916

A coworker claimed recently in a code review that the [[ ]] construct is to be preferred over [ ] in constructs like

if [ "`id -nu`" = "$someuser" ] ; then
     echo "I love you madly, $someuser"
fi

He couldn't provide a rationale. Is there one?

7
  • 404
    @rook You can listen to an advice without a deep explanation, sure. But when you request an explanation and don't get it, it's usually a red flag. "Trust, but verify" and all that. Apr 5, 2016 at 11:07
  • 20
    Also see: What is the difference between the Bash operators [[ vs [ vs ( vs ((? on Unix & Linux SE. Sep 1, 2018 at 17:19
  • 30
    @rook in other words "do what you're told and don't ask questions"
    – 111
    Apr 1, 2020 at 22:47
  • 30
    @rook That made no sense.
    – user2453382
    May 25, 2020 at 5:06
  • 4
    Not the question posed, but you should also prefer $(...) for command substitution (e.g. "$(id -nu)" = "$someuser" in your code above. Unlike [[...]], $(...) substitution is part of POSIX, and only the very oldest shells don't understand it; it avoids some surprising nesting/quoting behavior that you run into with backticks.
    – Mark Reed
    Jul 14, 2020 at 12:19

11 Answers 11

868

[[ has fewer surprises and is generally safer to use. But it is not portable - POSIX doesn't specify what it does and only some shells support it (beside bash, I heard ksh supports it too). For example, you can do

[[ -e $b ]]

to test whether a file exists. But with [, you have to quote $b, because it splits the argument and expands things like "a*" (where [[ takes it literally). That has also to do with how [ can be an external program and receives its argument just normally like every other program (although it can also be a builtin, but then it still has not this special handling).

[[ also has some other nice features, like regular expression matching with =~ along with operators like they are known in C-like languages. Here is a good page about it: What is the difference between test, [ and [[ ? and Bash Tests

12
  • 44
    Considering that bash is everywhere these days, I tend to think it's pretty damn portable. The only common exception for me is on busybox platforms - but you'd probably want to make a special effort for it anyways, given the hardware that it runs on.
    – guns
    Mar 21, 2009 at 16:08
  • 31
    @guns: Indeed. I'd suggest that your second sentence disproves your first; if you consider software development as a whole, "bash is everywhere" and "the exception is busybox platforms" are completely incompatible. busybox is widespread for embedded development. Aug 21, 2011 at 0:34
  • 15
    @guns: Even if bash is installed on my box, it might not be executing the script (I might have /bin/sh symlinked to some dash-variant, as is standard on FreeBSD and Ubuntu). There's additional weirdness with Busybox, too: with standard compilation options nowadays, it parses [[ ]] but interprets it as meaning the same as [ ].
    – dubiousjim
    May 31, 2012 at 15:42
  • 86
    @dubiousjim: If you use bash-only constructs (like this one), you should have #!/bin/bash, not #!/bin/sh. Mar 4, 2013 at 19:22
  • 26
    That is why I make my scripts use #!/bin/sh but then switch them to use #!/bin/bash as soon as I rely on some BASH specific feature, to denote it is no longer Bourne shell portable.
    – anthony
    Feb 17, 2016 at 6:20
403

Behavior differences

Some differences on Bash 4.3.11:

  • POSIX vs Bash extension:

  • regular command vs magic

    • [ is just a regular command with a weird name.

      ] is just the last argument of [.

      Ubuntu 16.04 actually has an executable for it at /usr/bin/[ provided by coreutils, but the Bash built-in version takes precedence.

      Nothing is altered in the way that Bash parses the command.

      In particular, < is redirection, && and || concatenate multiple commands, ( ) generates subshells unless escaped by \, and word expansion happens as usual.

    • [[ X ]] is a single construct that makes X be parsed magically. <, &&, || and () are treated specially, and word splitting rules are different.

      There are also further differences like = and =~.

    In Bashese: [ is a built-in command, and [[ is a keyword: What's the difference between shell builtin and shell keyword?

