# How to declare 2D array in bash

I'm wondering how to declare a 2D array in bash and then initialize to 0.

In C it looks like this:

``````int a[4][5] = {0};
``````

And how do I assign a value to an element? As in C:

``````a[2][3] = 3;
``````
• Related: multi-dimensional arrays in BASH
– Izzy
Commented Nov 6, 2014 at 15:14
• Btw a multi-dimensional array is actually (deep down) a one dimensional array, which is handled a little bit different especially when it comes to accessing its elements. For example a 3x4 matrix has 12 cells. The "rows" you traverse with an outer loop with a step of 3 and the "columns" you traverse with an inner loop with a step of 1. Commented Jun 7, 2015 at 20:49

## 12 Answers

You can simulate them for example with hashes, but need care about the leading zeroes and many other things. The next demonstration works, but it is far from optimal solution.

``````#!/bin/bash
declare -A matrix
num_rows=4
num_columns=5

for ((i=1;i<=num_rows;i++)) do
for ((j=1;j<=num_columns;j++)) do
matrix[\$i,\$j]=\$RANDOM
done
done

f1="%\$((\${#num_rows}+1))s"
f2=" %9s"

printf "\$f1" ''
for ((i=1;i<=num_rows;i++)) do
printf "\$f2" \$i
done
echo

for ((j=1;j<=num_columns;j++)) do
printf "\$f1" \$j
for ((i=1;i<=num_rows;i++)) do
printf "\$f2" \${matrix[\$i,\$j]}
done
echo
done
``````

the above example creates a 4x5 matrix with random numbers and print it transposed, with the example result

``````           1         2         3         4
1     18006     31193     16110     23297
2     26229     19869      1140     19837
3      8192      2181     25512      2318
4      3269     25516     18701      7977
5     31775     17358      4468     30345
``````

The principle is: Creating one associative array where the index is an string like `3,4`. The benefits:

• it's possible to use for any-dimension arrays ;) like: `30,40,2` for 3 dimensional.
• the syntax is close to "C" like arrays `\${matrix[2,3]}`
• the obvious disadvantage of this method is that the length of a dimension cannot be known. Nonetheless, it works great in most other scenarios! Thanks!! Commented Dec 13, 2013 at 9:37
• Please can you explain what `f1` and `f2` do? Commented Oct 6, 2016 at 10:03
• @Jodes the `f1` and `f2` contains the `format` for the `printf` for the nice aligned printing. It could be hardcoded, for example `printf "%2s"` but using variables are more flexible - as in the above `f1`. The `width` of the row number is calculated as the length of `\$num_rows` variable - e.g. if the number of rows `\$num_rows` is 9, its length is `1` the format will be `1+1` so `%2s`. For the `\$num_rows` 2500, its length is `4` so the format will be `%5s` - and so on... Commented Oct 6, 2016 at 13:51
• Faced a big issue implementing this mehtod when it came to modifying array elements. E.g. for `matrix[1,1]=0; matrix[2,1]=0; matrix[1,1]=1;` you expect element `matrix[2,1]` keep `0` but in fact it comes `1`. In other words, attempt to change element by one column index you modify all rows on that column index which is frustrating Commented Jul 14, 2021 at 21:13
• @nakli_batman strange, because with `-a` it should not work. The lowercase `-a` declares an indexed array and for my solution is NEEDED tha associative array (which is declared by uppercase `-A`). Strange (old?)`bash` if it doesn't knows the `-A` and even more strange if the lowercase "working fine" :) :) Commented Oct 28, 2022 at 10:29

Bash doesn't have multi-dimensional array. But you can simulate a somewhat similar effect with associative arrays. The following is an example of associative array pretending to be used as multi-dimensional array:

``````declare -A arr
arr[0,0]=0
arr[0,1]=1
arr[1,0]=2
arr[1,1]=3
echo "\${arr[0,0]} \${arr[0,1]}" # will print 0 1
``````

If you don't declare the array as associative (with `-A`), the above won't work. For example, if you omit the `declare -A arr` line, the `echo` will print `2 3` instead of `0 1`, because `0,0`, `1,0` and such will be taken as arithmetic expression and evaluated to `0` (the value to the right of the comma operator).

