Arrays: Difference between revisions
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[[ | An '''array''' is an container data structure which stores elements (variables) aligned in the computer's memory which are referenced by the array's [[identifier]] and an index specifying a desired element. This sounds complex, so, why should you learn about arrays? The short answer is that the array data structure is fundamental to effective programming. This tutorial targets people who are beginners. To understand how arrays work, it is imperative to try out and modify the provided samples. Make sure that each concept is understood before the next concept is attempted. This tutorial assumes the use of the SciTE editor. There is a minimal version of SciTE included in the latest stable release of AutoIt (version 3.2.0.1 and above). | ||
== Declaring Arrays in AutoIt == | |||
You declare an array in the same manner as you would declare any variable in AutoIt. But when you know it is an array, you add information on how many elements you want to have in the array. This information is provided by adding brackets after the identifier and a number indicating how many elements you want the array to hold. | |||
<syntaxhighlight lang=autoit> | |||
< | |||
Global $arr[4] ; Will make space for 4 elements. | Global $arr[4] ; Will make space for 4 elements. | ||
Local $arr[1] ; Will make space for 1 element. | Local $arr[1] ; Will make space for 1 element. | ||
;NOTE! Avoid using Dim. Use Global or Local instead. | ;NOTE! Avoid using Dim. Use Global or Local instead. | ||
Dim $arr[3] ; Will make space for 3 elements. | Dim $arr[3] ; Will make space for 3 elements. | ||
</ | </syntaxhighlight> | ||
Making space for | |||
Making space for one element may seem ridiculous, but further down the road we shall see how we can have arrays grow and shrink. So when we declare an array with one element, it is usually just a place holder. | |||
In AutoIt, you can also declare an array as a normal variable and later get an array assigned to it from a function. Note about the "from a function" part: this can refer to a user-defined function or an AutoIt internal built-in function. The point is, a variable does not need to hold an array before the array is assigned to it. | In AutoIt, you can also declare an array as a normal variable and later get an array assigned to it from a function. Note about the "from a function" part: this can refer to a user-defined function or an AutoIt internal built-in function. The point is, a variable does not need to hold an array before the array is assigned to it. | ||
< | |||
<syntaxhighlightlang=autoit> | |||
Local $arr = StringSplit("This is my string. I want to split it in sentences.", ".") | Local $arr = StringSplit("This is my string. I want to split it in sentences.", ".") | ||
</ | </syntaxhighlight> | ||
Now to make really certain we have an array from StringSplit, we should check it with the IsArray | |||
< | Now to make really certain we have an array from {{Help File|StringSplit}}, we should check it with the {{Help File|IsArray}} built-in function. | ||
<syntaxhighlightlang=autoit> | |||
If IsArray($arr) Then | If IsArray($arr) Then | ||
; | ; Do work on the array | ||
EndIf | EndIf | ||
</ | </syntaxhighlight> | ||
== Assigning Data to Array Elements == | == Assigning Data to Array Elements == | ||
When we declare the array we make some room in memory for future data. We want to assign some data to the items in the array. Now here is the catch. The array always starts at index | |||
< | When we declare the array we make some room in memory for future data. We want to assign some data to the items in the array. Now here is the catch. The array always starts at index zero. So, the first element in the array will be accessed by zero, the second element in the array is accessed at by one and so on. | ||
<syntaxhighlightlang=autoit> | |||
Local $arr[3] ; Make room for three elements | Local $arr[3] ; Make room for three elements | ||
;Assign some data | ;Assign some data | ||
Line 44: | Line 38: | ||
$arr[1]="Element 2" | $arr[1]="Element 2" | ||
$arr[2]="Element 3" | $arr[2]="Element 3" | ||
</ | </syntaxhighlight> | ||
You can also assign all the data in one smack like this: | You can also assign all the data in one smack like this: | ||
< | |||
<syntaxhighlightlang=autoit> | |||
Local $arr[3] = ["element 1", "element 2", "element 3"] | Local $arr[3] = ["element 1", "element 2", "element 3"] | ||
</ | </syntaxhighlight> | ||
This | This zero-based indexing is quite common in most computer languages, but it can be a source of headaches to beginners until it becomes second nature to them. For example, every time you want to loop through a range of elements and the range includes the last element, you have to subtract one from the number of items your array is holding, to get the index of the last item. I.E., An array with three elements has a last index of two. | ||
