# Why do Lua arrays(tables) start at 1 instead of 0?

I don't understand the rationale behind the decision of this part of Lua. Why does indexing start at 1? I have read (as many others did) this great paper. It seems to me a strange corner of a language that is very pleasant to learn and program. Don't get me wrong, Lua is just great but there has to be an explanation somewhere. Most of what I found (on the web) is just saying the index starts at 1. Full stop.

It would be very interesting to read what its designers said about the subject.

Note that I am "very" beginner in Lua, I hope I am not missing something obvious about tables.

• The default scope is also global. The two biggest misfeatures of Lua. May 7, 2010 at 1:55
• I would not call starting at 1 a misfeature. It actually makes more sense - programmers are just so well trained to think in terms of 0-based indexing from other languages that we don't like it. We are also trained to think 5/2 = 2. That doesn't make it right. May 7, 2010 at 2:26
• @BlueRaja-DannyPflughoeft: no. Zero indexing makes more sense - humans are just so well trained in starting counting with 1 that languages that start with 0 are initially confusing. But I'd love to refer you to Edsger Dijkstra here: cs.utexas.edu/users/EWD/ewd08xx/EWD831.PDF
– orlp
Feb 25, 2013 at 21:50
• @nightcracker: When you count apples on a table, you count the first one as "one," the second one as "two," etc. Nobody counts the first one as "zero" and then adds one at the end; counting from zero is simply, unarguably, counter-intuitive. Yes, I realize that's how the indexing works internally, but that's why we call it an abstraction. Feb 25, 2013 at 21:58
• I never understood all the love towards 0-based indexing. It's nice for offsets (how many items to skip from the start?) and subsequences (0 ≤ x < n), but looks wrong for basic things (the second element is called one? The tenth element corresponds to index nine? WAT?). Even programmers count from 1 when they try to find a line reported by the compiler... May 31, 2013 at 15:47

Lua is descended from Sol, a language designed for petroleum engineers with no formal training in computer programming. People not trained in computing think it is damned weird to start counting at zero. By adopting 1-based array and string indexing, the Lua designers avoided confounding the expectations of their first clients and sponsors.

Although I too found them weird at the beginning, I have learned to love 0-based arrays. But I get by OK with Lua's 1-based arrays, especially by using Lua's generic `for` loop and the `ipairs` operator—I can usually avoid worrying about just how arrays are indexed.

• This is just a historical, marketing reason. No rational reason, especially at current time. And it seems even you're trying to avoid 1-based indexing instead of utilizing it :) Aug 7, 2010 at 15:26
• @Eonil actually avoiding explicit indexing reduces indexing errors. Dec 6, 2011 at 9:17
• @Eonil historic reasons are usually the relevant ones. You start with something, and then you can never change it, because it would break all existing code. Particularly bad for 0 vs. 1 indexing, since the way it breaks is pretty subtle. Dec 6, 2011 at 9:17
• The difference is between going from 1 to Length and from 0 to length -1, but in a for loop the `< length` is much more handy and easier to read on the "weirdo 0-based languages". I confess when I see a loop iterating from 1, i immediately assume it starts from the 2nd element :S May 11, 2015 at 12:20
• I thought it was the stupidest thing when I started playing around with it as part of a Minecraft mod called ComputerCraft, but given the historical precedent, I guess I can understand why it is the way it is. That said, do you happen to have a link handy where I can read more about this connection to Sol? I'm always curious about the background for a language I'm working with, even if I'm not using it for anything serious. Mar 3, 2021 at 17:25

In Programming in Lua's first discussion of tables, they mention:

Since you can index a table with any value, you can start the indices of an array with any number that pleases you. However, it is customary in Lua to start arrays with 1 (and not with 0, as in C) and several facilities stick to this convention.

Later on, in the chapter on data structures, they say almost the same thing again: that Lua's built-in facilities assume 1-based indexing.

Anyway, there are a couple conveniences to using 1-based indexing. Namely, the `#` (length) operator: `t[#t]` access the last (numeric) index of the table, and `t[#t+1]` accesses 1 past the last index. To someone who hasn't already been exposed to 0-based indexing, `#t+1` would be more intuitive to move past the end of a list. There's also Lua's `for i = 1,#t` construct, which I believe falls under the same category as the previous point that "1 to the length" can be more sensible than indexing "0 to the length minus 1".

But, if you can't break the mindset of 0-based indexing, then Lua's 1-based indexing can certainly be more of a hindrance. Ultimately, the authors wanted something that worked for them; and I'll admit I don't know what their original goal was, but it's probably changed since then.

My understanding is that it's that way just because the authors thought it would be a good way to do it, and after they rolled the language out to the public that decision calcified considerably. (I suspect there would be hell to pay were they to change it today!) I've never seen a particular justification beyond that.

• Possible justification: C only did it because an array is basically just a pointer and `array[0] == array + 0;`, and 1-based counting is more natural when array is really a hash table. May 7, 2010 at 13:37
• Lua indices are actually indices. In C when you say index what you really mean is an offset.
– Alex
Jun 6, 2010 at 21:02

Perhaps a less significant point, but one I haven't heard mentioned yet: there is better symmetry in the fact that the first and last characters in a string are at 1 and -1 respectively, instead of 0 and -1.