Bash does not support multidimensional arrays.

You can simulate it though by using indirect expansion:

``````#!/bin/bash
declare -a a0=(1 2 3 4)
declare -a a1=(5 6 7 8)
var="a1[1]"
echo \${!var}  # outputs 6
``````

Assignments are also possible with this method:

``````let \$var=55
echo \${a1[1]}  # outputs 55
``````

Edit 1: To read such an array from a file, with each row on a line, and values delimited by space, use this:

``````idx=0
while read -a a\$idx; do
let idx++;
done </tmp/some_file
``````

Edit 2: To declare and initialize `a0..a3[0..4]` to `0`, you could run:

``````for i in {0..3}; do
eval "declare -a a\$i=( \$(for j in {0..4}; do echo 0; done) )"
done
``````
• Can you please demonstrate how to fill the above "2d array simulation" from a file-table? e.g. having a file with random number of rows and in each row containing 5 space delimited numbers. Commented May 10, 2013 at 18:29
• @kobame: I edited the answer to provide a solution for what you're asking. It will read a 2d array with a variable number of rows and variable number of columns, into a0, a1 and so on. Commented May 10, 2013 at 22:40
• How would you use another delimiter such as a comma or tab? Commented Jul 19, 2016 at 21:30

Another approach is you can represent each row as a string, i.e. mapping the 2D array into an 1D array. Then, all you need to do is unpack and repack the row's string whenever you make an edit:

``````# Init a 4x5 matrix
a=("00 01 02 03 04" "10 11 12 13 14" "20 21 22 23 24" "30 31 32 33 34")

aset() {
row=\$1
col=\$2
value=\$3
IFS=' ' read -r -a rowdata <<< "\${a[\$row]}"
rowdata[\$col]=\$value
a[\$row]="\${rowdata[@]}"
}

aget() {
row=\$1
col=\$2
IFS=' ' read -r -a rowdata <<< "\${a[\$row]}"
echo \${rowdata[\$col]}
}

aprint() {
for rowdata in "\${a[@]}"; do
echo \$rowdata
done
}

echo "Matrix before change"
aprint

# Outputs: a[2][3] == 23
echo "a[2][3] == \$( aget 2 3 )"

echo "a[2][3] = 9999"
aset 2 3 9999

# Show result
echo "Matrix after change"
aprint
``````

Outputs:

``````Matrix before change
00 01 02 03 04
10 11 12 13 14
20 21 22 23 24
30 31 32 33 34
a[2][3] == 23
a[2][3] = 9999
Matrix after change
00 01 02 03 04
10 11 12 13 14
20 21 22 9999 24
30 31 32 33 34
``````
• and how to easily unpack a row into multiple values? Commented Mar 9, 2022 at 9:07
• @noisy `IFS=' ' read -r -a tmp <<< "\${a[\$row]}"` unpacks a row into multiple values. Commented Mar 10, 2022 at 7:21

2D array can be achieved in bash by declaring 1D array and then elements can be accessed using `(r * col_size) + c)`. Below logic delcares 1D array (`str_2d_arr`) and prints as 2D array.

``````col_size=3
str_2d_arr=()
str_2d_arr+=('abc' '200' 'xyz')
str_2d_arr+=('def' '300' 'ccc')
str_2d_arr+=('aaa' '400' 'ddd')

echo "Print 2D array"
col_count=0
for elem in \${str_2d_arr[@]}; do
if [ \${col_count} -eq \${col_size} ]; then
echo ""
col_count=0
fi
echo -e "\$elem \c"
((col_count++))
done
echo ""
``````

