I am working with a bash script and I want to execute a function to print a return value:
function fun1(){
return 34
}
function fun2(){
local res=$(fun1)
echo $res
}
When I execute fun2
, it does not print "34". Why is this the case?
I am working with a bash script and I want to execute a function to print a return value:
function fun1(){
return 34
}
function fun2(){
local res=$(fun1)
echo $res
}
When I execute fun2
, it does not print "34". Why is this the case?
Although bash has a return
statement, the only thing you can specify with it is the function's own exit
status (a value between 0
and 255
, 0 meaning "success"). So return
is not what you want.
You might want to convert your return
statement to an echo
statement - that way your function output could be captured using $()
braces, which seems to be exactly what you want.
Here is an example:
function fun1(){
echo 34
}
function fun2(){
local res=$(fun1)
echo $res
}
Another way to get the return value (if you just want to return an integer 0-255) is $?
.
function fun1(){
return 34
}
function fun2(){
fun1
local res=$?
echo $res
}
Also, note that you can use the return value to use boolean logic like fun1 || fun2
will only run fun2
if fun1
returns a 0
value. The default return value is the exit value of the last statement executed within the function.
$(...)
captures the text sent to stdout by the command contained within. return
does not output to stdout. $?
contains the result code of the last command.
fun1 (){
return 34
}
fun2 (){
fun1
local res=$?
echo $res
}
Functions in Bash are not functions like in other language; they're actually commands. So functions are used as if they were binaries or scripts fetched from your path. From the perspective of your program logic there should be really no difference.
Shell commands are connected by pipes (aka streams), and not fundamental or user-defined data types, as in "real" programming languages. There is no such thing like a return value for a command, maybe mostly because there's no real way to declare it. It could occur on the man-page, or the --help
output of the command, but both are only human-readable and hence are written to the wind.
When a command wants to get input it reads it from its input stream, or the argument list. In both cases text strings have to be parsed.
When a command wants to return something it has to echo
it to its output stream. Another oftenly practiced way is to store the return value in dedicated, global variables. Writing to the output stream is clearer and more flexible, because it can take also binary data. For example, you can return a BLOB easily:
encrypt() {
gpg -c -o- $1 # encrypt data in filename to stdout (asks for a passphrase)
}
encrypt public.dat > private.dat # write function result to file
As others have written in this thread, the caller can also use command substitution $()
to capture the output.
Parallely, the function would "return" the exit code of gpg
(GnuPG). Think of the exit code as a bonus that other languages don't have, or, depending on your temperament, as a "Schmutzeffekt" of shell functions. This status is, by convention, 0 on success or an integer in the range 1-255 for something else. To make this clear: return
(like exit
) can only take a value from 0-255, and values other than 0 are not necessarily errors, as is often asserted.
When you don't provide an explicit value with return
the status is taken from the last command in a Bash statement/function/command and so forth. So there is always a status, and return
is just an easy way to provide it.
The return
statement sets the exit code of the function, much the same as exit
will do for the entire script.
The exit code for the last command is always available in the $?
variable.
function fun1(){
return 34
}
function fun2(){
local res=$(fun1)
echo $? # <-- Always echos 0 since the 'local' command passes.
res=$(fun1)
echo $? #<-- Outputs 34
}
The problem with other answers is they either use a global, which can be overwritten when several functions are in a call chain, or echo
which means your function cannot output diagnostic info (you will forget your function does this and the "result", i.e. return value, will contain more info than your caller expects, leading to weird bug), or eval
which is way too heavy and hacky.
The proper way to do this is to put the top level stuff in a function and use a local
with bash's dynamic scoping rule. Example:
func1()
{
ret_val=hi
}
func2()
{
ret_val=bye
}
func3()
{
local ret_val=nothing
echo $ret_val
func1
echo $ret_val
func2
echo $ret_val
}
func3
This outputs
nothing
hi
bye
Dynamic scoping means that ret_val
points to a different object depending on the caller! This is different from lexical scoping, which is what most programming languages use. This is actually a documented feature, just easy to miss, and not very well explained, here is the documentation for it (emphasis is mine):
Variables local to the function may be declared with the local builtin. These variables are visible only to the function and the commands it invokes.
