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I was going through the exercises in Ruby Koans and I was struck by the following Ruby quirk that I found really unexplainable:

array = [:peanut, :butter, :and, :jelly]

array[0]     #=> :peanut    #OK!
array[0,1]   #=> [:peanut]  #OK!
array[0,2]   #=> [:peanut, :butter]  #OK!
array[0,0]   #=> []    #OK!
array[2]     #=> :and  #OK!
array[2,2]   #=> [:and, :jelly]  #OK!
array[2,20]  #=> [:and, :jelly]  #OK!
array[4]     #=> nil  #OK!
array[4,0]   #=> []   #HUH??  Why's that?
array[4,100] #=> []   #Still HUH, but consistent with previous one
array[5]     #=> nil  #consistent with array[4] #=> nil  
array[5,0]   #=> nil  #WOW.  Now I don't understand anything anymore...

So why is array[5,0] not equal to array[4,0]? Is there any reason why array slicing behaves this weird when you start at the (length+1)th position??

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+1 for Rubykoans.. just found out about it. – Anurag Aug 25 '10 at 16:47
looks like the first number is the index to start at, second number is how many elements to slice – austin Jul 24 '14 at 21:59

Makes sense to me. Say the first number when you slice does not identify the element, but places between elements, in order to be able to define spans (and not elements themselves):

  :peanut   :butter   :and   :jelly
0         1         2      3        4

so, 4 is still within the array, just barely; if you request 0 elements, you get the empty end of the array. But there is no index 5, so you can't slice from there.

When you don't slice, but index (like array[4]), you are actually pointing at elements themselves, so the indices only go from 0 to 3.

Basically what I'm saying is that slicing and indexing are two different operations, and inferring the behaviour of one from the other is where your problem lies.

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A good guess unless this is backed up by the source. Not being snarky, I'd be interested in a link if any just to explain the "why" like the OP and other commenters are asking. Your diagram makes sense except Array[4] is nil. Array[3] is :jelly. I would expect Array[4,N] to be nil but it's [] like the OP says. If it's a place, it's a pretty useless place because Array[4, -1] is nil. So you can't do anything with Array[4]. – squarism Dec 21 '10 at 22:15
@squarism I just got confirmation from Charles Oliver Nutter (@headius on Twitter) that this is the correct explanation. He's a big-time JRuby dev, so I'd consider his word pretty authoritative. – Hank Gay Apr 20 '11 at 0:52
The following is the justification for this behavior: – Matt Briançon Aug 16 '11 at 16:17
Correct explanation. Similar discussions on ruby-core: , – Marc-André Lafortune Sep 7 '11 at 18:12
Also referred to as "fence-posting." The fifth fence-post (id 4) exists, but the fifth element does not. Slicing is a fence-post operation, indexing is an element operation. – Matty K Jun 21 '12 at 2:12

this has to do with the fact that slice returns an array, relevant source documentation from Array#slice:

 *  call-seq:
 *     array[index]                -> obj      or nil
 *     array[start, length]        -> an_array or nil
 *     array[range]                -> an_array or nil
 *     array.slice(index)          -> obj      or nil
 *     array.slice(start, length)  -> an_array or nil
 *     array.slice(range)          -> an_array or nil

which suggests to me that if you give the start that is out of bounds, it will return nil, thus in your example array[4,0] asks for the 4th element that exists, but asks to return an array of zero elements. While array[5,0] asks for an index out of bounds so it returns nil. This perhaps makes more sense if you remember that the slice method is returning a new array, not altering the original data structure.


After reviewing the comments I decided to edit this answer. Slice calls the following code snippet when the arg value is two:

if (argc == 2) {
    if (SYMBOL_P(argv[0])) {
        rb_raise(rb_eTypeError, "Symbol as array index");
    beg = NUM2LONG(argv[0]);
    len = NUM2LONG(argv[1]);
    if (beg < 0) {
        beg += RARRAY(ary)->len;
    return rb_ary_subseq(ary, beg, len);

if you look in the array.c class where the rb_ary_subseq method is defined, you see that it is returning nil if the length is out of bounds, not the index:

if (beg > RARRAY_LEN(ary)) return Qnil;

In this case this is what is happening when 4 is passed in, it checks that there are 4 elements and thus does not trigger the nil return. It then goes on and returns an empty array if the second arg is set to zero. while if 5 is passed in, there are not 5 elements in the array, so it returns nil before the zero arg is evaluated. code here at line 944.

