Assigning Values to an Array: Difference between revisions

{{task|Basic language learning}}

{{Template:clarify task}}

=={{header|ActionScript}}==

arr[0] = 1;

arr[1] = 'a';

arr[2] = 5.678;

=={{header|Ada}}==

{{works with|GCC| 4.1.2}}

<lang ada>package Pkg is

type Arr is array (Positive range <>) of Integer;

procedure Assign (Value : Integer; To : in out Arr; Index : Positive);

-- Raise exception Constraint_Error if Index > To'Last

end Pkg;

package body Pkg is

procedure Assign (Value : Integer; To : in out Arr; Index : Positive) is

begin

To (Index) := Value;

end Assign;

end Pkg;</lang>

=={{header|ALGOL 68}}==

Declarations:

FLEX [1:8] INT array:=(1,2,3,4,5,6,7,8);

INT index=1, from=3, to=5, value=333;

Simple bound checking:

IF LWB array <= index AND UPB array >= index THEN

For a single index/value assignment:

array[index] := value;

To assign multiple values to multiple indices/slice:

array[from:to] := (33,44,55);

Replaces the 4th, 5th and 6th elements with the 33, 44 and 55.

To append/grow the end of the array:

PROC append int = (REF FLEX [] INT a, INT v)VOID: (

HEAP FLEX [LWB a:UPB a + 1] INT out;

out[:UPB a]:= a;

out[UPB out] := v;

a := out

);

append int(array,value);

print((array,new line))

FI

Result:

+333 +2 +33 +44 +55 +6 +7 +8 +333

=={{header|APL}}==

array[index]←value

APL is array-oriented, and so there are many different and powerful ways to index and assign arrays. Asking an APLer how one assigns a value to an array index is like asking an Eskimo how one says "snow". The above is just tip of the iceberg (i.e. a direct translation of the non-array-oriented code examples on this page).

=={{header|AppleScript}}==

set item location of array to value

To put an item on the end of a list:

set end of array to item

=={{header|Brainf***}}==

To assign values 5, 6, and 7 to array elements 1,2,3:

[-]>[-]>[-] zero array elements

<< go back to index 1

+++++ move value 5 to element 1

>++++++ move value 6 to element 2

>+++++++ move value 7 to element 3

=={{header|C}}==

{{works with|gcc| 4.1.1}}

int writeToIntArray(int *array, size_t array_sz, int loc, int val)

{

// Check bounds on array

if (loc > array_sz || loc < 0)

return -1;

array[loc] = val;

return 0;

}

=={{header|C sharp|C #}}==

'''Language Version:''' 1.0+

<lang csharp>

public void WriteToIntArray(int[] array, int loc, int val)

{

//if the index (zero based) we want to use is greater/equal to our length (one based) throw an exception

if (loc >= array.Length) throw new Exception("Location is out of range.");

//write value to array

array[loc] = val;

}

</lang>

=={{header|C++}}==

{{works with|g++| 4.1.2}}

template<class T, std::size:t size>

inline int writeToArray(T (&array)[size], size_t loc, const T& val)

{

if (loc >= size)

return -1; // Could throw an exception if so desired

array[loc] = val;

return 0;

}

{{works with|Visual C++| 2005}}

template<class C>

inline void writeToArray(C& container, typename C::size_type loc, const typename C::value_type& val)

{

std::fill_n(container.begin() + loc, 1, val);

}

=={{header|ColdFusion}}==

<cffunction name="writeToArray">

<cfargument name="array">

<cfargument name="location">

<cfargument name="value">

<cfif arrayLen(arguments.array) GTE arguments.location>

<cfset arguments.array[arguments.location] = arguments.value>

<cfelse>

<cfthrow message="Location does not exist">

</cfif>

<cfreturn arguments.array>

</cffunction>

<cfset myArray = arrayNew(1)>

<cfset myArray[1] = 1>

<cfset myArray = writeToArray(myArray, 1, 123456)>

Note that throwing errors in ColdFusion doesn't give that "friendly" appearance. The standard way to change/add a value in an array would be simply:

<cfset myArray[3] = 987654>

=={{header|Common Lisp}}==

(setf (aref array index) value)

=={{header|D}}==

void setValue(T) (T[] array, size_t index, T newValue) { array[index] = newValue; }

=={{header|E}}==

In E, you may expect that the FlexList data type is an array or something similarly efficient. However, a FlexList will implicitly extend itself if you give an index equal to the current size. Therefore, to implement the specified task:

<lang e>

if (index < array.size()) {

array[index] := newValue

} else {

throw(`$index is out of bounds 0..!${array.size()}`)

}

</lang>

The basic assignment operation, <code>a[b] := c</code>, is syntactic sugar; it is equivalent to <code>a.put(b, c)</code>, except that it returns <var>c</var> rather than the result of the call.