So if you don't take | So if you don't take zero-based indexing into consideration in your code, you may ask for something outside the memory area set aside for the array. When you do, you get an error message (<font color="red">Array variable has incorrect number of subscripts or subscript dimension range exceeded</font>) and your script will cease execution. | ||
== Accessing Data in Arrays == | == Accessing Data in Arrays == | ||
Let's walk all elements in the previous sample: | Let's walk all elements in the previous sample: | ||
< | |||
<syntaxhighlightlang=autoit> | |||
Local $arr[3] = ["element 1", "element 2", "element 3"] | Local $arr[3] = ["element 1", "element 2", "element 3"] | ||
For $i = 0 to 3 - 1 ; We have an array with three elements but the last index is two. | For $i = 0 to 3 - 1 ; We have an array with three elements but the last index is two. | ||
ConsoleWrite($arr[$i] & @LF) | ConsoleWrite($arr[$i] & @LF) | ||
Next | Next | ||
</ | </syntaxhighlight> | ||
=== Determine array size with UBound === | === Determine array size with UBound === | ||
The "3 - 1" construct used in the last sample looked strange. It is not a good idea to hard-code size like that. So lets improve our sample a little. | The "3 - 1" construct used in the last sample looked strange. It is not a good idea to hard-code size like that. So lets improve our sample a little. | ||
< | |||
<syntaxhighlightlang=autoit> | |||
Local $iMax = 3 | Local $iMax = 3 | ||
Local $arr[$iMax] = ["Element 1", "Element 2", "Element 3"] | Local $arr[$iMax] = ["Element 1", "Element 2", "Element 3"] | ||
Line 71: | Line 72: | ||
ConsoleWrite($arr[$i] & @LF) | ConsoleWrite($arr[$i] & @LF) | ||
Next | Next | ||
</ | </syntaxhighlight> | ||
Now that's a bit cleaner. It's also a lot easier to increase or decrease the size of the array. <br> | Now that's a bit cleaner. It's also a lot easier to increase or decrease the size of the array. <br> | ||
But say you don't know the size of the array upfront because it may come in a variable size when created dynamically. | But say you don't know the size of the array upfront because it may come in a variable size when created dynamically. | ||
< | |||
<syntaxhighlightlang=autoit> | |||
Local $iMax | Local $iMax | ||
Local $data="Element 1|Element 2|Element 3" | Local $data="Element 1|Element 2|Element 3" | ||
; The string in data will be split into an array everywhere | is encountered | ; The string in data will be split into an array everywhere | is encountered | ||
Local $arr = StringSplit($data, "|") | Local $arr = StringSplit($data, "|") | ||
If IsArray($arr) Then | If IsArray($arr) Then | ||
$iMax = UBound($arr); get array size | $iMax = UBound($arr); get array size | ||
ConsoleWrite("Items in the array: " & $iMax & @LF) | ConsoleWrite("Items in the array: " & $iMax & @LF) | ||
For $i = 0 to $iMax - 1; subtract 1 | |||
For $i = 0 to $iMax - 1; subtract 1 from size to prevent an out of bounds error | |||
ConsoleWrite($arr[$i] & @LF) | ConsoleWrite($arr[$i] & @LF) | ||
Next | Next | ||
EndIf | EndIf | ||
</ | </syntaxhighlight> | ||
When you run the above code you will see that $iMax is | |||
< | When you run the above code you will see that $iMax is four and not three as you might have expected. The reason for this is that the developer of the StringSplit() function thought it was a good idea to use the first item (item zero) to keep a count of valid items in the array. This makes sense in many situations as you now have an array containing data with an index starting at one. So our sample code can now be rewritten like this. | ||
<syntaxhighlightlang=autoit> | |||
Local $iMax | Local $iMax | ||
Local $data="Element 1|Element 2|Element 3" | |||
Local $data = "Element 1|Element 2|Element 3" | |||
; The string in data will be split into an array everywhere | is encountered | ; The string in data will be split into an array everywhere | is encountered | ||
Local $arr = StringSplit($data, "|") | Local $arr = StringSplit($data, "|") | ||
If IsArray($arr) Then | If IsArray($arr) Then | ||
For $i = 1 to $arr[0] | For $i = 1 to $arr[0] | ||
Line 98: | Line 111: | ||
Next | Next | ||
EndIf | EndIf | ||
</ | </syntaxhighlight> | ||
There is another good reason for keeping the count in $arr[0]. When you start to use arrays extensively, you will encounter situations where you have to create an array without knowing how many of the elements you will use. Resizing the array is a relatively expensive operation (in CPU cycles) in most languages. | There is another good reason for keeping the count in $arr[0]. When you start to use arrays extensively, you will encounter situations where you have to create an array without knowing how many of the elements you will use. Resizing the array is a relatively expensive operation (in CPU cycles) in most languages. | ||
