I am trying to simplify my makefile by allowing a target with a filter (%) to capture when I want other targets to have expanded actions
An example of this would be
1-check:
echo "1"
2-check:
echo "2"
run-check:
1-check-all 2-check-all
%-all:
echo $*
This is able to print the 2 targets names as 1-check and 2-check and I was expecting that if I remove the echo in %-all it would run the captured target
What I would expect when I call 1-check-all is that the modified %-all - seen below - it would invoke the method
%-all:
$*
Would have "1-check" as the value of $* and it would then run that target and I would see "echo 1" executed.
I am new to makefiles and haven't been able to find an example doing something similar to this.
A couple of problems. This:
%-all:
$*
does not appear in your makefile. The nearest thing to it is this:
%-all:
echo $*
But neither of these will invoke another rule. To get the effect I think you want, you must list % as a prerequisite of the rule:
%-all: %
echo $*
I'd like to ignore dependency check in makefile.
For example, please look this code.
test:: test1 test2
#echo "test"
test1:: back3
#echo "test1"
test2:: back3
#echo "test2"
back3::
#echo "back3"
Results of "make test"
back3
test1
test2
test
But I want to get below result.
back3
test1
back3 <---- I want to run back3 again.
test2
test
How can I do this?
You could use Make recursively:
test: test1 test2
#echo "test"
test1:
$(MAKE) back3
#echo "test1"
test2:
$(MAKE) back3
#echo "test2"
back3:
#echo "back3"
or use a "canned recipe":
define run_back3
#echo "back3"
endef
test: test1 test2
#echo "test"
test1:
$(run_back3)
#echo "test1"
test2:
$(run_back3)
#echo "test2"
You write
I'd like to ignore dependency check in makefile.
, by which you seem to mean that you want all the prerequisites of each target to be rebuilt prior to building that target, specifically for that target, such that prerequisites may be built more than once.
make simply does not work like that. On each run, make builds each target at most once. Prerequisite lists help it determine which targets need to be built, in which order, but designating a prerequisite should not be viewed as calling a subroutine.
If indeed you want something that works like calling a subroutine, then it needs to be expressed in the rule's recipe, not its prerequisite list. Your other answer presents two alternatives for that. Of those, the recursive make example is more general; the one based on defining a custom function is specific to GNU make.
I have a very simple makefile as follows
FRUIT = apple orange
all : $(FRUIT)
$(FRUIT) :
ifeq ($(#),apple)
#echo "APPLE!"
else
#echo "ORANGE!"
endif
When I execute
make all
I see
ORANGE!
ORANGE!
I have checked my tabbing and I believe my spacing on ifeq is correct. What have I missed?
The ifeq is evaluated when the Makefile is first parsed, not when the individual recipe is executed. At that point, $(#) is always the empty string.
You can perform the same logic in shell script in the recipe itelf.
$(FRUIT):
case $# in apple) echo "APPLE!";; *) echo "ORANGE!";; asac
Conditional directives are expanded as soon as make reads them, long before the recipe is executed. $#expands to the empty string when make parses that line so you always end up with the else part of the conditional.
Just use something like the following instead:
FRUIT = apple orange
all: $(FRUIT)
$(FRUIT):
#echo "$#!"
If you need separate recipes then write them
apple:
#echo "APPLE!"
orange:
#echo "ORANGE!"
In my makefile, I have a variable 'NDK_PROJECT_PATH', my question is how can I print it out when it compiles?
I read Make file echo displaying "$PATH" string and I tried:
#echo $(NDK_PROJECT_PATH)
#echo $(value NDK_PROJECT_PATH)
Both gives me
"build-local.mk:102: *** missing separator. Stop."
Any one knows why it is not working for me?
You can print out variables as the makefile is read (assuming GNU make as you have tagged this question appropriately) using this method (with a variable named "var"):
$(info $$var is [${var}])
You can add this construct to any recipe to see what make will pass to the shell:
.PHONY: all
all: ; $(info $$var is [${var}])echo Hello world
Now, what happens here is that make stores the entire recipe ($(info $$var is [${var}])echo Hello world) as a single recursively expanded variable. When make decides to run the recipe (for instance when you tell it to build all), it expands the variable, and then passes each resulting line separately to the shell.