=={{header|Delphi}}==

procedure WriteToIntArray(var Arr: array of Integer; Loc: Integer; Val: Integer);

begin

Arr[Loc] := Val;

end;

=={{header|Forth}}==

'''Interpreter:''' ANS Forth

: ]! ( n addr ix -- ) cells + ! ; \ ex. 3 buffer[ 2 ]!

=={{header|Fortran}}==

In ISO Fortran 90 or later, use an array initializer (with RESHAPE intrinsic for multidimensional arrays):

real, dimension(50) :: a = (/ (1.0/(i*i),i=1,50) /)

real, dimension(6) :: b = (/ 0, 60, 120, 180, 240, 300 /)

real, dimension(4,4) :: i4 = reshape( (/ 1,0,0,0, 0,1,0,0, 0,0,1,0, 0,0,0,1 /), (/ 4, 4 /) )

In ISO Fortran 90 or later, use array section syntax to assign sections of an array:

b(1:4) = i4(1,:) ! gets row 1 of i4 into first 4 elements of b

a(1:7:2) = i4(:,3) ! gets column 3 of i4 into first 4 odd-numbered elements of a (stride of 2)

i4(2:4,2:4) = i4(1:3,1:3) ! gets 3x3 subarray of i4 starting at row 1, column 1

! into 3x3 subarray of i4 starting at row 2, column 2

'''Compiler:''' Any ANSI FORTRAN 77 or later (e.g. [[g77]])

a(55) = 12

=={{header|Haskell}}==

{{works with|GHC| 6.6}}

===List===

Most Haskell programs use lists instead of arrays. This is suitable for the general case.

====Simple Version====

<pre>

setIndex

:: [a] -- Original list

-> Int -- Index to insert at

-> a -- Value to insert

-> [a] -- Resulting list

setIndex xs ii v =

let

(h, (_ : ts)) = splitAt ii xs

in

h ++ (v : ts)

</pre>

====Efficient Version====

<pre>

setIndex xs ii v

| ii < 0 = error "Bad index"

| otherwise = _setIndex xs ii v

where

_setIndex [] _ _ = error "Bad index"

_setIndex (_ : xs) 0 v = v : xs

_setIndex (x : xs) ii v = x : (setIndex xs (ii - 1) v)

</pre>

===Array===

Technically, this creates clones the original array, then updates the new array; the original array still exists. This applies a list of changes to the array.

<pre>

import Data.Array

-- Create the array of data

a1 = array (0, 4) [(ii, ii * 2) | ii <- [0 .. 4]]

-- Update 1 entry

a2 = a1 // [(2, 12)]

-- Update several entries

a3 = a1 // [(ii, ii + 10) | ii <- [1 .. 3]]

</pre>

===Mutable Array===

<pre>

import Data.Array.MArray

import Data.Array.IO

main = do -- Create the array of data with all elements intialized to 3

a <- newArray (0, 4) 3 :: IO (IOArray Int Int)

-- Print entry

readArray a 2 >>= print -- prints "3"

-- Update one entry

writeArray a 2 5

-- Print entry again

readArray a 2 >>= print -- prints "5"

</pre>

=={{header|J}}==

array =: 5 5 5 5 5 5 5

99 (3}) array NB. Simple update

5 5 5 99 5 5 5

array =: 99 (3}) array NB. In place

88 99 88 (2 3 4}) array NB. Multiple update

5 5 88 99 88 5 5

=={{header|Java}}==

{{works with|J2SE| 1.2+}}

<lang java>public void writeToIntArray(int[] array, int loc, int val){

array[loc]=val;

}</lang>

{{works with|Java|1.5+}}

Things that Java people call "arrays" generally don't use the "key/value" vocabulary. In Java, there is an object called a Map (what other languages might call a "dictionary") with keys and values that works for this task. Maps are sorted by some aspect of the key in Java (hash, address, or natural order). The only thing we need to change is an error for a non-existent key.