Now consider our example if our initial array has reserved space for | Now consider our example if our initial array has reserved space for ten items but we end up only using three. In this case iterating the array using UBound will force us to check for empty elements. While iterating with $arr[0] needs no other change than maintaining the correct count in $arr[0]. | ||
< | |||
<syntaxhighlightlang=autoit> | |||
Local $iMax=10 | Local $iMax=10 | ||
;NOTE: We have added the count in the first element | ;NOTE: We have added the count in the first element | ||
Local $arr[$iMax] = [3, "Element 1", "Element 2", "Element 3"] | Local $arr[$iMax] = [3, "Element 1", "Element 2", "Element 3"] | ||
;NOTE: We use the count in $arr[0] to indicate the last item and we start from index=1 | ;NOTE: We use the count in $arr[0] to indicate the last item and we start from index=1 | ||
For $i = 1 to $arr[0] | For $i = 1 to $arr[0] | ||
ConsoleWrite($arr[$i] & @LF) | ConsoleWrite($arr[$i] & @LF) | ||
Next | Next | ||
</ | </syntaxhighlight> | ||
== Changing array sizes with ReDim == | == Changing array sizes with ReDim == | ||
As arrays are critical to algorithm implementations, and in AutoIt even more so as there is no other means of grouping data, we have to understand how to let it grow and shrink. This is where the keyword ReDim comes into the picture. | As arrays are critical to algorithm implementations, and in AutoIt even more so as there is no other means of grouping data, we have to understand how to let it grow and shrink. This is where the keyword ReDim comes into the picture. | ||
Let's make an example. We want our array to hold data lines but we don't know how many items we need. We make a guess, in this case | Let's make an example. We want our array to hold data lines but we don't know how many items we need. We make a guess, in this case five. Now, we use that array to hold data we get from a loop with a random number of iterations. If the array is too small it should automatically be increased. Before we dump the array to output, we should adjust it to the exact size it is supposed to be. | ||
<syntaxhighlight lang="autoit"> | <syntaxhighlight lang="autoit"> | ||
Local Const $iMax = 5 | |||
; NOTE: We have added the count in the first element | |||
Local $arr[$iMax] = [0] ; Initiate the array and place a counter in the first element. | |||
; Generate a random number between 0 and 20 | |||
Local Const $iRandom = Random(0, 20, 1) | |||
For $i = 1 to $iRandom | |||
; Check that the array is big enough | |||
If UBound($arr) = $i Then | |||
; Resize the array when $i is equal to the element count in the array to prevent subscript error | |||
ReDim $arr[$arr[0] + $iMax] | |||
EndIf | |||
$arr[$i] = "Item " & $i ; safely add data to new index element | |||
$arr[0] = $i ; update the index count for future reference | |||
Next | |||
; Adjust the array size. This time it is probably downward to the size of | |||
; $arr[0] + 1 (remember the first item is $arr[0]) | |||
ConsoleWrite( "Ubound($arr):=" & UBound($arr) & ", $arr[0]:=" & $arr[0] & ", $iRandom:=" & $iRandom & @LF) | ReDim $arr[$arr[0] + 1] | ||
; Now dump the results | |||
For $i = 1 to $arr[0] | |||
ConsoleWrite("$arr[" & $i & "]:=" & $arr[$i] & @LF) | |||
Next | |||
; Visually check that the values are sound | |||
ConsoleWrite("Ubound($arr):=" & UBound($arr) & ", $arr[0]:=" & $arr[0] & ", $iRandom:=" & $iRandom & @LF) | |||
</syntaxhighlight> | </syntaxhighlight> | ||
Note how the array now has first been adjusted to a multiple of $iMax and in the last part adjusted down to a size matching the data items. | Note how the array now has first been adjusted to a multiple of $iMax and in the last part adjusted down to a size matching the data items. | ||
== Multi dimensional arrays == | == Multi dimensional arrays == | ||
Now what is a good explanation of an multi-dimensional array? | Now what is a good explanation of an multi-dimensional array? | ||
It could be a table where you access one item in the table at a time. | It could be a table where you access one item in the table at a time. | ||
<syntaxhighlight lang="autoit"> | <syntaxhighlight lang="autoit"> | ||
Local $arr[3][3] = [[1, 2, 3], [2, 3, 4], [3, 4, 5]] | Local $arr[3][3] = [[1, 2, 3], [2, 3, 4], [3, 4, 5]] | ||
For $i = 0 to UBound( $arr, 1) - 1 | For $i = 0 to UBound( $arr, 1) - 1 | ||
For $j = 0 to UBound($arr, 2) - 1 | For $j = 0 to UBound($arr, 2) - 1 | ||
ConsoleWrite("$arr[" & $i & "][" & $j & "]:=" & $arr[$i][$j] & @LF) | ConsoleWrite("$arr[" & $i & "][" & $j & "]:=" & $arr[$i][$j] & @LF) | ||
Next | Next | ||
ConsoleWrite(@LF) | ConsoleWrite(@LF) | ||
Next | Next | ||
</syntaxhighlight> | </syntaxhighlight> | ||
You can add a number of dimensions not to exceed 64 as stated in the help file section "AutoIt>Appendix>AutoIt3 limits/Defaults". | You can add a number of dimensions not to exceed 64 as stated in the help file section "AutoIt>Appendix>AutoIt3 limits/Defaults". | ||
Drop me a note if you encounter any circumstances where it might be simpler to add dimensions rather than using other techniques. | Drop me a note if you encounter any circumstances where it might be simpler to add dimensions rather than using other techniques. | ||
