These functions may be used to get information about the callers of a function.
Built-in Functionvoid *__builtin_return_address(unsignedint``level``)This function returns the return address of the current function, or of one of its callers. The level argument is number of frames to scan up the call stack. A value of 0 yields the return address of the current function, a value of 1 yields the return address of the caller of the current function, and so forth. When inlining the expected behavior is that the function returns the address of the function that is returned to. To work around this behavior use the noinline function attribute.
The level argument must be a constant integer.
On some machines it may be impossible to determine the return address of any function other than the current one; in such cases, or when the top of the stack has been reached, this function returns 0 or a random value. In addition, __builtin_frame_address may be used to determine if the top of the stack has been reached.
Additional post-processing of the returned value may be needed, see __builtin_extract_return_addr.
This function should only be used with a nonzero argument for debugging purposes.
Built-in Functionvoid *__builtin_extract_return_addr(void*``addr``)The address as returned by __builtin_return_address may have to be fed through this function to get the actual encoded address. For example, on the 31-bit S/390 platform the highest bit has to be masked out, or on SPARC platforms an offset has to be added for the true next instruction to be executed.
If no fixup is needed, this function simply passes through addr.
Built-in Functionvoid *__builtin_frob_return_address(void*``addr``)This function does the reverse of __builtin_extract_return_addr.
Built-in Functionvoid *__builtin_frame_address(unsignedint``level``)This function is similar to __builtin_return_address, but it returns the address of the function frame rather than the return address of the function. Calling __builtin_frame_address with a value of 0 yields the frame address of the current function, a value of 1 yields the frame address of the caller of the current function, and so forth.
The frame is the area on the stack that holds local variables and saved registers. The frame address is normally the address of the first word pushed on to the stack by the function. However, the exact definition depends upon the processor and the calling convention. If the processor has a dedicated frame pointer register, and the function has a frame, then __builtin_frame_address returns the value of the frame pointer register.
On some machines it may be impossible to determine the frame address of any function other than the current one; in such cases, or when the top of the stack has been reached, this function returns 0 if the first frame pointer is properly initialized by the startup code.
This function should only be used with a nonzero argument for debugging purposes.