So, in painful detail:
It expands $(info $$var is [${var}])echo Hello world
To do this it first expands $(info $$var is [${var}])
$$ becomes literal $
${var} becomes :-) (say)
The side effect is that $var is [:-)] appears on standard out
The expansion of the $(info...) though is empty
Make is left with echo Hello world
Make prints echo Hello world on stdout first to let you know what it's going to ask the shell to do
The shell prints Hello world on stdout.
As per the GNU Make manual and also pointed by 'bobbogo' in the below answer,
you can use info / warning / error to display text.
$(error text…)
$(warning text…)
$(info text…)
To print variables,
$(error VAR is $(VAR))
$(warning VAR is $(VAR))
$(info VAR is $(VAR))
'error' would stop the make execution, after showing the error string
from a "Mr. Make post"
https://www.cmcrossroads.com/article/printing-value-makefile-variable
Add the following rule to your Makefile:
print-% : ; #echo $* = $($*)
Then, if you want to find out the value of a makefile variable, just:
make print-VARIABLE
and it will return:
VARIABLE = the_value_of_the_variable
If you simply want some output, you want to use $(info) by itself. You can do that anywhere in a Makefile, and it will show when that line is evaluated:
$(info VAR="$(VAR)")
Will output VAR="<value of VAR>" whenever make processes that line. This behavior is very position dependent, so you must make sure that the $(info) expansion happens AFTER everything that could modify $(VAR) has already happened!
A more generic option is to create a special rule for printing the value of a variable. Generally speaking, rules are executed after variables are assigned, so this will show you the value that is actually being used. (Though, it is possible for a rule to change a variable.) Good formatting will help clarify what a variable is set to, and the $(flavor) function will tell you what kind of a variable something is. So in this rule:
print-% : ; $(info $* is a $(flavor $*) variable set to [$($*)]) #true
$* expands to the stem that the % pattern matched in the rule.
$($*) expands to the value of the variable whose name is given by by $*.
The [ and ] clearly delineate the variable expansion.
You could also use " and " or similar.
$(flavor $*) tells you what kind of variable it is. NOTE: $(flavor)
takes a variable name, and not its expansion.
So if you say make print-LDFLAGS, you get $(flavor LDFLAGS),
which is what you want.
$(info text) provides output.
Make prints text on its stdout as a side-effect of the expansion.
The expansion of $(info) though is empty.
You can think of it like #echo,
but importantly it doesn't use the shell,
so you don't have to worry about shell quoting rules.
#true is there just to provide a command for the rule.
Without that,
make will also output print-blah is up to date. I feel #true makes it more clear that it's meant to be a no-op.
Running it, you get
$ make print-LDFLAGS
LDFLAGS is a recursive variable set to [-L/Users/...]
All versions of make require that command lines be indented with a TAB (not space) as the first character in the line. If you showed us the entire rule instead of just the two lines in question we could give a clearer answer, but it should be something like:
myTarget: myDependencies
#echo hi
where the first character in the second line must be TAB.
#echo $(NDK_PROJECT_PATH) is the good way to do it.
I don't think the error comes from there.
Generally this error appears when you mistyped the intendation : I think you have spaces where you should have a tab.
No need to modify the Makefile.
$ cat printvars.mak
print-%:
#echo '$*=$($*)'
$ cd /to/Makefile/dir
$ make -f ~/printvars.mak -f Makefile print-VARIABLE
Run make -n; it shows you the value of the variable..
Makefile...
all:
#echo $(NDK_PROJECT_PATH)
Command:
export NDK_PROJECT_PATH=/opt/ndk/project
make -n
Output:
echo /opt/ndk/project
This makefile will generate the 'missing separator' error message:
all
#echo NDK_PROJECT_PATH=$(NDK_PROJECT_PATH)
done:
#echo "All done"
There's a tab before the #echo "All done" (though the done: rule and action are largely superfluous), but not before the #echo PATH=$(PATH).
The trouble is that the line starting all should either have a colon : or an equals = to indicate that it is a target line or a macro line, and it has neither, so the separator is missing.
The action that echoes the value of a variable must be associated with a target, possibly a dummy or PHONEY target. And that target line must have a colon on it. If you add a : after all in the example makefile and replace the leading blanks on the next line by a tab, it will work sanely.