For someone with a C/C++/Python/Java/C#/javascript background, this is probably the biggest hurdle: functions in bash are not functions, they are commands, and behave as such: they can output to stdout
/stderr
, they can pipe in/out, they can return an exit code. Basically there is no difference between defining a command in a script and creating an executable that can be called from the command line.
So instead of writing your script like this:
top-level code
bunch of functions
more top-level code
write it like this:
# define your main, containing all top-level code
main()
bunch of functions
# call main
main
where main()
declares ret_val
as local
and all other functions return values via ret_val
.
See also the following Unix & Linux question: Scope of Local Variables in Shell Functions.
Another, perhaps even better solution depending on situation, is the one posted by ya.teck which uses local -n
.
Another way to achive this is name references (requires Bash 4.3+).
function example {
local -n VAR=$1
VAR=foo
}
example RESULT
echo $RESULT
I like to do the following if running in a script where the function is defined:
POINTER= # used for function return values
my_function() {
# do stuff
POINTER="my_function_return"
}
my_other_function() {
# do stuff
POINTER="my_other_function_return"
}
my_function
RESULT="$POINTER"
my_other_function
RESULT="$POINTER"
I like this, becase I can then include echo statements in my functions if I want
my_function() {
echo "-> my_function()"
# do stuff
POINTER="my_function_return"
echo "<- my_function. $POINTER"
}
As an add-on to others' excellent posts, here's an article summarizing these techniques:
Returning Values from Bash Functions
Git Bash on Windows using arrays for multiple return values
BASH CODE:
#!/bin/bash
##A 6-element array used for returning
##values from functions:
declare -a RET_ARR
RET_ARR[0]="A"
RET_ARR[1]="B"
RET_ARR[2]="C"
RET_ARR[3]="D"
RET_ARR[4]="E"
RET_ARR[5]="F"
function FN_MULTIPLE_RETURN_VALUES(){
##give the positional arguments/inputs
##$1 and $2 some sensible names:
local out_dex_1="$1" ##output index
local out_dex_2="$2" ##output index
##Echo for debugging:
echo "running: FN_MULTIPLE_RETURN_VALUES"
##Here: Calculate output values:
local op_var_1="Hello"
local op_var_2="World"
##set the return values:
RET_ARR[ $out_dex_1 ]=$op_var_1
RET_ARR[ $out_dex_2 ]=$op_var_2
}
echo "FN_MULTIPLE_RETURN_VALUES EXAMPLES:"
echo "-------------------------------------------"
fn="FN_MULTIPLE_RETURN_VALUES"
out_dex_a=0
out_dex_b=1
eval $fn $out_dex_a $out_dex_b ##<--Call function
a=${RET_ARR[0]} && echo "RET_ARR[0]: $a "
b=${RET_ARR[1]} && echo "RET_ARR[1]: $b "
echo
##----------------------------------------------##
c="2"
d="3"
FN_MULTIPLE_RETURN_VALUES $c $d ##<--Call function
c_res=${RET_ARR[2]} && echo "RET_ARR[2]: $c_res "
d_res=${RET_ARR[3]} && echo "RET_ARR[3]: $d_res "
echo
##----------------------------------------------##
FN_MULTIPLE_RETURN_VALUES 4 5 ##<---Call function
e=${RET_ARR[4]} && echo "RET_ARR[4]: $e "
f=${RET_ARR[5]} && echo "RET_ARR[5]: $f "
echo
##----------------------------------------------##
read -p "Press Enter To Exit:"
EXPECTED OUTPUT:
FN_MULTIPLE_RETURN_VALUES EXAMPLES:
-------------------------------------------
running: FN_MULTIPLE_RETURN_VALUES
RET_ARR[0]: Hello
RET_ARR[1]: World
running: FN_MULTIPLE_RETURN_VALUES
RET_ARR[2]: Hello
RET_ARR[3]: World
running: FN_MULTIPLE_RETURN_VALUES
RET_ARR[4]: Hello
RET_ARR[5]: World
Press Enter To Exit: