Test Operators in Bash
Get a brief look at all the test operators available in bash.
β Sagar Sharma
When you dig down Linux a little bit, you realize it heavily relies on the bash scripts and when you open bash scrips, you see lots of symbols like !=
, -lt
, and ==
.
And I'm pretty sure if you're not into programming, they'd look confusing.
So in this tutorial, I will walk you through examples of every test operator available in the bash.
But before I walk you through the examples part, let's have a look at what test operators you get in bash and their usage.
List of test operators in bash
Test operators in bash scripts help you evaluate the conditions such as you may want to execute a specific block of code based on whether the condition is true or not.
And here's a list of test operators you get in bash:
Test operators for integer comparison
Bash Operator | Meaning |
---|---|
-eq | Equal to |
-ne | Not equal to |
-lt | Less than |
-le | Less or equal to |
-gt | Greater than |
-ge | Greater or equal to |
<= | Less or equal to (used inside (())) |
>= | Greater or equal to (used inside (())) |
Bash test operators for compound comparison
Bash Operator | Meaning |
---|---|
-a | Logical AND operator, similar to && |
-o | Logical OR operator, similar to || |
String comparison operators
Bash Operator | Meaning |
---|---|
= | Equals to (but for strings) |
!= | Not equal to (for strings) |
< | Less than (in ASCII alphabetical order) |
> | Greater than (in ASCII alphabetical order) |
== | Double equals to (used to compare two strings) |
-z | The String is null |
-n | The String is not null |
File test operators
Bash Operator | Meaning |
---|---|
-e | Check whether the file exists at a given path. |
-f | Check whether the given file path points to a regular file or not. |
-d | Check whether the given path refers to an existing directory or not. |
-h | Finds whether the given path is a symbolic link. |
-L | It checks for the symbolic link as the -h does, but it will also check whether it resolves to an actual file or directory. |
-b | Checks for the block device. |
-c | Checks for the character special file. |
-p | Checks for a named pipe (FIFO). |
-s | Used to find whether the file size is greater than zero or not. |
-t | Check whether the file descriptor is associated with the terminal or not. |
-r | Used to find whether the file is readable or not. |
-w | Checks for whether the file is write permissions or not. |
-x | It checks for the executable permissions for a specified file. |
-g | Checks for "set-group-ID" (SGID) permission set on a specific file. |
-u | Checks for "set-user-ID" (SUID) permission set on a specific file. |
-k | Look for the "sticky" bit is set or not on a specified directory. |
-O | Check whether the file exists and is owned by the current user. |
-G | Check whether the file exists and is owned by the same group as the user running the script. |
-N | Helps you check if the file has been modified since it was last read. |
-nt | Compares modification time of two files and determines which one is newer. |
-ot | This too compares the modification time of two files and determines which one is older. |
-ef | Check whether two file paths refer to the same inode on the system. |
! | Reverses the result of a condition or command. |
Now, let's take a look at examples of each test operator that I listed above.
Examples of test operators in bash
This section is divided into four categories:
- Integer comparison operators
- String comparison operators
- Compound comparison
- File test operators
So let's start with the first one.
Integer comparison operators
The integer comparison operators in bash are used to compare integer values with conditional statements.
Using these operators, you can compare two integers in various ways such as equality, inequality, greater than, less than, etc.
So let's have a look at integer comparison operators in bash with examples.
1. The -eq
(equal to)operator
The -eq
operator in bash is used to compare two numeric values and check if they are equal.
For more understanding, here, I used a simple bash script which will compare two values and print whether they are the same or not:
#!/bin/bash
number1=5
number2=5
if [ "$number1" -eq "$number2" ]; then
echo "The numbers are equal."
else
echo "The numbers are not equal."
fi
When I executed the above script, it gave me the following output:
As you can see, the number1
and the number2
variables were holding the same value so it gave me output saying "The numbers are equal".
2. The -ne
(not equal to) operator
The -ne
operator does the opposite of the -eq
by comparing two operators to check if they are not equal.
For your reference, here's a similar bash script as above but this time, I have used different values for both variables:
#!/bin/bash
number1=5
number2=10
if [ "$number1" -ne "$number2" ]; then
echo "The numbers are not equal."
else
echo "The numbers are equal."
fi
When I executed the above script, it gave me output saying the variables are not equal:
3. The -lt
(less than) operator
As the name suggests, using the -lt
operator, you can determine whether the first variable is lesser than the second variable.
