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The linker produces this kind of output

/var/tmp/ccITB4j2.o: In function `main':
/var/tmp/ccITB4j2.o(.text+0x4): undefined reference to `myFunction(void)'

How can I find out the line of source code corresponding to the instruction at .text+0x4 where the function is actually invoked?

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It already tells you that main() is invoking the function. What good is knowing the line number going to do? It's not like it's a syntax problem where seeing the specific call site matters. –  jamesdlin Apr 8 '13 at 21:52
I'm not sure the linker knows about the line numbers in source code –  deepmax Apr 8 '13 at 21:53
both objections are valid, but the question remains. If I wanted, how would one do? –  Stefano Borini Apr 8 '13 at 21:53
@jamesdlin: also note that gdb does it, so it must have a way of doing something similar. –  Stefano Borini Apr 8 '13 at 21:56
The best way to get the line number is to use find dialog of your editor and search for myFunction(. All you find are errors. –  user995502 Apr 8 '13 at 22:01

3 Answers 3

First, the other answer to your question is wrong: on Linux you do get file and line number from the linker:

$ cat foo.cc
extern int myFunction(void);

int main()
  return myFunction();
$ g++ -g foo.cc
/tmp/cc3twlhL.o: In function `main':
/tmp/foo.cc:5: undefined reference to `myFunction()'
collect2: ld returned 1 exit status

Above output is from gcc (Ubuntu/Linaro 4.6.3-1ubuntu5) 4.6.3 and linker GNU ld (GNU Binutils for Ubuntu) 2.22, but this has been true for much older versions of GCC and ld as well.

The reason you are not getting the file/line must be that

  • you didn't use -g flag, or
  • you have a really old ld, or
  • you have configured your ld without support for debugging (I am not sure this is even possible).

However, even if your ld is refusing to tell you the file and line, not all is lost. You can compile your source into object, then use objdump -rdS foo.o to obtain the same info:

g++ -g -c foo.cc
objdump -rdS foo.o

Disassembly of section .text:

0000000000000000 <main>:
extern int myFunction(void);

int main()
   0:   55                      push   %rbp
   1:   48 89 e5                mov    %rsp,%rbp
  return myFunction();
   4:   e8 00 00 00 00          callq  9 <main+0x9>
            5: R_X86_64_PC32    _Z10myFunctionv-0x4
   9:   5d                      pop    %rbp
   a:   c3                      retq

In above output, you can clearly see which source line caused reference to _Z10myFunctionv (which is the C++ mangled name for myFunction(void)) to be emitted in the object file.

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Key to understanding linker errors is to know the difference between a declaration and a definition.

This is a declaration:

int myFunction();

This is a definition:

int myFunction() {
  // do something
  return val;

When you declare something, the compiler takes it as a promise from you, that you will eventually define it also (perhaps later in the same translation unit, or maybe in a different one). These promises are actually checked by the linker at link time.

So a linker error (such as this one) is actually complaining that you broke your promise to define something. Since this happens after compilation, and since this deals with something that is "not there", it is meaningless to ask for "the line number where it is not there".

Hope that helps explain why you wont get a line number tacked onto an "unresolved symbol" error message from the linker.

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to emit that line, myFunction has been called at some point. The fact that is not defined takes nothing from the fact that there's a point in the source where that function is invoked. –  Stefano Borini Apr 8 '13 at 22:00
The word "never" is too strong. Maybe a compiler can show the line number at least in debug mode in future. –  deepmax Apr 8 '13 at 22:02
Fair enough, the compiler can accumulate line numbers where every function is called into the .o (for debug mode). That way, the linker would have something to go on. AFAIK, gcc does not do this. –  Rahul Banerjee Apr 8 '13 at 22:03
Firstly gdb is not a linker. When code is compiled with the -g flag, the ELF generated has debugging information (in DWARF format, I believe) inside it. The .debug_info section maps a function name to its location (machine code offset) in the generated binary. Obviously, if the linker failed to resolve (locate) the code for a function, this information would be missing. Thus, for an unresolved function, this will not help a linker pin-point the "line number". –  Rahul Banerjee Apr 8 '13 at 22:12
This answer is plain wrong: "you'll never get a line number tacked onto an error message from the linker." is false. –  Employed Russian Apr 9 '13 at 3:32

I have 3 answers (so far), and an analysis about a particular case where I needed to know how to do this

addr2line can do it, provided the compiler generated debugging information compatible with the tool.

~ cat asdf.txt
/var/tmp/ccITB4j2.o: In function `main':
/var/tmp/ccITB4j2.o(.text+0x4): undefined reference to `myFunction(void)'
~ cat asdf.txt | addr2line -e /var/tmp/ccITB4j2.o
... it should print src:line info here

Then there's objdump:

objdump --dwarf=decodedline test.o
test.o:     file format elf64-x86-64

Decoded dump of debug contents of section .debug_line:

CU: test.cc:
File name                           Line number     Starting address
test.cc                                       2                 0x23
test.cc                                       3                 0x84

In answer to the question "how does the debugger do it", here's a nice article on the topic: How debuggers work: Part 3 - Debugging information, which is where the objdump option came from.

I'll apologize in advance for future generations if the link breaks.

I ran into a problem along these lines with Solaris Studio 12.3 in Linux. It looks as though the information it generates (whether in .debug_line or some other section) debug information incompatible with addr2line, but only when built with optimizations. The following code will induce a similar link error:

~ cat test.cc
struct Test {int x; Test(); };
inline void test() { Test *t = new Test(); }
void blah() { test(); }
~ CC -g -Kpic test.cc -shared -o libtest.so -Wl,--unresolved-symbols=ignore-in-shared-libs
test.cc:2: undefined reference to `void operator delete(void*)'
~ CC -g -Kpic test.cc -shared -o libtest.so -Wl,--unresolved-symbols=ignore-in-shared-libs -O0
test.cc:(.text+0x45): undefined reference to `void operator delete(void*)'
~ CC -g -Kpic test.cc     -c
~ addr2line -e test.o +0x45
~ CC -g -Kpic test.cc -O0 -c
~ addr2line -e test.o +0x45

Resolving the link error for that case requires linking against a compiler library libCrun. As a counter-example to the naysayer comments about it being useless to know the line numbers: it certainly had me scratching my head as to where the delete was being referenced. As it turns out, the compiler is inserting extra code that allocates stuff & deletes it. Had it correctly printed the line number (the close brace of the function) it would've been far more obvious that the compiler was doing something out of the ordinary.

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