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I am currently looking at this:

some Genetic Algorithm

This is some adapted code:

struct Chromosome
{
    public bool[] genes;
    public int fitness;
}

I have never used structs in my evolutionary algorithms/genetic algorithms. Is it not a bit pointless to use arrays in structs - especially when I have to make deep copies? Is there any advantage of using structs in this scenario?

Thanks.

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you can use array of structs but keep in mind the mutable immutable issues one can run into.. also know when and when not to use Structs vs Classes.. have a look at Differences between Structs and Classes in C# just a suggestion –  DJ KRAZE Jan 3 '12 at 16:25
    
Actually, I'd worry just about bool[] - sounds like you should really be wrapping that into some kind of bit-mask. How many genes are we talking about here? –  Marc Gravell Jan 3 '12 at 16:27
    
Please explean what you mean with EAs and GAs. I think GA is Genetic Algorithm. –  rekire Jan 3 '12 at 16:28
1  
GA = Genetic algorithm, EA = evolutionary algorithm - sorry thought the link would reveal this. –  csetzkorn Jan 3 '12 at 16:30
5  
@csetzkorn, we hate clicking links. ;) Generally speaking, we like our questions and answers to be largely self contained. –  Anthony Pegram Jan 3 '12 at 16:31

4 Answers 4

up vote 1 down vote accepted

Typically, we use a struct to represent something that can be considered pretty primitive. According to MSDN, it should be a type that represents a single "value", 16 bytes or less in size, and so on.

The main thing to keep in mind with a struct is the value-type semantics, so passing this in and out of functions will create a copy. Cost wise this won't be too bad since what you are copying is 1 reference (to the array of bool) and 1 int, but it does create some interesting side effects if you try to modify the array reference in another method or from a copy.

Many people assume struct will always be more efficient than class, but this is not always the case and usually this micro-optimization is more dangerous than helpful because it introduces the side-effects of working with a value type.

As for the array of bool you can either create and set bits in an int or use the BitArray specialized class in the BCL.

So, the long and the short of it is, if this is legacy code and you want to keep the struct, it will work, but it can byte you if you expect it to act like a class does when passed/copied. However, looking at what it's holding, it doesn't meet the MSDN guidance for what struct is best suited for.

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I think this Q should be answered in its context, i.e. according to the GA code on CodeProject the author has provided the link. As you can see in the code, all structs are used within a List<> and all of its parameter passing has been performed by ref. –  hsalimi Jan 3 '12 at 16:58
    
He asked if it was pointless to use arrays of structs and if structs were valid in this context. I answered with what structs are typically used for and said it didn't quite fit the context, in my opinion. –  James Michael Hare Jan 3 '12 at 17:01
    
Thanks interesting answer. –  csetzkorn Jan 3 '12 at 18:46

I don't see any problem with this... In GAs its all about validating the fitness of your candidates. the struct just capsulates all the information for your candidate. therefore the fitness is directly associated with your gene. It makes perfect sense to store it in the same class/struct.

If you do not store the fitness with your gene you have to map it somehow. This would be an unnecessary hassle. Or, if you do not want to store the fitness at all you have to recalculate it evertime you compare two candidates against each other. Would not be wise. especially if the fitness evaluation is rather complex (for example in a GA to evaluate the best parameters for a simulation).

I would use a class that implements the interface IComparable. Two candidates would than be compared by there fitness. Then you only need to sort your list of candidates and pick, for example, the best 10 candidates for the next generation (Always depends on the type of GA you are using).

about the bool array... I don't see any problem with this either. If this is how your gene is represented best... perfect :). The representation as a integer is also fine but in some cases it might make the x-over operation a bit complicated... always depends on the case...

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Sorry but your answer does not say much. I am interested in structs because they be easier (deep) copied/cloned (see GA selection process) and more light weight. However having an object (something on the heap) within the struct seems to defeat the objective ... –  csetzkorn Jan 4 '12 at 8:25
    
yeah... sorry. i kinda misunderstood the question. I thought the question was about using a struct/class in general and not using a struct instead of a class. my fault –  Oliver Bernhardt Jan 4 '12 at 9:06

The bool array will not get deep copied automatically in this case. So you're not really benefitting from structs because when you assign Chromosome to a new one, the reference in both would be to the same bool[ ]

Instead of using a bool[] you can just use a number: let's say int. A chromosome with genes = 3 represents gene: 0000 0000 0000 0000 0000 0011. A chromosome with genes = 42134 represents gene: 0000 0000 1010 0100 1001 0110. int is 32 bits which means that you can represent chromosomes with 232 genes this way. You avoid having to worry about deep copying an array and this is faster and more efficient in terms of memory consumption too. Use Int64 if you need more genes.