Output is

``````Print 2D array
abc 200 xyz
def 300 ccc
aaa 400 ddd
``````

Below logic is very useful to get each row from the above declared 1D array `str_2d_arr`.

``````# Get nth row and update to 2nd arg
get_row_n()
{
row=\$1
local -n a=\$2
start_idx=\$((row * col_size))
for ((i = 0; i < \${col_size}; i++)); do
idx=\$((start_idx + i))
a+=(\${str_2d_arr[\${idx}]})
done
}

arr=()
get_row_n 0 arr
echo "Row 0"
for e in \${arr[@]}; do
echo -e "\$e \c"
done
echo ""
``````

Output is

``````Row 0
abc 200 xyz
``````

You can also approach this in a much less smarter fashion

``````q=()
q+=( 1-2 )
q+=( a-b )

for set in \${q[@]};
do
echo \${set%%-*}
echo \${set##*-}
done
``````

of course a 22 line solution or indirection is probably the better way to go and why not sprinkle eval every where to .

• Where does the 22 line solution use indirection? For your solution, what are you going to do when writing a script that requires i/o and a user wants to input a `-` into the 'array'. Also if you want to simulate an array probably makes more sense to `echo \${set//-/ }` instead of your two. Commented Jun 25, 2014 at 1:23
• That was my mistake i missed an or . I think that \${set//-/} is probably a better way to go ( I don`t know about the portability issues of %% and ## though I believe you ) . What if is a very dangerous question , if you ask it to many times you'll find you need A.I. for your option parser :{p Commented Jun 25, 2014 at 1:27
• I don't understand how that is relevant or helps answer the question. \${set//-/ } would eliminate the '-', merging the values together. i.e., the echo results in 'ab' whereas the original code returns either 'a' or 'b' depending on which side of the '-' you want. Commented Feb 2, 2019 at 14:31

If each row of the matrix is the same size, then you can simply use a linear array and multiplication.

That is,

``````a=()
for (( i=0; i<4; ++i )); do
for (( j=0; j<5; ++j )); do
a[i*5+j]=0
done
done
``````

Then your `a[2][3] = 3` becomes

``````a[2*5+3] = 3
``````

This approach might be worth turning into a set of functions, but since you can't pass arrays to or return arrays from functions, you would have to use pass-by-name and sometimes `eval`. So I tend to file multidimensional arrays under "things bash is simply Not Meant To Do".

