I have a makefile include local.mk which define a variable DEFS. I hope to append that variable from command.
Here is what I have tried.
local.mk:
DEFS += -DVAR1
Makefile:
DEFS ?=
$(info ${DEFS})
include local.mk
$(info ${DEFS})
test:
echo ${DEFS}
When I run:
make DEFS+=-DVAR2
I expect to get -DVAR1 -DVAR2 but I only got -DVAR2.
How could I append DEFS variable instead of override it from command line?
I feel like this should be possible done the way you are trying but I'm having trouble getting the details straight in my head at the moment.
That being said you can do this instead:
DEFS=-DVAR2 make
and get what you want (order aside)
$ DEFS=-DVAR2 make -f start.mk
DEFS=-DVAR2
DEFS=-DVAR2 -DVAR1
echo '-DVAR2 -DVAR1'
-DVAR2 -DVAR1
Use the override directive in local.mk:
override DEFS += -DVAR1
Related
Is it possible to assign a variable that has also been passed from the command line?
I tried the following Makefile:
testvar := newassign
.PHONY: all
all:
#echo $(testvar)
If I execute make, the output is the expected newassign. However, if I execute make testvar=asd, the output is asd, while I expect this to also be newassign.
I use GNU Make 4.1.
This apparently an intentional feature. Command line options always have precedence over assignments inside the Makefile. If you want to force assignment, you can use override.
override testvar := newassign
.PHONY: all
all:
#echo $(testvar)
I have a makefile that looks something like this:
include anotherFile.mk
all:
someStuff
The file anotherFile.mk is like this:
include yetAnotherFile.mk
export SOME_VAR = 93
The problem is that anotherFile.mk and yetAnotherFile.mk are in a different directory from my Makefile. So my makefile can't just be changed to this:
include $(OTHER_PROJECT_PATH)/anotherFile.mk
all:
someStuff
The problem with this approach is that the include statement in anotherFile.mk will fail because it will be searching in the current directory.
A partial solution that I found is to pass the --include-dir=$OTHER_PROJECT_PATH flag to the invocation of make, but that's a bit user-unfriendly.
So my question is: Is there something I can put inside my makefile that will add to the directories that make searches for when executing an include? Something like MAKE_INCLUDE_DIRS += $(OTHER_PROJECT_PATH)
Surprisingly there doesn't seem to be a good answer to that question. Forcing .INCLUDE_DIR doesn't help and there doesn't seem to be any way around invoking make with --include-dir=$OTHER_PROJECT_PATH.
It is however possible to put the appropriate recursive make invocation inside the makefile but, in order to get it to work for all reasonable cases it quickly becomes too complicated to be worth it. In summary it requires:
a top level condition to check if the OTHER_PROJECT_PATH is in .INCLUDE_DIR
the appropriate target with the recipe invoking make recursively
possibly additional targets if there are multiple command goals
the real make file enclosed in the else part of the conditional
You Makefile would look like this:
OTHER_PROJECT_PATH := other
ifeq (,$(filter $(OTHER_PROJECT_PATH), $(.INCLUDE_DIRS)))
# this is the mechanism to add the include dir in a recursive make
$(or $(firstword $(MAKECMDGOALS)),all):
$(MAKE) -I$(OTHER_PROJECT_PATH) $(MAKECMDGOALS)
# add empty targets for additional goals if needed
ifneq (,$(wordlist 2,$(words $(MAKECMDGOALS)),$(MAKECMDGOALS)))
$(wordlist 2,$(words $(MAKECMDGOALS)),$(MAKECMDGOALS)):
endif
else
# this is where the real makefile starts
all more:
echo $#: $< $^
include a.mak
endif
It still does not seem possible from a makefile, but if you have a script that sets up environment variables, you can use MAKEFLAGS (e.g. export MAKEFLAGS=I/your/path ordentlich on Linux, or SET on Windows)
I have the Makefile below,
include settings.mk
include main.mk
where settings.mk has the following content,
FOO=foo
BAR=bar
and main.mk is as follows:
THIS_MAKEFILE:=$(lastword $(MAKEFILE_LIST))
.PHONY: all
all:
$(MAKE) -f $(THIS_MAKEFILE) display
.PHONY: display
display:
#echo "FOO=$(FOO)"
#echo "BAR=$(BAR)"
The problem is that make all results in the following output
FOO=
BAR=
instead of
FOO=foo
BAR=bar
How to have the variables FOO and BAR available in main.mk?
When you execute just make -f main.mk (in the all target), the values are not set because you've just reread main.mk without pre-reading settings.mk.
In the Makefile, the variables are set. If you add a rule such as:
check:
#echo "FOO=$(FOO); BAR=$(BAR)"
to the Makefile, and then run make check, you'll see that FOO and BAR are indeed set.
So, the question becomes: why on earth are you doing what you are doing — and why are you expecting just make -f main.mk to know about stuff set in a makefile that the second invocation of make hasn't read? I think this is probably an XY Problem.
You could add include settings.mk to main.mk; that might make sense (but then the main Makefile would only need to contain include main.mk, leaving open the question of why you have both).
They are available in main.mk. They aren't available in the sub-make that you are spawning because you haven't exported them.
Use $(info FOO:$(FOO))/etc. in main.mk and you'll see them print out correctly.
I have a makefile in a directory of mine which builds scripts with certain environment variables set. What if I want to create another makefile in the same directory with different environment variables set? How should I name the two make files? Does makefile.1 and makefile.2 work? How do I call them?