<lang java>import java.util.TreeMap;

public void replaceInMap(TreeMap<Integer, Integer> map, int key, int val){

if(!map.containsKey(key)){

Systen.err.println("Key does not exist");

return;

}

map.put(key,val);

}</lang>

=={{header|JavaScript}}==

function setElem(array, loc, val) { //returns 0 if out of bounds

if(typeof array[loc] == typeof undefined) {

return 0; //element doesn't already exist -- out of bounds

} else {

array[loc] = val

return 1; //OK

}//if

}//setElem

//use:

var ary=[10,20,30] //0,1,2 defined

var ok = setElem(ary,3,'three')

if(!ok) alert('oops, error')

Simpler if you don't mind adding an element if it does not already exist:

function writeToArray(array, loc, val) { array[loc] = val; }

=={{header|Logo}}==

make "a {10 20 30}

setitem 1 :a "ten

=={{header|LSE64}}==

10 array :array

0 array 5 [] ! # store 0 at the sixth cell in the array

=={{header|mIRC Scripting Language}}==

{{works with|mIRC|}}

{{works with|mArray Snippet|}}

[[Category:mArray Snippet]]

alias write2array { echo -a $array_write(MyArray, 2, 3, Rosetta) }

=={{header|MAXScript}}==

<pre>arr[index] = value</pre>

MAXScript arrays dynamically resize when assigning to an index that previously didn't exist.

=={{header|Nial}}==

a := 1 2 3 4

a@1 := 100

a

=1 100 3 4

=={{header|Objective-C}}==

{{works with|GCC| 3.3+}}

- (void)addValue:(id)value toArray:(NSMutableArray *)array position:(unsigned)pos

{

[array insertObject:value atIndex:pos];

}

=={{header|OCaml}}==

{{works with|OCaml|}}

arr.(loc) <- val;

(* equivalent to: *)

Array.set arr loc val;

=={{header|Perl}}==

{{works with|Perl|5.8.8}}

For a single index/value assignment:

$array[$index] = $value;

To assign multiple values to multiple indices:

@array[@indexes] = @values;

To assign an array slice:

@array[3..5] = @values;

# will replace the 4th, 5th and 6th elements with the first 3 values in @values

=={{header|PHP}}==

<?php

function writeToArray(&$array, $index, $value)

{

$array[$index] = $value;

}

// Usage example

writeToArray($array, 1, 6 );

?>

Note that this is a "function" based example, and the relevant acting code is the following

$array[$index] = $value;

This does not conform to the (somewhat arbitrary) specific requirements of the task, in that it does not return an error if the key index) does not exist. To satisfy the task requirements:

<?php

function writeToArray(&$array, $index, $value)

{

if(array_key_exists($index, $array)) $array[$index] = $value;

else return false;

}

// Usage example

writeToArray($array, 1, 6 );

?>

=={{header|PL/SQL}}==

'''Interpreter:''' Oracle compiler

set serveroutput on

declare

type myarray is table of number index by binary_integer;

x myarray;

i pls_integer;

begin

-- populate array

for i in 1..5 loop

x(i) := i;

end loop;

i :=0;

-- print array

loop

i := i + 1;

begin

dbms_output.put_line(x(i));

exception

when no_data_found then exit;

end;

end loop;

end;

/

=={{header|Pop11}}==

value -> array(index);

Note that normal Pop11 array signal error when accessing non existing values (all values within index bounds exist).

=={{header|Python}}==

To change existing item, (raise IndexError if the index does not exists):

<lang python>

array[index] = value

</lang>

To append to the end of the array:

<lang python>

array.append(value)

</lang>

It's also possible modify Python lists using "slices" which can replace, remove or insert elements into the array. For example:

<lang python>

mylist = [0,1,2,3]

mylist[1:3] = [1, 1.2, 1.3]

print mylist

## >>> [0, 1, 1.2, 1.3, 3]

## We've replaced 1 and 2 with 1, 1.2 and 1.3, effectively inserting 1.2 and 1.3 while removing the original third element (2)

</lang>

Hint: slice notation should be read as: "from starting index '''up to''' (but '''not including''') ending index" -- a slice of [1:2] only references the single element sub-list containing the second item. To remember that they are zero based one might even read the slice more verbosely as: "from the n items past the beginning of the list, up to (but not including) ..."

