Is there a way in GNU make to detect whether the target needs to be created resp. updated?
I need this differentiation due to a oddity of MS lib.exe (which I have to use).
UN*X-like tools support "ar cr lib.a file.o" either creating or updating "lib.a". Unfortunately MS lib.exe requires this:
1st call : lib.exe -out:lib.lib file.obj
next call(s) :
lib.exe -out:lib.lib lib.lib file.obj
So I have 2 different commands with target and dependencies being the same...
lib.lib : file.obj lib.exe -out:$# $^ <-- if lib.lib not exist
resp.
lib.exe -out:$# $# $^ <-- if lib.lib exist
I want this to be handled by GNU make and not delegate it to the command (aka shell).
NB: double-colon rules actually won't help as the problem is burried in an implicit rule
(%.obj) : %.obj
$(AR) $(ARFLAGS) -out:$# $# $^
There's no built-in way to do it but you can write your rule to do it:
lib.lib: file.obj
lib.exe -out:$# $(if $(wildcard $#),$#) $^
Related
I feel stupid, but I cannot find the solution myself:
I have a Makefile that correctly builds objects from C source, and I want to place $(OBJECTS) in an archive library.
I'm using GNU Make 4.0.
x.a: $(OBJECTS)
echo "$< ($(OBJECTS))"
$(AR) $(ARFLAGS) $# $<
(Lines are indented with TABs in original. The echo was added for debugging purposes only, The $(AR) $(ARFLAGS) $# $< was copied from make's internal rules)
Make outputs (at the end after the objects were built):
echo "log_thread/log_thread.o (log_thread/log_thread.o log_thread/thread.o)"
log_thread/log_thread.o (log_thread/log_thread.o log_thread/thread.o)
ar rv x.a log_thread/log_thread.o
ar: creating x.a
a - log_thread/log_thread.o
So I expect both objects modules to be added to the library x.a, but $< only contains one object module, as opposed to $(OBJECTS)).
My Make knowledge may be a little rusty, maybe that's why I don't get it.
Of course both object modules exist, and the output was created after having removed x.a (the original file is a bit more complex).
I'm not sure where the confusion lies:
The $< automatic variable contains the first prerequisite only, as per definition.
See the GNU make manual.
To get all prerequisites newer than the target, $? is the correct automatic variable.
So the correct rule probably is:
x.a: $(OBJECTS)
echo "$? ($(OBJECTS))"
$(AR) $(ARFLAGS) $# $?
Can I write a wrapper makefile that will cd one level up and execute there make with all the command options I have given the wrapper?
In more detail:
Directory project contains a real Makefile with some different targets.
Directory project/resources contains the wrapper Makefile which should call Makefile in project.
When I am in my shell in directory project/resources, I execute
make TARGET
and the Makefile there just cds one directory up and calls
make TARGET
in the directory project.
Is this possible? And how?
You could use a very simple Makefile for all your sub-directories:
%:
$(MAKE) -C .. $#
% is a last resort match-anything pattern rule that will match any target... for which there is no implicit rule (GNU make has an incredibly large number of implicit rules). So, if none of your targets are covered by an implicit rule, this should work. Else you will have to tell make not to use the implicit rules it knows. This can be done (with GNU make) by calling make with the -r option:
cd project/resources
make -r <anything>
will call make in project for target <anything>. The main drawback is that the -r flag is passed to the sub-make and so the implicit rules will not apply neither in project, which can be a problem. If it is you can obtain the same effect by adding an empty .SUFFIXES target to theMakefile in project/resources:
.SUFFIXES:
%:
$(MAKE) -C .. $#
With my version of GNU make (3.82) it works like a charm and the sub-make has all the default implicit rules.
Yes, you can have a makefile which works for "any" target.
The GNU make manual discusses this in the Overriding Part of Another Makefile section:
Sometimes it is useful to have a makefile that is mostly just like another makefile. You can often use the ‘include’ directive to include one in the other, and add more targets or variable definitions. However, it is invalid for two makefiles to give different recipes for the same target. But there is another way.
