make: implicit rule to link c++ project

Question

I am working my way through a make tutorial. Very simple test projects I am trying to build has only 3 files: ./src/main.cpp ./src/implementation.cpp and ./include/header.hpp This is the make file.

VPATH = src include
CPPFLAGS = -I include

main: main.o implementation.o
main.o: header.hpp
implementation.o: header.hpp

When called without any arguments make builds only object files, but doesn't link the executable file. There supposed to be an implicit rule for prog or I am missing something? I really need someone to point me into right direction.

Thanks.

I made the first target name the same as the prefix of the source file. Now make calls cc to link object files.

g++  -I include  -c -o main.o src/main.cpp    
g++  -I include  -c -o implementation.o src/implementation.cpp
cc   main.o implementation.o   -o main

For some reason linking with g++ works, but linking with cc doesn't.

I could specify the rule explicitly, but want to learn how to use implicit rules.

Answer 1

According to the make manual, you can use the implicit linking rule with multiple objects if one of these matches the executable name, eg:

VPATH = src include
CPPFLAGS = -I include

main: implementation.o
main.o: header.hpp
implementation.o: header.hpp

This will build an executable named main from both main.o and implementation.o.

Note however that the builtin implicit rule uses the C compiler for linking, which will not link against the C++ std library by default, you will need to add the flag -lstdc++ to LDLIBS explicitly

Answer 2

How about this for a minimal Makefile:

SOURCES = src/main.cpp src/implementation.cpp

CXX = g++
CXXFLAGS = -g -W -Wall -Werror
LDFLAGS = -g

OBJECTS = $(SOURCES:.cpp=.o)

prog: $(OBJECTS)
    $(CXX) $(LDFLAGS) -o $@ $^

clean::
    $(RM) prog

.cpp.o:
    $(CXX) -MD -MP $(CXXFLAGS) -o $@ -c $<

clean::
    $(RM) src/*.o

DEPENDS = $(SOURCES:.cpp=.d)

-include $(DEPENDS)

%.d:
    @touch $@

clean::
    $(RM) src/*.d

This assumes GNU make and gcc, but it adds proper dependency tracking, so there is no need to explicitly list the header file dependencies.

Answer 3

My answer (a neat solution): add

LDLIBS = -lstdc++

to the Makefile. According to the manual:

Libraries (-lfoo) should be added to the LDLIBS variable instead.

LDFLAGS are designed for library directory flags such as -L. On my Linux (Ubuntu 14.04), LDFLAGS = -lstdc++ produces

cc -lstdc++ main.o -o main

which does not work, while LDLIBS = -lstdc++ produces

cc main.o -lstdc++ -o main

which works. I have no idea why the order matters, but it makes sense according to the roles of the two built-in variables. I do not like to alias CC to CXX which seems like hacking, as well as confusing for readers.

LDFLAGS v.s. LDLIBS

I just tried and found that this compiler does not work for LDFLAGS = -lstdc++:

• GCC 4.8.5 on Ubuntu 14.04

but the following compilers accept LDFLAGS = -lstdc++:

• Clang 3.4 on Ubuntu 14.04
• GCC 4.7.2 on Debian Wheezy
• Clang 7.3.0 (703.0.31) on OS X

So it works most of the time, but is not guaranteed. If you want your makefile to be more portable, use LDLIBS which works on all the above environments.

Why not other solutions above?

1. Hasturkun: having main.o in the rule

   main: main.o implementation.o
   

   does not lead to an error. The main.o is not necessary, but it will still make.

2. Simon Richter: the solution remove the need to track the header (which is really great), but OP wants an implicit rule. We can actually get the best of both:

   VPATH = src include
   CPPFLAGS = -I include -MMD -MP
   CXXFLAGS = -g -W -Wall -Werror
   LDLIBS = -lstdc++
   
   target = main
   lib = implementation.cpp
   objects = $(target:=.o) $(lib:.cpp=.o)
   
   $(target): $(objects)
   %.o: %.cpp %.d
   %.d: ;
   
   -include $(objects:.o=.d)
   
   clean::
       $(RM) $(target) $(objects) $(objects:.o=.d)
   

   which does what he did, as well as taking advantage of implicit rules. However, this complete solution should not be here, since it is not what the OP desire: OP just want to know why his Makefile does not work, and why. "Auto-Dependency Generation" is yet another huge topic deserving an entire tutorial (like this one). So I'm sorry, but his answer did not actually answer the question.

3. Jerome: I used to change LINK.o from $(CC) $(LDFLAGS) $(TARGET_ARCH) to $(CXX) $(LDFLAGS) $(TARGET_ARCH) and it worked, but I prefer editing LDLIBS since LINK.o is not documented (and possibly not part of the public API) and not future-proof. I would call that a hack.

Answer 4

There supposed to be an implicit rule for prog or I am missing something?

There is no implicit rule to build a binary with an unrelated name: make cannot know how to build prog because it doesn’t know that prog is supposed to be an executable. make only uses the file name as a pattern to deduce the build rule. prog is a generic file name without extension so make doesn’t know how to treat it.

Conversely, as explained in other answers, there is an implicit rule for binaries with the same base name as object files, but by default it uses the C compiler to perform the linking and therefore omits the C++ runtime library implementation (e.g. libstdc++), which causes the resulting binary to fail if your code relies on the C++ runtime library.

Answer 5

If you want to link c++ object files you can specify LINK.o to be LINK.cc at the top

LINK.o := $(LINK.cc)

You should then see c++ instead of cc in your make output

Answer 6

The implicit rule for linking object files is:

$(LINK.o) $^ $(LOADLIBES) $(LDLIBS) -o $@

But $(LINK.o) uses $(CC), which is not quite correct for compiling C++ programs, so the easiest fix is:

CC = $(CXX)

Answer 7

Hmm...

CXX = g++               # Just an example
CXXFLAGS = -Wall -O2    # Just an example

prog: main.o implementation.o
    $(CXX) $(CXXFLAGS) $^ -o $@

main.o: header.hpp
implementation.o: header.hpp

should do the job. Why your variant isn't working is explained in Konrad Rudolph answer