Here is a | Here is a four dimensional sample. You tell me how that initializer is for readability. | ||
<syntaxhighlight lang="autoit"> | |||
; NOTE: The following is supposed to be all on one line | |||
; but we use the "_" character to split it into multiple lines for readability | |||
Local $arr[3][3][3][3] = [_ | |||
[[[1, 2, 3], [2, 3, 4], [3, 4, 5]], [[1, 2, 3], [2, 3, 4], [3, 4, 5]], [[1, 2, 3], [2, 3, 4], [3, 4, 5]]], _ | |||
[[[1, 2, 3], [2, 3, 4], [3, 4, 5]], [[1, 2, 3], [2, 3, 4], [3, 4, 5]], [[1, 2, 3], [2, 3, 4], [3, 4, 5]]], _ | |||
[[[1, 2, 3], [2, 3, 4], [3, 4, 5]], [[1, 2, 3], [2, 3, 4], [3, 4, 5]], [[1, 2, 3], [2, 3, 4], [3, 4, 5]]]] | |||
For $i = 0 To UBound($arr, 1) - 1 | |||
For $j = 0 To UBound($arr, 2) - 1 | |||
For $k = 0 To UBound($arr, 3) - 1 | |||
For $l = 0 To UBound($arr, 4) - 1 | |||
ConsoleWrite("$arr[" & $i & "][" & $j & "][" & $k & "][" & $l & "]:=" & $arr[$i][$j][$k][$l] & @LF) | |||
Next | |||
Next | |||
Next | |||
Next | |||
ConsoleWrite(@LF) | |||
</syntaxhighlight> | |||
== Arrays in Arrays == | |||
You may save an array in an array element (item). The thing is, there is no way to directly access that array stored in the element. You have to go through a variable to get access to the embedded array which may make your code overly complicated and difficult to debug. | You may save an array in an array element (item). The thing is, there is no way to directly access that array stored in the element. You have to go through a variable to get access to the embedded array which may make your code overly complicated and difficult to debug. | ||
Line 184: | Line 223: | ||
That said, here is an example. | That said, here is an example. | ||
<syntaxhighlight lang="autoit">Local $arr[3] | |||
<syntaxhighlight lang="autoit"> | |||
Local $arr[3] | |||
Local $a1[3] = [2, "a1-1","a1-2"] | Local $a1[3] = [2, "a1-1","a1-2"] | ||
Local $a2[3] = [2, "a2-1","a2-2"] | Local $a2[3] = [2, "a2-1","a2-2"] | ||
Line 194: | Line 235: | ||
For $i = 1 to $arr[0] | For $i = 1 to $arr[0] | ||
$dumy = $arr[$i] | $dumy = $arr[$i] | ||
If IsArray($dumy) Then | If IsArray($dumy) Then | ||
For $j = 1 to $dumy[0] | For $j = 1 to $dumy[0] | ||
Line 201: | Line 243: | ||
ConsoleWrite("!>Oops!, What happened? Expected an array!" & @LF) | ConsoleWrite("!>Oops!, What happened? Expected an array!" & @LF) | ||
EndIf | EndIf | ||
Next</syntaxhighlight> | Next | ||
</syntaxhighlight> | |||
== Passing arrays to a function == | == Passing arrays to a function == | ||
There is no hocus pocus about this. Only a few rules. | There is no hocus pocus about this. Only a few rules. | ||
* You can not declare the variable to hold the array in the function declaration as an array. So, users could pass on a variable. So you have to check that the variable holds an array before you do array specific operations on it. | * You can not declare the variable to hold the array in the function declaration as an array. So, users could pass on a variable. So you have to check that the variable holds an array before you do array specific operations on it. | ||
* You don't have to, but you should, specify the variable to hold the array as ByRef. | * You don't have to, but you should, specify the variable to hold the array as ByRef. | ||
During the tutorial you have probably noticed that there is a lot of code that is equal in each sample. I'm especially thinking about the code we have used to output the array content. Let's make life easier and create a debug function. | |||
<syntaxhighlight lang="autoit"> | <syntaxhighlight lang="autoit"> | ||
Func dbgArray(ByRef $arr, $msg="") | Func dbgArray(ByRef $arr, $msg="") | ||
Line 216: | Line 262: | ||
ConsoleWrite("*** " & $msg & " ***" & @LF) | ConsoleWrite("*** " & $msg & " ***" & @LF) | ||
EndIf | EndIf | ||
For $i = 0 to UBound($arr) - 1 | For $i = 0 to UBound($arr) - 1 | ||
ConsoleWrite("$arr[" & $i & "]:=" & $arr[$i] & @LF) | ConsoleWrite("$arr[" & $i & "]:=" & $arr[$i] & @LF) | ||
Next | Next | ||
ConsoleWrite( "Ubound($arr)=:=" & UBound($arr) & ", $arr[0]:=" & $arr[0] & @LF) | ConsoleWrite( "Ubound($arr)=:=" & UBound($arr) & ", $arr[0]:=" & $arr[0] & @LF) | ||
EndFunc | EndFunc | ||
Line 225: | Line 272: | ||
And let's make a little function to fill our arrays with something. Note how the ArrayFiller makes sure it works on an array. | And let's make a little function to fill our arrays with something. Note how the ArrayFiller makes sure it works on an array. | ||
<syntaxhighlight lang="autoit"> | <syntaxhighlight lang="autoit"> | ||
Func ArrayFiller(ByRef $arr) | Func ArrayFiller(ByRef $arr) | ||
Line 239: | Line 287: | ||
EndFunc | EndFunc | ||
</syntaxhighlight> | </syntaxhighlight> | ||
And finally some code using the new functions | And finally some code using the new functions | ||
<syntaxhighlight lang="autoit"> | <syntaxhighlight lang="autoit"> | ||
Line 254: | Line 303: | ||
