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Any ways to get the address of an instruction? I have tried to used to labeled the instruction and get the address of the label but seems that it only works in GCC compiler with the && operator. (Refer to: this article) What if other compilers?

Any thoughts of this question?

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    C++ is not required to be implemented with instructions. Commented Jul 17, 2012 at 20:48
  • Hi Basile, I am currently doing some research on the instruction / data watch features.
    – nigong
    Commented Jul 17, 2012 at 20:51
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    Can we assume GCC with explicit register variables? In that case, I'd use register char *program_counter asm("pc");, assuming that the program counter register PC (for ARM, use the instruction pointer, IP, on x86...it's processor dependent). Commented Jul 17, 2012 at 20:53
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    @Ed S.: agree? that was obvious. Commented Jul 17, 2012 at 21:30
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    @Ed S.: I just don't understand what made you think I wasn't aware of that... but nevermind. Commented Jul 17, 2012 at 22:06

4 Answers 4

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I'm not sure that the C or the C++ language standards speak of instruction; you could conceivably run a C program compiled to be executed by a large group of human slaves (but that would be unethical, even if standard conforming). You can run by yourself a simplistic tiny program with a pencil and paper, you could use a C interpreter, etc... etc...

An optimizing C or C++ compiler would also translate some C statements into several machine instructions located at various places (in particular, compilers do inline or clone functions or even basic blocks, even without any inline keyword in the source code).

On most system, you might hand code (e.g. in assembly) a routine which returns as a pointer value its return address (i.e. the address of the caller).

With GCC (and compatible compilers, perhaps Clang/LLVM), you might use __builtin_return_address and related builtins.

Gnu Libc on Linux offers you backtrace (but I have been diappointed by it, when I tried).

Notice that these tricks might not work when compiling with -fno-frame-pointer

You might also consider customizing GCC e.g. with plugins or MELT extensions (MELT is a domain specific language, implemented as a GPLv3 plugin to GCC, to extend GCC more easily than with plugins coded in C). Your customized GCC might insert calls to instrumentation functions at appropriate places.

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  • Hi Basile, thanks for your answer. But I didn't mean to say the relation of instructions and statement. What I want to do is just get the address of a statement or instruction in C/C++. :)
    – nigong
    Commented Jul 17, 2012 at 20:59
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    @nigong He's basically saying that there may not even be instructions at all. Especially if it were being run by slaves rather than a CPU.
    – Mysticial
    Commented Jul 17, 2012 at 21:03
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    If 'instruction' and 'statement' were sufficiently similar concepts, this might be feasible. However, most statements generate multiple instructions, which may not even be consecutive (loop constructs, etc.) and may be interleaved (optimization, instruction scheduling) with instructions from other statements.
    – twalberg
    Commented Jul 17, 2012 at 21:13
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Caution: Way out of the box here..

Can you have the linker generate a map file that contains the addresses ( relative or otherwise ) of the applications objects ( functions and data )? Your application could then simply parse the linker map file...

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  • On Linux, dladdr does that for you -see <dlfcn.h> and dlopen) or at least helps a lot. Commented Jul 17, 2012 at 21:15
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The only standard C or C++ construct that is even close to the address of an instruction is a function pointer, which I suppose is not what you mean. However, you can accomplish most of what you might do with gcc label values using instead pointers to functions containing the necessary blocks of code.

There are no other options in C/C++.

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The return address of a function is the location of the next instruction to be executed upon return from the current function. GCC exposes this through __builtin_return_address; while Visual C++ provides it via _ReturnAddress.

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