  • <

  • && and ||

    • [[ a = a && b = b ]]: true, logical and
    • [ a = a && b = b ]: syntax error, && parsed as an AND command separator cmd1 && cmd2
    • [ a = a ] && [ b = b ]: POSIX reliable equivalent
    • [ a = a -a b = b ]: almost equivalent, but deprecated by POSIX because it is insane and fails for some values of a or b like ! or ( which would be interpreted as logical operations
  • (

    • [[ (a = a || a = b) && a = b ]]: false. Without ( ) it would be true, because [[ && ]] has greater precedence than [[ || ]]
    • [ ( a = a ) ]: syntax error, () is interpreted as a subshell
    • [ \( a = a -o a = b \) -a a = b ]: equivalent, but (), -a, and -o are deprecated by POSIX. Without \( \) it would be true, because -a has greater precedence than -o
    • { [ a = a ] || [ a = b ]; } && [ a = b ] non-deprecated POSIX equivalent. In this particular case however, we could have written just: [ a = a ] || [ a = b ] && [ a = b ], because the || and && shell operators have equal precedence, unlike [[ || ]] and [[ && ]] and -o, -a and [
  • word splitting and filename generation upon expansions (split+glob)

    • x='a b'; [[ $x = 'a b' ]]: true. Quotes are not needed
    • x='a b'; [ $x = 'a b' ]: syntax error. It expands to [ a b = 'a b' ]
    • x='*'; [ $x = 'a b' ]: syntax error if there's more than one file in the current directory.
    • x='a b'; [ "$x" = 'a b' ]: POSIX equivalent
  • =

    • [[ ab = a? ]]: true, because it does pattern matching (* ? [ are magic). Does not glob expand to files in the current directory.
    • [ ab = a? ]: a? glob expands. So it may be true or false depending on the files in the current directory.
    • [ ab = a\? ]: false, not glob expansion
    • = and == are the same in both [ and [[, but == is a Bash extension.
    • case ab in (a?) echo match; esac: POSIX equivalent
    • [[ ab =~ 'ab?' ]]: false, loses magic with '' in Bash 3.2 and above and provided compatibility to Bash 3.1 is not enabled (like with BASH_COMPAT=3.1)
    • [[ ab? =~ 'ab?' ]]: true
  • =~

    • [[ ab =~ ab? ]]: true. POSIX extended regular expression match and ? does not glob expand
    • [ a =~ a ]: syntax error. No Bash equivalent.
    • printf 'ab\n' | grep -Eq 'ab?': POSIX equivalent (single-line data only)
    • awk 'BEGIN{exit !(ARGV[1] ~ ARGV[2])}' ab 'ab?': POSIX equivalent.

Recommendation: always use []

There are POSIX equivalents for every [[ ]] construct I've seen.

If you use [[ ]] you:

  • lose portability
  • force the reader to learn the intricacies of another Bash extension. [ is just a regular command with a weird name, and no special semantics are involved.

Thanks to Stéphane Chazelas for important corrections and additions.

11
  • 2
    Does this hold true "Everything what works in POSIX works in BASH but not vise versa." ?
    – Wlad
    Sep 5, 2020 at 13:32
  • 2
    @Wlad Bash greatly extends POSIX, so any Bash extension won't be POSIX. The other way around I'm not 100%, but feels likely (except for when Bash extensions override a POSIX syntax, e,g. in posix [[ would presumably be a regular command too maybe). Related: askubuntu.com/questions/766270/… Sep 5, 2020 at 14:08
  • 1
    The distinctive features of bash should be the reason to use them. If you're writing POSIX shell, fine, use whatever. I write bash scripts, and try to use all the sensible features of the language. Yes, they are not portable, but that is OK, Bash is not so difficult to get hold of. Particularly using [[ ]] is safer and more foolproof in many ways.
    – PePa
    Oct 6, 2021 at 9:02
  • 17
    It's funny to read all of the weird behaviors of [ compared to the quite sensible behaviors of [[ and come away with the recommendation to use [ based solely on portability (which is rarely a concern these days) and that people have to learn the "intricacies" of the bash version. It's more like you have to learn the absurd intricacies of the legacy version. The bash version does what you expect from most other programming languages.
    – siride
    Mar 27, 2022 at 18:50
  • 2
    This is a great answer! I would add to it what I consider the major failing of [[. Namely, you get no error message when you do integer comparisons incorrectly. eg [[ $n -gt 0 ]] vs [ "$n" -gt 0 ]. When n=foo, that warrants a big screaming error message which you get with [. Aug 26, 2022 at 21:05
72

[[ ]] has more features - I suggest you take a look at the Advanced Bash Scripting Guide for more information, specifically the extended test command section in Chapter 7. Tests.

Incidentally, as the guide notes, [[ ]] was introduced in ksh88 (the 1988 version of KornShell).

4
  • 8
    This is far from a bashism, it was first introduced in the Korn shell. Aug 30, 2012 at 23:39
  • 11
    @Thomas, the ABS is actually considered a very poor reference in many circles; while it has a great deal of accurate information, it tends to take very little care to avoid showcasing bad practices in its examples, and spent a great deal of its life unmaintained. Oct 4, 2014 at 1:04
  • 2
    @CharlesDuffy thanks for your comment, can you name a good alternative. I'm not an expert in shell scripting, I am looking for a guide I can consult for writing a script about once every half year.
    – Thomas
    Oct 14, 2014 at 7:30
  • 13
    @Thomas, the Wooledge BashFAQ and associated wiki are what I use; they're actively maintained by the denizens of the Freenode #bash channel (who, while sometimes prickly, tend to care deeply about correctness). BashFAQ #31, mywiki.wooledge.org/BashFAQ/031, is the page directly relevant to this question. Oct 14, 2014 at 13:18
24

If you are into following Google's style guide:

Test, [ … ], and [[ … ]]

[[ … ]] is preferred over [ … ], test and /usr/bin/[.

[[ … ]] reduces errors as no pathname expansion or word splitting takes place between [[ and ]]. In addition, [[ … ]] allows for regular expression matching, while [ … ] does not.

# This ensures the string on the left is made up of characters in
# the alnum character class followed by the string name.
# Note that the RHS should not be quoted here.
if [[ "filename" =~ ^[[:alnum:]]+name ]]; then
  echo "Match"
fi

# This matches the exact pattern "f*" (Does not match in this case)
if [[ "filename" == "f*" ]]; then
  echo "Match"
fi
# This gives a "too many arguments" error as f* is expanded to the
# contents of the current directory
if [ "filename" == f* ]; then
  echo "Match"
fi

For the gory details, see E14 at http://tiswww.case.edu/php/chet/bash/FAQ

3
  • 3
    Google wrote "no pathname expansion ... takes place" yet [[ -d ~ ]] returns true (which implies ~ was expanded to /home/user). I think Google's should have been more precise in it's writing. Sep 14, 2019 at 6:17
  • 2
    @JamesThomasMoon1979 this is tilde expansion, not a pathname expansio mentioned in google text
    – maoizm
    Sep 13, 2020 at 21:47
  • No need to have quotes around "filename" within [[ ]].
    – PePa
    Oct 6, 2021 at 9:06
23

From Which comparator, test, bracket, or double bracket, is fastest?:

The double bracket is a “compound command” where as test and the single bracket are shell built-ins (and in actuality are the same command). Thus, the single bracket and double bracket execute different code.

The test and single bracket are the most portable as they exist as separate and external commands. However, if your using any remotely modern version of BASH, the double bracket is supported.

