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I'm relatively new to Lisp, and I was wondering if there really is an upper limit to the "+" function.

(I guess this applies to all the other arithmetic functions "-", "/" etc.)

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4 Answers 4

up vote 9 down vote accepted

Yes, there is an upper limit, but the exact upper limit is implementation-dependent. You're guaranteed to be able to pass at least 50, but it all depends. If you need to sum a list, you're probably better off with (reduce #'+ list), that should give you a much better scalability than any other method.

Common Lisp HyperSpec has some more info.

When it comes to value ranges there are two distinct cases, floats and integers. Floats are inherently limited by their size and an implementation that changed from single-floats to double-floats would surprise me a lot. With integers and rationals, CL seamlessly transition between fixnums and bignums, so the limit is a function of the usable address space available to the implementation. I suspect the same holds for complex numbers (complex integers and rationals -> go to bignums if needed; complex floats -> signal an out of range, or return an Inf or NaN).

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That's what the spec says, but do you know of any implementations that actually enforce a limit? –  Marcin Apr 2 '12 at 10:10
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@Marcin Well, SBCL guarantees you a CALL-ARGUMENTS-LIMIT in the region of 10^18 and I would expect that passing more arguments that that simply would not work. I do not have any other implementaion trivially at hand, but I do recall reading about people having problems using APPLY instead of REDUCE with lists as short as "in the hundreds of elements". –  Vatine Apr 2 '12 at 10:14
    
@Vatine I just realised that my title and question description contradict each other in their intended meanings. Since I think you are answering the value-limit of the "+" function, do you mind commenting on the limit of inputs that the function can have? Sorry for the confusion! –  Soyuz Apr 2 '12 at 10:17
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@Soyuz I'm pretty certain that he's talking about the number of inputs. –  Marcin Apr 2 '12 at 10:18
    
@Soyuz I think it's fair to say that he's proved me and Mark Hurd wrong on this. –  Marcin Apr 2 '12 at 10:18

Simple answer, no, although a poor implementation using recursion and not tail recursion will have a stack limit.

Depending upon your implementation + may be implemented using recursion or as a straight function call.

I don't know Common Lisp well enough to know what requirements it specifies, but most implementations, if they use recursion, will use tail recursion and avoid any stack limits.

A function call will be able to access the arguments as a list and so there is no limit to the number of arguments that can be processed.

EDIT: Since someone has actually given a Common Lisp reference, it clearly should be a better answer, but I would have thought any good implementation would automatically apply the equivalent of (reduce #'+ arg-list) when enough arguments are supplied.

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Common Lisps are generally not tail recursive. I have a feeling that I've read that there is a reason why they are not permitted to have tail-call optimisation (although, I may well be imagining that). –  Marcin Apr 2 '12 at 9:51
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Also, there is no reason why an implementation would use recursion, given the availability of reduce and loop. –  Marcin Apr 2 '12 at 9:56
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@Marcin They are allowed to have tail-call optimization and most do, if you tweak your optimization variables (primarily "speed" high and "debug" low, but see your implementation's manual for specifics). –  Vatine Apr 2 '12 at 9:57
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I would have assumed that + would be implemented in much the same way you suggest. –  Marcin Apr 2 '12 at 10:22
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@Marcin: since it has an upper limit, it is not arbitrary. –  Rainer Joswig Apr 2 '12 at 13:44

Common Lisp has been defined in such a way that it could be implemented efficiently on a wide variety of hardware and software systems. Examples are processors like the Motorola 68000/20/30/40, the various Intel x86 processors, Lisp Machine stack-based processors, DEC VAX, RISC processors, super computers like those from Cray. In the 80s there were a lot of processor families competing, including processors developed for execution of Lisp code. Today we still have several processor families (x86, x86-64, ARM, SPARC, POWER, PowerPC, ...).

It can also be compiled to C, Scheme or other programming languages.

It can also be compiled to virtual machines like those of CMUCL, CLISP or the JVM / Java Virtual Machine (The Java Virtual Machine seems to have a limit of 254 arguments).

For example a Common Lisp compiler might compile Lisp code to straight-forward C code. Thus it would be good if as much of the function calling of the C compiler could be reused as possible. Especially also to make calling Lisp from C easier.

C/C++ has limits on that, too:

Maximum number of parameters in function declaration

Above gives numbers like 127 (C) and 256 for C++. So for a Lisp to C compiler these might be the limits. Otherwise the Lisp code would not use the C function calling.

The first such compiler KCL (Kyoto Common Lisp, later this implementation evolved into GCL / GNU Common Lisp and ECL / Embeddable Common Lisp) had a CALL-ARGUMENTS-LIMIT of 64.

A 64bit implementation of LispWorks / Mac OS X for example has a value of 2047 for CALL-ARGUMENTS-LIMIT.

CALL-ARGUMENTS-LIMIT should be no smaller than 50.

Thus in Common Lisp, list processing and calling arguments are not related. If you want to process lists, you have to use the list processing tools (LIST, MAPCAR, APPEND, REDUCE, ...). Common Lisp provides a mechanism to access the arguments as a list using a &RESTparameter. But that should usually be avoided, since it might cause function calling overhead because a list of the arguments need to consed.

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Clojure provides an example of a Lisp where you can actually have an infinite number of arguments to a function, via the use of lazy sequences:

; infinite lazy sequence of natural numbers
(def naturals (iterate inc 1))

(take 10 naturals)
=> (1 2 3 4 5 6 7 8 9 10)

; add up all the natural numbers 
(apply + naturals)
=> ...... [doesn't terminate]

Not particularly useful, of course.....

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