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When writing shell programs, we often use /bin/sh and /bin/bash. I usually use bash, but I don't know what's the difference between them.

What's main difference between bash and sh?

What do we need to be aware of when programming in bash and sh?

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migrated from Apr 20 '11 at 3:54

This question came from our site for professional programmers interested in conceptual questions about software development.

For a useful list of bashisms and corresponding code that works on Bourne shell, see – dancek Apr 20 '11 at 4:14
as a general rule, all sh scripts will run under bash thanks to it's posix compatibility, but not all bash scripts can run under sh, the main differences you notice are things like [[ ]] instead of [ ] comparisons which allow unquoted spaces, $(( )) instead of $[ ] arithmetic expressions, and other things like "its too big and too slow" directly from the bash docs.. But new scripters need not limit themselves to sh-compatible scripts unless they are shooting for some backward compatibility, which more often than not is not the case these days, after all it is (or was...) the year 2014 right?? – osirisgothra Mar 12 '14 at 14:03

6 Answers 6

Post from UNIX.COM

Shell features

This table below lists most features that I think would make you choose one shell over another. It is not intended to be a definitive list and does not include every single possible feature for every single possible shell. A feature is only considered to be in a shell if in the version that comes with the operating system, or if it is available as compiled directly from the standard distribution. In particular the C shell specified below is that available on SUNOS 4.*, a considerable number of vendors now ship either tcsh or their own enhanced C shell instead (they don't always make it obvious that they are shipping tcsh.


                                     sh   csh  ksh  bash tcsh zsh  rc   es
Job control                          N    Y    Y    Y    Y    Y    N    N
Aliases                              N    Y    Y    Y    Y    Y    N    N
Shell functions                      Y(1) N    Y    Y    N    Y    Y    Y
"Sensible" Input/Output redirection  Y    N    Y    Y    N    Y    Y    Y
Directory stack                      N    Y    Y    Y    Y    Y    F    F
Command history                      N    Y    Y    Y    Y    Y    L    L
Command line editing                 N    N    Y    Y    Y    Y    L    L
Vi Command line editing              N    N    Y    Y    Y(3) Y    L    L
Emacs Command line editing           N    N    Y    Y    Y    Y    L    L
Rebindable Command line editing      N    N    N    Y    Y    Y    L    L
User name look up                    N    Y    Y    Y    Y    Y    L    L
Login/Logout watching                N    N    N    N    Y    Y    F    F
Filename completion                  N    Y(1) Y    Y    Y    Y    L    L
Username completion                  N    Y(2) Y    Y    Y    Y    L    L
Hostname completion                  N    Y(2) Y    Y    Y    Y    L    L
History completion                   N    N    N    Y    Y    Y    L    L
Fully programmable Completion        N    N    N    N    Y    Y    N    N
Mh Mailbox completion                N    N    N    N(4) N(6) N(6) N    N
Co Processes                         N    N    Y    N    N    Y    N    N
Builtin artithmetic evaluation       N    Y    Y    Y    Y    Y    N    N
Can follow symbolic links invisibly  N    N    Y    Y    Y    Y    N    N
Periodic command execution           N    N    N    N    Y    Y    N    N
Custom Prompt (easily)               N    N    Y    Y    Y    Y    Y    Y
Sun Keyboard Hack                    N    N    N    N    N    Y    N    N
Spelling Correction                  N    N    N    N    Y    Y    N    N
Process Substitution                 N    N    N    Y(2) N    Y    Y    Y
Underlying Syntax                    sh   csh  sh   sh   csh  sh   rc   rc
Freely Available                     N    N    N(5) Y    Y    Y    Y    Y
Checks Mailbox                       N    Y    Y    Y    Y    Y    F    F
Tty Sanity Checking                  N    N    N    N    Y    Y    N    N
Can cope with large argument lists   Y    N    Y    Y    Y    Y    Y    Y
Has non-interactive startup file     N    Y    Y(7) Y(7) Y    Y    N    N
Has non-login startup file           N    Y    Y(7) Y    Y    Y    N    N
Can avoid user startup files         N    Y    N    Y    N    Y    Y    Y
Can specify startup file             N    N    Y    Y    N    N    N    N
Low level command redefinition       N    N    N    N    N    N    N    Y
Has anonymous functions              N    N    N    N    N    N    Y    Y
List Variables                       N    Y    Y    N    Y    Y    Y    Y
Full signal trap handling            Y    N    Y    Y    N    Y    Y    Y
File no clobber ability              N    Y    Y    Y    Y    Y    N    F
Local variables                      N    N    Y    Y    N    Y    Y    Y
Lexically scoped variables           N    N    N    N    N    N    N    Y
Exceptions                           N    N    N    N    N    N    N    Y

Key to the table above.

Y Feature can be done using this shell.

N Feature is not present in the shell.

F Feature can only be done by using the shells function mechanism.

L The readline library must be linked into the shell to enable this Feature.

