How can I check if a program is callable from a Makefile?

(That is, the program should exist in the path or otherwise be callable.)

It could be used to check for which compiler is installed, for instance.

E.g. something like this question, but without assuming the underlying shell is POSIX compatible.

  • 2
    Can you invoke a POSIX-compatible shell? Apr 11, 2011 at 12:41
  • Probably not, I guess I could demand one to be there, but it would be much easier if I didn't have to. Apr 11, 2011 at 12:44
  • In the meantime, I solved it by adding a program to the project, which is built first, and whose sole purpose is to check for that other program... :-) Apr 11, 2011 at 12:45
  • 2
    The traditional workaround is to have an automake script which checks various prerequisites and writes out a suitable Makefile.
    – tripleee
    Nov 5, 2012 at 8:50

15 Answers 15


Sometimes you need a Makefile to be able to run on different target OS's and you want the build to fail early if a required executable is not in PATH rather than to run for a possibly long time before failing.

The excellent solution provided by engineerchuan requires making a target. However, if you have many executables to test and your Makefile has many independent targets, each of which requires the tests, then each target requires the test target as a dependency. That makes for a lot of extra typing as well as processing time when you make more than one target at a time.

The solution provided by 0xf can test for an executable without making a target. That saves a lot of typing and execution time when there are multiple targets that can be built either separately or together.

My improvement to the latter solution is to use the which executable (where in Windows), rather than to rely on there being a --version option in each executable, directly in the GNU Make ifeq directive, rather than to define a new variable, and to use the GNU Make error function to stop the build if a required executable is not in ${PATH}. For example, to test for the lzop executable:

 ifeq (, $(shell which lzop))
 $(error "No lzop in $(PATH), consider doing apt-get install lzop")

If you have several executables to check, then you might want to use a foreach function with the which executable:

EXECUTABLES = ls dd dudu lxop
K := $(foreach exec,$(EXECUTABLES),\
        $(if $(shell which $(exec)),some string,$(error "No $(exec) in PATH")))

Note the use of the := assignment operator that is required in order to force immediate evaluation of the RHS expression. If your Makefile changes the PATH, then instead of the last line above you will need:

        $(if $(shell PATH=$(PATH) which $(exec)),some string,$(error "No $(exec) in PATH")))

This should give you output similar to:

ads$ make
Makefile:5: *** "No dudu in PATH.  Stop.
  • 3
    If you make EXECUTABLES all variables, (i.e. LS CC LD), and use $($(exec)), you can pass them to make seamlessly from the environment or other makefiles. Useful when cross-compiling. Sep 28, 2015 at 14:31
  • 3
    My make chokes at the "," when running "ifeq (, $(shell which lzop))" =/
    – mentatkgs
    Jan 13, 2016 at 1:25
  • 5
    On Windows, use where my_exe 2>NUL instead of which. Nov 21, 2016 at 22:49
  • 10
    Beware of TABS indentations with ifeq which is a rule syntax! it must be WITHOUT TAB. Had a hard time with that. stackoverflow.com/a/21226973/2118777
    – Pipo
    Dec 7, 2018 at 12:23
  • 3
    If you're using Bash, there's no need to make an external call to which. Use the built-in command -v instead. More info.
    – kurczynski
    Oct 27, 2019 at 20:41

I mixed the solutions from @kenorb and @0xF and got this:

DOT := $(shell command -v dot 2> /dev/null)

ifndef DOT
    $(error "dot is not available please install graphviz")
    dot -Tpdf -o pres.pdf pres.dot 

It works beautifully because "command -v" doesn't print anything if the executable is not available, so the variable DOT never gets defined and you can just check it whenever you want in your code. In this example I'm throwing an error, but you could do something more useful if you wanted.

If the variable is available, "command -v" performs the inexpensive operation of printing the command path, defining the DOT variable.

