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A '''table''' is a data type in Lua that is a useful way to store multiple values, including numbers, strings, functions, more tables, and much more. It is called a table because it acts like a grid with two columns:


{| border="1"
A {{type|table}} is a data type in Lua that is useful to store multiple values, including {{type|number|numbers}}, {{type|string|strings}}, {{type|function|functions}}, more {{type|table|tables}}, and much more. It is called a table because it acts like a grid with two columns:
 
{| class="wikitable"
! Key  !!Value
! Key  !!Value
|-
|-
Line 7: Line 8:
|}
|}


The ''key'' column is used to find a row in the table, and the ''value'' is the value that is stored in that row. Both the key and value can be any Lua value (numbers, strings, [[Part]]s etc., and even other tables) except [[nil]]. Lua tables do not have to use either numbers, strings or tables as keys. Any combination of key types can be used.
The ''key'' column is used to find a row in the table, and the ''value'' is the value that is stored in that row. Both the key and value can be any Lua value ({{type|number|numbers}}, {{type|string|strings}}, {{type|instance=Part|Parts}} etc., and even other tables) except {{nil}}. Lua tables do not have to use either {{type|number|numbers}}, {{type|string|strings}} or {{type|table|tables}} as keys. Any combination of key types can be used.


The <code>#</code> operator will return the amount of keys that are numbers.
Another way to describe it is that by inputting the key, you receive the value.


__TOC__
The # operator will return the amount of keys that are {{type|number|numbers}}.


==Creating a table==
== Arrays ==


To create a table we use a pair of curly braces ('''{}'''). We can then store the table in a [[variable]]:
An array is a list of values, stored in order. It is a table where the keys are sequential integers starting at 1, e.g. 1, 2, 3, 4. Arrays are useful for creating lists of things, such as a list of players with special permissions.


<pre>myTable = {}</pre>
===Creating arrays===


When you use curly braces to define a table, this is called a '''table literal''', which means you're defining a table right in your code. You're ''literally'' defining a table!
Arrays are created with a pair of braces ({ and }, containing the values to store in the array separated by commas (,) or semicolons (;). The values can be of any type
<syntaxhighlight lang="lua">
local myArray = {"A string", 3.14159, Workspace.Part}
local myEmptyArray = {}
</syntaxhighlight>


==Indexing a table==
=== Reading from and writing to arrays ===


Getting values into and out of a table is called ''indexing''. An ''index'' in a table is like a row in the table model above. To index something in a table, you first need the key for the index you want to get or change the value in. You put the key in square brackets ('''[]''') after the table that that is to be looked in. For example, to get or change the index with the key 1 in the table <code>myTable</code>, we write <code>myTable[1]</code>. You can then use this exactly like a [[variable]] or value: it can be used, or set to a different value. For example, to store the string "A value" in <code>myTable</code> in the row with the key 1, we would write:
To read from an array, add a pair of brackets ([ and ]) after the array, and put the number of the element you want inside it. The first element in the array is number 1
<syntaxhighlight lang="lua">
print(myArray[1])              --> A string
print(myArray[2])              --> 3.14159
print(myArray[3]:GetFullName()) --> Workspace.Part


<pre>myTable = {}
myArray[2] = "Pi"
myTable[1] = "A value"</pre>
print(myArray[2])              --> Pi
</syntaxhighlight>


<code>myTable[1]</code> can now be used in other places. For example, the print function:
===More information===


<pre>print(myTable[1]) -- prints: A value</pre>
You can get the length of the array with the # operator:
<syntaxhighlight lang="lua">
print(#myArray)       --> 3
print(#myEmptyArray ) --> 0
</syntaxhighlight>


If there is already an index in the table with the key that is being set, the old value will be replaced with the new one:
Lua's [[Function_Dump/Table_Manipulation|table manipulation]] functions allow you to easily do things such as add and remove values from an array.


<pre>myTable[1] = "A new value"
== Dictionaries ==
print(myTable[1]) -- prints: A new value (as apposed to "A value")</pre>
Dictionaries are an extension of arrays. While an array stores an ordered list of items, a dictionary stores a set of key/value pairs. For example, in a real dictionary, the "keys" are the words, and the "values" the definition.


