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Given a starting number, imagine an infinite sequence of its successive halves.

1, 0.5, 0.25, 0.125, ...

(Ignore any numerical instabilities inherent in double.)

Can this be done in a single expression without writing any custom extension methods or generator methods?

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Why the arbitrary restriction? Is this homework? If you're not committed to your expressed limitations, just write an iterator using yield return. – Robert Harvey Feb 22 '12 at 17:21
Infinite Sequences and Computers do not work together. – Ramhound Feb 22 '12 at 17:23
@Ramhound Sure they do, as long as you don't try to get all of the items. – hvd Feb 22 '12 at 17:25
There is no provided-in-the-standard-sequence-operators method that returns any infinite sequence, and you can't get blood from a stone; without an infinite sequence to start with, you're not going to get an infinite sequence out the back end of any sequence operator. Now, if all you want is a really big sequence, say, with a billion items in it, sure, that's no problem at all. Take Enumerable.Range as large as you like and select i=>x/Math.Pow(2, i) for whatever x is your starting element. – Eric Lippert Feb 22 '12 at 17:34
The instabilities in double apply when representing a fraction whose denominator isn't a power of two, or a fraction whose denominator is a power of two but whose numerator requires more than 53 bits to represent. Neither is the case here, so you will get exact representations of all values until you reach double.Epsilon; then all subsequent values will be zero. – phoog Feb 22 '12 at 17:34
up vote 9 down vote accepted

I don't know of a single-expression way but I found this clever generator code here: http://csharpindepth.com/articles/Chapter11/StreamingAndIterators.aspx

public static IEnumerable<TSource> Generate<TSource>(TSource start,
                                                  Func<TSource,TSource> step)
   TSource current = start;
   while (true)
       yield return current;
       current = step(current);

In your case you'd use it:

foreach (double d in Generate<double>(1, c => c / 2))
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For fun, here's a trick to create a real infinite sequence in a single expression. The first two definitions are class fields, so that they do not require an expression to be initialised.

double? helper;
IEnumerable<double> infinite;

infinite = new object[] { null }.SelectMany(dummy => new double[] { (helper = (helper / 2) ?? 1).Value }.Concat(infinite));
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That's great, in a terrible way :) – Drew Noakes Feb 22 '12 at 18:46
I hadn't intended it as anything else :) – hvd Feb 22 '12 at 18:50
Cool. You can enumerate this in LinqPad but for some reason it crashes if you try to do a Count() on it ;o) – Mike Goodwin Feb 22 '12 at 19:15
@hvd Take a look at my answer for another fun solution, it's very much based on yours but using the Y operator. – Lukazoid Feb 23 '12 at 1:32
Enumerable.Repeat(1, int.MaxValue).Select((x, i) => x / Math.Pow(2, i))

It isn't actually infinite, but as both Repeat and Select use deferred execution, you won't lose any performance.

Don't know any native way to create infinite linq expression.

Or you can manually write infinite version of .Repeat

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Here is an answer similar to the one @hvd provided, but using the Y operator defined here, this removes the need for the local variables:

public static Func<A, R> Y<A, R>(Func<Func<A, R>, Func<A, R>> f)
    return t => f(Y(f))(t);

var halves = Y<double, IEnumerable<double>>(self => d => new[] { 0d }.SelectMany(_ => new[] { d }.Concat(self(d / 2))));

An example use would be:

foreach (var half in halves(20))

Which would output 20, 10, 5, 2.5 etc...

I wouldn't advise using this in production code but it is fun.

The Y operator also allows other recursive lambda expressions, e.g:

var fibonacci = Y<int, int>(self => n => n > 1 ? self(n - 1) + self(n - 2) : n);
var factorial = Y<int, int>(self => n => n > 1 ? n * self(n - 1) : n);
var hanoi = Y<int, int>(self => n => n == 1 ? 1 : 2 * self(n - 1) + 1);
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That's neat. It uses two expressions, but it's just possible that the Y function is already defined somewhere, in which case you could reference that and avoid its definition. – hvd Feb 23 '12 at 8:28

I don't know of any way to make an infinite sequence with straight LINQ. However, you could make a very long sequence.

var sequence = Enumerable.Range(0, int.MaxValue)
                         .Select(n => Math.Pow(2, -n));

However, since double has finite precision, you'll probably get nothing but zeros after n gets too high. You'll have to experiment to see what happens, and how high n can get before it does.

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