Here's a simple script where I have compared two variables to check whether the number1
is lesser then number2
or not:
#!/bin/bash
number1=5
number2=10
if [ "$number1" -lt "$number2" ]; then
echo "number1 is less than number2."
else
echo "number1 is not less than number2."
fi
When I ran the above script, it gave me the following output saying the number1 is less than the number2:
4. The -le
(less or equal to) operator
As the name suggests, the -le
operator is used to compare two integer values and check whether the first integer is less or equal to the second.
Here's a simple bash script explaining how you can use the -le
operator:
#!/bin/bash
number1=5
number2=10
if [ "$number1" -le "$number2" ]; then
echo "number1 is less than or equal to number2."
else
echo "number1 is greater than number2."
fi
Can you guess the output? The number1 should be less or equal to the number2 and it gave me the same output when I executed the above script:
5. The -gt
(greater than) operator
The -gt
operator is used to compare two values and find out if the first variable is greater than the second one.
Here's how you can use the -gt
operator in bash to compare two variables:
#!/bin/bash
number1=10
number2=5
if [ "$number1" -gt "$number2" ]; then
echo "number1 is greater than number2."
else
echo "number1 is not greater than number2."
fi
When I executed the above script, it gave me the following output saying "number1 is greater than number2":
6. The -ge
(greater or equal to) operator
The -ge
operator in bash is used to determine whether one integer is greater or equal to another.
For example, here's a bash script comparing two integers with the -ge
operator:
#!/bin/bash
number1=10
number2=5
if [ "$number1" -ge "$number2" ]; then
echo "number1 is greater than or equal to number2."
else
echo "number1 is not greater than or equal to number2."
fi
The number1 should be greater or equal to the number2. Right?:
7. The <
(less than) operator
When you use the <
operator inside of (())
, it can be used to do arithmetic comparisons between two values.
For example, here, I used <
to compare two variables:
#!/bin/bash
number1=5
number2=10
if ((number1 < number2)); then
echo "number1 is less than number2."
else
echo "number1 is not less than number2."
fi
Here's what I got when I executed the above script:
8. The >
(greater than) operator
When you use the >
operator inside (())
, you can compare two variables and find out which is the larger.
For example, here, I used the >
operator to compare two variables:
#!/bin/bash
number1=10
number2=5
if ((number1 > number2)); then
echo "number1 is greater than number2."
else
echo "number1 is not greater than number2."
fi
If you execute the above script, it will give you an output saying "number1 is greater than number2.":
9. The <=
(less or equal to) operator
When you use the <=
operator inside of (())
, it gives you the same functionality as the -le
. Which means using the <=
operator, you can compare two variables and find if one is less or equal to the other.
To demonstrate how you can use the <=
operator, you can refer to the following script:
#!/bin/bash
number1=5
number2=10
if ((number1 <= number2)); then
echo "number1 is less than or equal to number2."
else
echo "number1 is greater than number2."
fi
When executed, it gave me the following output:
10. The >=
(greater or equal to) operator
You guessed it right? Using the >=
operator you can compare two variables and find out if one is greater or equal to the other one.
For further reference, you can use the following bash script:
#!/bin/bash
number1=5
number2=10
if ((number1 <= number2)); then
echo "number1 is less than or equal to number2."
else
echo "number1 is greater than number2."
fi
As the number1
variable is lesser than the number2
, it gave me the following output:
String comparison operators
As the name suggests, the string comparison operators are used to compare two strings and used to determine the difference between two strings.
There are different string comparison operators such as equality, inequality, alphabetical order, and more.
So let's start with the first one.
1. The =
(equal to) operator
The =
operator is to compare two strings and to find out if they hold the same set of characters (string) or not.
For your reference, here, I compared two strings using the =
operator:
#!/bin/bash
str1="apple"
str2="banana"
if [ "$str1" = "$str2" ]; then
echo "str1 is equal to str2."
else
echo "str1 is not equal to str2."
fi
As the strings in the above script hold a different value, it gave me output saying "str1 is not equal to str2.":
2. The !=
(not equal to) operator
The !=
operator in bash is used to compare two strings and determine if two strings are not equal.
For example, here, I used a simple bash script to demonstrate how you can use the !=
operator to compare strings:
#!/bin/bash
str1="apple"
str2="banana"
if [ "$str1" != "$str2" ]; then
echo "str1 is not equal to str2."
else
echo "str1 is equal to str2."
fi
Both strings str1
and str2
holds different sets of characters, it gave me output saying "str1 is not equal to str2.":
3. The ==
(double equals to) operator
Unlike other operators, the ==
behaves differently on how you quote the matching string.