If there isn't a row with the key we're using when we try to ''get'' a value, it will return [[nil]]:
=== Creating a dictionary ===
 
Once again, dictionaries are created with braces
<pre>print(myTable[2]) -- prints: nil</pre>
<syntaxhighlight lang="lua">
 
local myDictionary = {
== More on table literals ==
["Roblox"] = "A massively multiplayer online game",
 
["Wiki"] = "A Web site developed collaboratively by a community of users",
Keys can be added to the table while we are creating a table in a very similar way to indexing. Inside the curly brackets, we can put lines that are very similar to indexing, but without the name of the table, and separated by commas (''',''') or semicolons (''';''').
["Lua"] = "A lightweight multi-paradigm programming language"
 
<pre>
myOtherTable = {
    [1] = "A value",
    ["A string key"] = "Another value",
    [2] = 5
}
}
</syntaxhighlight>


print(myOtherTable[1], myOtherTable["A string key"], myOtherTable[2]) -- prints: A value Another value 5
Like arrays, dictionaries are not restricted to strings. Both the keys and the values can be of any type.
</pre>
 
''The commas and semicolons are are important!'' If they are not there, Lua will give an error message saying it expects the closing
curly bracket ('''}''') at the line where the next value appears.
 
You can use anything as the index for a table.


<pre>
<syntaxhighlight lang="lua">
ThisTable={
local playerScores = {
    [Vector3.new(1,2,3)]="stuff",
[game.Players.Telamon] = "Over 9000!"
    [workspace.Part]="A cool value"
[game.Players.ROBLOX] = 1337,
[game.Players.Sorcus] = Enum.DialogTone.Enemy
}
}
</syntaxhighlight>


print(ThisTable[Vector3.new(1,2,3)], ThisTable[workspace.Part])
====Shorthand for string keys====
</pre>


If you are defining a key that is a string, you may simply state the string without square brackets nor quotes, so long as they follow the naming guidelines of Lua:
If a key in a dictionary is a string, and a valid Lua identifier (that is, it can be used as [[Variables#Names|the name of a variable]]), the quotes and brackets can be omitted:


<pre>
<syntaxhighlight lang="lua">
myOtherTable = {
local myDictionary = {
    apple = "red",
Roblox = "A massively multiplayer online game",
    orange = "orange",
Wiki = "A Web site developed collaboratively by a community of users",
    banana = "yellow"
Lua = "A lightweight multi-paradigm programming language"
}
}
</syntaxhighlight>


print(myOtherTable["apple"], myOtherTable["orange"], myOtherTable["banana"])  -- prints: red orange yellow
===Indexing a dictionary ===
</pre>


== Arrays ==
Getting values into and out of a table is called ''indexing''. An ''index'' in a table is like a row in the table model above. To index something in a table, you first need the key for the index you want to get or change the value in. You put the key in square brackets ('''[]''') after the table that that is to be looked in. For example, to get or change the index with the key 1 in the table myTable, we write myTable[1]. You can then use this exactly like a [[variable]] or value: it can be used, or set to a different value. For example, to store the string "A value" in myTable in the row with the key 1, we would write:


An array, or list, is a name given to a table wereas all the keys are whole numbers (e.g. 1, 2, 3, 4...). This is very useful for creating lists of things, such as a list of players with special permissions. You would not need to use a string-type key because there is no reason to - you're simply storing a numerical list of names.
<syntaxhighlight lang="lua">
myTable = {}
myTable[1] = "A value"
</syntaxhighlight>


Arrays are created the same way as tables, however you can leave-out the <code>["key"] = ...</code> part, and just write the values separated by commas, and Lua will automatically associate the numbers 1, 2, 3, 4, 5... as keys to the values in the order they are given:
myTable[1] can now be used in other places. For example, the print function:


<pre>myArray = {"First value", "Second value", "Third value"}
<syntaxhighlight lang="lua">print(myTable[1]) --> A value</syntaxhighlight>
print(myArray[1]) -- prints: First value
print(myArray[2]) -- prints: Second value
print(myArray[3]) -- prints: Third value
</pre>


You can get the amount of number keys by using the '''#''' operator:
If there is already an index in the table with the key that is being set, the old value will be replaced with the new one:


<pre>print(#myArray) -- prints: 3</pre>
<syntaxhighlight lang="lua">
myTable[1] = "A new value"
print(myTable[1]) --> A new value (as apposed to "A value")
</syntaxhighlight>


