6.4 KiB
The eval builtin command
Synopsis
eval: eval [arg ...]
Description
eval
takes its arguments, concatenates them separated by spaces, and
executes the resulting string as Bash code in the current execution
environment. eval
in Bash works in essentially the same way as most
other languages that have an eval
function. Perhaps the easiest way to
think about eval
is that it works in the same way as running ''bash
-c "bash code..." ''from a script, except in the case of eval
,
the given code is executed in the current shell environment rather than
a child process.
Examples
In this example, the literal text within the
here-document is executed as Bash
code exactly as though it were to appear within the script in place of
the eval
command below it.
#!/usr/bin/env bash
{ myCode=$(</dev/stdin); } <<\EOF
... arbitrary bash code here ...
EOF
eval "$myCode"
Expansion side-effects
Frequently, eval
is used to cause side-effects by performing a pass of
expansion on the code before executing the resulting string. This allows
for things that otherwise wouldn't be possible with ordinary Bash
syntax. This also, of course, makes eval
the most powerful command in
all of shell programming (and in most other languages for that matter).
This code defines a set of identical functions using the supplied names.
eval
is the only way to achieve this effect.
main() {
local fun='() { echo "$FUNCNAME"; }' x
for x in {f..n}; do
eval "${x}${fun}"
done
"$@"
}
main "$@"
Using printf %q
The printf %q
format string performs shell escaping on its arguments.
This makes printf %q
the "anti-eval" - with each pass of a string
through printf requiring another eval
to peel off the escaping again.
while (( ++n <= 5 )) || ! evalBall="eval $evalBall"; do
printf -v evalBall 'eval %q' "printf $n;${evalBall-printf '0\n'}"
done
$evalBall
The above example is mostly fun and games but illustrates the
printf %q
property.
Higher-order functions
Since all current POSIX-compatible shells lack support for first-class
functions, it can be
tempting and sometimes useful to simulate some of their effect using
eval
to evaluate a string containing code.
This example shows partial
application using
eval
.
function partial {
eval shift 2 \; function "$1" \{ "$2" "$(printf '%q ' "${@:3}")" '"$@"; }'
}
function repeat {
[[ $1 == +([0-9]) ]] || return
typeset n
while ((n++ < $1)); do
"${@:2}"
done
}
partial print3 repeat 3 printf '%s ' # Create a new function named print3
print3 hi # Print "hi" 3 times
echo
This is very easy to do incorrectly and not usually considered idiomatic of Bash if used extensively. However abstracting eval behind functions that validate their input and/or make clear which input must be controlled carefully by the caller is a good way to use it.
Portability considerations
- Unfortunately, because eval is a special builtin, it only gets
its own environment in Bash, and only when Bash is not in POSIX
mode. In all other shells plus Bash in POSIX mode, the environment
of eval will leak out into the surrounding environment. It is
possible to work around this limitation by prefixing special
builtins with the
command
regular builtin, but current versions ofksh93and zsh don't do this properly (fixed in ksh 93v- 2012-10-24 alpha). Earlier versions of zsh work (withsetopt POSIX_BUILTINS
-- looks like a regression). This works correctly in Bash POSIX mode, Dash, and mksh.
<!-- -->
eval
is another one of the few Bash builtins with keyword-like conditional parsing of arguments that are in the form of compound assignments.
<!-- -->
$ ( eval a=( a b\\ c d ); printf '<%s> ' "${a[@]}"; echo ) # Only works in Bash.
<a> <b c> <d>
$ ( x=a; eval "$x"=( a b\\ c d ); printf '<%s> ' "${a[@]}"; echo ) # Argument is no longer in the form of a valid assignment, therefore ordinary parsing rules apply.
-bash: syntax error near unexpected token `('
$ ( x=a; eval "$x"'=( a b\ c d )'; printf '<%s> ' "${a[@]}"; echo ) # Proper quoting then gives us the expected results.
<a> <b c> <d>
We don't know why Bash does this. Since parentheses are metacharacters, they must ordinary be quoted or escaped when used as arguments. The first example above is the same error as the second in all non-Bash shells, even those with compound assignment.
In the case of eval
it isn't recommended to use this behavior,
because unlike e.g. declare, the initial
expansion is still subject to all expansions including
word-splitting and pathname
expansion.
$ ( set -x; touch 'x+=(\[[123]\]=*)' 'x+=([3]=yo)'; eval x+=(*); echo "${x[@]}" )
+ touch 'x+=(\[[123]\]=*)' 'x+=([3]=yo)'
+ eval 'x+=(\[[123]\]=*)' 'x+=([3]=yo)'
++ x+=(\[[123]\]=*)
++ x+=([3]=yo)
+ echo '[[123]]=*' yo
[[123]]=* yo
Other commands known to be affected by compound assignment arguments
include: let,
declare,
typeset
, local,
export, and
readonly. More oddities below show both
similarities and differences to commands like
declare. The rules for eval
appear
identical to those of let.
See also
- BashFAQ 48 - eval and security issues -- IMPORTANT
- Another eval article
- Indirection via eval
- More indirection via eval
- Martin Väth's "push" --
printf %q
work-alike for POSIX. - The "magic alias" hack