You can give sensible names to the files like makefile.win and makefile.nix and use them:
make -f makefile.win
make -f makefile.nix
or have a Makefile that contains:
win:
make -f makefile.win
nix:
make -f makefile.nix
and use make win or make nix
You can name makefile whatever you want. I usually name it like somename.mk. To use it later you need to tell make what makefile you want. Use -f option for this:
make -f somename.mk
Actually you can have two set of environment variables in the same make file. for example
COMPILER = gcc
CCFLAGS1 = -g
CCFLAGS2 = -Wall
a: main.c
${COMPILER} ${CCFLAGS1} main.c
b: test.c
${COMPILER} ${CCFLAGS2} test.c
then you can just say make a or make b. Depending on what you want.
Also it is possible with -f flag to call which makefile you want to call.
You can do something like this rather than using multiple makefiles for the same purpose. You can pass the environment or set a flag to the same makefile. For eg:
ifeq ($(ENV),ENV1)
ENV_VAR = THIS
else
ENV_VAR = THAT
endif
default : test
.PHONY : test
test:
#echo $(ENV_VAR)
Then you can simply run the make command with arguments
make ENV=ENV1
I have two makefiles in the same directory. Many of the recipes have identical names and here are two solutions:
1. Prefix in make
proja_hello:
#echo "hello A"
projb_hello:
#echo "hello N"
2. Keep two separate files
Project A has makefile. Type make hello.
Project B has a separate make file called projb.mk. Type bmake hello.
This works since I've added alias bmake ='make -f projb.mk to my .bashrc. Note! This command can be called anywhere but only works where projb.mk exists.
Note! You lose autocompletion of make with the alias and typing make -f projb.mk hello is not better than typing make projb_hello.
Can I pass variables to a GNU Makefile as command line arguments? In other words, I want to pass some arguments which will eventually become variables in the Makefile.
You have several options to set up variables from outside your makefile:
From environment - each environment variable is transformed into a makefile variable with the same name and value.
You may also want to set -e option (aka --environments-override) on, and your environment variables will override assignments made into makefile (unless these assignments themselves use the override directive . However, it's not recommended, and it's much better and flexible to use ?= assignment (the conditional variable assignment operator, it only has an effect if the variable is not yet defined):
FOO?=default_value_if_not_set_in_environment
Note that certain variables are not inherited from environment:
MAKE is gotten from name of the script
SHELL is either set within a makefile, or defaults to /bin/sh (rationale: commands are specified within the makefile, and they're shell-specific).
From command line - make can take variable assignments as part of his command line, mingled with targets:
make target FOO=bar
But then all assignments to FOO variable within the makefile will be ignored unless you use the override directive in assignment. (The effect is the same as with -e option for environment variables).
Exporting from the parent Make - if you call Make from a Makefile, you usually shouldn't explicitly write variable assignments like this:
# Don't do this!
target:
$(MAKE) -C target CC=$(CC) CFLAGS=$(CFLAGS)
Instead, better solution might be to export these variables. Exporting a variable makes it into the environment of every shell invocation, and Make calls from these commands pick these environment variable as specified above.
# Do like this
CFLAGS=-g
export CFLAGS
target:
$(MAKE) -C target
You can also export all variables by using export without arguments.
The simplest way is:
make foo=bar target
Then in your makefile you can refer to $(foo). Note that this won't propagate to sub-makes automatically.
If you are using sub-makes, see this article: Communicating Variables to a Sub-make
Say you have a makefile like this:
action:
echo argument is $(argument)
You would then call it make action argument=something
From the manual:
Variables in make can come from the environment in which make is run. Every environment variable that make sees when it starts up is transformed into a make variable with the same name and value. However, an explicit assignment in the makefile, or with a command argument, overrides the environment.
So you can do (from bash):
FOOBAR=1 make
resulting in a variable FOOBAR in your Makefile.
It seems command args overwrite environment variable.
Makefile:
send:
echo $(MESSAGE1) $(MESSAGE2)
Example run:
$ MESSAGE1=YES MESSAGE2=NG make send MESSAGE2=OK
echo YES OK
YES OK
There's another option not cited here which is included in the GNU Make book by Stallman and McGrath (see http://www.chemie.fu-berlin.de/chemnet/use/info/make/make_7.html). It provides the example:
archive.a: ...
ifneq (,$(findstring t,$(MAKEFLAGS)))
+touch archive.a
+ranlib -t archive.a
else
ranlib archive.a
endif
It involves verifying if a given parameter appears in MAKEFLAGS. For example .. suppose that you're studying about threads in c++11 and you've divided your study across multiple files (class01, ... , classNM) and you want to: compile then all and run individually or compile one at a time and run it if a flag is specified (-r, for instance). So, you could come up with the following Makefile:
CXX=clang++-3.5
CXXFLAGS = -Wall -Werror -std=c++11
LDLIBS = -lpthread
SOURCES = class01 class02 class03
%: %.cxx
$(CXX) $(CXXFLAGS) -o $#.out $^ $(LDLIBS)
ifneq (,$(findstring r, $(MAKEFLAGS)))
./$#.out
endif
all: $(SOURCES)
.PHONY: clean
clean:
find . -name "*.out" -delete
Having that, you'd:
build and run a file w/ make -r class02;
build all w/ make or make all;
build and run all w/ make -r (suppose that all of them contain some certain kind of assert stuff and you just want to test them all)
If you make a file called Makefile and add a variable like this $(unittest)
then you will be able to use this variable inside the Makefile even with wildcards
example :
make unittest=*
I use BOOST_TEST and by giving a wildcard to parameter --run_test=$(unittest)
then I will be able to use regular expression to filter out the test I want my Makefile
to run
export ROOT_DIR=<path/value>
Then use the variable, $(ROOT_DIR) in the Makefile.