My question is practically repeats this one, which asks why this issue occurs. I would like ot know if it is possible to avoid it.
The issue is: if I allocate a huge amount of memory statically:
unsigned char static_data[ 8 * BYTES_IN_GYGABYTE ];
then linker (
ld) takes very long time to make an executable. There is a good explanation from @davidg about this behaviour in question I gave above:
This leaves us with the follow series of steps:
The assembler tells the linker that it needs to create a section of memory that is 1GB long.
The linker goes ahead and allocates this memory, in preparation for placing it in the final executable.
The linker realizes that this memory is in the .bss section and is marked NOBITS, meaning that the data is just 0, and doesn't need to be physically placed into the final executable. It avoids writing out the 1GB of data, instead just throwing the allocated memory away.
The linker writes out to the final ELF file just the compiled code, producing a small executable.
A smarter linker might be able to avoid steps 2 and 3 above, making your compile time much faster
Ok. @davidg had explained why does linker takes a lot of time, but I want to know how can I avoid it. Maybe GCC have some options, that will say to linker to
be a little smarter and to
avoid steps 2 and 3 above ?
P.S. I use GCC 4.5.2 at Ubuntu