My psychic sense tells me that
eyex is declared as an
int, not as a
double as it should be. When you assign -1000.0 to it, it gets truncated to the integer -1000 (your compiler should give you a warning here), which is represented in binary as 0xFFFFFC18 using two's complement notation. Likewise, assuming that
eye is also an integer, its value of 0 is represented in binary as 0x00000000.
When you pass
eyey, and the other parameters to
printf, they get pushed on the stack so that they lie in memory with increasing addresses. So immediately before the
call instruction to call the subroutine, the stack frame looks something like this:
<top of stack>
0xFFFFFC18 ; eyex
(4-8 bytes) ; vx
0x00000000 ; eyey
(4-8 bytes) ; vy
(4-8 bytes) ; vz
printf sees the
%f format specifier, that says "take 8 bytes off of the stack, interpret them as a
double value, and print out that
double value". So it sees the value 0xFFFFFC18xxxxxxxx, where the xxxxxxxxx is the value of
info->vx. Regardless of that value, this is the IEEE 754 representation of NaN, or "not a number". It has the sign bit set, so some implementations may choose to interpret this as "negative NaN", though this has the same semantics as regular NaN.
Your compiler should also be warning you here that you're passing the wrong types of arguments to
printf—it's expecting a
double but you're not passing it that. GCC enables these warnings with
-Wall, which I highly recommend enabling.
So, the solution is to declare
eyex to be of type
double (and presumably the other variables to also be
double, if they're not already). Alternatively, if you don't control the definition of
eyex et al (say, because they're part of a structure for a third-party library), then what you should instead be doing is printing them out with the
%d modifier to print them as integers, not with
%f, and you should also assign them integer values such as -1000 and 0, not floating-point values such as -1000.0 and 0.0.