87

Let's say I have a makefile with the rule

%.o: %.c
 gcc -Wall -Iinclude ...

I want *.o to be rebuilt whenever a header file changes. Rather than work out a list of dependencies, whenever any header file in /include changes, then all objects in the dir must be rebuilt.

I can't think of a nice way to change the rule to accomodate this, I'm open to suggestions. Bonus points if the list of headers doesn't have to be hard-coded

  • Having written my answer below I looked in the related list and found: stackoverflow.com/questions/297514/… which appears to be a duplicate. Chris Dodd's answer is equivalent to mine, though it uses a different naming convention. – dmckee Mar 7 '10 at 0:37

10 Answers 10

113

If you are using a GNU compiler, the compiler can assemble a list of dependencies for you. Makefile fragment:

depend: .depend

.depend: $(SRCS)
        rm -f ./.depend
        $(CC) $(CFLAGS) -MM $^ -MF  ./.depend;

include .depend

or

depend: .depend

.depend: $(SRCS)
        rm -f ./.depend
        $(CC) $(CFLAGS) -MM $^ > ./.depend;

include .depend

where SRCS is a variable pointing to your entire list of source files.

There is also the tool makedepend, but I never liked it as much as gcc -MM

  • 2
    I like this trick, but how can I get depend to run only when the source files have changed? It seems to run every time regardless... – chase Aug 23 '11 at 20:18
  • 2
    @chase: Well, I have erroneously made the dependency on the object files, when it should obviously be on the sources and had the order of dependency wrong for the two targets, too. That's what I get for typing from memory. Try it now. – dmckee Aug 23 '11 at 21:15
  • 4
    Is it way to add before every file some prefix to show that it is in another directory e.g build/file.o ? – RiaD Oct 12 '12 at 17:41
  • I changed SRCS to OBJECTS, where OBJECTS are a list of my *.o files. That seemed to prevent depend from running every time and also caught changes to the header files only. This seems counter to the previous comments..am I missing something? – BigBrownBear00 Nov 11 '13 at 11:14
  • 2
    Why is the semicolon necessary? if I try that without it, or with -MF ./.depend not being the last argument, it saves only the dependencies of the last file in $(SRCS). – humodz Jun 4 '14 at 0:40
61

Most answers are surprisingly complicated or erroneous. However simple and robust examples have been posted elsewhere [codereview]. Admittedly the options provided by the gnu preprocessor are a bit confusing. However, the removal of all directories from the build target with -MM is documented and not a bug [gpp]:

By default CPP takes the name of the main input file, deletes any directory components and any file suffix such as ‘.c’, and appends the platform's usual object suffix.

The (somewhat newer) -MMD option is probably what you want. For completeness an example of a makefile that supports multiple src dirs and build dirs with some comments. For a simple version without build dirs see [codereview].

CXX = clang++
CXX_FLAGS = -Wfatal-errors -Wall -Wextra -Wpedantic -Wconversion -Wshadow

# Final binary
BIN = mybin
# Put all auto generated stuff to this build dir.
BUILD_DIR = ./build

# List of all .cpp source files.
CPP = main.cpp $(wildcard dir1/*.cpp) $(wildcard dir2/*.cpp)

# All .o files go to build dir.
OBJ = $(CPP:%.cpp=$(BUILD_DIR)/%.o)
# Gcc/Clang will create these .d files containing dependencies.
DEP = $(OBJ:%.o=%.d)

# Default target named after the binary.
$(BIN) : $(BUILD_DIR)/$(BIN)

# Actual target of the binary - depends on all .o files.
$(BUILD_DIR)/$(BIN) : $(OBJ)
    # Create build directories - same structure as sources.
    mkdir -p $(@D)
    # Just link all the object files.
    $(CXX) $(CXX_FLAGS) $^ -o $@

# Include all .d files
-include $(DEP)

# Build target for every single object file.
# The potential dependency on header files is covered
# by calling `-include $(DEP)`.
$(BUILD_DIR)/%.o : %.cpp
    mkdir -p $(@D)
    # The -MMD flags additionaly creates a .d file with
    # the same name as the .o file.
    $(CXX) $(CXX_FLAGS) -MMD -c $< -o $@

.PHONY : clean
clean :
    # This should remove all generated files.
    -rm $(BUILD_DIR)/$(BIN) $(OBJ) $(DEP)

This method works because if there are multiple dependency lines for a single target, the dependencies are simply joined, e.g.:

a.o: a.h
a.o: a.c
    ./cmd

is equivalent to:

a.o: a.c a.h
    ./cmd

as mentioned at: Makefile multiple dependency lines for a single target?

  • 1
    I like this solution. I don't want to type make depend command. Useful !! – Robert Jun 10 '16 at 15:02
  • 1
    There is a spelling error in the OBJ variable value: the CPP should read CPPS – ctrucza Aug 10 '16 at 12:56
  • 1
    This is my preferred answer; +1 for you. This is the only one on this page which makes sense, and covers (for what I can see) all situations where recompilation is necessary (avoiding unnecessary compilation, yet sufficient) – Joost Aug 26 '16 at 7:48
  • Thanks @ctrucza, should be fixed now. – Sophie Sep 11 '16 at 21:30
  • Out of the box, this failed to locate the headers for me even though hpp and cpp are both on the same dir. – villasv Sep 30 '16 at 18:18
25

As I posted here gcc can create dependencies and compile at the same time:

DEPS := $(OBJS:.o=.d)

-include $(DEPS)

%.o: %.c
    $(CC) $(CFLAGS) -MM -MF $(patsubst %.o,%.d,$@) -o $@ $<

The '-MF' parameter specifies a file to store the dependencies in.

