The C standard specifies the memory order of items within a struct, and many (perhaps all) implementations explicitly specify the memory order of parameters to variadic functions, but the order of automatic and static variables should be regarded as something which a compiler may arbitrarily or randomly arrange without rhyme or reason. Many compilers use a hash table for identifiers, and at least some compilers would arrange variables according to their hash codes, which made variable placement effectively random.
Further, some processors are designed so that certain variable placements will yield faster execution than others. For example, a compiler for a certain microcontroller may determine that placing two variables within 256 bytes of each other will allow it to load the address of one into a register and then use short-displacement register-relative addressing to access both; even if today's compiler wouldn't make that optimization, there's no reason to believe tomorrow's won't.
If you care about the relative arrangement of variables in memory, then you must either mark the variables in a vendor-specific way (typically using #pragma directives) to control how they are placed in memory, or else place all variables of interest into a struct. In some cases, it may be helpful to use #define macros to allow the struct items to be referred to by what look like variable names; the biggest caveat with doing this is that #define macros do not obey any normal rules of scope; consequently, one must be certain that the "variable" names are not used as any sort of identifier anywhere in the program.