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I understand that Ruby arrays are both dynamically allocated and dynamically resized; however, I can't seem to find any clear information on whether they are true arrays; i.e. they are contiguous in memory (more specifically, the references they hold are contiguous in memory).

My assumption would be that increasing the size of a Ruby array entails reallocation of the entire array to a larger contiguous memory block where required.

Is this correct, or is "array" a misnomer in this instance?

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4  
Maybe reading the source code in array.c will shed some light? – maerics Feb 27 '14 at 16:55
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The information an array holds about its elements is only their object ids. – sawa Feb 27 '14 at 17:04
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ruby-hacking-guide.github.io/object.html and go to struct RArray section. Well, it's for old Ruby but if you are going to read source this may help you. – Darek Nędza Feb 27 '14 at 18:20
    
See also Ruby Under a Microscope (payware) by Pat Shaughnessy. – Wayne Conrad Feb 27 '14 at 19:29
up vote 3 down vote accepted

The Ruby Language Specification does not prescribe any particular memory representation for Array objects (or any object, actually). That would be too restricting for the implementors. In fact, it doesn't even prescribe that objects have to live in memory at all, which makes possible implementations like MagLev where the Object Memory is a distributed on-disk OO database instead of RAM.

The Ruby Language Specification also does not prescribe any particular performance characteristics for any methods of the Array class.

However, Ruby programmers have come to expect certain performance guarantees from certain Array methods (and any implementation that doesn't meet those guarantees will simply be ignored by the community), e.g.

  • Array#[] shall have a worst-case step complexity of O(#of items sliced)
  • Array#<< shall have a worst-case step complexity of O(n) and an amortized worst-case step complexity of O(1)
  • … and so on.

Basically, the typical performance guarantees you would expect from a dynamic array.

This more or less means that the only way to meet those performance guarantees is that the implementation must use contiguous storage and exponential resizing.

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Pretty much exactly the kind of answer I was looking for. Thanks. – Ant P Feb 28 '14 at 18:53
    
"The Ruby Language Specification" - that's interesting. I have never heard about that. I have read that Ruby doesn't have the specification. As I may be wrong (or my informations are outdated), could you provide link to the specification? – Darek Nędza Mar 4 '14 at 8:55
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@DarekNędza: ISO.Org/iso/iso_catalogue/catalogue_tc/… – Jörg W Mittag Mar 4 '14 at 11:21

Having reviewed the source and the article referenced by Darek in the comments, I can confirm that Ruby's arrays are, indeed, genuine arrays and consist of contiguous memory blocks, where the element at a given index can be accessed in O(1) time.

It seems that Ruby over-allocates arrays to improve the efficiency of push and similar operations; however, when the capacity of the array is exceeded, the array is automatically reallocated at a larger size.

This is a fairly important distinction that seems to be largely neglected, so hopefully this information will be useful to others searching for similar enlightenment.

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1  
Overallocating, and in particular exponential overallocating is required to get O(1) amortized worst-case step complexity for append. That's the usual way to implement dynamic arrays. And not exponentially resizing is a common mistake resulting in poor performance. – Jörg W Mittag Feb 28 '14 at 19:02

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