You probably have an analogous problem near line 102 in the original makefile. If you showed 5 non-blank, non-comment lines before the echo operations that are failing, it would probably be possible to finish the diagnosis. However, since the question was asked in May 2013, it is unlikely that the broken makefile is still available now (August 2014), so this answer can't be validated formally. It can only be used to illustrate a plausible way in which the problem occurred.
The problem is that echo works only under an execution block. i.e. anything after "xx:"
So anything above the first execution block is just initialization so no execution command can used.
So create a execution blocl
If you don't want to modify the Makefile itself, you can use --eval to add a new target, and then execute the new target, e.g.
make --eval='print-tests:
#echo TESTS $(TESTS)
' print-tests
You can insert the required TAB character in the command line using CTRL-V, TAB
example Makefile from above:
all: do-something
TESTS=
TESTS+='a'
TESTS+='b'
TESTS+='c'
do-something:
#echo "doing something"
#echo "running tests $(TESTS)"
#exit 1
This can be done in a generic way and can be very useful when debugging a complex makefile. Following the same technique as described in another answer, you can insert the following into any makefile:
# if the first command line argument is "print"
ifeq ($(firstword $(MAKECMDGOALS)),print)
# take the rest of the arguments as variable names
VAR_NAMES := $(wordlist 2,$(words $(MAKECMDGOALS)),$(MAKECMDGOALS))
# turn them into do-nothing targets
$(eval $(VAR_NAMES):;#:))
# then print them
.PHONY: print
print:
#$(foreach var,$(VAR_NAMES),\
echo '$(var) = $($(var))';)
endif
Then you can just do "make print" to dump the value of any variable:
$ make print CXXFLAGS
CXXFLAGS = -g -Wall
You could create a vars rule in your make file, like this:
dispvar = echo $(1)=$($(1)) ; echo
.PHONY: vars
vars:
#$(call dispvar,SOMEVAR1)
#$(call dispvar,SOMEVAR2)
There are some more robust ways to dump all variables here: gnu make: list the values of all variables (or "macros") in a particular run.
if you use android make (mka) #echo $(NDK_PROJECT_PATH) will not work and gives you error *** missing separator. Stop."
use this answer if you are trying to print variables in android make
NDK_PROJECT_PATH := some_value
$(warning $(NDK_PROJECT_PATH))
that worked for me
I usually echo with an error if I wanted to see the variable value.(Only if you wanted to see the value. It will stop execution.)
#echo $(error NDK_PROJECT_PATH= $(NDK_PROJECT_PATH))
The following command does it for me on Windows:
Path | tr ; "\n"
I use make to execute a series of process steps. Each step depends on the success of the previous one. Once completed a step, I touch a file with the name of the step into a separate directory.
Here is one example to explain the concept:
VPATH=steps
step1:
#echo "do some actions with $#"
#touch $(VAPTH)/$#
step2: step1
#echo "do some actions with $#"
#touch $(VPATH)/$#
step3: step2
#echo "do some actions with $#"
#touch $(VPATH)/$#
It basically works, however there is a weakness: it checks for targets either in "." and in VPATH. If you erroneously touch ./step1 in the working directory "." make gets confused. I'd like to know if I can avoid any ambiguity on checking the targets/prerequisites, but I'd like to keep using
make step3
and not
make steps/step3
Any other Makefile example to get the same objective is welcome. Thanks in advance for the help!
A fundamental rule of makefiles is that you cannot create targets that are different from what makes thinks they should be. Make puts the name of the target that it wants you to build in the $# variable. Your rule must create a target with that name, or make will not work properly. In your example you're creating a target with the name $(VPATH)/$# which is not the same as $#, so that's not right.
Another rule of makefiles is that VPATH cannot be used (correctly) to find derived targets. It can only be used to find source files.
I recommend you change the variable name from VPATH to something like STEPDIR, just to avoid confusion. Then you can write a makefile like this (note this is untested and may need to be tweaked). Look up Static Pattern Rules in the GNU make manual to understand what I'm doing in the commented part:
STEPDIR := steps
STEPS := step1 step2 step3
# Translate from local to subdirectory
.PHONY: $(STEPS)
$(STEPS): %: $(STEPDIR)/%
$(STEPDIR)/step1:
#...
#touch $#
$(STEPDIR)/step2: $(STEPDIR)/step1
#...
#touch $#
$(STEPDIR)/step1: $(STEPDIR)/step2
#...
#touch $#