== Passing arrays from a function == | == Passing arrays from a function == | ||
As you could observe, in the previous samples, an array will be passed back and forth with the ByRef keyword infront of the variable holding the array in the function declaration. | As you could observe, in the previous samples, an array will be passed back and forth with the ByRef keyword infront of the variable holding the array in the function declaration. | ||
We could also have used the Return keyword in a function. | We could also have used the Return keyword in a function. | ||
Lets re-work the ArrayFiller function to do this rather than using a variable ByRef. | Lets re-work the ArrayFiller function to do this rather than using a variable ByRef. | ||
<syntaxhighlight lang="autoit"> | <syntaxhighlight lang="autoit"> | ||
Func ArrayFiller2() | Func ArrayFiller2() | ||
Line 266: | Line 317: | ||
And now we can use the function like this | And now we can use the function like this | ||
<syntaxhighlight lang="autoit"> | <syntaxhighlight lang="autoit"> | ||
Local $foo = ArrayFiller2() | Local $foo = ArrayFiller2() | ||
Line 272: | Line 324: | ||
== Forum FAQ about arrays == | == Forum FAQ about arrays == | ||
Feel free to add questions and answers you have encountered in the forum. | Feel free to add questions and answers you have encountered in the forum. | ||
===Accessing Arrays=== | === Accessing Arrays === | ||
Obviously one can assign arrays to variables: | Obviously one can assign arrays to variables: | ||
<syntaxhighlight lang="autoit"> | <syntaxhighlight lang="autoit"> | ||
$NewArray = $OldArray | $NewArray = $OldArray | ||
</syntaxhighlight> | </syntaxhighlight> | ||
One can also assign single array elements: | One can also assign single array elements: | ||
<syntaxhighlight lang="autoit"> | <syntaxhighlight lang="autoit"> | ||
$Array[1] = "Element 1" | $Array[1] = "Element 1" | ||
</syntaxhighlight> | </syntaxhighlight> | ||
Or | Or | ||
<syntaxhighlight lang="autoit"> | <syntaxhighlight lang="autoit"> | ||
$Content = $Array[1] | $Content = $Array[1] | ||
</syntaxhighlight> | </syntaxhighlight> | ||
===Comparing Arrays=== | === Comparing Arrays === | ||
'''You can not, however, compare complete arrays:'''<br/> | '''You can not, however, compare complete arrays:'''<br/> | ||
<syntaxhighlight lang="autoit"> | <syntaxhighlight lang="autoit"> | ||
Line 296: | Line 356: | ||
If $Array1 == $Array2 Then ConsoleWrite("1.) $Array1 is equal to $Array2! which might be correct in some sense." & @LF); while they contain the same data, the comparison does not work. | If $Array1 == $Array2 Then ConsoleWrite("1.) $Array1 is equal to $Array2! which might be correct in some sense." & @LF); while they contain the same data, the comparison does not work. | ||
If $Array1 == $Array3 Then ConsoleWrite("2.) $Array1 is equal to $Array3! which is incorrect." & @LF); even though they're different in size, it's incorrectly determined that they're equal. | If $Array1 == $Array3 Then ConsoleWrite("2.) $Array1 is equal to $Array3! which is incorrect." & @LF); even though they're different in size, it's incorrectly determined that they're equal. | ||
</syntaxhighlight> | </syntaxhighlight> | ||
I have the impression that such comparisons compare the memory address of the arrays instead of the array elements values. And the addresses are always different for different arrays. | I have the impression that such comparisons compare the memory address of the arrays instead of the array elements values. And the addresses are always different for different arrays. You have to instead, compare all elements one after the other. It might be a good idea to first compare array sizes if that can vary for both the compared arrays! | ||
You have to instead, compare all elements one after the other. It might be a good idea to first compare array sizes if that can vary for both the compared arrays! | |||
===Array UDF: array.au3=== | === Array UDF: array.au3 === | ||
AutoIt features a large list of User-Defined Functions (UDF), among which is a module supplying extra array functions. You can find a reference on those functions in AutoIt's Help file as the last main chapter named 'User Defined Functions Reference'. | |||
[[Category:Tutorials]] |
Revision as of 07:13, 3 August 2013
An array is an container data structure which stores elements (variables) aligned in the computer's memory which are referenced by the array's identifier and an index specifying a desired element. This sounds complex, so, why should you learn about arrays? The short answer is that the array data structure is fundamental to effective programming. This tutorial targets people who are beginners. To understand how arrays work, it is imperative to try out and modify the provided samples. Make sure that each concept is understood before the next concept is attempted. This tutorial assumes the use of the SciTE editor. There is a minimal version of SciTE included in the latest stable release of AutoIt (version 3.2.0.1 and above).
