Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have a shell script that runs the same command in several directories (fgit). For each directory, I would like it to show the current prompt + the command which will be run there. How do I get the string that corresponds to the decoded (expanded)PS1? For example, my default PS1 is

${debian_chroot:+($debian_chroot)}\[\e[1;32m\]\u\[\e[0m\]@\[\e[1;32m\]\h\[\e[0m\]:\[\e[1;34m\]\w\[\e[0m\]$(__git_ps1 ' (%s)')$

and I'd like to echo the resulting prompt username@hostname:/path$, preferably (but not necessarily) with the nice colors. A cursory look at the Bash manual didn't reveal any definite answer, and echo -e $PS1 only evaluates the colors.

share|improve this question
My head hurts. I know you probably want to use the eval echo idiom, but I can't think how to get the colors safely through. (My prompt is even worse - I have it red/green based on exit status, so the escaped characters for colors have to be dealt with after the expansion.) –  Jefromi Aug 10 '10 at 18:27
My guess at this point is that if we can find whatever will expand \u to username, it's easy peasy. But it's not documented (and I don't know enough C to dig into Bash). –  l0b0 Aug 10 '10 at 19:14
It looks like the command to run is expand_prompt_string from subst.c in the Bash source tree. Now to figure out how to call that from within the script... –  l0b0 Aug 10 '10 at 19:56
@I0b0: Oh, right, I forgot about the extra directives like \u. And... I'm not sure that expand_prompt_string is going to be accessible from the shell, unless you patch it. (Maybe you could compile it separately...) –  Jefromi Aug 10 '10 at 20:15

5 Answers 5

up vote 9 down vote accepted

One great advantage of open source software is that the source is, well, open :-)

Bash itself does not provide this functionality but there are various tricks you can use to provide a subset (such as substituting \u with $USER and so on). However, this requires a lot of duplication of functionality and ensuring that the code is kept in sync with whatever bash does in future.

If you want to get all the power of prompt variables (and you don't mind getting your hands dirty with a bit of coding (and, if you do mind, why are you here?)), it's easy enough to add to the shell itself.

If you download the code for bash (I'm looking at version 4.2), there's a y.tab.c file which contains the decode_prompt_string() function:

char *decode_prompt_string (string) char *string; { ... }

This is the function that evaluates the PSx variables for prompting. In order to allow this functionality to be provided to users of the shell itself (rather than just used by the shell), you can follow these steps to add an internal command evalps1.

First, change support/mkversion.sh so that you won't confuse it with a "real" bash, and so that the FSF can deny all knowledge for warranty purposes :-) Simply change one line (I added the -pax bit):

echo "#define DISTVERSION \"${float_dist}-pax\""

Second, change `builtins/Makefile.in to add a new source file. This entails a number of steps.

(a) Add $(srcdir)/evalps1.def to the end of DEFSRC.

(b) Add evalps1.o to the end of OFILES.

(c) Add the required dependencies:

evalps1.o: evalps1.def $(topdir)/bashtypes.h $(topdir)/config.h \
           $(topdir)/bashintl.h $(topdir)/shell.h common.h

Third, add the builtins/evalps1.def file itself, this is the code that gets executed when you run the evalps1 command:

This file is evalps1.def, from which is created evalps1.c.
It implements the builtin "evalps1" in Bash.

Copyright (C) 1987-2009 Free Software Foundation, Inc.

This file is part of GNU Bash, the Bourne Again SHell.

Bash is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.

Bash is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
GNU General Public License for more details.

You should have received a copy of the GNU General Public License
along with Bash.  If not, see <http://www.gnu.org/licenses/>.

$PRODUCES evalps1.c

$BUILTIN evalps1
$FUNCTION evalps1_builtin
$SHORT_DOC evalps1
Outputs the fully interpreted PS1 prompt.

Outputs the PS1 prompt, fully evaluated, for whatever nefarious purposes
you require.

#include <config.h>
#include "../bashtypes.h"
#include <stdio.h>
#include "../bashintl.h"
#include "../shell.h"
#include "common.h"

evalps1_builtin (list)
     WORD_LIST *list;
  char *ps1 = get_string_value ("PS1");
  if (ps1 != 0)
    ps1 = decode_prompt_string (ps1);
    if (ps1 != 0)
      printf ("%s", ps1);
  return 0;

The bulk of that is the GPL licence (since I modified it from exit.def) with a very simple function at the end to get and decode PS1.

Lastly, just build the thing in the top level directory:


The bash executable that appears can be renamed to paxsh, though I doubt it will ever become as prevalent as its ancestor :-)

And running it, you can see it in action:

pax> mv bash paxsh

pax> ./paxsh --version
GNU bash, version 4.2-pax.0(1)-release (i686-pc-linux-gnu)
Copyright (C) 2011 Free Software Foundation, Inc.
License GPLv3+: GNU GPL version 3 or later <http://gnu.org/licenses/gpl.html>

This is free software; you are free to change and redistribute it.
There is NO WARRANTY, to the extent permitted by law.

pax> ./paxsh

pax> echo $BASH_VERSION

pax> echo "[$PS1]"
[pax> ]

pax> echo "[$(evalps1)]"
[pax> ]

pax> PS1="\h: "

paxbox01: echo "[$PS1]"
[\h: ]

paxbox01: echo "[$(evalps1)]"
[paxbox01: ]

When you put one of the PSx variables into the prompt, echoing $PS1 simply gives you the variable, while the evalps1 command evaluates it and outputs the result.