5
  • 11
    What's with the obsession of fastest in shell scripts? I want it most portable and couldn't care less about the improvement [[ might bring. But then, I'm an old school old fart :-)
    – Jens
    May 12, 2012 at 17:11
  • 1
    I think many shells prove builtin versions of [ and test even though external versions also exist.
    – dubiousjim
    May 31, 2012 at 15:43
  • 4
    @Jens in general I agree: the whole purpose of scripts is (was?) portability (otherwise, we'd code & compile, not script)... the two exceptions I can think of are: (1) tab completion (where completion scripts can get really long with lots of conditional logic); and (2) super-prompts (PS1=...crazy stuff... and/or $PROMPT_COMMAND); for these, I don't want any perceptible delay in the execution of the script.
    – michael
    Aug 1, 2013 at 7:22
  • 2
    Some of the obsession with fastest is simply style. All else being equal, why not incorporate the more efficient code construct into your default style, especially if that construct also offers more readability? As far as portability, a good many tasks that bash is suited for are inherently non-portable. E.g., I need to run apt-get update if it's been more than X hours since it was last run. It is a great relief when one can leave portability off the already-too-long list of constraints for code.
    – Ron Burk
    May 16, 2017 at 16:10
  • @Jens and others, here are some speed tests I just did between [ and [[. I know you said you don't care, but it's interesting and sometimes matters. Oct 14, 2023 at 3:20
23

In a question tagged 'bash' that explicitly has "in Bash" in the title, I'm a little surprised by all of the replies saying you should avoid [[...]] because it only works in bash!

It's true that portability is the primary objection: if you want to write a shell script which works in Bourne-compatible shells even if they aren't bash (or ksh or zsh), you should avoid [[...]]. If you're in that situation and want to test your shell scripts in a more strictly POSIX shell, I recommend dash; though it is a not strictly POSIX (it lacks the internationalization support required by the standard, and does support a few non-POSIX things like local variables), it's much closer than any of the bash/ksh/zsh trinity.

The other objection I see is at least applicable within the assumption of bash: that [[...]] has its own special rules which you have to learn, while [...] acts like just another command. That is again true (and Mr. Santilli brought the receipts showing all the differences), but it's rather subjective whether the differences are good or bad. I personally find it freeing that the double-bracket construct lets me use (...) for grouping, && and || for Boolean logic, < and > for comparison, and unquoted parameter expansions. It's like its own little closed-off world where expressions work more like they do in traditional, non-command-shell programming languages.

A point I haven't seen raised is that this behavior of [[...]] is entirely consistent with that of the arithmetic expansion construct $((...)), which is specified by POSIX, and also allows unquoted parentheses and Boolean and inequality operators (which here perform numeric instead of lexical comparisons). Essentially, any time you see the doubled bracket characters you get the same quote-shielding effect.

(Bash and its modern relatives also use ((...)) – without the leading $ – as either a C-style for loop header or an environment for performing arithmetic operations without substituting the final value; neither syntax is part of POSIX.)

So there are some good reasons to prefer [[...]]; there are also reasons to avoid it, which may or may not be applicable in your environment. As to your coworker, "our style guide says so" is a valid justification, as far as it goes, but I'd also seek out backstory from someone who understands why the style guide recommends what it does.

6

A typical situation where you cannot use [[ is in an autotools configure.ac script. There brackets have a special and different meaning, so you will have to use test instead of [ or [[ -- Note that test and [ are the same program.

2
  • 3
    Given autotools are not a POSIX shell, why would you ever expect [ to be defined as a POSIX shell function?
    – Gordon
    Feb 4, 2018 at 15:09
  • Because the autoconf script looks like a shell script, and it produces a shell script, and most shell commands operate inside it.
    – vy32
    Jun 13, 2018 at 15:42
5

A coworker claimed recently in a code review that the [[ ]] construct is to be preferred over [ ]
...
He couldn't provide a rationale. Is there one?

Yes, speed and efficiency.

I don't see the word "speed" mentioned anywhere here, but since [[ ]] is a Bash built-in syntax, it doesn't requires spawning a new process. [ on the other hand, is the test command, and running it spawns a new process. So, [[ ]] should be faster than [ ] syntax, because it avoids spawning a new test process every time a [ is encountered.

