5 When the processing of the abstract machine is interrupted by receipt of a signal, the values of objects that are neither lock-free atomic objects nor of type volatile sig_atomic_t are not specified, as is the state of the floating-point environment. The value of any object modified by the handler that is neither a lock-free atomic object nor of type volatile sig_atomic_t becomes indeterminate when the handler exits, as does the state of the floating-point environment if it is modified by the handler and not restored to its original state.
I take this to mean that, in case of a hardware/software interrupt, if the interrupt handler performs any floating point computations (e.g. on it's local stack variable), the interrupted process is left in an inconsistent state and must restart any floating point computations that were in progress. Is that it and what are the implications? How does one "restore the context"?