You don't have any relocated object files in memory.
I am guessing you have a Linux system. If on Windows, the principles remain the same, but the details are different.
The linker (called to build both
2.exe) build an executable ELF file (made of several segments, notably the so called "text" segment for machine code and read-only constant data, and the "data" segment for mutable data). The execve(2) syscall starting that program is memory mapping several segments of the ELF file (nearly as would some
Notice that using
.exe file suffix for Linux executable files is confusing and uncommon. Conventionally, Linux executables have no suffix at all and start with a lowercase letter.
The linker has copied and relocated both
A.o files into different things (because of the relocation). So it usually happens that the address of
add is different in
1.exe and in
2.exe, and so are the machine instructions dealing with them.
Each process has its own address space (which can change with e.g. mmap(2) syscall). Type
cat /proc/1234/maps to understand the address space of process of pid 1234. Try also
cat /proc/self/maps to get the address space of the process running that
If instead of
A.o object you have a shared object (or dynamic library)
libA.so some of its (
mmap-ed) segments will be shared (and others would be using copy on write techniques), and some relocation happens at dynamic link time (e.g. during
dlopen if it is a plugin).
Read also Levine's book on Linkers and Loaders.