I believe this to be a bug, or at least unpredictable and not the 'Principle of Least Surprise'. When I get a few minutes I will a least submit a failing test patch to ruby core.

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But... the element indicated by the 4 in array[4,0] doesn't exist either... - because it is actually the 5the element (0-based counting, see the examples). So it is out of bounds as well. – Pascal Van Hecke Aug 25 '10 at 20:56
you're right. I went back and looked at the source, and it looks like the first argument is handled inside the c code as the length, not the index. I will edit my answer, to reflect this. I think this could be submitted as a bug. – Jed Schneider Aug 26 '10 at 13:39
Truly baffling behavior – blu Mar 1 '11 at 4:04

At least note that the behavior is consistent. From 5 on up everything acts the same; the weirdness only occurs at [4,N].

Maybe this pattern helps, or maybe I'm just tired and it doesn't help at all.

array[0,4] => [:peanut, :butter, :and, :jelly]
array[1,3] => [:butter, :and, :jelly]
array[2,2] => [:and, :jelly]
array[3,1] => [:jelly]
array[4,0] => []

At [4,0], we catch the end of the array. I'd actually find it rather odd, as far as beauty in patterns go, if the last one returned nil. Because of a context like this, 4 is an acceptable option for the first parameter so that the empty array can be returned. Once we hit 5 and up, though, the method likely exits immediately by nature of being totally and completely out of bounds.

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This makes sense when you consider than an array slice can be a valid lvalue, not just an rvalue:

array = [:peanut, :butter, :and, :jelly]
# replace 0 elements starting at index 5 (insert at end or array):
array[4,0] = [:sandwich]
# replace 0 elements starting at index 0 (insert at head of array):
array[0,0] = [:make, :me, :a]
# array is [:make, :me, :a, :peanut, :butter, :and, :jelly, :sandwich]

# this is just like replacing existing elements:
array[3, 4] = [:grilled, :cheese]
# array is [:make, :me, :a, :grilled, :cheese, :sandwich]

This wouldn't be possible if array[4,0] returned nil instead of []. However, array[5,0] returns nil because it's out of bounds (inserting after the 4th element of a 4-element array is meaningful, but inserting after the 5th element of a 4 element array is not).

Read the slice syntax array[x,y] as "starting after x elements in array, select up to y elements". This is only meaningful if array has at least x elements.

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This does make sense

You need to be able to assign to those slices, so they are defined in such a way that the beginning and the end of the string have working zero-length expressions.

array[4, 0] = :sandwich
array[0, 0] = :crunchy
=> [:crunchy, :peanut, :butter, :and, :jelly, :sandwich]
share|improve this answer
You can also assign to the range that slice that returns as nil, so it would be useful to expand this explanation. array[5,0]=:foo # array is now [:peanut, :butter, :and, :jelly, nil, :foo] – mfazekas Jun 19 '14 at 1:34
what does the second number do when assigning? it seems to be ignored. [26] pry(main)> array[4,5] = [:love, :hope, :peace] => [:peanut, :butter, :and, :jelly, :love, :hope, :peace] – drewverlee Jun 19 '15 at 0:08
@drewverlee it isn’t ignored: array = [:a, :b, :c, :d, :e]; array[1,2] = :x, :x; array => [:a, :x, :x, :d, :e] – fanaugen Jul 7 '15 at 12:05

I agree that this seems like strange behavior, but even the official documentation on Array#slice demonstrates the same behavior as in your example, in the "special cases" below:

   a = [ "a", "b", "c", "d", "e" ]
   a[2] +  a[0] + a[1]    #=> "cab"
   a[6]                   #=> nil
   a[1, 2]                #=> [ "b", "c" ]
   a[1..3]                #=> [ "b", "c", "d" ]
   a[4..7]                #=> [ "e" ]
   a[6..10]               #=> nil
   a[-3, 3]               #=> [ "c", "d", "e" ]
   # special cases
   a[5]                   #=> nil
   a[5, 1]                #=> []
   a[5..10]               #=> []

Unfortunately, even their description of Array#slice doesn't seem to offer any insight as to why it works this way:

Element Reference—Returns the element at index, or returns a subarray starting at start and continuing for length elements, or returns a subarray specified by range. Negative indices count backward from the end of the array (-1 is the last element). Returns nil if the index (or starting index) are out of range.

