 trials in my PC around 13s

-
 sometime, it can be all false value – Fredou Jan 8 '09 at 4:18 Yes, as I said it is not a perfect solution. In case the input is all zero, it will never return. Actually if there are too few "1"s, this algorithm will perform very badly. – Conrad Jan 8 '09 at 6:33