In the containing makefile (the one that wants to include the other), you can use a match-anything pattern rule to say that to remake any target that cannot be made from the information in the containing makefile, make should look in another makefile. See Pattern Rules, for more information on pattern rules.
For example, if you have a makefile called Makefile that says how to make the target ‘foo’ (and other targets), you can write a makefile called GNUmakefile that contains:
foo:
frobnicate > foo
%: force
#$(MAKE) -f Makefile $#
force: ;
If you say ‘make foo’, make will find GNUmakefile, read it, and see that to make foo, it needs to run the recipe ‘frobnicate > foo’. If you say ‘make bar’, make will find no way to make bar in GNUmakefile, so it will use the recipe from the pattern rule: ‘make -f Makefile bar’. If Makefile provides a rule for updating bar, make will apply the rule. And likewise for any other target that GNUmakefile does not say how to make.
The way this works is that the pattern rule has a pattern of just ‘%’, so it matches any target whatever. The rule specifies a prerequisite force, to guarantee that the recipe will be run even if the target file already exists. We give the force target an empty recipe to prevent make from searching for an implicit rule to build it—otherwise it would apply the same match-anything rule to force itself and create a prerequisite loop!
One option: use a wrapper file to execute the commands to do that. Just be sure your target make files don't include the child directory that has the wrapper, or else you can create an endless loop. For example,
clean:
pushd .. && make clean && popd
Using the comment of user Renaud Pacalet and the answer to a different question the following one-liner is as close as I could get. The whole Makefile reads:
IGNORE := $(shell $(MAKE) -C .. $(MAKECMDGOALS))
This solutions comes with a few caveats:
Command line option -B does not get passed through to the subsequent make call.
The output of the subsequently called make process (in the project directory) is not printed to stdout.
The wrapper make process reports for any given target at the end :
make: *** No rule to make target TARGET. Stop.
I'm writing my very first makefile and I'm stuck on a problem.
I have a bunch of prerequisites, of which the first one is a template that needs to be in a special position. I get to do this like so:
target : req1 req2 req3
command $(filter-out $<,$^) $# --template=$<
The thing is, sometimes I need to switch that template for another one while leaving the other prerequisites alone, so that
# Changing just the first prerequisite
target : req1b req2 req3
command $(filter-out $<,$^) $# --template=$<
I'm searching for a way to achieve this using the goal I have right now, without writing an ad-hoc explicit goal, maybe calling make with an argument or something similar, but I know too little about makefiles to get it done.
The general idea is you will want to use a variable, how you set that variable is up to you. One way is to pass a variable via the command line. Your Makefile would look like:
target : $(REQ_ONE) req2 req3
command $(filter-out $<,$^) $# --template=$<
and then do make target REQ_ONE=reg1 or make target REQ_ONE=reg1b
If you have a preferred default that you wish to use (say req1) and you want to use the alternative in rarer circumstances you could use the modified forms of the previous example.
# only set if the variable doesn't exist
REQ_ONE ?= req1
target : $(REQ_ONE) req2 req3
command $(filter-out $<,$^) $# --template=$<
Finally, a variant on this approach is to have your Makefile call make with a variable assignment:
# only set if the variable doesn't exist
REQ_ONE ?= req1
target2:
$(MAKE) target REQ_ONE=req1b
target : $(REQ_ONE) req2 req3
command $(filter-out $<,$^) $# --template=$<
Another solution is to use secondary expansion as demonstrated in this SO post on target specific variables as a prerequisites.
It's probably trivial to do this but I can't see how.
I want to have a parent Makefile to decide which Makefile to call recursively based on the value of a variable passed in the command line.
I.e., I want to be able to call my main Makefile with:
make some_rule TARGET=a
or
make some_rule TARGET=b
and have my main Makefile decide based on the value of TARGET which makefile to invoke to run make some_rule. (For example, decide whether to call sub_directory_a/Makefile or sub_directory_b/Makefile to execute rule some_rule.)