  • 9
    At least in some systems (i.e. Ubuntu 14.04), $(shell command -v dot) fails with make: command: Command not found. To fix this, redirect stderr output to /dev/null: $(shell command -v dot 2> /dev/null). Explanation
    – J0HN
    Jan 13, 2016 at 9:55
  • 3
    command is a bash builtin, for more portability, consider using which ? Mar 10, 2016 at 9:23
  • 14
    @JulienPalard I believe you're mistaken: the command utility is required by posix (including the -v option) On the other hand which has no standardized bahaviour (that I know of) and is sometimes outright unusable
    – Gyom
    Jul 21, 2016 at 9:48
  • 4
    command -v requires a POSIX-like shell environment. This will not work on Windows without cygwin or similar emulation.
    – dolmen
    Aug 30, 2016 at 9:31
  • 14
    The reason why command often doesn't work is not because of its absence, but because of a peculiar optimization that GNU Make does: if a command is "simple enough" it will bypass the shell; this unfortunately means built-ins sometimes won't work unless you mangle the command a bit.
    – Rufflewind
    Jun 15, 2017 at 6:59

is this what you did?

check: PYTHON-exists
PYTHON-exists: ; @which python > /dev/null
mytarget: check
.PHONY: check PYTHON-exists

credit to my coworker.

  • No, I compiled a program in one target and ran it in another. May 17, 2011 at 14:02

Use the shell function to call your program in a way that it prints something to standard output. For example, pass --version.

GNU Make ignores the exit status of the command passed to shell. To avoid the potential "command not found" message, redirect standard error to /dev/null.

Then you may check the result using ifdef, ifndef, $(if) etc.

YOUR_PROGRAM_VERSION := $(shell your_program --version 2>/dev/null)

    @echo "Found version $(YOUR_PROGRAM_VERSION)"
    @echo Not found

As a bonus, the output (such as program version) might be useful in other parts of your Makefile.

  • this gives error *** missing separator. Stop. If I add tabs at all lines after all: I get error make: ifdef: Command not found Jan 8, 2014 at 16:24
  • also: ifdef will evaluate true even if your_program does not exist gnu.org/software/make/manual/make.html#Conditional-Syntax Jan 8, 2014 at 17:47
  • 1
    Don't add tabs to the ifdef, else, endif lines. Just make sure the @echo lines start with tabs.
    – 0xF
    Jan 15, 2014 at 16:56
  • I tested my solution on Windows and Linux. The documentation you linked states that ifdef checks for non-empty variable value. If your variable is not empty, what does it evaluate to?
    – 0xF
    Jan 15, 2014 at 17:02
  • 3
    @Matthias009 when I test GNU Make v4.2.1, using ifdef or ifndef (as in the accepted answer) only works if the variable being evaluated is immediately set (:=) instead of lazily set (=). However, a downside of using immediately set variables is that they are evaluated at declaration time, whereas lazily set variables are evaluated when they are called. This means you would be executing commands for variables with := even when Make is only running rules that never use those variables! You can avoid this by using a = with ifneq ($(MY_PROG),)
    – Dennis
    Jan 7, 2018 at 20:49

Cleaned up some of the existing solutions here...

REQUIRED_BINS := composer npm node php npm-shrinkwrap
$(foreach bin,$(REQUIRED_BINS),\
    $(if $(shell command -v $(bin) 2> /dev/null),$(info Found `$(bin)`),$(error Please install `$(bin)`)))

The $(info ...) you can exclude if you want this to be quieter.

This will fail fast. No target required.


I am personally defining a require target which runs before all the others. This target simply runs the version commands of all requirements one at a time and prints appropriate error messages if the command is invalid.

all: require validate test etc

    @echo "Checking the programs required for the build are installed..."
    @shellcheck --version >/dev/null 2>&1 || (echo "ERROR: shellcheck is required."; exit 1)
    @derplerp --version >/dev/null 2>&1 || (echo "ERROR: derplerp is required."; exit 1) 

# And the rest of your makefile below.

The output of the below script is

Checking the programs required for the build are installed...
ERROR: derplerp is required.
makefile:X: recipe for target 'require' failed
make: *** [require] Error 1

My solution involves a little helper script1 that places a flag file if all required commands exist. This comes with the advantage that the check for the required commands is only done once and not on every make invocation.