What makes me think [ spawns a new process and is not a Bash built-in?
Well, when I run which [ it tells me it is located at /usr/bin/[. Note that ] is simply the last argument to the [ command.

Also, a second reason to prefer [[ ]] is that it is more feature-rich I think. It supports a more "C-style" and modern syntax.

I have traditionally favored [ ] over [[ ]] because it's more portable, but recently I think I may switch to [[ ]] over [ ] because it's faster, and I write a lot of Bash.

Speed test results (lower is better)

Here are my results over 2 million iterations: [[ ]] is 1.42x faster than [ ]:

enter image description here

The code being tested was super simple:

if [ "$word1" = "$word2" ]; then
    echo "true"
fi

vs.

if [[ "$word1" == "$word2" ]]; then
    echo "true"
fi

where word1 and word2 were just the following constants, so echo "true" never ran:

word1="true"
word2="false"

If you want to run the test yourself, the code is below. I've embedded a rather sophisticated Python program as a heredoc string into the Bash script to do the plotting.

If you change the comparison string constants to these:

word1="truetruetruetruetruetruetruetruetruetruetruetruetruetruetruetruetru"
word2="truetruetruetruetruetruetruetruetruetruetruetruetruetruetruetruetrufalse"

...then you get these results, where the Bash built-in ([[ ]]) is only 1.22x faster than the test command ([ ]):

enter image description here

In the first case, the strings differ after only 1 char, so the comparison can end immediately. In the latter case, the strings differ after 67 chars, so the comparison takes much longer to identify that the strings differ. I suspect that the longer the strings are, the less the speed differences will be since the majority of the time difference is initially the time it takes to spawn the new [ process, but as the strings match for longer, the process spawn time matters less. That's my suspicion anyway.

speed_tests__comparison_with_test_cmd_vs_double_square_bracket_bash_builtin.sh from my eRCaGuy_hello_world repo:

#!/usr/bin/env bash

# This file is part of eRCaGuy_hello_world: https://github.com/ElectricRCAircraftGuy/eRCaGuy_hello_world

# ==============================================================================
# Python plotting program
# - is a Bash heredoc
# References:
# 1. My `plot_data()` function here:
#    https://github.com/ElectricRCAircraftGuy/eRCaGuy_hello_world/blob/master/python/pandas_dataframe_iteration_vs_vectorization_vs_list_comprehension_speed_tests.py
# 1. See my answer here: https://stackoverflow.com/a/77270285/4561887
# ==============================================================================
python_plotting_program=$(cat <<'PROGRAM_END'

# 3rd-party imports
import matplotlib.pyplot as plt
import pandas as pd

# standard imports
import os
import sys

assert sys.argv[0] == "-c"
# print(f"sys.argv = {sys.argv}")  # debugging

# Get the command-line arguments
FULL_PATH_TO_SCRIPT = sys.argv[1]
NUM_ITERATIONS = int(sys.argv[2])
single_bracket_sec = float(sys.argv[3])
double_bracket_sec = float(sys.argv[4])

# Obtain paths to help save the plot later.
# See my answer: https://stackoverflow.com/a/74800814/4561887
SCRIPT_DIRECTORY = str(os.path.dirname(FULL_PATH_TO_SCRIPT))
FILENAME = str(os.path.basename(FULL_PATH_TO_SCRIPT))
FILENAME_NO_EXTENSION = os.path.splitext(FILENAME)[0]

# place into lists
labels = ['`[ ]` `test` func', '`[[ ]]` Bash built-in']
data = [single_bracket_sec, double_bracket_sec]

# place into a Pandas dataframe for easy manipulation and plotting
df = pd.DataFrame({'test_type': labels, 'time_sec': data})
df = df.sort_values(by="time_sec", axis='rows', ascending=False)
df = df.reset_index(drop=True)

