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I found examples of lazy evaluation of function arguments in D

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 satisfy your condition? – kennytm Jun 28 '11 at 20:20
up vote 8 down vote accepted

check out how randoms are implemented for an example

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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