It's even possible (though obscure) to use extended slices with a "stride" to replace every ''n''th element of a list using something like:

<lang python>

mylist = [0,1,2,3]

mylist[0:4:2] = ['x', 'y'] # can also be written as mylist[::2] in this case, to cover the whole list

print mylist

## >>> ['x', 1, 'y', 3]

</lang>

Python lists also support ''.insert(),'' and ''.remove()'' methods, for cases where the slice syntax might be awkward, and a Python list can be treated like a stack by using the ''.pop()'' and ''.append()'' methods. Finally a whole list or other sequence can be appended to a list using the ''.extend()'' method.

<lang python>

mylist = [0,1]

mylist.extend([2,3])

print mylist

## >>> [0, 1, 2, 3]

## mylist.append([2,3]) would have appended one item to the list

## ... and that item would have been list containing two nested items

</lang>

=={{header|Ruby}}==

{{works with|Ruby| 1.8.5}}

# To specify a value for a known index

# Usage: arr[index] = value

arr = 1,2,3,4,5

arr[0] = 10

# To push a value onto an array. This accepts single or multiple arguments:

arr.push( 1 )

arr.push( 1, 2, 3 )

# You can also use the << operator with one argument:

arr << 1

=={{header|Scala}}==

val array = new Array[int](10) // create a 10 element array of integers

array(3) = 44

array(22) = 11 // java.lang.ArrayIndexOutOfBoundsException: 22

import scala.collection.mutable.ArrayBuffer

val array2 = new ArrayBuffer[int]

array2 += 1

array2 += 2

array2 += 3

array2(1) // 2 (zero based indexing)

array2(1) = 33

array2.toString // ArrayBuffer(1,33,3)

var l = List(1,2,3)

l = 44 :: l // List(44,1,2,3)

l(2) // 2

=={{header|Scheme}}==

(vector-set! arr loc val)

=={{header|Smalltalk}}==

<lang smalltalk>"suppose array is bound to an array of 20 values"

array at: 5 put: 'substitute fifth element'.

[ array at: 21 put: 'error' ]

on: SystemExceptions.IndexOutOfRange

do: [ :sig | 'Out of range!' displayNl ].</lang>

=={{header|Standard ML}}==

Array.update (arr, loc, val);

=={{header|Tcl}}==

proc setIfExist {theVariable value} {

upvar 1 $theVariable variable

if {[info exists theVariable]} {

set theVariable $value

} else {

error "$theVariable doesn't exist"

}

}

Note that <tt>setIfExist</tt> is general purpose and works on regular variables as well as arrays:

setIfExist foo(bar) 10 ;# error if foo(bar) doesn't exist

setIfExist x 10 ;# error if x doesn't exist

=={{header|Toka}}==

100 cells is-array foo

1000 10 foo array.put ( Put value '1000' into array 'foo' at slot '10' )

10 chars is-array bar

char: A 1 foo array.putChar ( Put value 'A' (ASCII code) into character array 'bar' at slot '1' )

=={{header|Visual Basic}}==

'''Language Version:''' 5.0+

Private Function writeToArray(intArray() As Integer, arraySize As Integer, loc As Integer, value As Integer) As Integer

If loc > arraySize Then

writeToArray = -1

Else

intArray(loc) = value

writeToArray = 0

End If

End Function

=={{header|VBScript}}==

===Simple Example===

Define our Array

Dim myArray (5)

Use a For Next loop to set the array data.

For i = 0 To 4

myArray(i) = i

Next

Use a For Next loop and MsgBox to display the array data.

MsgBox("Print array values")

For i = 0 To 4

msgbox("myArray element " & i & " = " & myArray(i))

Next

===Variable Array Length===

'''Example where we don't know the required array size at the start and where we need to increase the array size as we go'''

Define an array - but we don't know how big yet.

Dim myArray2 ()

OK, now we know how big an array we need.

ReDim myArray2(3)

Load the array

For i = 0 To 2

myArray2(i) = i

Next

Print the array

MsgBox("We've set the new array size and set the data")

For i = 0 To 2

MsgBox "myArray2 element " & i & " = " & myArray2(i)

Next

Now we need to make the array bigger. Note the Preserve keyword so that the existing data in the array is not lost when we resize it.

ReDim Preserve myArray2(5)

Load the array

For i = 3 To 4

myArray2(i) = i

Next

Print the array

MsgBox ("We've increased the array size and loaded more data")

For i = 0 To 4

MsgBox "myArray2 element " & i & " = " & myArray2(i)

Next