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This question was asked to me in an interview.

they asked me how to generate a core dump file with which i can debug. then i said that with -g flag in gcc we can do it.

then they have asked me what exactly does that -g flag do to the compiler.

i said (probably a wrong answer) that it will open up all the symbols in the core file which can be used for debugging.

can anyone tell me what exactly does it do?

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It's probably noteworthy to mention that if you want to generate a core dump of a process, you can pass it's PID to the gcore command. – atx Mar 11 '11 at 11:23

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That's kind of right, but incomplete. -g requests that the compiler and linker generate and retain symbol information in the executable itself.

If the program happens to later crash and produce a core file (which suggests some problem in the actual code, or a deliberate OS command forced it to core - nothing to do with -g itself), then the debugger will know how to read that symbol information from the executable and cross-reference it with the core. This means you can see the proper names of variables and functions in your stack frames, get line numbers and see the source as you step around in the executable.

That symbol information is useful whenever debugging - whether you started with a core or just the executable alone.

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Note: the strip utility performs the reverse operation, ie it takes a library with debugging symbols and strip them off. – Matthieu M. Mar 3 '11 at 10:34
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The gcc -g flag tells gcc to generate and embed debug information. ulimit -c is used to enable core file generation. You can have either of these without the other.

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The -g flag tells the compiler to generate debugging information. It has no impact on whether or not a core file will be generated. On most unix-like systems, that can be setup using the ulimit command.

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but i want to know what exactly is that debugging information.i know waht you know already.i needed something which is beyond that. – Vijay Mar 3 '11 at 10:09
@wvwvwv Beyound that, it's complicated - a thorough description takes a few dozen pages. You could start by looking at the DWARF (dwarfstd.org/Download.php) standard, which is the specification for the debugging symbols that are embedded within the executable(on most *nixes). -g instructs the compiler/linker to generate and embed these structures in the executable. The next step is probably understanding how a debugger uses this debugging information. – nos Mar 3 '11 at 10:15
In short, it adds information about symbol names (functions, local and global variables etc) as well as information about types, source file names and line numbers. It might also via an automatically defined macro pull in different header files (ie for STL, and the definition of the assert macro) that ease debugging. It will probably also generate special output for inlined functions, so that stepping into inlined functions/methods is possible. – Axel Mar 3 '11 at 10:23
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core file is generated on Segmentation Fault or such exceptions. gdb source.cc core is one way to look into the core file. Backtrace and investigating every frame is a start at looking into the core. -g adds debugging symbols in the binary.

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up vote 0 down vote

-g adds debugging information (variable names, line numbers etc) to the executable file. It's part of what you need to do to be able to make sense of the core file.

http://gcc.gnu.org/onlinedocs/gcc/Debugging-Options.html#Debugging-Options

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core dump is one of a processĀ“s default actions, when this process receives the signals, e.g. in the standard signals "SIGQUIT", "SIGILL", "SIGABRT", "SIGFPE", "SIGSEGV". However, most shells suppress the creation of core file, simply because the core files tend to be large and it can take some time or a lot of time.

in order to enable the core generation, "ulimit" is the utility that you can use to set the shell or its children processĀ“s file limit.

compiler flags "-g" or whatever only concern with compiler. logically speaking, it has nothing to do with core dump.

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