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Consider this line of code where deps contains a list of dependencies:

IFS=',' printf "setup-x86.exe -q -p='%s'\n" "${deps[*]}"

I set IFS to be , for a single invocation of printf but strangely printf doesn't seem to respect IFS as it doesn't expand deps to a comma-separated list.

On the other hand, if I set IFS like so:

IFS=','
printf "setup-x86.exe -q -p='%s'\n" "${deps[*]}"

printf correctly expands deps to a comma-separated list.

Do I miss something here?

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In this command line:

IFS=',' printf "setup-x86.exe -q -p='%s'\n" "${deps[*]}"

printf does not expand "${deps[*]}". The shell does the expansion. In fact, that's pretty well always true. Although printf happens to be a shell builtin, it doesn't do anything special to its arguments, and you would get exactly the same behaviour with an external printf.

The syntax

envvar=value program arg1 arg2 arg3

causes the shell to add envvar=value to the list of environment variables provided to program, and the strings arg1, arg2, and arg3 to be made into an argv list for program. Before all that happens, the shell does its normal expansions of various types, which will cause shell variables referenced in the value and the three arguments to be replaced with their values. But the environment variable setting envvar=value is not part of the shell's execution environment.

Equally,

FOO=World echo "Hello, $FOO"

will not use FOO=World when expanding $FOO in the argument to echo. "Hello, $FOO" is expanded by the shell in the shell's execution environment, and then passed to echo as an argument, and FOO=World is passed to echo as part of its environment.

Putting the variable setting in a separate command is completely different.

IFS=','; printf "setup-x86.exe -q -p='%s'\n" "${deps[*]}"

first sets the value of IFS in the shell's environment, before the shell parses the printf command. When the shell then does its expansions in the arguments it will eventually pass to printf, it uses the value of IFS in order to expand the array deps[*]. In this case, IFS is not included in the environment variables passed to printf, unless IFS has previously been exported.

The use of IFS with the read builtin may seem confusing, but it is entirely consistent with the above. In the command

IFS=, read A B C

IFS=, is passed as part of the list of environment variables to read. read the consumes a line of input, and consults the value of IFS in its environment in order to figure out how to split the input line into words.

In order to change IFS for the purposes of parameter expansion in an argument, the change must be made in the shell's environment, which is a global change. Since you rarely want to globally change the value of IFS, a common idiom is to change it within a subshell created with ():

( IFS=,; printf "setup-x86.exe -q -p='%s'\n" "${deps[*]}"; )

probably does what you want.

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    +1 Awesome explanation, I went with your suggestion of setting the IFS in a subshell. – helpermethod Aug 6 '14 at 7:32
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You can. Just save it first, use it and reset it:

oldifs=$IFS
IFS=','
printf "setup-x86.exe -q -p='%s'\n" "${deps[*]}"
IFS=$oldifs

Now for your command, you can do it on one line by putting a ; between the commands:

IFS=','; printf "setup-x86.exe -q -p='%s'\n" "${deps[*]}"

You still need to save and restore IFS though.

The only place you can set IFS as a one-shot deal is in while loops. E.g:

while IFS=$'\n' read line; do
....
done

It is just applied within the while loop in that case.

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    The use of IFS by read has zip-all to do with it being in a while loop; it would work exactly the same way without the loop. (Of course, that would only read one line.) – rici Aug 6 '14 at 7:25

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