NEEDED_COMMANDS="jlex byaccj ant javac"

for cmd in ${NEEDED_COMMANDS} ; do
    if ! command -v ${cmd} &> /dev/null ; then
        echo Please install ${cmd}!
        exit 1

touch .cmd_ok



build: .cmd_ok target1 target2

1 More about the command -v technique can be found here.

  • 2
    I just tested it and it works and since you provided no hint about what is not working for you (the bash script or the Makefile code) or any error messages I can't help you find the problem.
    – Flow
    May 3, 2013 at 11:45
  • I'm getting "unexpected end of file" on the first if statement.
    – Adam Grant
    Mar 27, 2015 at 14:20

For me all above answers are based on linux and are not working with windows. I'm new to make so my approach may not be ideal. But complete example that works for me on both linux and windows is this:

# detect what shell is used
ifeq ($(findstring cmd.exe,$(SHELL)),cmd.exe)
$(info "shell Windows cmd.exe")
WHICH := where
$(info "shell Bash")
DEVNUL := /dev/null
WHICH := which

# detect platform independently if gcc is installed
ifeq ($(shell ${WHICH} gcc 2>${DEVNUL}),)
$(error "gcc is not in your system PATH")
$(info "gcc found")

optionally when I need to detect more tools I can use:

K := $(foreach myTestCommand,$(EXECUTABLES),\
        $(if $(shell ${WHICH} $(myTestCommand) 2>${DEVNUL} ),\
            $(myTestCommand) found,\
            $(error "No $(myTestCommand) in PATH)))
$(info ${K})        
  • I've never thought someone would use GNU Make with the dreaded cmd.exe ... "shell". Apr 7, 2019 at 3:54

You can use bash built commands such as type foo or command -v foo, as below:

SHELL := /bin/bash
all: check

        @type foo

Where foo is your program/command. Redirect to > /dev/null if you want it silent.

  • Yes, but the thing is I wanted it to work when I had only GNU make but no bash installed. Sep 24, 2015 at 19:46

Assume you have different targets and builders, each requires another set of tools. Set a list of such tools and consider them as target to force checking their availability

For example:

make_tools := gcc md5sum gzip

    @which $@ > /dev/null

file.txt.gz: file.txt gzip
    gzip -c file.txt > file.txt.gz 

The solutions checking for STDERR output of --version does not work for programs which print their version to STDOUT instead of STDERR. Instead of checking their output to STDERR or STDOUT, check for the program return code. If the program does not exist, its exit code will always be non zero.

#!/usr/bin/make -f
# https://stackoverflow.com/questions/7123241/makefile-as-an-executable-script-with-shebang
ECHOCMD:=/bin/echo -e
SHELL := /bin/bash

RESULT := $(shell python --version >/dev/null 2>&1 || (echo "Your command failed with $$?"))

ifeq (,${RESULT})
    EXISTS := true
    EXISTS := false

    echo EXISTS: ${EXISTS}
    echo RESULT: ${RESULT}

Solved by compiling a special little program in another makefile target, whose sole purpose is to check for whatever runtime stuff I was looking for.

Then, I called this program in yet another makefile target.

It was something like this if I recall correctly:

real: checker real.c
    cc -o real real.c `./checker`

checker: checker.c
    cc -o checker checker.c
  • Thank you. But this would abort make, right? Is it possible to prevent make from aborting? I'm trying to skip a build step if the required tool is not available.. May 4, 2012 at 11:04
  • @coding.mof edited - it was more like that. The program checked something in the runtime and gave info accordingly to the rest of the compile. May 4, 2012 at 11:25

A bit late but here is my take on that question

CMD_NOT_FOUND = $(error $(1) is required for this rule)
CHECK_CMD = $(if $(shell command -v $(1)),,$(call CMD_NOT_FOUND,$(1)))

you can either apply it globally:

$(call CHECK_CMD,gcc)

or within a specific rule:

    $(call CHECK_CMD,md5sum)

or within a for loop

REQUIREMENTS := gcc md5sum gzip
$(foreach req,$(REQUIREMENTS),$(call CHECK_CMD,$(req)))

even later, got here while searching an answer

... but then I tried something else (on Linux) ...


zig := $(word 1,$(foreach var,$(subst :, ,$(PATH)),$(wildcard $(var)/zig)))

ifdef zig
$(info $(zig) defined)

I use the following, inspired by other answers in this topic and StackOverflow and similar sites:


ℹ️ (This is just the top of Makefile's i will create self...)

