I have a project that consists a single target that requires ~30 files of type A, that are handled by one pattern rule, and one different target of type B, that is independent of the other 30. Here's some pseudo-code to show what I have, in a very simplified form:

OBJECTS=obj/obj1.o obj/obj2.o ...

libMyLibrary.so: $(OBJECTS) $(SPECIAL)
    g++ -shared -o $@ $^

obj/%.o: src/%.cxx
    g++ -c -fPIC -o $@ $^

$(SPECIAL): special/mySpecialCode.cxx
    g++ -c -fPIC -o $@ $^ -DFANCY_FLAG

The makefile works fine, and the dependency resolution is flawless. However, somehow, make always decides to build $(SPECIAL) last. While this doesn't matter at all, as it works either way, the compilation of $(SPECIAL) takes significantly longer than anything else in my case, almost as long as all other objects combined. Hence, it would be nice if one could encourage make to start with compiling $(SPECIAL), so that it can be compiled in parallel along the others, which would cut compile time dramatically.

Is it possible to achieve such a thing?

PS: I can live with non-portable versions, as the code is a very dedicated piece of software that will only be compiled and run on a very particular set of machines, the setup of which I know pretty well at development time.


Following up on a comment made me realise that in the case I have shown here, the problem can indeed be solved by simply swapping the order $(OBJECTS) $(SPECIAL) to $(SPECIAL) $(OBJECTS) - sometimes, it's that simple.

However, in my actual usecase, this does not work, so I have built an MWE that (1) actually works (with gnumake) and is (2) a little bit closer to how things actually work in my project. Here, the file that takes so long to compile actually depends on a source file that is only generated in an additional step. You can observe the change in order by swapping the two lines following the comment.

If somebody can provide a way how to fix the behavior also for this case, that would be great!

If it's not possible to change the order to the desired one in this case, I will accept any answer that explains to some details why it's impossible.

OBJECTS=obj/obj1.o obj/obj2.o obj/obj3.o obj/obj4.o obj/obj5.o


all: libMyLibrary

    mkdir -p $@

    mkdir -p $@

libMyLibrary: $(SPECIAL) $(OBJECTS) 
    cat $^ > $@

obj/%.o: | $(OBJ_DIR)
    @echo creating $@
    @echo $@ > $@

    @echo special > $@

# swap the following two lines to observe the change in ordering
    @echo starting special
    @echo special > $@
    @sleep 1s
    @echo special done

    rm -rf libMyLibrary $(OBJ_DIR) $(SPECIAL_DIR)
  • 1
    Have you tried libMyLibrary.so: $(SPECIAL) $(OBJECTS)? – Etan Reisner Nov 14 '14 at 15:10
  • This indeed works for the case I have shown - wow. However, it doesn't work for the case I'm actually looking at, which was a bit over-simplified, as it seems, so I've updated my question. – carsten Nov 14 '14 at 22:55
  • 1
    I don't think there is any way to control the order that make chooses to use. I don't think it is too smart about scheduling though. I imagine it just schedules in order as it can. You might be able to tune the count to -j to get the break to work out in your favor or run make $special all to get make to start that target first though. – Etan Reisner Nov 16 '14 at 2:31
  • 1
    I can't say for certain (I don't have a model of make internals strong enough for that) but I would imagine (and the make -d output seems to confirm this) that this is more of a tiered system. The prerequisites are run in tiers and adding $(SPECIALSRC) to the rule adds a layer of the tree for that path. – Etan Reisner Nov 17 '14 at 2:26
  • 1
    This answer gives a little more detail on what make does (in terms of -j but should apply here and mostly matches up with my previous comment). – Etan Reisner Nov 17 '14 at 16:38

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