A way to simulate arrays in bash (it can be adapted for any number of dimensions of an array):

``````#!/bin/bash

## The following functions implement vectors (arrays) operations in bash:
## Definition of a vector <v>:
##      v_0 - variable that stores the number of elements of the vector
##      v_1..v_n, where n=v_0 - variables that store the values of the vector elements

VectorAddElementNext () {
# Vector Add Element Next
# Adds the string contained in variable \$2 in the next element position (vector length + 1) in vector \$1

local elem_value
local vector_length
local elem_name

eval elem_value=\"\\$\$2\"
eval vector_length=\\$\$1\_0
if [ -z "\$vector_length" ]; then
vector_length=\$((0))
fi

vector_length=\$(( vector_length + 1 ))
elem_name=\$1_\$vector_length

eval \$elem_name=\"\\$elem_value\"
eval \$1_0=\$vector_length
}

VectorAddElementDVNext () {
# Vector Add Element Direct Value Next
# Adds the string \$2 in the next element position (vector length + 1) in vector \$1

local elem_value
local vector_length
local elem_name

eval elem_value="\$2"
eval vector_length=\\$\$1\_0
if [ -z "\$vector_length" ]; then
vector_length=\$((0))
fi

vector_length=\$(( vector_length + 1 ))
elem_name=\$1_\$vector_length

eval \$elem_name=\"\\$elem_value\"
eval \$1_0=\$vector_length
}

VectorAddElement () {
# Vector Add Element
# Adds the string contained in the variable \$3 in the position contained in \$2 (variable or direct value) in the vector \$1

local elem_value
local elem_position
local vector_length
local elem_name

eval elem_value=\"\\$\$3\"
elem_position=\$((\$2))
eval vector_length=\\$\$1\_0
if [ -z "\$vector_length" ]; then
vector_length=\$((0))
fi

if [ \$elem_position -ge \$vector_length ]; then
vector_length=\$elem_position
fi

elem_name=\$1_\$elem_position

eval \$elem_name=\"\\$elem_value\"
if [ ! \$elem_position -eq 0 ]; then
eval \$1_0=\$vector_length
fi
}

VectorAddElementDV () {
# Vector Add Element
# Adds the string \$3 in the position \$2 (variable or direct value) in the vector \$1

local elem_value
local elem_position
local vector_length
local elem_name

eval elem_value="\$3"
elem_position=\$((\$2))
eval vector_length=\\$\$1\_0
if [ -z "\$vector_length" ]; then
vector_length=\$((0))
fi

if [ \$elem_position -ge \$vector_length ]; then
vector_length=\$elem_position
fi

elem_name=\$1_\$elem_position

eval \$elem_name=\"\\$elem_value\"
if [ ! \$elem_position -eq 0 ]; then
eval \$1_0=\$vector_length
fi
}

VectorPrint () {
# Vector Print
# Prints all the elements names and values of the vector \$1 on separate lines

local vector_length

vector_length=\$((\$1_0))
if [ "\$vector_length" = "0" ]; then
echo "Vector \"\$1\" is empty!"
else
echo "Vector \"\$1\":"
for ((i=1; i<=\$vector_length; i++)); do
eval echo \"[\$i]: \\\"\\$\$1\_\$i\\\"\"
###OR: eval printf \'\%s\\\n\' \"[\\$i]: \\\"\\$\$1\_\$i\\\"\"
done
fi
}

VectorDestroy () {
# Vector Destroy
# Empties all the elements values of the vector \$1

local vector_length

vector_length=\$((\$1_0))
if [ ! "\$vector_length" = "0" ]; then
for ((i=1; i<=\$vector_length; i++)); do
unset \$1_\$i
done
unset \$1_0
fi
}

##################
### MAIN START ###
##################

## Setting vector 'params' with all the parameters received by the script:
for ((i=1; i<=\$#; i++)); do
eval param="\\${\$i}"
VectorAddElementNext params param
done

# Printing the vector 'params':
VectorPrint params

read temp

## Setting vector 'params2' with the elements of the vector 'params' in reversed order:
if [ -n "\$params_0" ]; then
for ((i=1; i<=\$params_0; i++)); do
count=\$((params_0-i+1))
VectorAddElement params2 count params_\$i
done
fi

# Printing the vector 'params2':
VectorPrint params2

read temp

## Getting the values of 'params2'`s elements and printing them:
if [ -n "\$params2_0" ]; then
echo "Printing the elements of the vector 'params2':"
for ((i=1; i<=\$params2_0; i++)); do
eval current_elem_value=\"\\$params2\_\$i\"
echo "params2_\$i=\"\$current_elem_value\""
done
else
echo "Vector 'params2' is empty!"
fi

read temp

## Creating a two dimensional array ('a'):
for ((i=1; i<=10; i++)); do
VectorAddElement a 0 i
for ((j=1; j<=8; j++)); do
value=\$(( 8 * ( i - 1 ) + j ))
VectorAddElementDV a_\$i \$j \$value
done
done

## Manually printing the two dimensional array ('a'):
echo "Printing the two-dimensional array 'a':"
if [ -n "\$a_0" ]; then
for ((i=1; i<=\$a_0; i++)); do
eval current_vector_lenght=\\$a\_\$i\_0
if [ -n "\$current_vector_lenght" ]; then
for ((j=1; j<=\$current_vector_lenght; j++)); do
eval value=\"\\$a\_\$i\_\$j\"
printf "\$value "
done
fi
printf "\n"
done
fi

################
### MAIN END ###
################
``````