- Pattern matching
- Literal matching Β (similar to the
=
operator)
So let's start with pattern matching.
Pattern matching using the ==
operator
This is a simple one. You use one string and then use conditional statements to match the pattern to find out whether the string is valid as per the pattern.
For example, here, I used a simple bash script that will find a string starting with z
. (that's the reason why I used "$a" == z*
):
#!/bin/bash
a="zebra"
if [[ "$a" == z* ]]; then
echo "Pattern matched: 'a' starts with 'z'."
else
echo "Pattern not matched: 'a' doesn't start with 'z'."
fi
As the zebra
starts with the z
, it gave me the following output:
Literal matching using the ==
operator
As the name suggests, it literally matches the string itself giving similar results to the =
operator.
For your reference, here, I have used one string containing z*
and did the literal matching using the ==
operator:
#!/bin/bash
a="z*"
if [[ "$a" == "z*" ]]; then
echo "Literal match: 'a' is 'z*'."
else
echo "Literal mismatch: 'a' is not 'z*'."
fi
As the string a
holds the z*
, it gave me the following result:
4. The <
(less than) operator [for strings]
When you use the <
operator inside [[]]
, it compares two strings and finds you which one is lesser than the other in terms of alphabetical order.
Let me give you an example for better understanding.
Here's a simple bash script that compares two strings apple
and banana
:
#!/bin/bash
str1="apple"
str2="banana"
if [[ "$str1" < "$str2" ]]; then
echo "str1 comes before str2."
else
echo "str1 does not come before str2."
fi
As the word apple comes before the word banana, it gave me output saying "str1 comes before str2.":
5. The >
(greater than) operator [for strings]
Similar to the <
operator, the >
operator when used inside of [[]]
, it can be used to compare two strings and find out which one is greater than the other in terms of alphabetical order.
Here's how you can use the >
operator in a bash script:
#!/bin/bash
str1="apple"
str2="banana"
if [[ "$str1" > "$str2" ]]; then
echo "str1 comes before str2."
else
echo "str2 comes before str1."
fi
As the string1
comes before the string2
, you can expect the following output:
6. The -z
operator
The -z
operator in bash is used to find out if the string is empty or not.
For example, here, I used an empty string to demonstrate how you can use the -z
operator in a bash script:
#!/bin/bash
my_string=""
if [ -z "$my_string" ]; then
echo "The string is empty."
else
echo "The string is not empty."
fi
As the string was empty, it gave me the following output:
7. The -n
operator
The -n
operator is quite the opposite of the -z
operator as it is used to find non-empty strings.
Here's how you can implement the -n
operator in a bash script to find the non-empty strings:
#!/bin/bash
string="Non-empty string"
if [ -z "$string" ]; then
echo "The string is empty."
else
echo "The string is not empty."
fi
As the string had some characters stored inside of it, it gave me the following output:
Compound comparison operators
The compound comparison operators in bash are also known as logical operators by which you can combine multiple expressions to form one complex expression.
There are 3 compound comparison operators in bash:
&&
(logical AND operator)||
(logical OR operator)!
(logical NOT operator)
So let's start with the first one.
1. The &&
(AND) operator
If you use the &&
operator to combine two or more expressions, they will only be executed (will return exit status 0), if every expression is true.
For example, here's a simple script stating how every expression has to be true in order to have successful execution:
#!/bin/bash
age=25
income=50000
if [ "$age" -ge 18 ] && [ "$income" -ge 40000 ]; then
echo "You are eligible for the loan."
else
echo "You are not eligible for the loan."
fi
As you can see, both conditions that were combined through the &&
operator was true and gave me the following output:
2. The ||
(OR) operator
When you combine two expressions using the ||
operator, the execution will be successful if one of them is true.
This means if one of two expressions satisfies the given condition, it will return exit status 0 (indicating successful execution).
For example, here's a simple bash script that demands the age should be less than 18 or greater than 65:
#!/bin/bash
age=15
if [ "$age" -lt 18 ] || [ "$age" -ge 65 ]; then
echo "You are eligible for a discount."
else
echo "You do not qualify for a discount."
fi
As the age variable has a value of 15, it gave, it gave me the following:
3. The !
(NOT) operator
The NOT !
operator negates the effect of the operator.
In simple terms, it will alter the effect of the operator. For example, if I use the NOT operator after the =
, it will make it not equal to.