Update: You're question is so cool btw. In case you have restrictions to the possible gene combinations in some segments, you need to construct the Int32 byte by byte according to the restrictions. To illustrate, I assumed an example for some restrictions on a Chromosome and randomly mutated a Chromosome but with respect to restraints.

        //The following creates a random chromosome with restrictions
        //to the genes as described in the following:

        //Let's say that the following pattern must be adhered to: 
        //byte 1 = xxxx xxxx (anything)
        //byte 2 = 1011 xxxx (restricted)
        //byte 3 = [0000 or 1111] xxxx (restricted)
        //byte 4 = 0000 1111 (fixed value)

        Random rnd = new Random();
        byte[] randomByte = new byte[1]; //xxxx xxxx xxxx xxxx

        byte restrictedByte2 = 
            (byte)(Math.Pow(2,7) * 1 + Math.Pow(2,6) * 0 + 
            Math.Pow(2,5) * 1 + Math.Pow(2,4) * 1 + 
            rnd.Next(0, 16)); //1011 xxxx

        //in byte 3, the first (most significant) for bits are restricted to either 0000 or 1111. 
        //That's either number 0 * 16 = 0 or number 15 * 16 = 240. I multiplied by 2^4 because it's shifted
        //4 bytes to the left.
        byte higherBits = (byte)(rnd.Next(0, 2/*upper bound exclusive*/) == 1?240:0);
        //random lower bits (xxxx).
        byte lowerBits = (byte)(Math.Pow(2,0) * rnd.Next(0, 2) + Math.Pow(2,1) * rnd.Next(0, 2) + 
            Math.Pow(2,2) * rnd.Next(0, 2) + Math.Pow(2,3) * rnd.Next(0, 2) + 
            rnd.Next(0, 16));

        byte restrictedByte3 = (byte)(lowerBits + higherBits);

        byte restrictedByte4 = 143; //constant

        //Create an Int32 from the four bytes.
        int randomMutation = BitConverter.ToInt32(
            new byte[] { randomByte[1], restrictedByte2, restrictedByte3, restrictedByte4 }, 0);
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Thanks. Sure you can use an int instead of a bool array but what do you do if you have constraints (e.g. possible value between [x ... y])? –  csetzkorn Jan 4 '12 at 9:10
1  
This is a very cool question. I assumed a case where there are constraints and I added a way to tackle this problem in my answer above because I needed to illustrate with code. Hope it helps! –  Mzn Jan 4 '12 at 11:33
    
Thanks I will have a look at this. –  csetzkorn Jan 4 '12 at 12:06

As far as structs are basically value types and as a result, are kept on stack, it is too much better to keep them as compact (a few bytes) as possible. As a practice, I recommend you to use structs whenever you are faced with a small group of data forming a logical field group.

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Stack types are not always more efficient, especially if larger than a handful of bytes, also no guarantee it will be kept on the stack... –  James Michael Hare Jan 3 '12 at 16:44
    
@JamesMichaelHare: You are right. But in this case chromosome are too much small (less than 10 bytes) and there fore kept on stack. –  hsalimi Jan 3 '12 at 16:48
    
Unless it is used a member of another class, then that becomes part of the heap. We should just be cautious when we say struct are created on the stack and thus faster, the answer is really "it depends" on how it's used. –  James Michael Hare Jan 3 '12 at 16:56
2  
I see you believe the lie that value types go on the stack. This is of course nonsense. Int is a value type; do you think that an array of ints goes on the stack? If so, then how is it possible for an array of ints to survive longer than a method? When the method's activation goes away the stack frame will be destroyed; do you think that the ints in the array go away then too? –  Eric Lippert Jan 3 '12 at 16:57
    
@JamesMichaelHare and Eric: My mistake, you are right. Thanks –  hsalimi Jan 3 '12 at 17:03

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