Declaring Arrays in AutoIt
You declare an array in the same manner as you would declare any variable in AutoIt. But when you know it is an array, you add information on how many elements you want to have in the array. This information is provided by adding brackets after the identifier and a number indicating how many elements you want the array to hold.
Global $arr[4] ; Will make space for 4 elements.
Local $arr[1] ; Will make space for 1 element.
;NOTE! Avoid using Dim. Use Global or Local instead.
Dim $arr[3] ; Will make space for 3 elements.
Making space for one element may seem ridiculous, but further down the road we shall see how we can have arrays grow and shrink. So when we declare an array with one element, it is usually just a place holder.
In AutoIt, you can also declare an array as a normal variable and later get an array assigned to it from a function. Note about the "from a function" part: this can refer to a user-defined function or an AutoIt internal built-in function. The point is, a variable does not need to hold an array before the array is assigned to it.
<syntaxhighlightlang=autoit>
Local $arr = StringSplit("This is my string. I want to split it in sentences.", ".")
</syntaxhighlight>
Now to make really certain we have an array from StringSplit, we should check it with the IsArray built-in function.
<syntaxhighlightlang=autoit>
If IsArray($arr) Then ; Do work on the array EndIf
</syntaxhighlight>
Assigning Data to Array Elements
When we declare the array we make some room in memory for future data. We want to assign some data to the items in the array. Now here is the catch. The array always starts at index zero. So, the first element in the array will be accessed by zero, the second element in the array is accessed at by one and so on.
<syntaxhighlightlang=autoit>
Local $arr[3] ; Make room for three elements ;Assign some data $arr[0]="Element 1" $arr[1]="Element 2" $arr[2]="Element 3"
</syntaxhighlight>
You can also assign all the data in one smack like this:
<syntaxhighlightlang=autoit>
Local $arr[3] = ["element 1", "element 2", "element 3"]
</syntaxhighlight>
This zero-based indexing is quite common in most computer languages, but it can be a source of headaches to beginners until it becomes second nature to them. For example, every time you want to loop through a range of elements and the range includes the last element, you have to subtract one from the number of items your array is holding, to get the index of the last item. I.E., An array with three elements has a last index of two.
So if you don't take zero-based indexing into consideration in your code, you may ask for something outside the memory area set aside for the array. When you do, you get an error message (Array variable has incorrect number of subscripts or subscript dimension range exceeded) and your script will cease execution.
Accessing Data in Arrays
Let's walk all elements in the previous sample:
<syntaxhighlightlang=autoit>
Local $arr[3] = ["element 1", "element 2", "element 3"]
For $i = 0 to 3 - 1 ; We have an array with three elements but the last index is two. ConsoleWrite($arr[$i] & @LF) Next
</syntaxhighlight>
Determine array size with UBound
The "3 - 1" construct used in the last sample looked strange. It is not a good idea to hard-code size like that. So lets improve our sample a little.
<syntaxhighlightlang=autoit>
Local $iMax = 3 Local $arr[$iMax] = ["Element 1", "Element 2", "Element 3"] For $i = 0 to $iMax - 1 ConsoleWrite($arr[$i] & @LF) Next
</syntaxhighlight>
Now that's a bit cleaner. It's also a lot easier to increase or decrease the size of the array.
But say you don't know the size of the array upfront because it may come in a variable size when created dynamically.
<syntaxhighlightlang=autoit> Local $iMax
Local $data="Element 1|Element 2|Element 3"
- The string in data will be split into an array everywhere | is encountered
Local $arr = StringSplit($data, "|")
If IsArray($arr) Then
$iMax = UBound($arr); get array size
ConsoleWrite("Items in the array: " & $iMax & @LF)
For $i = 0 to $iMax - 1; subtract 1 from size to prevent an out of bounds error ConsoleWrite($arr[$i] & @LF) Next
EndIf </syntaxhighlight>
When you run the above code you will see that $iMax is four and not three as you might have expected. The reason for this is that the developer of the StringSplit() function thought it was a good idea to use the first item (item zero) to keep a count of valid items in the array. This makes sense in many situations as you now have an array containing data with an index starting at one. So our sample code can now be rewritten like this.
