Difference between revisions of "LlListSort"

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(Fix article regarding algorithm and feathering in descending order; add some notes)
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|func_desc
|func_desc
|return_text=that is {{LSLP|src}} sorted by {{LSLP|stride}}.
|return_text=that is {{LSLP|src}} sorted by {{LSLP|stride}}.
|spec=A slow bubble sort is employed to perform the sort.<br/>
|spec=The sort order is affected by type. For strings and keys, it is case sensitive and sorts by Unicode character code.<br/>
The sort order is affected by type and is case sensitive.<br/>
<lsl>llListSort(["a", "á", "B", "C", "d", "e"], 1, TRUE) // returns ["B", "C", "a", "d", "e", "á"]</lsl>
<lsl>llListSort(["a", "B", "C", "d", "e"], 1, TRUE) // returns ["B", "C", "a", "d", "e"]</lsl>
 
Each type is sorted individually and then feathered to have the same order of types.
When strings contain numbers, the numbers are still sorted left-to-right like any other character, which may not necessarily match numeric order.
<lsl>llListSort(["127", "3", "25"], 1, TRUE)
// returns ["127", "25", "3"] because the 1 in 127 is before the 2 in 25 and before the 3
// and the 2 in 25 is before the 3</lsl>
In order to sort them in numeric order, numbers in strings can be padded with zeros:
<lsl>llListSort(["127", "003", "025"], 1, TRUE)
// returns ["003", "025", "127"]</lsl>
 
For ascending sort, each type is sorted individually and then feathered to have the same order of types.
<lsl>llListSort([1, "C", 3, "A", 2, "B"], 1, TRUE) // returns [1, "A", 2, "B", 3, "C"]
<lsl>llListSort([1, "C", 3, "A", 2, "B"], 1, TRUE) // returns [1, "A", 2, "B", 3, "C"]


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llListSort(["2ae", "ah5", "1ag", "aa6", "3ac", "ad7", "ab8", "4af", "ai9"], 1, TRUE);
llListSort(["2ae", "ah5", "1ag", "aa6", "3ac", "ad7", "ab8", "4af", "ai9"], 1, TRUE);
// returns ["1ag", "2ae" ,"3ac" ,"4af" ,"aa6" ,"ab8" ,"ad7" ,"ah5" ,"ai9"]</lsl>
// returns ["1ag", "2ae" ,"3ac" ,"4af" ,"aa6" ,"ab8" ,"ad7" ,"ah5" ,"ai9"]</lsl>
|caveats=*A bubble sort is a sorting algorithm with a Big O of N*N. Why Linden Lab did not use a N*log(N) sorting algorithm such as [http://en.wikipedia.org/wiki/Heapsort Heap Sort] or [http://en.wikipedia.org/wiki/Mergesort Merge Sort] is unknown. A [[JIRA]] issue exists to improve this function, [http://jira.secondlife.com/browse/SVC-2988 vote for it here].
 
 
|caveats=*It uses an unoptimized selection sort algorithm, which is an algorithm with a Big O of . A [[JIRA]] issue exists to improve this function, {{Jira|SVC-2988}}.
* Originally the wiki stated that non-zero values for the "ascending" parameter would produce an ascending sort.  That was incorrect.  For this function, the value must be exactly 1 (or TRUE) for an ascending sort.
* Originally the wiki stated that non-zero values for the "ascending" parameter would produce an ascending sort.  That was incorrect.  For this function, the value must be exactly 1 (or TRUE) for an ascending sort.
* Vectors are sorted by magnitude. {{Jira|SVC-5643}}
* [[Vector]]s are sorted by magnitude. {{Jira|SVC-5643}}
* [[Rotation]]s are not sorted in any meaningful order. If a list containing only rotations is sorted in ascending order, it will be returned unchanged.
* For descending sort, if there are mixed types, the final order is deterministic (the same input will always produce the same output) but it can be completely useless. <lsl>llListSort([2, "B", "C", 3, 1, "A"], 1, FALSE) // returns ["A", 3, 1, "C", "B", 2]</lsl> If there are no mixed types, however, the descending sort works just fine.
* When the stride is greater than 1, if the list length is not a multiple of the stride, the list will be returned unchanged.
|constants
|constants
|examples=
|examples=
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|also_functions=
|also_functions=
{{LSL_DefineRow||[[User:Void_Singer/Functions#List:_Get_Reverse_Order|List: Get Reverse Order]]|Returns a list that is src in reverse order.}}
{{LSL_DefineRow||[[User:Void_Singer/Functions#List:_Get_Reverse_Order|List: Get Reverse Order]]|Returns a list that is src in reverse order.}}
{{LSL_DefineRow||[[LlDialog#Examples]]|llListSort can be very useful for arranging buttons for [[llDialog]]}}
{{LSL_DefineRow||[[llDialog#Examples]]|llListSort can be very useful for arranging buttons for [[llDialog]]}}
|also_events
|also_events
|also_tests
|also_tests
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This returns in chat:
This returns in chat:


brown, <0.000000, 0.000000, 0.000000>, cat, 17.004999, 39, house, <3.000000, 3.000000, 3.000000>, 100
brown, <0.000000, 0.000000, 0.000000>, cat, 17.004999, 39, house, <3.000000, 3.000000, 3.000000>, 100
 
The same ordered in descending order returns even more meaningless results:
<lsl>list mylist = ["brown", <0.000000, 0.000000, 0.000000>, "house", 17.005, 100, "cat", <3.000000, 3.000000, 3.000000>, 39];
list tmplist = llListSort(mylist, 1, FALSE);
llSay(0, llList2CSV(tmplist));</lsl>
 
returns in chat:
 
39, <3.000000, 3.000000, 3.000000>, cat, 100, 17.004999, house, <0.000000, 0.000000, 0.000000>, brown


===Utilizing the Results===
===Utilizing the Results===

Revision as of 08:02, 6 May 2014

Summary

Function: list llListSort( list src, integer stride, integer ascending );
0.0 Forced Delay
O(N2) Compl.
10.0 Energy

Returns a list that is src sorted by stride.

• list src List to be sorted.
• integer stride number of entries per stride, if less than 1 it is assumed to be 1
• integer ascending if TRUE then the sort order is ascending, otherwise the order is descending.

This function supports Strided Lists.

Specification

The sort order is affected by type. For strings and keys, it is case sensitive and sorts by Unicode character code.
<lsl>llListSort(["a", "á", "B", "C", "d", "e"], 1, TRUE) // returns ["B", "C", "a", "d", "e", "á"]</lsl>

When strings contain numbers, the numbers are still sorted left-to-right like any other character, which may not necessarily match numeric order. <lsl>llListSort(["127", "3", "25"], 1, TRUE) // returns ["127", "25", "3"] because the 1 in 127 is before the 2 in 25 and before the 3 // and the 2 in 25 is before the 3</lsl> In order to sort them in numeric order, numbers in strings can be padded with zeros: <lsl>llListSort(["127", "003", "025"], 1, TRUE) // returns ["003", "025", "127"]</lsl>

For ascending sort, each type is sorted individually and then feathered to have the same order of types. <lsl>llListSort([1, "C", 3, "A", 2, "B"], 1, TRUE) // returns [1, "A", 2, "B", 3, "C"]

llListSort([1, 3, 2, "C", "A", "B"], 1, TRUE) // returns [1, 2, 3, "A", "B", "C"]

llListSort([1, "C", 3, "A", 2, "B"], 2, TRUE) // returns [1, "C", 2, "B", 3, "A"]

llListSort(["2ae", "ah5", "1ag", "aa6", "3ac", "ad7", "ab8", "4af", "ai9"], 1, TRUE); // returns ["1ag", "2ae" ,"3ac" ,"4af" ,"aa6" ,"ab8" ,"ad7" ,"ah5" ,"ai9"]</lsl>

Caveats

  • It uses an unoptimized selection sort algorithm, which is an algorithm with a Big O of N². A JIRA issue exists to improve this function, SVC-2988.
  • Originally the wiki stated that non-zero values for the "ascending" parameter would produce an ascending sort. That was incorrect. For this function, the value must be exactly 1 (or TRUE) for an ascending sort.
  • Vectors are sorted by magnitude. SVC-5643
  • Rotations are not sorted in any meaningful order. If a list containing only rotations is sorted in ascending order, it will be returned unchanged.
  • For descending sort, if there are mixed types, the final order is deterministic (the same input will always produce the same output) but it can be completely useless. <lsl>llListSort([2, "B", "C", 3, 1, "A"], 1, FALSE) // returns ["A", 3, 1, "C", "B", 2]</lsl> If there are no mixed types, however, the descending sort works just fine.
  • When the stride is greater than 1, if the list length is not a multiple of the stride, the list will be returned unchanged.

Examples

<lsl> list numbers = [3, "three", 2, "two", 1, "one"]; default {

   state_entry()
   {
       llOwnerSay(llDumpList2String(numbers, ","));
       // Object: 3,three,2,two,1,one
       numbers = llListSort(numbers, 2, TRUE);
       llOwnerSay(llDumpList2String(numbers, ","));
       // Object: 1,one,2,two,3,three
   }

} </lsl>

Video Tutorial

<videoflash type="youtube">BNIUHnpeUQs|640|385</videoflash>

Notes

Data Types

llListSort really only works on items of the same type. It will work on lists that hold diverse data types -- to be clear, it won't blow up your script -- but the results returned are usually meaningless.

<lsl>list mylist = ["brown", <0.000000, 0.000000, 0.000000>, "house", 17.005, 100, "cat", <3.000000, 3.000000, 3.000000>, 39]; list tmplist = llListSort(mylist, 1, TRUE); llSay(0, llList2CSV(tmplist));</lsl>

This returns in chat:

brown, <0.000000, 0.000000, 0.000000>, cat, 17.004999, 39, house, <3.000000, 3.000000, 3.000000>, 100

The same ordered in descending order returns even more meaningless results: <lsl>list mylist = ["brown", <0.000000, 0.000000, 0.000000>, "house", 17.005, 100, "cat", <3.000000, 3.000000, 3.000000>, 39]; list tmplist = llListSort(mylist, 1, FALSE); llSay(0, llList2CSV(tmplist));</lsl>

returns in chat:

39, <3.000000, 3.000000, 3.000000>, cat, 100, 17.004999, house, <0.000000, 0.000000, 0.000000>, brown

Utilizing the Results

It's important to note that the source list that you are sorting will remain unchanged. Instead, a new, sorted list will be produced. So, it's important that you capture this with a variable (unless you are acting directly on the results.)

<lsl>llListSort(myList, 1, TRUE); // You've wasted cpu time; you didn't capture the results

list newlist = llListSort(myList, 1, TRUE);// Okay. You've captured the results.

llSay(0,llList2CSV(llListSort(myList, 1, TRUE))); // No need to capture, using the results right away.</lsl>

Stride parameter

Most times, you will want to set "integer stride" to 1 (0 also works) to tell it to sort each item in the list on its own basis. (If you are working with a strided list, though, see the special section below on sorting strides.)

Sort Order

Setting the parameter "integer ascending" to TRUE returns a sorted list that is in ascending order.
For example: ["Apples", "Bananas", "Oranges"]

Setting the parameter "integer ascending" to FALSE returns a sorted list that is in descending order.
For example: ["Oranges", "Bananas", "Apples"]

Sorting Strided Lists

If you have a strided list, in which you are keeping related pieces of data together in chunks, letting each list element sort on its own basis would be disastrous.

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

Bad Example

<lsl>list tmplist_1 = llListSort(demographics, 1, TRUE); //tmplist_1 == ["2005-11-02", "2007-06-22", "2008-05-19", "John Adams", "Matt Damon", "Shirley Bassey", "female", "male", "male"] //The strides have been destroyed, the sorted data is now useless</lsl>

Good Example

Instead, because you have the data grouped (aka "strided") in sets of 3, you need to do this:

<lsl>list tmplist_2 = llListSort(demographics, 3, TRUE); //templist_2 = ["John Adams", "male", "2007-06-22", "Matt Damon", "male", "2008-05-19", "Shirley Bassey", "female", "2005-11-02"] </lsl>

When storing data in strided lists, it's often worth it down the road to take a moment at the outset to think about how you are most likely to want to sort them, if ever the need arose. Remember, you can only sort on the first element in each group of elements. If you think you're mostly likely to want to sort on gender (to use the above list example), you should make gender the first element in the data grouping.

See Also

Functions

•  List: Get Reverse Order Returns a list that is src in reverse order.
•  llDialog#Examples llListSort can be very useful for arranging buttons for llDialog

Deep Notes

Source

Signature

function list llListSort( list src, integer stride, integer ascending );