Note: I have many different rules, so I do not want my main Makefile to list all the possible rules and for each of them call recursively the correct Makefile. I am hoping my main Makefile can only be a few lines long and not have to be updated whenever I create new rules.
You could do what you describe with
default_target:
%:
$(MAKE) -C some_directory_$(TARGET) $#
The %: rule is a pattern rule in which the pattern matches all rules (called a match-anything rule by the GNU make manual); $# is the current target. Note that the default_target: rule doesn't have a recipe, so calling make without a target will use the recipe of the match-anything rule (the only one that applies and has a recipe) to try to build default_target.
The caveat of this approach is that targets cannot be declared phony. If you want to have phony targets, you'll have to specify the recipe for those targets again, for example
PHONY_TARGETS = all clean distclean
.PHONY: $(PHONY_TARGETS)
$(PHONY_TARGETS):
$(MAKE) -C some_directory_$(TARGET) $#
%:
$(MAKE) -C some_directory_$(TARGET) $#
Unfortunately, I do not know a trick to declare all targets phony, which is what you'd really want to do.
Note that you can use ifeq etc. with the variables you set at the command line if you want to allow more fancy values for TARGET than parts of directory names, such as
%:
ifeq ($(TARGET),gibson)
echo 'Planet $# was successfully hacked.'
else
$(MAKE) -C some_directory_$(TARGET) $#
endif
Also note that a more common way to set common variables for many Makefiles is to put them into a file, often common.mk, and include it from the other Makefiles:
include ../common.mk # to include common.mk from some_directory_a/Makefile
But you'll have to decide yourself which approach is a better fit for your project.
I have a Makefile that I run with multithreading (-j8 specifically).
I want to force a make clean and make all operation if I'm missing a specific marker file identifying the version compiled.
(This file should be introduced when the make is completed after the second make all.)
I can't seem to make this work properly. I either get stuck in loops or it just doesn't happen at all.
(This is part of a huge system so I can't just change any paradigms and I have to work with what I have)
Here's the relevant section I have so far. This wasn't the original plan but I shifted so many things around this is the current situation:
VERSION = 2.8
.DEFAULT_GOAL := all
.PHONY : all
all : {some targets} | marker_file
###########################
.PHONY : marker_file
marker_file : build/$(VERSION).marker
.PHONY : check_marker
check_marker :
ifeq (,$(wildcard build/$(VERSION).marker))
#echo -e "\e[41mYOU ARE ON NEW PREREQUISITES $(VERSION)! FORCING MAKE CLEAN BEFORE REBUILDING\e[0m"
$(MAKE) clean
#mkdir -p build
#touch build/$(VERSION).marker
$(MAKE) $(MAKECMDGOALS)
endif
# if the marker file needs generation, force clean and rebuild
build/$(VERSION).marker : check_marker
Can anyone figure out how to properly plan the rules and dependencies so that I can generate the file on the second time?
You definitely don't want to use order-only prerequisites. That forces the prerequisite to always run, but doesn't use the results in determining whether to run the target. That's almost the exact opposite of what you want.
Also you cannot use make preprocessor constructs like ifeq inside a recipe (indented by a TAB). Recipes are passed to the shell, and the shell is not make and does not understand make constructs like ifeq.
You can use make's auto-re-exec feature: if an included file changes then make will re-exec itself. So:
VERSION = 2.8
.DEFAULT_GOAL := all
.PHONY : all
all : {some targets}
###########################
MARKER_FILE = build/$(VERSION).marker
$(MARKER_FILE) :
#echo -e "\e[41mYOU ARE ON NEW PREREQUISITES $(VERSION)! FORCING MAKE CLEAN BEFORE REBUILDING\e[0m"
$(MAKE) clean MARKER_FILE=
#mkdir -p $(#D)
#touch $#
include $(MARKER_FILE)