CSC231 Bash Tutorial 8
--D. Thiebaut (talk) 13:13, 1 November 2017 (EDT)
Contents
Bash Functions
There are two ways of declaring functions in bash, illustrated in the code below:
#! /bin/bash # func1.sh # D. Thiebaut # prints some messages printSomething() { echo "Hello there!" } function printSomethingElse { echo "Hello again!" } printSomething printSomething printSomethingElse
- Create the script above, make it executable, and run it, to see how it works.
- Add a call to printSomething inside the printSomethingElse function, just to see if functions can actually call functions... Does bash accept nested calls?
Passing Arguments
- Inside a function, $1 will refer to the first parameter passed to the function, $2 will refer to the second argument, etc.
- You do not put the parameters inside the parenthesis, when declaring the function.
- Here is an example, with both style functions:
#! /bin/bash # func1.sh # D. Thiebaut printBar() { echo "------------------------" } function printName { echo "Hello $1" } printAge() { echo "Your age: $1" } printBar printName "Kathleen McCartney" printAge 61 printBar
Challenge 1 |
- Add a new function to func2.sh called printInfo(). The new function takes 2 parameters and calls printName and printAge to print both. Here is an example of how to call it (that will be the only function call in the main part of the script):
printInfo "Kathleen McCartney" 61
- and the output will be the same as the previous version of func2.sh:
------------------------ Hello Kathleen McCartney Your age: 61 ------------------------
Challenge 2 |
- Below is an incomplete bash script that implements the teller machine script we saw earlier. It prompts the user for an integer, and takes the number as a dollar amount that is broken into a number of $20-bills, $10-bills, $5-bills and $1-bills. You need to replace the XXXXXX symbols by the appropriate expression(s)...
#! /bin/bash # funcTeller.sh # D. Thiebaut # Gets a number from the user and breaks it down # into a number of $20, $10, $5, and $1 if [ "$#" -ne 1 ] ; then echo "Syntax $0 nnnn" echo "where nnnn is a positive dollar amount" exit 0 fi amount=$1 function printBills { if [ XXXXX -ne "0" ]; then echo "$1 $2-bill(s)" fi } function breakAmount { no20s=$( expr XXXXX / 20 ) amount=$( expr $amount % 20 ) no10s=$( expr $amount / 10 ) amount=$( expr $amount % 10 ) no5s=$( expr $amount / 5 ) no1s=$( expr $amount % 5 ) printBills $no20s XXXXX printBills XXXXX "10" printBills XXXXX "5" printBills $no1s XXXXX } breakAmount $amount
- Here is an example of how it works:
cs231a@aurora ~/handout $ ./funcTeller.sh Syntax ./funcTeller.sh nnnn where nnnn is a positive dollar amount cs231a@aurora ~/handout $ ./funcTeller.sh 1234 61 20-bill(s) 1 10-bill(s) 4 1-bill(s) cs231a@aurora ~/handout $
Bash Functions Returning Values
Bash has a strange (weird ?) way of implementing functions returning values. Let's observe the following example, that will print the following output:
1 2 2 4 3 6 4 8 5 10
Here's the code for this script:
#! /bin/bash # func3.sh # D. Thiebaut # display 5 ints and their double. function doubleIt { return $( expr $1 \* 2 ) } for i in 1 2 3 4 5 ; do echo -n $i " " doubleIt $i echo $? done
- The way the code above works, is that you call the function doubleIt first, passing it $i, then on the next line, you use $? to access the returned value of the function. $? is the standard way bash accesses the status of the previous command that was executed, or the previous function that was called. We will always use $? to access the value returned by the function called on the previous line. That's the way bash works.
Another Example
The script below returns the number of ".asm" and ".sh" files contained in your current directory:
#! /bin/bash # func4.sh # D. Thiebaut # return the number of files with a given extension function countFiles { num=`ls *.$1 2> /dev/null | wc -l ` return $num } countFiles "asm" echo "Number of asm files: " $? countFiles "sh" echo "Number of bash scripts: " $? for ext in "o" "c" ; do countFiles $ext echo "Number of files with $ext extension: " $? done
- output
cs231a@aurora ~/handout $ ./func4.sh Number of asm files: 34 Number of bash scripts: 10 Number of files with o extension: 3 Number of files with c extension: 0
- Note the redirection to /dev/null in the function; this is something new. By using "2> /dev/null" we are sending all error messages to /dev/null, which on Linux systems is a file that has always zero length. You can copy or redirect huge outputs to /dev/null, and it will absorb everything without ever growing. Think of it as a trash can that incinerate everything you put in, making the trash can always empty. I used this trick to compute the number of files with a given extension, because when there are no files with the extension, the ls command generates an error message, like this one:
ls: cannot access *.c: No such file or directory
- Sending the error messages to /dev/null makes the output look neater.
Solutions
Challenge 1
#! /bin/bash # funcChallenge1.sh # D. Thiebaut printBar() { echo "------------------------" } function printName { echo "Hello $1" } function printAge { echo "Your age: $1" } function printInfo { printBar printName $1 printAge $2 printBar } printInfo "Kathleen McCartney" 61
Challenge 2
#! /bin/bash # funcTeller.sh # D. Thiebaut # Gets a number from the user and breaks it down # into a number of $20, $10, $5, and $1 if [ "$#" -ne 1 ] ; then echo "Syntax $0 nnnn" echo "where nnnn is a positive dollar amount" exit 0 fi amount=$1 function printBills { if [ "$1" -ne "0" ]; then echo "$1 $2-bill(s)" fi } function breakAmount { no20s=$( expr $1 / 20 ) amount=$( expr $amount % 20 ) no10s=$( expr $amount / 10 ) amount=$( expr $amount % 10 ) no5s=$( expr $amount / 5 ) no1s=$( expr $amount % 5 ) printBills $no20s "20" printBills $no10s "10" printBills $no5s "5" printBills $no1s "1" } breakAmount $amount
