Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

Have Dictionary <Int64, byte> that gets used a lot. I mean in a loop that runs for days in a big data load. The Int64 comess from two Int32. The byte happens to be the distance (count) between those two Int32 from many very long lists.

What I need to do in this loop is

  • Generate the key
  • If key does not exists in the Dictionary then insert key and value
  • If key does exists and new value (byte) is less than the existing value then replace the existing value with the new value

Right now I am using straight math to generate the key and I know there is faster way but I cannot figure it out. I put shift as a tag as I think that is how to optimize it but I cannot figure it out.

Then when the loop is complete I need to extract the two Int32 from the Int64 to insert the data into a database.

Thanks

Per comment the math I use to combine two Int32 into one Int64

        Int64 BigInt;
        Debug.WriteLine(Int32.MaxValue);
        Int32 IntA = 0;
        Int32 IntB = 1;
        BigInt = ((Int64)IntA * Int32.MaxValue) + IntB;
        Debug.WriteLine(BigInt.ToString());
        IntA = 1;
        IntB = 0;
        BigInt = ((Int64)IntA * Int32.MaxValue) + IntB;
        Debug.WriteLine(BigInt.ToString());
        IntA = 1;
        IntB = 1;
        BigInt = ((Int64)IntA * Int32.MaxValue) + IntB;
        Debug.WriteLine(BigInt.ToString());

And the best key may not be an Int64. What I have is two Int32 that together form a key. And a value of byte. I need fast lookup on that composite key. Dictionary is fast but it does not support composite key so I create a single key that is actually a composite key. In SQL Int32A, Int32B form the PK.

The reason I don't use a composite key is I want the lookup speed of Dictionary and to my knowledge Dictionary does not support composite key. This is production code. In the SQL table there is actually a third key (Int32 sID, Int32 IntA, Int32 IntB). In this parser I am only dealing with one sID at a time (and sIDs are processed in order). I started with composite key lookup to SQL (billions in a run). When I pulled IntA, IntB out to Dictionary to process a single sID then load to SQL at the completion of each sID I got a 100:1 performance improvement. Part of the performance improvement is insert as when I insert from the Dictionary I can insert in PK order. The new IntA and IntB are not produced sorted by the parse so direct insert into SQL would severely fragment the index and I would need to rebuild the index at the end of a run.

share|improve this question
1  
What do you mean by "straight math"? Please show some code to illustrate the relationship between the two int32s and the int64. – Oliver Charlesworth Apr 1 '12 at 17:43
    
@OliCharlesworth I added a simple sample of the straight math I use. – Frisbee Apr 1 '12 at 17:59
    
Int32.MaxValue is 2^32-1. Are you sure that's what you want? – Oliver Charlesworth Apr 1 '12 at 18:00
    
@OliCharlesworth Please propose a better way to generate a key for Dictionary where that key is actually a composite of two Int32. And then extract the two Int32 from that key. – Frisbee Apr 1 '12 at 18:07
1  
@Blam: Both my answer and Bas's combine 2 Int32 values in a somewhat simpler-to-understand manner than what you've got. I suspect you were aiming for something like what we've got, but didn't quite get there. Do you have anything against just using the two sets of 32-bits entirely orthogonally? – Jon Skeet Apr 1 '12 at 18:13
up vote 7 down vote accepted

Sounds like you just want a shift. Personally I find it simpler to think about bitshifting when using unsigned types instead of signed ones:

// Note: if you're in a checked context by default, you'll want to make this
// explicitly unchecked
uint u1 = (uint) int1;
uint u2 = (uint) int2;

ulong unsignedKey = (((ulong) u1) << 32) | u2;
long key = (long) unsignedKey;

And to reverse:

ulong unsignedKey = (long) key;
uint lowBits = (uint) (unsignedKey & 0xffffffffUL);
uint highBits = (uint) (unsignedKey >> 32);
int i1 = (int) highBits;
int i2 = (int) lowBits;

It's entirely possible that you don't need all these conversions to unsigned types. It's more for my sanity than anything else :)

Note that you need to cast u1 to a ulong so that the shifting works in the right space - shifting a uint by 32 bits would do nothing.

Note that that's a way of combining two 32-integers to get a 64-bit integer. It's not the only way by any means.

(Side-note: Bas's solution works perfectly well - I'm just always somewhat uncomfortable with that sort of approach, for no specific reason.)

share|improve this answer
    
FYI, the OP's updated question includes code that implies that it's not just simple bit-munging... – Oliver Charlesworth Apr 1 '12 at 18:08
    
@OliCharlesworth: I suspect that's more of an artifact of "this looked like it might work" than a deliberate decision. Have added a comment to check though. – Jon Skeet Apr 1 '12 at 18:14
    
@OliCharlesworth That Math is what I am using today. I am just looking to make it faster. Moving the lookup from SQL to a Dictionary was big performance improvement and looking to optimize Dictionary or if there is a better approach. – Frisbee Apr 1 '12 at 18:42
    
Thanks, tested at the bottom, top, and in between. See cosmetic edit I proposed. – Frisbee Apr 1 '12 at 19:10
    
@Blam: Yup, that's fine - sorry for getting things the wrong way round :) – Jon Skeet Apr 1 '12 at 19:25

If you want to convert back and forth from Int32's to Int64's you can use a struct with explicit layout:

//using System.Runtime.InteropServices;
[StructLayout(LayoutKind.Explicit)]
struct Int64ToInt32
{
    [FieldOffset(0)]
    public Int64 Int64Value;
    [FieldOffset(0)]
    public Int32 LeftInt32;
    [FieldOffset(4)]
    public Int32 RightInt32;
}

Just set/get values from the fields.

share|improve this answer
1  
Note that the sake of language interoperability, .NET naming conventions would recommend LeftInt32, RightInt32, Int64Value, and Int64ToInt32 as names. – Jon Skeet Apr 1 '12 at 17:50
    
FYI, the OP's updated question includes code that implies that it's not just simple bit-munging... – Oliver Charlesworth Apr 1 '12 at 18:08
    
Oh! This is beautiful! It simply makes me happy. Thank you! – Carl R Jul 5 '13 at 23:04
    
That's really neat, thanks for this. A question : If, in constructor, I assign LeftInt and RightInt (from constructor parameters). Is there a way to avoid the "field (LongValue in this case) must be fully assigned before return to caller" compiler error message ? (other way than assigning zero to LongValue) – tigrou Feb 20 '15 at 18:11
    
@tigrou I don't think there is any way, however if you set LongValue to zero in a field initializer or in the constructor there should be no performance impact, since this is the default behavior for a struct anyway. – Bas Feb 20 '15 at 19:07

You can use bit shifting to store two 32bit values in one 64 bit variable.

I shall give a small example:

int a = 10;
int b = 5;
long c;

//To pack the two values in one variable
c = (long)a << 32;
c = c + (long)b;
//the 32 most significant bits now contain a, the 32 least significant bits contain b

//To retrieve the two values:
c >> 32 == a
c - ((c>>32)<<32) == b

Edit: I see I am a bit late to the party, just wanted to check in VS if I didn't make a mistake :)

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

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