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An explanation provided by Jim Weirich

One way to think about it is that index position 4 is at the very edge of the array. When asking for a slice, you return as much of the array that is left. So consider the array[2,10], array[3,10] and array[4,10] ... each returns the remaining bits of the end of the array: 2 elements, 1 element and 0 elements respectively. However, position 5 is clearly outside the array and not at the edge, so array[5,10] returns nil.

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Consider the following array:

>> array=["a","b","c"]
=> ["a", "b", "c"]

You can insert an item to the begining (head) of the array by assigning it to a[0,0]. To put the element between "a" and "b", use a[1,0]. Basically, in the notation a[i,n], i represents an index and n a number of elements. When n=0, it defines a position between the elements of the array.

Now if you think about the end of the array, how can you append an item to its end using the notation described above? Simple, assign the value to a[3,0]. This is the tail of the array.

So, if you try to access the element at a[3,0], you will get []. In this case you are still in the range of the array. But if you try to access a[4,0], you'll get nil as return value, since you're not within the range of the array anymore.

Read more about it at .

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I found explanation by Gary Wright very helpful as well.

The answer by Gary Wright is -

The docs certainly could be more clear but the actual behavior is self-consistent and useful. Note: I'm assuming 1.9.X version of String.

It helps to consider the numbering in the following way:

  -4  -3  -2  -1    <-- numbering for single argument indexing
   0   1   2   3
 | a | b | c | d |
 0   1   2   3   4  <-- numbering for two argument indexing or start of range
-4  -3  -2  -1

The common (and understandable) mistake is too assume that the semantics of the single argument index are the same as the semantics of the first argument in the two argument scenario (or range). They are not the same thing in practice and the documentation doesn't reflect this. The error though is definitely in the documentation and not in the implementation:

single argument: the index represents a single character position within the string. The result is either the single character string found at the index or nil because there is no character at the given index.

  s = ""
  s[0]    # nil because no character at that position

  s = "abcd"
  s[0]    # "a"
  s[-4]   # "a"
  s[-5]   # nil, no characters before the first one

two integer arguments: the arguments identify a portion of the string to extract or to replace. In particular, zero-width portions of the string can also be identified so that text can be inserted before or after existing characters including at the front or end of the string. In this case, the first argument does not identify a character position but instead identifies the space between characters as shown in the diagram above. The second argument is the length, which can be 0.

s = "abcd"   # each example below assumes s is reset to "abcd"

To insert text before 'a':   s[0,0] = "X"           #  "Xabcd"
To insert text after 'd':    s[4,0] = "Z"           #  "abcdZ"
To replace first two characters: s[0,2] = "AB"      #  "ABcd"
To replace last two characters:  s[-2,2] = "CD"     #  "abCD"
To replace middle two characters: s[1..3] = "XX"    #  "aXXd"

The behavior of a range is pretty interesting. The starting point is the same as the first argument when two arguments are provided (as described above) but the end point of the range can be the 'character position' as with single indexing or the "edge position" as with two integer arguments. The difference is determined by whether the double-dot range or triple-dot range is used:

s = "abcd"
s[1..1]           # "b"
s[1..1] = "X"     # "aXcd"

s[1...1]          # ""
s[1...1] = "X"    # "aXbcd", the range specifies a zero-width portion of
the string

s[1..3]           # "bcd"
s[1..3] = "X"     # "aX",  positions 1, 2, and 3 are replaced.

s[1...3]          # "bc"
s[1...3] = "X"    # "aXd", positions 1, 2, but not quite 3 are replaced.

If you go back through these examples and insist and using the single index semantics for the double or range indexing examples you'll just get confused. You've got to use the alternate numbering I show in the ascii diagram to model the actual behavior.

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Can you include the main idea of that thread? (in case of the link one day becomes invalid) – VonC Sep 25 '12 at 12:54

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