These options provide a different interpretation of UB like signed integer overflow and implicit initialization. It's in reference to Ralf's blog post:
>I honestly think trying to write a highly optimizing compiler based on a different interpretation of UB would be a worthwhile experiment. We sorely lack data on how big the performance gain of exploiting UB actually is. However, I strongly doubt that the result would even come close to the most widely used compilers today—and programmers that can accept such a big performance hit would probably not use C to begin with. Certainly, any proposal for requiring compilers to curtail their exploitation of UB must come with evidence that this would even be possible while keeping C a viable language for performance-sensitive code.
He doesn't know such interpretations are implemented by widely used C compilers.
>I honestly think trying to write a highly optimizing compiler based on a different interpretation of UB would be a worthwhile experiment. We sorely lack data on how big the performance gain of exploiting UB actually is. However, I strongly doubt that the result would even come close to the most widely used compilers today—and programmers that can accept such a big performance hit would probably not use C to begin with. Certainly, any proposal for requiring compilers to curtail their exploitation of UB must come with evidence that this would even be possible while keeping C a viable language for performance-sensitive code.
He doesn't know such interpretations are implemented by widely used C compilers.