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I understand that hardware will limit the amount of memory allocated during program execution. However, my question is without regard to hardware. Assuming that there was no limit to the amount of memory, would there be no limit to the array?

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Actually software (OS) is the thing that will normally cause the memory limit seen by your C program. – TJD Feb 21 '12 at 23:33
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Without a limit on memory, there is no limit on the pointer size. Without a limit on pointer size, all bets are off. – dasblinkenlight Feb 21 '12 at 23:34
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it would be limited by the size of the pointer (32 bit versus 64 bit) – Mitch Wheat Feb 21 '12 at 23:34
    
up vote 26 down vote accepted

There is no fixed limit to the size of an array in C.

The size of any single object, including of any array object, is limited by SIZE_MAX, the maximum value of type size_t, which is the result of the sizeof operator. (It's not entirely clear whether the C standard permits objects larger than SIZE_MAX bytes, but in practice such objects are not supported; see footnote.) Since SIZE_MAX is determined by the implementation, and cannot be modified by any program, that imposes an upper bound of SIZE_MAX bytes for any single object.

The width of the type void*, a generic pointer type, imposes an upper bound on the total size of all objects in an executing program (which may be larger than the maximum size of a single object).

The C standard imposes lower bounds, but not upper bounds, on these fixed sizes. No conforming C implementation can support infinite-sized objects, but it can in principle support objects of any finite size. Upper bounds are imposed by individual C implementations, by the environments in which they operate, and by physics, not by the language.

For example, a conforming implementation could have SIZE_MAX equal to 21024-1, which means it could in principle have objects up to 179769313486231590772930519078902473361797697894230657273430081157732675805500963132708477322407536021120113879871393357658789768814416622492847430639474124377767893424865485276302219601246094119453082952085005768838150682342462881473913110540827237163350510684586298239947245938479716304835356329624224137215 bytes.

Good luck finding hardware that actually supports such objects.

Footnote: There is no explicit rule that no object can be bigger than SIZE_MAX bytes. You couldn't usefully apply the sizeof operator to such an object, but like any other operator, sizeof can overflow; that doesn't mean you couldn't perform operations on such an object. But in practice, any sane implementation will make size_t big enough to represent the size of any object it supports.

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Couldn't I use a arbitrary precision library to extend that max? I mean, theoretically speaking... :p – J. C. Leitão Nov 28 '12 at 5:53
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@J.C.Leitão: In principle, I suppose a compiler could use an arbitrary precision library to implement very wide integer types. But you can't do that as a programmer; actual integer types (with literals, operators, and so forth) are limited to what the compiler provides. – Keith Thompson Nov 28 '12 at 6:08
    
does the existence of far pointers and the correspoing memory model change your answer in any way? – J.F. Sebastian Feb 17 '14 at 19:05
    
@J.F.Sebastian: No. Far pointers are non-standard. Even if they were standard, I don't see how it would change my answer; far pointers are still fixed in size. – Keith Thompson Feb 17 '14 at 19:10
    
@KeithThompson: as I understand it 16-bit far pointers can address 20-bit space. I don't know but does it mean that there can be an object larger than "The width of the type void*"? – J.F. Sebastian Feb 17 '14 at 20:08

Without regard for memory, the maximum size of an array is limited by the type of integer used to index the array.

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A 64-bit machine could theoretically address a maximum of 2^64 bytes of memory.

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Good luck putting that amount of memory into a computer. Even with Moore's law that's a long time coming. – Mark Ransom Feb 21 '12 at 23:48
    
I could imagine it happening within my lifetime though. – Prof. Falken Feb 22 '12 at 8:00
    
@AmigableClarkKant The entire earth is composed of less than 2^64 atoms (it weights only about 5*10^24 kg), so your expectations are very very overoptimistic. SCNR. – Durandal Mar 22 '13 at 15:14
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@Durandal, wolframalpha.com/input/?i=number+of+atoms+in+the+earth says there are 1x10^50 atoms in the earth and 2^64 is 1*10^25. I am maybe overoptimistic though. :) Did not think this through... – Prof. Falken Mar 22 '13 at 15:46
    
@AmigableClarkKant Hm, maybe it was me who didn't think this trough (just comparing orders of magnitude and totally ignoring base). But I still lobby against converting a notable part of earth's mass into computer memory. Although if we could build a matrix from it, it might be worth doing just that... hm. Have a nice weekend anyway. – Durandal Mar 22 '13 at 16:47

I guess the biggest theoretical array would be the max value of "unsigned long" (or whatever the biggest integer number the latest standard / your compiler supports)

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The size of the pointer will limit the memory you are able to access. Even if the hardware offers support for unlimited memory, if the largest datatype you are able to use is 64 bit, you'll only be able to access 2^64 bytes of memory.

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C99 5.2.4.1 "Translation limits" guarantees at least:

The implementation shall be able to translate and execute at least one program that contains at least one instance of every one of the following limits: 13)

  • 65535 bytes in an object (in a hosted environment only)

13) Implementations should avoid imposing fixed translation limits whenever possible.

This suggests that a conforming implementation could refuse to compile an object (which includes arrays) with more than short bytes.

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I was looking for a way to determine the maximum size for an array. This question seems to ask the same, so I want to share my findings.

Initially, C does not provide any function to determine the maximum number of elements allocable in an array in compilation time. This is because it will depend of the memory of available in the machine where it will be executed.

On the other hand, I have found, that memory allocation functions (calloc() and malloc()) enable to allocate larger arrays. Moreover, these functions allows you to handle runtime memory allocation errors.

Hope that helps.

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