# plot the data
fig = plt.figure()
plt.bar(labels, data)
plt.title(f"Speed Test: `[ ]` vs `[[ ]]` over {NUM_ITERATIONS:,} iterations")
plt.xlabel('Test Type', labelpad=8)  # use `labelpad` to lower the label
plt.ylabel('Time (sec)')

# Prepare to add text labels to each bar
df["text_x"] = df.index # use the indices as the x-positions
df["text_y"] = df["time_sec"] + 0.06*df["time_sec"].max()
df["time_multiplier"] = df["time_sec"] / df["time_sec"].min()
df["text_label"] = (df["time_sec"].map("{:.4f} sec\n".format) +
                    df["time_multiplier"].map("{:.2f}x".format))

# Use a list comprehension to actually call `plt.text()` to **automatically add
# a plot label** for each row in the dataframe
[
    plt.text(
        text_x,
        text_y,
        text_label,
        horizontalalignment='center',
        verticalalignment='center'
    ) for text_x, text_y, text_label
    in zip(
        df["text_x"],
        df["text_y"],
        df["text_label"]
    )
]

# add 10% to the top of the y-axis to leave space for labels
ymin, ymax = plt.ylim()
plt.ylim(ymin, ymax*1.1)

plt.savefig(f"{SCRIPT_DIRECTORY}/{FILENAME_NO_EXTENSION}.svg")
plt.savefig(f"{SCRIPT_DIRECTORY}/{FILENAME_NO_EXTENSION}.png")

plt.show()

PROGRAM_END
)

# ==============================================================================
# Bash speed test program
# ==============================================================================

# See my answer: https://stackoverflow.com/a/60157372/4561887
FULL_PATH_TO_SCRIPT="$(realpath "${BASH_SOURCE[-1]}")"

NUM_ITERATIONS="2000000" # 2 million
# NUM_ITERATIONS="1000000" # 1 million
# NUM_ITERATIONS="10000" # 10k

word1="true"
word2="false"

# Get an absolute timestamp in floating point seconds.
# From:
# https://github.com/ElectricRCAircraftGuy/eRCaGuy_hello_world/blob/master/bash/timestamp_lib_WIP.sh
seconds_float() {
    time_sec="$(date +"%s.%N")"
    echo "$time_sec"
}

single_bracket() {
    for i in $(seq 1 "$NUM_ITERATIONS"); do
        if [ "$word1" = "$word2" ]; then
            echo "true"
        fi
    done
}

double_bracket() {
    for i in $(seq 1 "$NUM_ITERATIONS"); do
        if [[ "$word1" == "$word2" ]]; then
            echo "true"
        fi
    done
}

run_and_time_function() {
    # the 1st arg is the function to run
    func_to_time="$1"

    # NB: the "information" type prints will go to stderr so they don't
    # interfere with the actual timing results printed to stdout.

    echo -e "== $func_to_time time test start... ==" >&2  # to stderr
    time_start="$(seconds_float)"

    $func_to_time

    time_end="$(seconds_float)"
    elapsed_time="$(bc <<< "scale=20; $time_end - $time_start")"
    echo "== $func_to_time time test end. ==" >&2  # to stderr
    echo "$elapsed_time"  # to stdout
}

main() {
    echo "Running speed tests over $NUM_ITERATIONS iterations."

    single_bracket_time_sec="$(run_and_time_function "single_bracket")"
    double_bracket_time_sec="$(run_and_time_function "double_bracket")"

    echo "single_bracket_time_sec = $single_bracket_time_sec"
    echo "double_bracket_time_sec = $double_bracket_time_sec"

    # echo "Plotting the results in Python..."
    python3 -c "$python_plotting_program" \
        "$FULL_PATH_TO_SCRIPT" \
        "$NUM_ITERATIONS" \
        "$single_bracket_time_sec" \
        "$double_bracket_time_sec"
}

# Determine if the script is being sourced or executed (run).
# See:
# 1. "eRCaGuy_hello_world/bash/if__name__==__main___check_if_sourced_or_executed_best.sh"
# 1. My answer: https://stackoverflow.com/a/70662116/4561887
if [ "${BASH_SOURCE[0]}" = "$0" ]; then
    # This script is being run.
    __name__="__main__"
else
    # This script is being sourced.
    __name__="__source__"
fi

