# infinite Datastructures in D

I found examples of lazy evaluation of function arguments in D http://www.digitalmars.com/d/2.0/lazy-evaluation.html

I´m wondering how to implement possible infinite Datastructures in D like it´s common behaviour of haskell´s lists.

Are there some Examples ?

What is the equivalent of the infinite fibonacci sequence:

``````fibs = 0 : 1 : zipWith (+) fibs (tail fibs)
``````
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Would something like d-programming-language.org/phobos/std_range.html#recurrence satisfy your condition? –  kennytm Jun 28 '11 at 20:20

check out how randoms are implemented for an example https://github.com/D-Programming-Language/phobos/blob/master/std/random.d

but here's the fibonacci sequence

``````struct FiboRange{
enum bool empty=false;//infinite range

long prev=0,curr=1;//the state for next calculations

@property long front(){
return curr;//current value
}

void popFront(){//calculate the next value
long tmp = curr;
curr += prev;
prev = tmp;
}

}
``````
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``````recurrence!((s,n) { return s[n-1] + s[n-2]; })(0, 1)
``````
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This is basically the same thing as Mehrdad's answer but uses, in my opinion, slightly more readable syntax:

``````recurrence!"a[n-1] + a[n-2]"(1, 1)
``````
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personally I prefer `recurrence!q{a[n-1] + a[n-2]}(1, 1)` for strings representing code (for mixins and functors) –  ratchet freak Jun 28 '11 at 21:14
Don't use any kind of string for code, if you can help it (although if you must, I agree with @ratchet). Use a function literal instead -- it will catch errors better. –  Mehrdad Jun 28 '11 at 21:23
It is incredibly common practice to do exactly what eco did here with strings, and it's generally far more legible than either ratchet or Merhad's proposals IMHO. However, `recurrence` will take anything which is callable as a unary function with the correct types, so there are several options on how to give a function to `recurrence`, and you can pick whichever one you happen to prefer. –  Jonathan M Davis Jun 28 '11 at 22:48
It would be so nice if D allowed you to pass expression (a sort of macro, not the value from evaluating the expression) as parameters to templates. –  BCS Jun 29 '11 at 4:42
Sadly, the D version quickly overflows, but the Haskell version continues to print Fibonacci numbers because it uses Big int. –  Arlen Jul 10 '11 at 1:27

Arlen mentioned in a comment that the D version quickly overflows, because it doesn't use bigints. Fortunately, bigints are available as a library module, and are compatible with `recurrence`:

``````import std.bigint;
auto fibs = recurrence!"a[n-1] + a[n-2]"(BigInt(1), BigInt(1));
``````
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ratchet freak covered Fib.

Because it is implemented as a value type, taking copies of it will act as expected. This will also work for any "data structure" (as the OP was using it, not a struct) of any size where a finite amount of storage and a transition operation can define the reachable domain from any point.

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