Now, granted, making code changes to bash to add an internal command may be considered by some to be overkill but, if you want an perfect evaluation of PS1, it's certainly an option.

share|improve this answer
Cool! Might it be easier to use as a dyamically-loadable builtin that any bash process could use? –  andrewdotn Feb 1 '13 at 5:22
@Andrew, I'm not sure DLBs get access to the code already in the shell, do they? The "command" has to be able to call decode_prompt_string(). I could be wrong about that (it happens more often than I care to admit to) but I though DLB had to be pretty well self-contained. –  paxdiablo Feb 1 '13 at 5:44
Yes, you’re right; my mistake. If you have an unstripped bash binary you could use some hacks to read the addresses of internal bash functions and variables from the symbol table, but the system bash is almost certainly stripped :/ –  andrewdotn Feb 1 '13 at 6:15

Why don't you just process the $PS1 escape substitutions yourself? A series of substitutions such as these:

p="${PS1//\\u/$USER}"; p="${p//\\h/$HOSTNAME}"

By the way, zsh has the ability to interpret prompt escapes.

print -P '%n@%m %d'


share|improve this answer
This works in limited cases, but a complete solution would require many substitutions, some of them involving more than just simple substitution based on existing variables (see man bash, section PROMPTING); also, the solution would have to be kept current should future bash versions introduce new PS1 features. –  mklement0 Jul 21 '14 at 16:32
+1 for the zsh hint. –  mklement0 Jul 21 '14 at 16:36

You may have to write a small C program that uses the same code bash does (is it a library call?) to display that prompt, and just call the C program. Granted, that's not very portable since you'll have to compile it on each platform, but it's a possible solution.

share|improve this answer

One more possibility: without editing bash source code, using script utility (part of bsdutils package on ubuntu):

$ TEST_PS1="\e[31;1m\u@\h:\n\e[0;1m\$ \e[0m"
$ RANDOM_STRING=some_random_string_here_that_is_not_part_of_PS1
$ script /dev/null <<-EOF | awk 'NR==2' RS=$RANDOM_STRING
PS1="$TEST_PS1"; HISTFILE=/dev/null
<prints the prompt properly here>

script command generates a file specified & the output is also shown on stdout. If filename is omitted, it generates a file called typescript.

Since we are not interested in the log file in this case, filename is specified as /dev/null. Instead the stdout of the script command is passed to awk for further processing.

  1. The entire code can also be encapsulated into a function.
  2. Also, the output prompt can also be assigned to a variable.
  3. This approach also supports parsing of PROMPT_COMMAND...
share|improve this answer
Interesting approach, but - as you hint at by mentioning Ubuntu - it's limited to platforms running GNU utilities (other platforms, such as OSX, have utilities of the same name, but they behave differently), whereas bash runs on many more platforms. Also note that script translates \n in the prompt string to \r\n. –  mklement0 Jul 28 '14 at 2:35

I like the idea of fixing Bash to make it better, and I appreciate paxdiablo's verbose answer on how to patch Bash. I'll have a go sometime.

However, without patching Bash source-code, I have a one-liner hack that is both portable and doesn't duplicate functionality, because the workaround uses only Bash and its builtins.

x="$(PS1="$PS1" echo -n | bash --norc -i 2>&1)"; echo "‘${x%exit}’"

Note that there's something strange going on with tty's and stdio seeing as this also works:

x="$(PS1="$PS1" echo -n | bash --norc -i 2>&1 > /dev/null)"; echo "‘${x%exit}’"

So although I don't understand what's going on with the stdio here, my hack is working for me on Bash 4.2, NixOS GNU/Linux. Patching the Bash source-code is definitely a more elegant solution, and it should be pretty easy and safe to do now that I'm using Nix.

share|improve this answer
+1, great workaround, though I also don't understand it fully - it seems that the child bash instance sends everything to stderr, possibly because of the competing concepts of executing-then-exiting a 'script' passed via stdin vs. a keep-open interactive shell. The question is whether that behavior can be relied upon in future versions. It does work on bash 4.x and can be made to work on 3.x as well (see below). –  mklement0 Jul 21 '14 at 18:37
There are some issues, though: (a) by using a pipeline and only prepending PS1="$PS1" to the first segment, the bash instance in the subshell won't see that variable (unless it happens to be exported); (b) it's better to call "$BASH" rather than bash so as to ensure that the same executable as the current shell's is invoked; (c) did you mean to have the chars in the final variable expansion? See below for a reformulation that addresses these issues. –  mklement0 Jul 21 '14 at 18:41
The following variation addresses above issues; it also works on bash 3.x, where a spurious bash: no job control in this shell error message must be worked around. Note the trailing 'exit' is removed via a sed command inside the command substitution so as to make do with a single command: x=$(PS1="$PS1" "$BASH" --norc -i </dev/null 2>&1 | sed -n '${s/^\(.*\)exit$/\1/p;}'). –  mklement0 Jul 21 '14 at 18:45
Finally, it's worth stating the limitations of this solution: (a) it won't work if your prompt string references non-exported shell variables and/or calls non-exported shell functions - you can work around that by exporting what's needed, but that's clearly not a generic solution; (b) it won't work if you prompt string modifies variables (such as a command sequence counter), because a child process cannot modify its parent's environment; there's no good workaround that I'm aware of. –  mklement0 Jul 21 '14 at 18:51

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.