# Only run `main` if this script is being **run**, NOT sourced (imported).
# - See my answer: https://stackoverflow.com/a/70662116/4561887
if [ "$__name__" = "__main__" ]; then
    main "$@"
fi

Sample run and output:

eRCaGuy_hello_world$ bash/speed_tests__comparison_with_test_cmd_vs_double_square_bracket_bash_builtin.sh
Running speed tests over 2000000 iterations.
== single_bracket time test start... ==
== single_bracket time test end. ==
== double_bracket time test start... ==
== double_bracket time test end. ==
single_bracket_time_sec = 5.990248014
double_bracket_time_sec = 4.230342635

References

  1. My plot_data() function here, for how to make the bar plot with the sophisticated text above the bars: https://github.com/ElectricRCAircraftGuy/eRCaGuy_hello_world/blob/master/python/pandas_dataframe_iteration_vs_vectorization_vs_list_comprehension_speed_tests.py
    1. My answer with this code: How to iterate over rows in a DataFrame in Pandas
  2. My answer: How do I get the path and name of the python file that is currently executing?
  3. My answer: How to obtain the full file path, full directory, and base filename of any script being run OR sourced...
  4. My Bash library: get an absolute timestamp in floating point seconds: https://github.com/ElectricRCAircraftGuy/eRCaGuy_hello_world/blob/master/bash/timestamp_lib_WIP.sh
  5. How to make a heredoc: https://linuxize.com/post/bash-heredoc/

See also

  1. This answer which links to another super simple speed test
2

There is an important caveat to using [[ ]], consider:

$ # For integer like strings, [ and [[ behave the same
$ 
$ n=5 # set n to a string that represents an integer
$ [[ $n -ge 0 ]] && printf "\t> $n is non-negative\n"
        > 5 is non-negative
$ [ "$n" -ge 0 ] && printf "\t> $n is non-negative\n"
        > 5 is non-negative
$ 
$ # But the behavior is different in several cases:
$ n=something # set n to some non-numeric string
$ [ "$n" -ge 0 ] && printf "\t> $n is non-negative\n"
-bash: [: something: integer expression expected
$ [[ $n -ge 0 ]] && printf "\t> $n is non-negative\n"
        > something is non-negative
$ n=5foo
$ [[ $n -ge 0 ]] && printf "\t> $n is non-negative\n"
-bash: 5foo: value too great for base (error token is "5foo")

To clarify the inconsistency of the behavior of [[, consider:

$ for n in 5foo 5.2 something; do [[ $n -ge 0 ]] && echo ok; done
-bash: 5foo: value too great for base (error token is "5foo")
-bash: 5.2: syntax error: invalid arithmetic operator (error token is ".2")
ok
$ for n in 5foo 5.2 something; do [ "$n" -ge 0 ] && echo ok; done
-bash: [: 5foo: integer expression expected
-bash: [: 5.2: integer expression expected
-bash: [: something: integer expression expected

Interpreting some non-numeric strings as 0 and the inconsistent error messages (or complete lack of an error message!) from the line [[ $n -ge 0 ]] when $n is not a valid integer makes [[ unsafe to use for integer comparisons. I strongly advise against [[ for numerical comparisons for this reason.