Here's a simple bash script where I have initialized a variable is_raining
to true
and later on, I used the !
operator to negate the effect:
#!/bin/bash
is_raining=true
if ! [ "$is_raining" = true ]; then
echo "It's not raining. You can go outside."
else
echo "It's raining. Stay indoors."
fi
As the effect was altered, it falsified the value of the is_raining
and gave me the following output:
File test operators
As the name suggests, the file test operators are used to perform various tests on files and directories.
In this section, I will walk you through multiple file test operators with simple bash script examples so you can have a better idea of how to use them.
1. The -e
operator Β
Using the -e
operator, you can check whether the file exists or not by using the absolute or the relative path.
For example, in the following bash script, I checked for if the file Hello.txt
exist inside /home/sagar
directory:
#!/bin/bash
user_file="/home/sagar/Hello.txt"
if [ -e "$user_file" ]; then
echo "The file $user_file exist at the given path."
else
echo "The file $user_file does not exist at given path."
fi
In the above script, the user_file
was used to store the absolute path to the Hello.txt
file and when executed, it gave me the following result:
2. The -f
operator
The -f
operator is used to find out whether the given path points to a normal file or not. An easy way to check for a valid input!
For example, here, I checked if the file.txt
in the current working directory is a regular file or not:
#!/bin/bash
file_path="file.txt"
if [ -f "$file_path" ]; then
echo "$file_path is a regular file."
else
echo "$file_path is not a regular file."
fi
As I've created the file.txt
file in the current working directory (in the same directory where the script is located), it gave me the following output:
3. The -d
operator
The -d
operator is used to test if a given point is in a directory or not.
For example, in the following script, I wanted to find out if the /home/sagar/New
is directory or not with the help of the -d
operator:
#!/bin/bash
directory_path="/home/sagar/New"
if [ -d "$directory_path" ]; then
echo "$directory_path is a directory."
else
echo "$directory_path is not a directory or does not exist."
fi
As the /home/sagar/New
was a directory, it gave me the following output:
4. The -h
operator
Using the -h
operator, you can identify if the given path points to a symbolic link or not.
For example, here, I created a symbolic link named File_link
to the Hello.txt
inside my current working directory:
ln -s ~/Hello.txt Symbolic_Link
Next, I used the -h
operator in the bash script to identify the symbolic link:
#!/bin/bash
link_path="File_link"
if [ -h "$link_path" ]; then
echo "$link_path is a symbolic link."
else
echo "$link_path is not a symbolic link or does not exist."
fi
As the File_link
was a symbolic link, it gave me the following output:
5. The -b
operator
The -b
operator in bash is used to find out if the given file path is pointing to a block device or not.
For example, in the following bash script, I used /dev/sda
to test whether the -b
the operator can actually identify the block device or not:
#!/bin/bash
file_path="/dev/sda"
if [ -b "$file_path" ]; then
echo "$file_path is a block special file (block device)."
else
echo "$file_path is not a block special file."
fi
It gave me the following found when executed:
6. The -c
operator
The -c
operator in bash is used to identify whether the given file path is pointing to a character file or not.
You will find multiple character files inside the /dev/
directory which can be listed using the ls command in the following matter:
ls -l /dev/
The file permission will start with the c
indicating the file is a character file:
For example, here, I wrote a script having a path to /dev/full
and identify whether it is a character file or not:
#!/bin/bash
file_path="/dev/full"
if [ -c "$file_path" ]; then
echo "$file_path is a character special file."
else
echo "$file_path is not a character special file."
fi
It gave me the following output:
7. The -p
operator
The -p
operator in bash is used to identify if the given path is pointing to a named pipe (FIFO) file.
You can create a pipe file using the mkfifo
command. For example, here, I created a named pipe file Β LHB_Sagar
in the current working directory
mkfifo LHB_Sagar
Then, I used the -p
operator in the bash script to verify if it actually can identify the created named pipe file:
#!/bin/bash
file_path="LHB_Sagar"
if [ -p "$file_path" ]; then
echo "$file_path is a named pipe (FIFO)."
else
echo "$file_path is not a named pipe."
fi
When executed, it successfully identified the named pipe file:
8. The -S
operator
The -S
operator in bash is used to identify whether the given file path is pointing to a socket file or not.
