I am reading Robert Love's "Linux Kernel Development", and I came across the following passage:
No (Easy) Use of Floating Point
When a user-space process uses floating-point instructions, the kernel manages the transition from integer to floating point mode. What the kernel has to do when using floating-point instructions varies by architecture, but the kernel normally catches a trap and then initiates the transition from integer to floating point mode.
Unlike user-space, the kernel does not have the luxury of seamless support for floating point because it cannot easily trap itself. Using a floating point inside the kernel requires manually saving and restoring the floating point registers, among other possible chores. The short answer is: Don’t do it! Except in the rare cases, no floating-point operations are in the kernel.
I've never heard of these "integer" and "floating-point" modes. What exactly are they, and why are they needed? Does this distinction exist on mainstream hardware architectures (such as x86), or is it specific to some more exotic environments? What exactly does a transition from integer to floating point mode entail, both from the point of view of the process and the kernel?