<syntaxhighlightlang=autoit>
Local $iMax
Local $data = "Element 1|Element 2|Element 3"
; The string in data will be split into an array everywhere | is encountered Local $arr = StringSplit($data, "|")
If IsArray($arr) Then For $i = 1 to $arr[0] ConsoleWrite($arr[$i] & @LF) Next EndIf
</syntaxhighlight>
There is another good reason for keeping the count in $arr[0]. When you start to use arrays extensively, you will encounter situations where you have to create an array without knowing how many of the elements you will use. Resizing the array is a relatively expensive operation (in CPU cycles) in most languages.
Now consider our example if our initial array has reserved space for ten items but we end up only using three. In this case iterating the array using UBound will force us to check for empty elements. While iterating with $arr[0] needs no other change than maintaining the correct count in $arr[0].
<syntaxhighlightlang=autoit>
Local $iMax=10
;NOTE: We have added the count in the first element
Local $arr[$iMax] = [3, "Element 1", "Element 2", "Element 3"]
;NOTE: We use the count in $arr[0] to indicate the last item and we start from index=1 For $i = 1 to $arr[0] ConsoleWrite($arr[$i] & @LF) Next
</syntaxhighlight>
Changing array sizes with ReDim
As arrays are critical to algorithm implementations, and in AutoIt even more so as there is no other means of grouping data, we have to understand how to let it grow and shrink. This is where the keyword ReDim comes into the picture.
Let's make an example. We want our array to hold data lines but we don't know how many items we need. We make a guess, in this case five. Now, we use that array to hold data we get from a loop with a random number of iterations. If the array is too small it should automatically be increased. Before we dump the array to output, we should adjust it to the exact size it is supposed to be.
Local Const $iMax = 5
; NOTE: We have added the count in the first element
Local $arr[$iMax] = [0] ; Initiate the array and place a counter in the first element.
; Generate a random number between 0 and 20
Local Const $iRandom = Random(0, 20, 1)
For $i = 1 to $iRandom
; Check that the array is big enough
If UBound($arr) = $i Then
; Resize the array when $i is equal to the element count in the array to prevent subscript error
ReDim $arr[$arr[0] + $iMax]
EndIf
$arr[$i] = "Item " & $i ; safely add data to new index element
$arr[0] = $i ; update the index count for future reference
Next
; Adjust the array size. This time it is probably downward to the size of
; $arr[0] + 1 (remember the first item is $arr[0])
ReDim $arr[$arr[0] + 1]
; Now dump the results
For $i = 1 to $arr[0]
ConsoleWrite("$arr[" & $i & "]:=" & $arr[$i] & @LF)
Next
; Visually check that the values are sound
ConsoleWrite("Ubound($arr):=" & UBound($arr) & ", $arr[0]:=" & $arr[0] & ", $iRandom:=" & $iRandom & @LF)
Note how the array now has first been adjusted to a multiple of $iMax and in the last part adjusted down to a size matching the data items.
Multi dimensional arrays
Now what is a good explanation of an multi-dimensional array? It could be a table where you access one item in the table at a time.
Local $arr[3][3] = [[1, 2, 3], [2, 3, 4], [3, 4, 5]]
For $i = 0 to UBound( $arr, 1) - 1
For $j = 0 to UBound($arr, 2) - 1
ConsoleWrite("$arr[" & $i & "][" & $j & "]:=" & $arr[$i][$j] & @LF)
Next
ConsoleWrite(@LF)
Next
You can add a number of dimensions not to exceed 64 as stated in the help file section "AutoIt>Appendix>AutoIt3 limits/Defaults". Drop me a note if you encounter any circumstances where it might be simpler to add dimensions rather than using other techniques.
Here is a four dimensional sample. You tell me how that initializer is for readability.
; NOTE: The following is supposed to be all on one line
; but we use the "_" character to split it into multiple lines for readability
Local $arr[3][3][3][3] = [_
[[[1, 2, 3], [2, 3, 4], [3, 4, 5]], [[1, 2, 3], [2, 3, 4], [3, 4, 5]], [[1, 2, 3], [2, 3, 4], [3, 4, 5]]], _
[[[1, 2, 3], [2, 3, 4], [3, 4, 5]], [[1, 2, 3], [2, 3, 4], [3, 4, 5]], [[1, 2, 3], [2, 3, 4], [3, 4, 5]]], _
[[[1, 2, 3], [2, 3, 4], [3, 4, 5]], [[1, 2, 3], [2, 3, 4], [3, 4, 5]], [[1, 2, 3], [2, 3, 4], [3, 4, 5]]]]
For $i = 0 To UBound($arr, 1) - 1
For $j = 0 To UBound($arr, 2) - 1
For $k = 0 To UBound($arr, 3) - 1
For $l = 0 To UBound($arr, 4) - 1
ConsoleWrite("$arr[" & $i & "][" & $j & "][" & $k & "][" & $l & "]:=" & $arr[$i][$j][$k][$l] & @LF)
Next
Next
Next
Next
ConsoleWrite(@LF)
Arrays in Arrays
You may save an array in an array element (item). The thing is, there is no way to directly access that array stored in the element. You have to go through a variable to get access to the embedded array which may make your code overly complicated and difficult to debug.