#   SPDX-License-Identifier: CC-BY-NC-SA-4.0
SHELL = /usr/bin/bash

UTILS           :=
UTILS           += setfacl
UTILS           += chown
UTILS           += chmod
# UTILS         += nonexisting
include CheckUtils.mk
  1. Line #3 defines the shell to use, you can uncomment this to use the default sh.
  2. Lines #9-12 define the utils you want to be checked.
  3. Line #13 includes the below file.


ℹ️ Bug report wrt highlighting: https://github.com/highlightjs/highlight.js/issues/3878

ℹ️ The latest version of this file is available in one-of-my repo's at GitLab. 😉🤝

#   SPDX-License-Identifier: CC-BY-NC-SA-4.0
#   Version: 2023-11-14
# This make-snippet will both check for the utils you define AND
#   automatically create an uppercase variable with the util name
#   for you to use in the rest of your Makefile(s).
# Usage:
#   The utils to be used should be put inside the UTILS var,
#   separated by space. Example:
#   UTILS   :=
#   UTILS   += setfacl
#   UTILS   += chown
#   UTILS   += chmod
#   # UTILS += nonexisting
#   include CheckUtils.mk
# Explanation of workings:
#   Lines #50-51, #86, #88:
#       For use in recursive make's.
#       Makes sure that the code inside this make-snippet is only applied ONCE.
#   Line #52:
#       Feedback header
#   Lines #54-60:
#       Creates a macro for uppercase conversion.
#       It auto-selects from two versions, which you can extend as needed.
#       The first, bash variant, uses ${VAR^^}.
#       The last, non-bash variant eg sh, uses sed.
#   Lines #64, #74:
#       Is to prevent checking and defining the SHELL itself,
#           but allow it to be displayed in the feedback. 😉
#       (The shell is included as first util to check in line #63)
#   Lines #66-71:
#       Is to let make auto-create the respective variable(s) in uppercase
#           with the found executable as value.
#       The export in line #67 makes the created variable(s) available in
#           recursive make's without re-processing.
#   Line #72 in combo with #65/#73:
#       Aborts the make with an error if the requested util can not be found.
#   Lines #75-83:
#       Provide feedback about which util was found and where.
#       The output is nicely right-aligned when the length of the util-name
#           is <=20 (Line #78)
#   Lines #84-85:
#       Feedback footer
# Cross-posted-at:
#   https://stackoverflow.com/a/77223358/22510042

# For recorsive invocations.
ifndef CheckUtils
$(info ### START: Utils check)

# Define macro w.r.t. shell in use.
ifeq (bash,$(findstring bash,$(SHELL)))
toUpper = $(shell string="$(strip $1)"; printf "%s" $${string^^})
# Insipred by: https://stackoverflow.com/a/37660916/22510042
toUpper = $(shell echo "$(strip $1)" | sed 's/.*/\U&/')

# Inspired by: https://stackoverflow.com/a/37197276/22510042
$(foreach util,shell $(UTILS),\
    $(if $(filter-out shell,$(util)),\
        $(if $(shell command -v $(util) 2>/dev/null),\
            $(eval $(strip \
                export \
                $(call toUpper,$(util) )\
                $(shell command -v $(util) 2>/dev/null)\
            ,$(error No '$(util)' in PATH)\
    $(info \
        $(shell \
            printf "%*s = '%s'" \
                20 \
                "$(call toUpper,$(util))" \
                "$($(call toUpper,$(util)))"\
$(info ### END: Utils check)
$(info ) # Empty line
export CheckUtils:=1    # Mark already applied for recorsive invocations.
# $(error END: Utils check, forced for debuging this snippet)


  • make without any changes will be similar to:
    ### START: Utils check
    SHELL   = /usr/bin/bash
    SETFACL = /usr/bin/setfacl
    CHOWN   = /usr/bin/chown
    CHMOD   = /usr/bin/chmod
    ### END: Utils check
  • With the nonexisting util uncommented. will be similar to:
    ### START: Utils check
    SHELL   = /usr/bin/bash
    SETFACL = /usr/bin/setfacl
    CHOWN   = /usr/bin/chown
    CHMOD   = /usr/bin/chmod
    Makefile:21: *** No 'nonexisting' in PATH.  Stop.

Hope this will be useful to others, it will at least serve as a backup for myself 🤣


Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

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