One can simply define two functions to write (\$4 is the assigned value) and read a matrix with arbitrary name (\$1) and indexes (\$2 and \$3) exploiting eval and indirect referencing.

``````#!/bin/bash

matrix_write () {
eval \$1"_"\$2"_"\$3=\$4
# aux=\$1"_"\$2"_"\$3          # Alternative way
# let \$aux=\$4               # ---
}

matrix_read () {
aux=\$1"_"\$2"_"\$3
echo \${!aux}
}

for ((i=1;i<10;i=i+1)); do
for ((j=1;j<10;j=j+1)); do
matrix_write a \$i \$j \$[\$i*10+\$j]
done
done

for ((i=1;i<10;i=i+1)); do
for ((j=1;j<10;j=j+1)); do
echo "a_"\$i"_"\$j"="\$(matrix_read a \$i \$j)
done
done
``````
• Hi, do add a bit of explanation along with the code as it helps to understand your code. Code only answers are frowned upon. Commented Sep 10, 2016 at 18:17

Mark Reed suggested a very good solution for 2D arrays (matrix)! They always can be converted in a 1D array (vector). Although Bash doesn't have a native support for 2D arrays, it's not that hard to create a simple ADT around the mentioned principle.

Here is a barebone example with no argument checks, etc, just to keep the solution clear: the array's size is set as two first elements in the instance (documentation for the Bash module that implements a matrix ADT, https://github.com/vorakl/bash-libs/blob/master/src.docs/content/pages/matrix.rst )

``````#!/bin/bash

matrix_init() {
# matrix_init instance x y data ...

declare -n self=\$1
declare -i width=\$2 height=\$3
shift 3;

self=(\${width} \${height} "\$@")
}

matrix_get() {
# matrix_get instance x y

declare -n self=\$1
declare -i x=\$2 y=\$3
declare -i width=\${self[0]} height=\${self[1]}

echo "\${self[2+y*width+x]}"
}

matrix_set() {
# matrix_set instance x y data

declare -n self=\$1
declare -i x=\$2 y=\$3
declare data="\$4"
declare -i width=\${self[0]} height=\${self[1]}

self[2+y*width+x]="\${data}"
}

matrix_destroy() {
# matrix_destroy instance

declare -n self=\$1
unset self
}

# my_matrix[3][2]=( (one, two, three), ("1 1" "2 2" "3 3") )
matrix_init my_matrix \
3 2 \
one two three \
"1 1" "2 2" "3 3"

# print my_matrix[2][0]
matrix_get my_matrix 2 0

# print my_matrix[1][1]
matrix_get my_matrix 1 1

# my_matrix[1][1]="4 4 4"
matrix_set my_matrix 1 1 "4 4 4"

# print my_matrix[1][1]
matrix_get my_matrix 1 1

# remove my_matrix
matrix_destroy my_matrix
``````

For simulating a 2-dimensional array, I first load the first n-elements (the elements of the first column)

``````local pano_array=()

i=0

for line in \$(grep  "filename" "\$file")
do
url=\$(extract_url_from_xml \$line)
pano_array[i]="\$url"
i=\$((i+1))
done
``````

To add the second column, I define the size of the first column and calculate the values in an offset variable

``````array_len="\${#pano_array[@]}"

i=0

while [[ \$i -lt \$array_len ]]
do
url="\${pano_array[\$i]}"
offset=\$((\$array_len+i))
found_file=\$(get_file \$url)
pano_array[\$offset]=\$found_file

i=\$((i+1))
done
``````

The below code will definitely work provided if you are working on a Mac you have bash version 4. Not only can you declare 0 but this is more of a universal approach to dynamically accepting values.

# 2D Array

``````declare -A arr
echo "Enter the row"
read r
echo "Enter the column"
read c
i=0
j=0
echo "Enter the elements"
while [ \$i -lt \$r ]
do
j=0
while [ \$j -lt \$c ]
do
echo \$i \$j
read m
arr[\${i},\${j}]=\$m
j=`expr \$j + 1`
done
i=`expr \$i + 1`
done

i=0
j=0
while [ \$i -lt \$r ]
do
j=0
while [ \$j -lt \$c ]
do
echo -n \${arr[\${i},\${j}]} " "
j=`expr \$j + 1`
done
echo ""
i=`expr \$i + 1`
done
``````