# 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

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
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

# 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
}

# 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
}

# 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
}

# 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}"
done

# Printing the vector 'params':
VectorPrint params

## 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))
done
fi

# Printing the vector 'params2':
VectorPrint params2

## 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

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

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
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"
echo "Enter the column"
i=0
j=0
echo "Enter the elements"
while [ \$i -lt \$r ]
do
j=0
while [ \$j -lt \$c ]
do
echo \$i \$j
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
``````