Category:LSL List

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A list is a special kind of data type which can contain zero or more elements.

Lists are signified by square brackets surrounding their elements; the elements inside are separated by commas.




(Note: to be clear for those who have other programming backgrounds, there are no arrays in LSL: only lists.)

Diverse Data Types

Not all elements in a list need to be the same type of element. In the same list, you can store strings, integers, floats, vectors, etc, right side by side.

Example: //a list with an integer, a float, a string, and a vector.

[1,14.154,"Isn't this fun?",<0,0,0>]

However, a list may not contain another list (i.e. you can't nest them.)

[1, "one", 2, "two"] + [3, "three"] returns [1, "one", 2, "two", 3, "three"]


[1, "one", 2, "two", [3, "three"]]

When you add an element to a list, the list remembers automatically what data type the value was.

Generally, because you're the one adding something to a list, you know what datatype is in what place in the list, and you retrieve it out of the list with the appropriate llList2<type> function such as: llList2String, llList2Vector, etc. (more on this later.)

If for some reason, though, you need to test what data type an element is in a list, you can use the llGetListEntryType function.

Tip! When adding a float to a list, always add it with a decimal point (e.g 1.0 as opposed to 1) to ensure that it is preserved as a float.

Counting place in a list vs list length

It's important at the outset to note the following (which can trip up even experienced minds when they are battle-weary):


The length of this list is 3, because it has 3 elements in it. The length of a list is returned by the llGetListLength() function:

integer length = llGetListLength(mylist);

BUT, counting to determine an element's place in its list (aka "indexing") starts at 0 -- NOT 1.

The position of "Yes" in the above list is 0, "No" is at position 1, and "Perhaps" is at position 2.

Consequently, if you have 7 elements in a list, the last item in the list will be at position 6.

Thus to retrieve the last element in a list, without having to know in advance what position it is at, you can just go:

integer length = llGetListLength(mylist);
string item = llList2String(myList,length - 1);

List Limits

While a script is running, a list can grow dynamically as large as needed, limited only by the amount of memory that is available in the script.

However, at compile (aka save) time, there is a 72 element limit to pre-defined lists hardcoded in the script. Such long, predefined lists are common, for example, when someone is offering the user a plethora of colour choices.

Tip! If you really need 72 or more such choices in a pre-defined list, just make 2 (or more) lists that don't upset the compiler, and join them together in state_entry() or wherever appropriate:

biggerlist = biglist01 + biglist02;

Adding an Element to a list

There are three ways used to append an element to an existing list:

1) myList = myList + [new_item]; 2) myList += [new_item]; 3) myList = (myList=[]) + myList + "new_item";

The third way saves memory. SL Psyke Phaeton has reported that when adding around 90 elements to a list, 3-4KB of memory can be saved. Why it works continues to be the topic of some discussion. It was invented, possibly, by Strife Onizuka.

Joining Lists (aka Concatenation)

Lists can be joined simply by using the + sign:

newlist = list01 + list02;

newlist = list01 + ["red","brown",<0,0,0>];

Clearing a List

To clear a list, set it equal to two square, empty brackets like this:

myList = [];

Strided lists

One common use of lists is to duplicate the functionality of structured collections of data (aka structs). Such collections, available in many programming languages, are absent from LSL.

As an example, you might use a strided list to track the names, gender and rez dates of a group of avatars:

list demographics = ["John Adams", "male", "2007-06-22", "Shirley Bassey", "female", "2005-11-02", "Matt Damon", "male", "2008-05-19"]

This example has a stride of three, because the instance has three data elements. Index 0 ("John Adams") is the start of the first instance, index 3 ("Shirley Bassey") is the start of the second instance, and so on.

It is important that the types of information are always entered in the same sequence for every instance in the list! In the example above, for instance, this means that the name needs to be always the first of the three related elements. You should consider carefully the order in which you record information because the function to sort a list, llListSort, will only sort on the first element of the instances. In other words, if the avatar's rez date were the most important attribute for your script, then you would need to record it first, and the name second. If you wish to be able to sort by avatar last name rather than first name, the name should be added to the list in Lastname, FirstName format.

To add another person to the above list, you would do this:

demographics += ["Dorthy Lamour", "female", "2010-01-22"];

function purpose
ListStridedMove Moves something in a strided list to another place in the strided list.
ListStridedRemove Removes part of a strided list.
ListStridedUpdate Updates part of a strided list.

Extended List Operations

These functions have been created and contributed by LSL users to perform operations not covered by built-in LSL functions.

function purpose
ListItemDelete Removes one element from a list.
ListToWholeNumbers Given a list of floats, converts them all to whole numbers (aka integers.)
ListXorY Join two lists to make one new combined list, while also eliminating any resulting duplicates in the new list.
ListXandY This function examines two lists, and returns a new list composed of the elements that both lists have in common.
ListXnotY Show what x list has that y list is missing.
ListXxorY Returns a new list, composed of elements that were in either original script, but not both. Note: This is not the same as getting rid duplicates by preserving just one of each duplicated item. It goes further, and removes both items.
ListXequY Answers the question: is list X identical to list Y?
ListXneqY Answers the question: is list X different from list Y?
Replace Replaces a single occurrence of something in a list with something else that you specify.
Replace All Replaces all occurrences of 'from list' with those in 'to list' in 'src list'. Not as concise as the replace function above, but will handle multiple items at the same time.
ListUnique Given a list of elements, returns a list of only the unique individual elements in that list.