Lua's [[Function_Dump/Table_Manipulation|table manipulation]] functions allow you to easily do things such as add and remove values from an array.
If there isn't a row with the key we're using when we try to ''get'' a value, it will return {{nil}}:


'''Note''': Normally, [[nil]] should not be used as a value in an array. # and Lua's table manipulation functions use nil to tell where an array ends. Putting them in the middle of your table may make Lua think the array ends there.
<syntaxhighlight lang="lua">print(myTable[2]) --> nil</syntaxhighlight>


== Iteration through tables ==
== Iteration through tables ==
Line 105: Line 111:
''Iteration'' is the repetition of an action. In this case, you are iterating through the values in a table by taking each value and doing something with it. For-loops (and sometimes while-loops) are used to iterate with tables. You can use the [[Function_Dump/Core_Functions#pairs_.28t.29|pairs]] (or [[Function_Dump/Core_Functions#ipairs_.28t.29|ipairs]] if you only want to iterate over the number keys) function to write a for-loop that goes through every value in a table with the value's key.
''Iteration'' is the repetition of an action. In this case, you are iterating through the values in a table by taking each value and doing something with it. For-loops (and sometimes while-loops) are used to iterate with tables. You can use the [[Function_Dump/Core_Functions#pairs_.28t.29|pairs]] (or [[Function_Dump/Core_Functions#ipairs_.28t.29|ipairs]] if you only want to iterate over the number keys) function to write a for-loop that goes through every value in a table with the value's key.


<pre>for key, value in pairs(myOtherTable) do
<syntaxhighlight lang="lua">
    print(key, "=", value)
for key, value in pairs(myOtherTable) do
print(key, "=", value)
end
end


Outputs:
--[[
Output:
1 = A value
1 = A value
A string key = Another value
A string key = Another value
2 = 5</pre>
2 = 5
]]
</syntaxhighlight>


== Pass by reference ==
== Pass by reference ==
Line 118: Line 128:
An important thing to understand when setting more than one variable to the same table is that tables are ''passed by reference''. This means that the variable doesn't directly contain the table itself, but that it holds a ''reference'' (or pointer) to it. This means that when more than one variable is set to a table, the variables ''do not'' each have a copy of the table, they refer to the same table, so any changes will be noticed by ''both'' variables:
An important thing to understand when setting more than one variable to the same table is that tables are ''passed by reference''. This means that the variable doesn't directly contain the table itself, but that it holds a ''reference'' (or pointer) to it. This means that when more than one variable is set to a table, the variables ''do not'' each have a copy of the table, they refer to the same table, so any changes will be noticed by ''both'' variables:


<pre>var1 = {}
<syntaxhighlight lang="lua">
var1 = {}
var2 = var1
var2 = var1
var2["key"] = "value"
var2["key"] = "value"
print(var1["key"]) -- prints "value" because var2 had pointed to var1's value (the table)
print(var1["key"]) -- prints "value" because var2 had pointed to var1's value (the table)
</pre>
</syntaxhighlight>


== See Also ==
== See also ==


* [[Metatables]]
* [[Metatables]]
* [http://www.lua.org/pil/2.5.html 2.5 - Tables]
* From Programming in Lua:
* [http://www.lua.org/pil/2.5.html 3.6 - Table Constructors]
** [http://www.lua.org/pil/2.5.html 2.5 - Tables]
* [http://www.lua.org/pil/11.2.html 11.2 - Matrices and Multi-Dimensional Arrays]
** [http://www.lua.org/pil/2.5.html 3.6 - Table Constructors]
* [http://lua-users.org/wiki/TablesTutorial Tables Tutorial]
** [http://www.lua.org/pil/11.2.html 11.2 - Matrices and Multi-Dimensional Arrays]
[[Category:Data Types]]
* [http://lua-users.org/wiki/TablesTutorial Tables Tutorial] on Lua Users wiki
* Using Tables to create data structures:
** [[Linked lists]]
** [[Stack]]
[[Category:Data types]]

Latest revision as of 06:18, 27 April 2023

A table is a data type in Lua that is useful to store multiple values, including numbers, strings, functions, more tables, and much more. It is called a table because it acts like a grid with two columns:

Key Value
   

The key column is used to find a row in the table, and the value is the value that is stored in that row. Both the key and value can be any Lua value (numbers, strings, Parts etc., and even other tables) except nil. Lua tables do not have to use either numbers, strings or tables as keys. Any combination of key types can be used.