5
  • [[ $n -gt 0 ]] and [ $n -gt 0 ] are strictly equivalent and should never return an error message. They both return an exit code (0 if the condition is true, 1 if the condition is false) I'm not sure what is the issue you are trying to raise.
    – arkan
    Apr 7, 2023 at 4:37
  • @arkan if $n expands to the string foo, then [ $n -gt 0 ] should generate an error message like invalid integer ‘foo’. This is an extremely useful error message that [[ does not provide. Apr 7, 2023 at 14:08
  • @arkan But perhaps more importantly, the behavior of [[ foo -lt 5 ]] is different than [ foo -lt 5 ]. The former returns 0, while the latter returns non-zero. IMO, interpreting a non-integer like string as 0 is a fatal flaw. Apr 7, 2023 at 15:34
  • Thank you for clarifying, I submitted an edit that should avoid people like me missing your point. "Fatal flaw" or "Unusable" is a bit over the top IMHO (especially talking about bash a legacy pile of hacks). [[ ]] does thing that [ ] doesn't, so people might want to use it anyway despite this flaw. In addition, it does return the error code '1'.
    – arkan
    Apr 8, 2023 at 4:10
  • @arkan Thanks for the edit. I made a few changes, which may help clarify further. In the original example, your comment "it does return the error code '1'" is correct, but suggests that you missed an important detail, so I've changed the example to one in which [ and [[ behave differently. Apr 8, 2023 at 12:28
0

[[ ]] double brackets are unsupported under certain versions of SunOS and totally unsupported inside function declarations by:

GNU Bash, version 2.02.0(1)-release (sparc-sun-solaris2.6)

4
  • 1
    very true, and not at all inconsequential. bash portability across older versions must be considred. People say "bash is ubiquitous and portable, except for maybe (insert esoteric OS here)" -- but in my experience, solaris is one of those platforms where special attention must be paid to portability: not only to consider older bash versions on a newer OS, issues/bugs w/ arrays, functions, etc; but even utilities (used in the scripts) like tr, sed, awk, tar have oddities & peculiarities on solaris that you have to work-around.
    – michael
    Aug 1, 2013 at 7:37
  • 2
    you are so right... so much utilities non POSIX on Solaris, just look at the "df" output and arguments... Shame on Sun. Hopefully it's disappearing little by little (except in Canada).
    – scavenger
    Aug 3, 2013 at 17:17
  • 12
    Solaris 2.6 seriously? It was released in 1997 and ended support in 2006. I guess if you're still using that then you have other problems!. Incidentally it used Bash v2.02 which was the one that introduced double brackets so should work even on something as old as that. Solaris 10 from 2005 used Bash 3.2.51 and Solaris 11 from 2011 uses Bash 4.1.11.
    – peterh
    Oct 25, 2013 at 7:15
  • 1
    Re Script portability. On Linux systems there's generally only edition of each tool and that is the GNU edition. On Solaris you typically have a choice between a Solaris-native edition or the GNU edition (say Solaris tar vs GNU tar). If you depend on GNU specific extensions then you must state that in your script for it to be portable. On Solaris you do that by prefixing with "g", e.g. ` ggrep` if you want the GNU grep.
    – peterh
    Oct 25, 2013 at 7:24
-1

In a nutshell, [[ is better because it doesn't fork another process. No brackets or a single bracket is slower than a double bracket because it forks another process.

6
  • 14
    Test and [ are names for the same builtin command in bash. Try using type [ to see this.
    – A B
    Jul 6, 2011 at 17:56
  • 1
    @alberge, that's true, but [[, as distinct from [, is syntax interpreted by the bash command-line interpreter. In bash, try typing type [[. unix4linux is correct that although classic Bourne-shell [ tests fork off a new process to determine the truth value, the [[ syntax (borrowed from ksh by bash, zsh, etc) does not. Nov 15, 2012 at 19:47
  • 2
    @Tim, I'm not sure which Bourne shell you're talking about, but [ is built-in to Bash as well as Dash (the /bin/sh in all Debian-derived Linux distributions).
    – A B
    Nov 18, 2012 at 5:20
  • 2
    Oh, I see what you mean, that's true. I was thinking of something like, say, /bin/sh on older Solaris or HP/UX systems, but of course if you needed to be compatible with those you wouldn't be using [[ either. Nov 28, 2012 at 17:20
  • 1
    @alberge Bourne shell is not Bash (a.k.a. Bourne Again SHell).
    – apaderno
    Jul 17, 2017 at 20:42

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