Notes to the table above

1. This feature was not in the original version, but has since become
   almost standard.
2. This feature is fairly new and so is often not found on many
   versions of the shell, it is gradually making its way into
   standard distribution.
3. The Vi emulation of this shell is thought by many to be
4. This feature is not standard but unofficial patches exist to
   perform this.
5. A version called 'pdksh' is freely available, but does not have
   the full functionality of the AT&T version.
6. This can be done via the shells programmable completion mechanism.
7. Only by specifying a file via the ENV environment variable.
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Your table is not useful to me as it tries to compare features of the Bourne Shell and features from ksh from before 1988. If you really make a table for 1988, you would need to remove most of the other shells from that table - including bash, sh and rc. Could you explain where did yo get the values for your table from? – schily Sep 12 at 20:43
Let me give some hints: Job Control was added to the Bourne Shell in 1989 and the Bourne Shell was made OpenSource in 2005. The Korn shell has process substitution since at least 1988 and it is OpenSource since 1997. BTW: your statements regarding $ENV are not correct, $ENV is only read/executed for interactive shells. – schily Sep 12 at 20:47
@schily This post has been captured from – realspirituals Sep 14 at 5:35
@schily If you feel it is incorrect anywhere, please feel free to edit it appropriately. – realspirituals Sep 14 at 5:36
Thank you for the pointer! The problem with the table is that it is biased, because it has notice (1) at all but does not use it e.g. for bash. I am sure that we would need to use it for many features of bash but it is not possible anymore to find a reliable source for such a change. Note that the oldest Bourne Shell source is still available, but the oldest bash source I am able to find is for bash-1.14.7 from 1996 Another problem is that the table contains many lines that refer to features I cannot associate with a property, e.g. Mh Mailbox completionor Sun keyboard hack. – schily Sep 14 at 7:53

Other answers generally pointed out the difference between Bash and a POSIX shell standard. However, when writing portable shell scripts and being used to Bash syntax, a list of typical bashisms and corresponding pure POSIX solutions is very handy. Such list has been compiled when Ubuntu switched from Bash to Dash as default system shell and can be found here:

Moreover, there is a great tool called checkbashisms that checks for bashisms in your script and comes handy when you want to make sure that your script is portable.

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/bin/sh may or may not invoke the same program as /bin/bash.

sh supports at least the features required by POSIX (assuming a correct implementation). It may support extensions as well.

bash, the "Bourne Again Shell", implements the features required for sh plus bash-specific extensions. The full set of extensions is too long to describe here, and it varies with new releases. The differences are documented in the bash manual. Type info bash and read the "Bash Features" section (section 6 in the current version), or read the current documentation online.

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sh only gives you a POSIX shell, if you have the right PATH set up in your current shell. There is no defined PATH-name that gives you a POSIX shell. – schily Sep 12 at 21:37

You may want to see the POSIX standard for sh and its command language:

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Useful information, but the question was about the difference between sh and bash, and this says nothing about bash. – Keith Thompson Apr 9 at 15:55

What is sh

sh (or the Shell Command Language) is a programming language described by the POSIX standard. It has many implementations (ksh88, dash, ...). bash can also be considered an implementation of sh (see below).

Because sh is a specification, not an implementation, /bin/sh is a symlink (or a hard link) to an actual implementation on most POSIX systems.

What is bash

bash started as an sh-compatible implementation (although it predates the POSIX standard by a few years), but as time passed it has acquired many extensions. Many of these extensions may change the behavior of valid POSIX shell scripts, so by itself bash is not a valid POSIX shell. Rather, it is a dialect of the POSIX shell language.

bash supports a --posix switch, which makes it more POSIX-compliant. It also tries to mimic POSIX if invoked as sh.

sh == bash?

For a long time, /bin/sh used to point to /bin/bash on most GNU/Linux systems. As a result, it had almost become safe to ignore the difference between the two. But that started to change recently.

Some popular examples of systems where /bin/sh does not point to /bin/bash (and on some of which /bin/bash may not even exist) are:

  1. Modern Debian and Ubuntu systems, which symlink sh to dash by default;
  2. Busybox, which is usually run during the Linux system boot time as part of initramfs. It uses the ash shell implementation.
  3. BSDs. OpenBSD uses pdksh, a descendant of the Korn shell. FreeBSD's sh is a descendant of the original UNIX Bourne shell.

Shebang line

Ultimately, it's up to you to decide which one to use, by writing the «shebang» line.



will use sh (and whatever that happens to point to),


will use /bin/bash if it's available (and fail with an error message if it's not). Of course, you can also specify another implementation, e.g.


Which one to use

For my own scripts, I prefer sh for the following reasons:

  • it is standardized
  • it is much simpler and easier to learn
  • it is portable across POSIX systems — even if they happen not to have bash, they are required to have sh

There are advantages to using bash as well. Its features make programming more convenient and similar to programming in other modern programming languages. These include things like scoped local variables and arrays. Plain sh is a very minimalistic programming language.

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FreeBSD's site says that tcsh is the default shell nowadays – Andrei Apr 14 '14 at 6:48
It probably means that they specify /bin/tcsh as the default interactive shell in /etc/passwd, not that they use tcsh as an sh implementation. tcsh has the C shell syntax; it isn't even remotely compatible with the sh POSIX standard. See for the description of FreeBSD's sh. – Roman Cheplyaka Apr 14 '14 at 10:49
Thanks for a great explanation! For reference, sh != bash on MacOS as well. – bizi Oct 5 '14 at 6:28
In practice almost every implementation of sh supports local variables, declared with the keyword local. – August Karlstrom Nov 17 '14 at 6:35
My friend and I entered a state of confusion when we found out my os x syms it to bash and his ubuntu syms it to dash – Doorhandle Jan 5 at 1:09

sh: bash:

TL;DR: bash is a superset of sh with a more elegant syntax and more functionality. It is safe to use a bash shebang line in almost all cases as it's quite ubiquitous on modern platforms.

NB: in some environments, sh is bash. Check sh --version.

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if bash is invoked as sh, it behaves a bit differently. See ("Invoked with name sh") and For example, no process substitution. – glenn jackman Apr 20 '11 at 4:12
As bash is a superset of sh and some OS like FreeBSD do not have bash installed by default, scripting in sh will give greater portability. – user674062 Apr 20 '11 at 5:49
As there is no portable scriptable way to get a POSIX shell for a specific script, portable scripts cannot assume more than Bourne Shell features. – schily Sep 12 at 21:34

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