Another way to describe it is that by inputting the key, you receive the value.

The # operator will return the amount of keys that are numbers.

Arrays

An array is a list of values, stored in order. It is a table where the keys are sequential integers starting at 1, e.g. 1, 2, 3, 4. Arrays are useful for creating lists of things, such as a list of players with special permissions.

Creating arrays

Arrays are created with a pair of braces ({ and }, containing the values to store in the array separated by commas (,) or semicolons (;). The values can be of any type

local myArray = {"A string", 3.14159, Workspace.Part}
local myEmptyArray = {}

Reading from and writing to arrays

To read from an array, add a pair of brackets ([ and ]) after the array, and put the number of the element you want inside it. The first element in the array is number 1

print(myArray[1])               --> A string
print(myArray[2])               --> 3.14159
print(myArray[3]:GetFullName()) --> Workspace.Part

myArray[2] = "Pi"
print(myArray[2])               --> Pi

More information

You can get the length of the array with the # operator:

print(#myArray)       --> 3
print(#myEmptyArray ) --> 0

Lua's table manipulation functions allow you to easily do things such as add and remove values from an array.

Dictionaries

Dictionaries are an extension of arrays. While an array stores an ordered list of items, a dictionary stores a set of key/value pairs. For example, in a real dictionary, the "keys" are the words, and the "values" the definition.

Creating a dictionary

Once again, dictionaries are created with braces

local myDictionary = {
	["Roblox"] = "A massively multiplayer online game",
	["Wiki"] = "A Web site developed collaboratively by a community of users",
	["Lua"] = "A lightweight multi-paradigm programming language"
}

Like arrays, dictionaries are not restricted to strings. Both the keys and the values can be of any type.

local playerScores = {
	[game.Players.Telamon] = "Over 9000!",  
	[game.Players.ROBLOX] = 1337,
	[game.Players.Sorcus] = Enum.DialogTone.Enemy
}

Shorthand for string keys

If a key in a dictionary is a string, and a valid Lua identifier (that is, it can be used as the name of a variable), the quotes and brackets can be omitted:

local myDictionary = {
	Roblox = "A massively multiplayer online game",
	Wiki = "A Web site developed collaboratively by a community of users",
	Lua = "A lightweight multi-paradigm programming language"
}

Indexing a dictionary

Getting values into and out of a table is called indexing. An index in a table is like a row in the table model above. To index something in a table, you first need the key for the index you want to get or change the value in. You put the key in square brackets ([]) after the table that that is to be looked in. For example, to get or change the index with the key 1 in the table myTable, we write myTable[1]. You can then use this exactly like a variable or value: it can be used, or set to a different value. For example, to store the string "A value" in myTable in the row with the key 1, we would write:

myTable = {}
myTable[1] = "A value"

myTable[1] can now be used in other places. For example, the print function:

print(myTable[1]) --> A value

If there is already an index in the table with the key that is being set, the old value will be replaced with the new one:

myTable[1] = "A new value"
print(myTable[1]) --> A new value (as apposed to "A value")

If there isn't a row with the key we're using when we try to get a value, it will return nil:

print(myTable[2]) --> nil

Iteration through tables

Iteration is the repetition of an action. In this case, you are iterating through the values in a table by taking each value and doing something with it. For-loops (and sometimes while-loops) are used to iterate with tables. You can use the pairs (or ipairs if you only want to iterate over the number keys) function to write a for-loop that goes through every value in a table with the value's key.

for key, value in pairs(myOtherTable) do
	print(key, "=", value)
end

--[[
Output:
1 = A value
A string key = Another value
2 = 5
]]

Pass by reference

An important thing to understand when setting more than one variable to the same table is that tables are passed by reference. This means that the variable doesn't directly contain the table itself, but that it holds a reference (or pointer) to it. This means that when more than one variable is set to a table, the variables do not each have a copy of the table, they refer to the same table, so any changes will be noticed by both variables:

var1 = {}
var2 = var1
var2["key"] = "value"
print(var1["key"]) -- prints "value" because var2 had pointed to var1's value (the table)

See also