The dash at the start of '-include' tells Make to continue when the .d file doesn't exist (e.g. on first compilation).

Note there seems to be a bug in gcc regarding the -o option. If you set the object filename to say obj/_file__c.o then the generated file.d will still contain file.o, not obj/_file__c.o.

  • 4
    When I try this it results in all of my .o files being created as empty files. I do have my objects in a build subfolder (so $OBJECTS contains build/main.o build/smbus.o build/etc...) and that certainly creates the .d files as you described with the apparent bug, but it certainly is not building the .o files at all, whereas it does if I remove the -MM and -MF. – bobpaul Nov 14 '12 at 1:03
  • 1
    Using -MT will resolve the note in the last lines of your answer which updates the target of each dependency list. – Godric Seer Mar 22 '13 at 19:47
  • I have tried this in various combinations and it does not seem to work... – g24l Dec 15 '14 at 11:07
  • 3
    @bobpaul because man gcc says -MM implies -E, which "stops after preprocessing". You need -MMD instead: stackoverflow.com/a/30142139/895245 – Ciro Santilli 新疆改造中心996ICU六四事件 Dec 20 '16 at 0:41
23

How about something like:

includes = $(wildcard include/*.h)

%.o: %.c ${includes}
    gcc -Wall -Iinclude ...

You could also use the wildcards directly, but I tend to find I need them in more than one place.

Note that this only works well on small projects, since it assumes that every object file depends on every header file.

  • thanks, I was making this out to be a lot more complicated than was needed – Mike Mar 7 '10 at 0:29
  • 14
    This works, however, the problem with this is that every object file gets recompiled, every time a small change is made, ie, if you have 100 source / header files, and you make a small change to only one, all 100 get recompiled. – Nicholas Hamilton Jun 16 '14 at 12:37
  • You should really update your answer to say that this is a very inefficient way to do it because it rebuilds ALL files every time ANY header file is changed. The other answers are much better. – xaxxon Oct 30 '15 at 21:35
  • 2
    This is a very bad solution. Sure it will work on a small project, but for any production size team and build, this will lead to terrible compilation time and become the equivalent of running make clean all every time. – Julien Guertault Mar 16 '16 at 2:53
  • In my test, this doesn't work at all. The gcc line is not executed at all, but the built-in rule (%o: %.c rule) is executed instead. – Penghe Geng Apr 25 at 21:54
4

Martin's solution above works great, but does not handle .o files that reside in subdirectories. Godric points out that the -MT flag takes care of that problem, but it simultaneously prevents the .o file from being written correctly. The following will take care of both of those problems:

DEPS := $(OBJS:.o=.d)

-include $(DEPS)

%.o: %.c
    $(CC) $(CFLAGS) -MM -MT $@ -MF $(patsubst %.o,%.d,$@) $<
    $(CC) $(CFLAGS) -o $@ $<
3

This will do the job just fine , and even handle subdirs being specified:

    $(CC) $(CFLAGS) -MD -o $@ $<

tested it with gcc 4.8.3

1

Here's a two-liner:

CPPFLAGS = -MMD
-include $(OBJS:.c=.d)

This works with the default make recipe, as long as you have a list of all your object files in OBJS.

0

I prefer this solution, over the accepted answer by Michael Williamson, it catches changes to sources+inline files, then sources+headers, and finally sources only. Advantage here is that the whole library is not recompiled if only a a few changes are made. Not a huge consideration for a project with a couple of files, bur if you have 10 or a 100 sources, you will notice the difference.

COMMAND= gcc -Wall -Iinclude ...

%.o: %.cpp %.inl
    $(COMMAND)

%.o: %.cpp %.hpp
    $(COMMAND)

%.o: %.cpp
    $(COMMAND)
  • 1
    This works only if you do not have anything in your header files that would require recompilation of any cpp-files other then the corresponding implementation file. – matec Nov 4 '14 at 10:28
0

The following works for me:

DEPS := $(OBJS:.o=.d)

-include $(DEPS)

%.o: %.cpp
    $(CXX) $(CFLAGS) -MMD -c -o $@ $<
0

A slightly modified version of Sophie's answer which allows to output the *.d files to a different folder (I will only paste the interesting part that generates the dependency files):

$(OBJDIR)/%.o: %.cpp
# Generate dependency file
    mkdir -p $(@D:$(OBJDIR)%=$(DEPDIR)%)
    $(CXX) $(CXXFLAGS) $(CPPFLAGS) -MM -MT $@ $< -MF $(@:$(OBJDIR)/%.o=$(DEPDIR)/%.d)
# Generate object file
    mkdir -p $(@D)
    $(CXX) $(CXXFLAGS) $(CPPFLAGS) -c $< -o $@

Note that the parameter

-MT $@

is used to ensure that the targets (i.e. the object file names) in the generated *.d files contain the full path to the *.o files and not just the file name.

I don't know why this parameter is NOT needed when using -MMD in combination with -c (as in Sophie's version). In this combination it seems to write the full path of the *.o files into the *.d files. Without this combination, -MMD also writes only the pure file names without any directory components into the *.d files. Maybe somebody knows why -MMD writes the full path when combined with -c. I have not found any hint in the g++ man page.

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