For example, here, I wrote a simple script to identify if the /var/run/snapd.socket
file is socket file or not:
#!/bin/bash
socket_file="/var/run/snapd.socket"
if [ -S "$socket_file" ]; then
echo "$socket_file is a socket file."
else
echo "$socket_file is not a socket file or does not exist."
fi
It identified the socket file successfully and gave me the following output:
9. The -s
operator
The -s
operator in bash is to identify whether the given file path is pointing to a non-empty file or not.
For example, here, I created a simple text file named my_file.txt
that contains the following line of text:
As the file my_file.txt
has some text content inside, it is now a non-zero file so let's use it in the script to test the -s
operator:
#!/bin/bash
file="my_file.txt"
if [ -s "$file" ]; then
echo "$file is not empty."
else
echo "$file is empty or does not exist."
fi
Here's what I got after executing the above script:
10. The -t
operator
The -t
operator in bash is used to find out whether the file descriptor is associated (stdin, stdout, and stderr) with the terminal or not.
In most cases, all the file descriptors will be associated with the terminal.
Here's a bash script that will let you know what file descriptors are associated to the current terminal session:
#!/bin/bash
if [ -t 0 ]; then
echo "File descriptor 0 (standard input) is connected to a terminal."
else
echo "File descriptor 0 (standard input) is not connected to a terminal."
fi
if [ -t 1 ]; then
echo "File descriptor 1 (standard output) is connected to a terminal."
else
echo "File descriptor 1 (standard output) is not connected to a terminal."
fi
if [ -t 2 ]; then
echo "File descriptor 2 (standard error) is connected to a terminal."
else
echo "File descriptor 2 (standard error) is not connected to a terminal."
fi
If you execute the above script, it will give you the following output:
But if I redirect the error datastream, it will no longer give the same output:
11. The -r
operator
The -r
operator in bash is used to identify whether the specified file has read permissions or not for the user running the script.
For example, here, I've used the -e
operator first to check whether the Hello.txt
file exists and if it does, then it will use the -r
operator:
#!/bin/bash
filename="Hello.txt"
if [ -e "$filename" ]; then
if [ -r "$filename" ]; then
echo "File '$filename' exists and has read permission."
else
echo "File '$filename' exists but does not have read permission."
fi
else
echo "File '$filename' does not exist."
fi
When executed, it gave me the following output:
12. The -w
operator
The -w
operator is used to find out if the file has a write permissions for a user running a script or not.
For example, here, I have used the -e
operator to validate the existence of the Hello.txt
file and later on use the -w
operator to find if it has write permissions:
#!/bin/bash
filename="Hello.txt"
if [ -e "$filename" ]; then
if [ -w "$filename" ]; then
echo "File '$filename' exists and is writable."
else
echo "File '$filename' exists but is not writable."
fi
else
echo "File '$filename' does not exist."
fi
As the Hello.txt
is in the current working directory and it has write permissions for the current user, it gave me the following output:
13. The -x
operator
The -x
operator in bash is used to find whether the file has execution permissions or not.
For example, here, I checked the executable permissions of the Script.sh
located in the current working directory:
#!/bin/bash
script_file="Script.sh"
if [ -x "$script_file" ]; then
echo "The script '$script_file' is executable."
else
echo "The script '$script_file' is not executable."
fi
As the file Script.sh
had the execution permissions, the above script gave me the following output:
But if your file is not executable, you can use the chmod command to make the file executable. Here's a detailed guide on that topic:
14. The -g
operator
The -g
operator in bash is used to find if the specified file has an SGID (Set-Group-ID)flag or not.
For those who don't know, When you enable the SGID and run a script or do any operations over a file, the group permissions of a file will be used.
So any actions that you do with the file are done if you're part of a group that owns the file.
For example, here, I used the -g
operator to find if the Hello.txt
file has SGID enabled or not:
#!/bin/bash
filename="Hello.txt"
if [ -e "$filename" ]; then
if [ -g "$filename" ]; then
echo "The SGID flag is set on '$filename'."
else
echo "The SGID flag is not set on '$filename'."
fi
else
echo "File '$filename' does not exist."
fi
But when I executed the above script, it said "The SGID flag is not set on Hello.txt". And most users will get a similar output.
To enable SGID, you need to use the chmod command in the following manner:
chmod g+s Filename
When I tried running it after using the chmod command over it, it gave me the following results:
15. The -u
operator
The -u
operator is used to check if the SUID (Set User ID) flag is set on a file or not.
When SUID is set, a user gets the temporary right to run a script of a file owner, not the user who is running the script.
For example, here, I tried to find if the Hello.txt
has SUID set or not:
#!/bin/bash
filename="Hello.txt"
if [ -u "$filename" ]; then
echo "The SUID flag is set on '$filename'."
else
echo "The SUID flag is not set on '$filename'."
fi
But when I executed the above script, it said The SUID flag was not set on Hello.txt
:
To set SGID on file, you can use the chmod command in the following manner:
chmod g+s filename
Once done, you can execute the script again:
16. The -k
operator
The -k
operator in bash is used to check if the file or the directory has a sticky bit set or not.
When you set a steaky bit on a file, it will be kept in cache memory for quicker access whereas if set on a directory, it restricts the write access.
When a file or a directory has a steaky bit set, it will show T
at the end of the file permissions:
For example, here, I've used -k
operator to find if the Hello.txt
has a steaky bit set or not:
#!/bin/bash
filename="Hello.txt"
if [ -k "$filename" ]; then
echo "The sticky bit is set on '$filename'."
else
echo "The sticky bit is not set on '$filename'."
fi
When executed, it gave me the following output:
17. The -O
operator
The -O
operator in bash is used to find if the currently logged-in used is the owner of a specific file or not.
For example, here, I've used the -O
operator to test if the Hello.txt
is owned by the currently logged-in user or not:
#!/bin/bash
filename="Hello.txt"
if [ -O "$filename" ]; then
echo "You are the owner of '$filename'."
else
echo "You are not the owner of '$filename'."
fi
As I was the owner of the file, it gave me the following output:
18. The -G
operator
The -G
operator in bash is used to find if the group-id of the specified file is the same as yours (currently logged-in user).
For example, the following script will use the -G
operator and find if the group ID of the currently logged-in user (identified using $USER
) as same as the file:
#!/bin/bash
filename="Hello.txt"
if [ -G "$filename" ]; then
echo "Group ID of a '$filename' is same as $USER."
else
echo "Group ID of a '$filename' is not same as $USER."
fi
When executed, it gave me the following output:
19. The -N
operator
The -N
operator in bash is used to find if the file was modified since the last read.
Sounds confusing?
You may have files that can be accessed and modified by the other users. When you use the -N
operator, it tells you if the file was modified since you last read it by someone in between.
For example, here, I used the following script to know if the file was modified since the last read:
#!/bin/bash
filename="Hello.txt"
if [ -N "$filename" ]; then
echo "The file '$filename' has been modified since it was last read or written."
else
echo "The file '$filename' has not been modified since it was last read or written."
fi
The other user abhiman
was given the right to modify the file and he made some modifications to it so when I executed the above script, it gave me the following output:
20. The -nt
operator
The -nt
operator in Linux is used to find if one file is newer than the other.
For example, here, I took two files Hello.txt
and LHB.txt
and then used the -nt
operator to check which one is newer than:
#!/bin/bash
file1="Hello.txt"
file2="LHB.txt"
if [ "$file1" -nt "$file2" ]; then
echo "$file1 is newer than $file2."
else
echo "$file1 is not newer than $file2."
fi
As the Hello.txt
is older than the LHB.txt
, it gave me the following output:
21. The -ot
operator
The -ot
operator in bash is used to compare two files and determine which one is older than the other.
Here, I will be using the same two files as I did earlier (Hello.txt and LHB.txt) and will compare them using the following script:
#!/bin/bash
file1="Hello.txt"
file2="LHB.txt"
if [ "$file1" -ot "$file2" ]; then
echo "$file1 is older than $file2."
else
echo "$file1 is not older than $file2."
fi
As the Hello.txt
was created before the LHB.txt
, it gave me the following:
22. The -ef
operator
This one is interesting.
Using the -ef
operator, you can verify if the two files are indicating the same data blocks.
In simple terms, you can verify if they are the hard links to the same file.
For example, I have created two hard links named HL-1
and HL-2
pointing to the same file to test if the -ef
operator can verify them:
#!/bin/bash
file1="HL-1"
file2="HL-2"
if [ "$file1" -ef "$file2" ]; then
echo "$file1 and $file2 point to the same file."
else
echo "$file1 and $file2 do not point to the same file."
fi
As they both are hard links to the same file, it gave me the following output:
Did I miss any?
In this tutorial, I went through all the test operators available in the bash with examples of each explaining how you can use them.
Please let me know if I missed any.
Also, feel free to suggest what should I cover next.
A software engineer who loves to tinker with hardware till it gets crashed. While reviving my crashed system, you can find me reading literature, manga, or watering my plants.