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Here's the use case:

I have a .cpp file which has functions implemented in it. For sake of example say it has the following:


#include <iostream>

int foo(int);

int foo(int a) {
    return a * a;

int main() {
    for (int i = 0; i < 5; i += 1) {
        std::cout << foo(i) << std::endl;

    return 0;

I want to perform some amount of automated testing on the function foo in this file but would need to replace out the main() function to do my testing. Preferably I'd like to have a separate file like this that I could link in over top of that one:


#include <iostream>
#include <cassert>

extern int foo(int);

int main() {
    assert(foo(1) == 1);
    assert(foo(2) == 4);
    assert(foo(0) == 0);
    assert(foo(-2) == 4);        

    return 0;

I'd like (if at all possible) to avoid changing the original .cpp file in order to do this -- though this would be my approach if this is not possible:

  1. do a replace for "(\s)main\s*\(" ==> "\1__oldmain\("
  2. compile as usual.

The environment I am targeting is a linux environment with g++.

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I might recommend searching for / learning about automated unit testing in C++? It's a fair question but sounds like you'er about to major reinvent the wheel. –  djechlin Oct 15 '12 at 23:00
@AdrianCornish: I want our main, with their function implementations. –  Anthony Sottile Oct 16 '12 at 3:03
@AdrianCornish: We do that for later projects, but just starting out multiple files is incredibly intimidating -- header files make their heads spin. –  Anthony Sottile Oct 16 '12 at 3:12
Indeed it is at first - the the best thing I can think of is to make sure your main is last on the compile/link line and use -Wl,-zmuldefs on the link line –  Adrian Cornish Oct 16 '12 at 3:16
That last idea is a good one..... –  Lightness Races in Orbit Oct 16 '12 at 3:22
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4 Answers

You can use the --allow-multiple-definition option of ld*:


#include <stdio.h>

int foo() { return 3; }
int bar() { return 4; }

int main(void)
    printf("foo: %i\n", foo());
    return 0;


#include <stdio.h>

int bar();

int main(void)
    printf("bar: %i\n", bar());
    return 0;


$ gcc -Wall -c a.c
$ gcc -Wall -c b.c

$ gcc -Wl,--allow-multiple-definition a.o b.o -o foobar && foobar
foo: 3
$ gcc -Wl,--allow-multiple-definition b.o a.o -o foobar && foobar
bar: 4

*: At your own risk :)

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+1 this accomplishes what I want, however my students often have code that doesn't compile including errors due to duplicately defined symbols (this is an intro course) and I would like to still surface those errors. Also the compilation is likely going to occur through a makefile and I wouldn't necessarily like the non deterministic ordering of files to lead to consequences in compiled output. –  Anthony Sottile Oct 16 '12 at 2:40
es, those were the risks I was thinking of. Perhaps you could mitigate the problem by linking everything else first, but this is still too much hackery for my taste. –  aib Oct 16 '12 at 11:18
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I support 'djechlin's suggestion. But if you want something quick and dirty, here's a suggestion:

You can define a macro and wrap your function calls like this,

#define ASSERTEQUAL(fn, parm, ret) \
assert( fn ( parm ) == ret )
#define ASSERTEQUAL(fn, parm, ret) fn ( parm )

And in your main function use the following call, ASSERTEQUAL( foo, i, 4);

Use the following compilation flag to enable the customized macro behavior.


Hope this helps!

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Maybe I'm not reading correctly, how does this prevent "duplicate symbol _main" ? –  Anthony Sottile Oct 15 '12 at 23:38
My bad, i think i understood this in a different sense. sorry. –  Anand V Oct 15 '12 at 23:45
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It is not possible to do this at compile time. You need a link time solution. (Or to make use of the preprocessor.)

In either case, you'd probably want to separate the "regular" and "testing" symbols and selectively include their source files in compilation, or object files in linking.*

Though I'd rather use a unit testing framework or at least NDEBUG for assert()s.


#ifdef TESTING
#include "main-testing.c"
#include "main.c"


OBJS += main-testing.o
OBJS += main.o

Update: I just realized that you're specifically looking for a solution where main-testing.o's main would override main.o's (right?). I'll keep this answer and add another one for the "override" solution.

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up vote 0 down vote accepted

I hate answering my own question, but here's a solution I ended up finding deep in the man page of g++, I've tested it and it works to what I would want it to...

g++ has the -D flag which allows you to define macros when compiling object files. I know you are thinking "ugh macros" but hear me out... You can use the macro definition to effectively rename a symbol. In my case, I can run the following command to generate an object file of my students code without their main file: g++ -D main=__students_main__ main.cpp -c -o main.nomain.o.

This creates an object file with their int main defined as int __students_main__. Now this isn't necessarily callable directly as they could have defined main as int main(void) or with the various combinations of argc and argv, but it allows me to effectively compile out their function.

The final compile looks like this:

g++ -c -D main=__students_main__ main.cpp -o main.nomain.o
g++ -c mymain.cpp -o mymain.o
g++ main.nomain.o mymain.o -o mymainstudentsfoo.out

For my purposes, I wanted to create a Makefile that would accomplish this automagically (ish) and I feel that is relevant to this discussion so I'll post what I came up with:

HDIR=./ # Not relevant to question, but we have headers in a separate directory
NOMAIN=-D main=__student_main__ # The main renaming magic

.SECONDARY: # I forget exactly what this does, I seem to remember it is a hack to prevent deletion of .o files

cpp = $(wildcard *.cpp)
obj = $(patsubst %.cpp,%.o,$(cpp))
objnomain = $(patsubst %.cpp,%.nomain.o,$(cpp))

all: $(obj) $(objnomain)

        rm -f *.o *.out

%.nomain.o: %.cpp
        $(CC) $(CFLAGS) $(NOMAIN) -c $^ -o $@

%.o: %.cpp
        $(CC) $(CFLAGS) -c $^
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