C is a very simple language, by which I mean it offers a pretty minimal abstractions over the bare metal. The basic types come with no type information attached and even
structs only get what type info you give them.
So in a typical implementation, when the compiler sees
int x, y;
int x = foo(y,z);
z are likely one machine word which is interpreted as a 2s-complement integer for
x and `y, and as a IEEE-754 floating-point value for z, and nothing else.
The the compiler does something like
- advance the stack pointer to allow room for a return value
z onto the stack (what order it does this in is implementation dependent)
push the current
stack pointer+two instructions as the return address
branch to the entry point of
(Decent chips provide some support to amke this easier, but still...)
z from their locations relative the current stack value
- does whatever on them
- writes the return to
x (again found by offset from the stack pointer)
branch back to the return address that the calling routine
foo has not been instructed what type the passed arguments have (as in a variadac routine like
printf) it won't know how big each argument on the stack is (actually c coerces the size of every variadac argument with a set of up-conversion rules to fix this issue), nor how to interpret it.
PHP on the other hand, provides a sophisticated abstraction over the bare machine, and can (must, in fact to do what it does) carry some identifing information around with each value it works with.