Remember that there may be issues if you pass an array containing arrays into a function and the embedded array is changed inside that function. So, to conclude this, try not to embed arrays within arrays unless you absolutely need to and are prepared to do rigorous testing to make sure your code will always work as expected.
That said, here is an example.
Local $arr[3]
Local $a1[3] = [2, "a1-1","a1-2"]
Local $a2[3] = [2, "a2-1","a2-2"]
$arr[1] = $a1
$arr[2] = $a2
$arr[0] = 2
Local $dumy
For $i = 1 to $arr[0]
$dumy = $arr[$i]
If IsArray($dumy) Then
For $j = 1 to $dumy[0]
ConsoleWrite("$i:=" & $i & ", $dumy[" & $j & "]:=" & $dumy[$j] & @LF)
Next
Else
ConsoleWrite("!>Oops!, What happened? Expected an array!" & @LF)
EndIf
Next
Passing arrays to a function
There is no hocus pocus about this. Only a few rules.
- You can not declare the variable to hold the array in the function declaration as an array. So, users could pass on a variable. So you have to check that the variable holds an array before you do array specific operations on it.
- You don't have to, but you should, specify the variable to hold the array as ByRef.
During the tutorial you have probably noticed that there is a lot of code that is equal in each sample. I'm especially thinking about the code we have used to output the array content. Let's make life easier and create a debug function.
Func dbgArray(ByRef $arr, $msg="")
If $msg <> "" Then
ConsoleWrite("*** " & $msg & " ***" & @LF)
EndIf
For $i = 0 to UBound($arr) - 1
ConsoleWrite("$arr[" & $i & "]:=" & $arr[$i] & @LF)
Next
ConsoleWrite( "Ubound($arr)=:=" & UBound($arr) & ", $arr[0]:=" & $arr[0] & @LF)
EndFunc
And let's make a little function to fill our arrays with something. Note how the ArrayFiller makes sure it works on an array.
Func ArrayFiller(ByRef $arr)
If IsArray($arr) Then
ReDim $arr[3] ;Notice we might discard content in this operation
Else
Local $foo[3]
$arr = $foo
EndIf
;Fill the array
$arr[0] = 2
$arr[1] = "Fill 1"
$arr[2] = "Fill 2"
EndFunc
And finally some code using the new functions
Local $arr1[1]
ArrayFiller($arr1)
dbgArray($arr1)
This code is a test on what happens when we pass a regular variable.
Local $arr2
ArrayFiller($arr2)
dbgArray($arr2)
Passing arrays from a function
As you could observe, in the previous samples, an array will be passed back and forth with the ByRef keyword infront of the variable holding the array in the function declaration.
We could also have used the Return keyword in a function. Lets re-work the ArrayFiller function to do this rather than using a variable ByRef.
Func ArrayFiller2()
Local $arr = [3, "Fill 1", "Fill 2"]
Return $arr
EndFunc
And now we can use the function like this
Local $foo = ArrayFiller2()
dbgArray($foo)
Forum FAQ about arrays
Feel free to add questions and answers you have encountered in the forum.
Accessing Arrays
Obviously one can assign arrays to variables:
$NewArray = $OldArray
One can also assign single array elements:
$Array[1] = "Element 1"
Or
$Content = $Array[1]
Comparing Arrays
You can not, however, compare complete arrays:
Local $Array1[3] = [1, 2, 3]
Local $Array2[3] = [1, 2, 3]
Local $Array3[4] = [1, 2, 3, 4]
If $Array1 == $Array2 Then ConsoleWrite("1.) $Array1 is equal to $Array2! which might be correct in some sense." & @LF); while they contain the same data, the comparison does not work.
If $Array1 == $Array3 Then ConsoleWrite("2.) $Array1 is equal to $Array3! which is incorrect." & @LF); even though they're different in size, it's incorrectly determined that they're equal.
I have the impression that such comparisons compare the memory address of the arrays instead of the array elements values. And the addresses are always different for different arrays. You have to instead, compare all elements one after the other. It might be a good idea to first compare array sizes if that can vary for both the compared arrays!
Array UDF: array.au3
AutoIt features a large list of User-Defined Functions (UDF), among which is a module supplying extra array functions. You can find a reference on those functions in AutoIt's Help file as the last main chapter named 'User Defined Functions Reference'.