• While this is nice, it was not the reason for starting at 1.
– lhf
Aug 6, 2012 at 13:23
• That's not better symmetry. Now you have a situation where -3, -2, -1, 1, 2 and 3 are valid indices, but not 0! Nov 9, 2020 at 12:25
• how is it not better symmetry? Just because one index is completely invalid (doesn't point to either end, which I agree isn't great if you so happen to need EVERY index up to the integer limit... whatever that is for Lua) doesn't mean the symmetry isn't there Mar 3, 2021 at 17:33
• -1 is not a valid array index in languages that have arrays (ie. not Lua). So the notion of "symmetry" between array indexes doesn't hold water. May 26, 2022 at 15:02

Lua libraries prefer to use indices which start at 1. However, you can use any index you want. You can use 0, you can use 1, you can use -5. It is even in their manual, which can be found at (https://www.lua.org/pil/11.1.html).

In fact, something cool here is internal lua libraries will treat SOME passed 0's as 1's. Just be cautious when using ipairs.
So that: `("abc"):sub(0,1) == "a" and ("abc"):sub(1,1) == "a"` will be true.

`````` You can start an array at index 0, 1, or any other value:

-- creates an array with indices from -5 to 5
a = {}
for i=-5, 5 do
a[i] = 0
end
``````
• Is there a way to make `({'a', 'b'})[1]` evaluate to `'b'` not `'a'` though? That seems built-in to me. Jun 7, 2020 at 19:52
• `({[0] = 'a', 'b'})[1]` Jun 17, 2020 at 17:10

The specific definitions of array index in C and Lua, are different.

In C array, it means: item address offset of the array address.

In Lua array, it means: the n-th item in array.

Why most languages use 0-based index? Because the compiler code with `offset definition` is more convenient and effective. They mostly handle addresses.

And the Lua. This is the code of lua 5.3.5 for table index with C:

``````const TValue *luaH_getint (Table *t, lua_Integer key) {
if (l_castS2U(key) - 1 < t->sizearray)
return &t->array[key - 1];
else {
Node *n = hashint(t, key);
for (;;) {
if (ttisinteger(gkey(n)) && ivalue(gkey(n)) == key)
return gval(n);
else {
int nx = gnext(n);
if (nx == 0) break;
n += nx;
}
}
return luaO_nilobject;
}
}
``````

We should focus on the code `&t->array[key - 1]`, it have a subtraction operation. It is not effective compared with 0-based index.

But, the 1-based index is more neared with human being languages. We focus more on n-th item in English, Chinese, Japanese and also.

So, I guess the Lua designers choose 1-based index, they choose easy understanding for pure newer of program, give up the convenience and effectiveness.

• There are no "arrays" in Lua, and so no choice about 0 vs 1 array "base index" was made during language design or implementation. At all. See my comment on the question for details. May 26, 2022 at 14:59

In your example, `table[0]` will always return `nil(null)`, unless you assign value to it yourself, like `table[0] = 'some value'` and then `table[0]` will return `'some value'`, which you assigned.

Here's an example:

``````tbl = {"some"}
print("tbl[0]=" .. tostring(tbl[0]))
print("tbl[1]=" .. tostring(tbl[1]))
nothing = {}
print("nothing[0]=" .. tostring(nothing[0]))
print("nothing[1]=" .. tostring(nothing[1]))
nothing[0] = "hey"
print("(after assign)\nnothing[0]=" .. tostring(nothing[0]))
``````

The real reason is that the language is an implementation of the definition in a law of Portugal and the major development centre was in Brazil and their preference is to avoid the use of zero or empty or nothing as an index or subscript. However the language does permit the use of a start index other than 1 in a table creating function in some versions.

• Even if this is true, it is not at all relevant to how Lua was designed.
– lhf
Apr 20, 2013 at 11:59
• yeah, no, this answer is highly suspect. Please provide a source for this statement about Portugal's legal system as it relates to Lua, as I'm not even close to seeing and understanding the relevance. Mar 3, 2021 at 17:38

It makes sense to everyone, that if

``````table = {}
``````

`table` is empty. So, when

``````table == {something}
``````

The table contains something so what it contains is index 1 in `table`, if you know what I mean.

What I meant is that `table[0]` exists, and its `table = {}`, which is empty, now a programmer won't call a empty table, it sets them, and then fills it, it will be useless to find an empty table every time you want to call it, so it's simpler to just create an empty table.

• I don't get the concept of a table being valued 0. A table can have a length of 0. But that's independent of the choice of first index. I don't care about minor grammar mistakes, but I simply don't understand the point of your answer, which is why I downvoted. Dec 6, 2011 at 9:36
• thats what i ment, a table cant be hold with a 0 index or value, since we use it as an empty table <,< when you have something this something its represented from 1,"n" so when you have nothing, your empty of something, wich leads us to a cero, but the cero dosnt count, lua its a lenguage that comes practical, you dont go outside and tell your friends you know what i have 0 songs of that artists, eigther you have some, or you dont. the point its table = {} thats cero an empty table Dec 6, 2011 at 9:40
• An array that uses the index `0` as only element is still not empty. In fact lua supports this, it's just not the default convention. Dec 6, 2011 at 11:06
• yup i agree with you, on some other lenguages, but not lua, lua index 0 dosnt exist, so we can imagine it like an empty = 0, or thats how i picture it, even when you can force the index to be 0, it wont work with the table values #table wont read a 0 index, so my answer its still that lua its basicly made like a regular event, now if they intend this or not its not really relevant you wont write the hole code again, and we cant do anything about it :/, i still belive that its fair to say that in lua an empty table has a 0 index Dec 6, 2011 at 23:36
• I don't think you are getting negative rep for grammar. That's easy enough for people to edit to help you fix. The problem is your answer doesn't seem to be coherent even in its intent. What does the length of a table have to do with the choice of first index? That seems to be your entire argument: it's length equals its last index? If you ever come back to SO, you should take another look at this one. I'm sure after 10 years you'll understand why everyone was so hard on it. Sometimes I want to kick myself over answers I gave 5 years ago so... yeah Mar 3, 2021 at 17:51