A similar question Long in Float, why? here does not answer what I am searching for.
C# standard allows implicit conversion from long to float. But any long greater than 2^24 when represented as a float is bound to lose its 'value'. C# standard clearly states that long to float conversion may lose 'precision' but will never lose 'magnitude'.My Questions are
- In reference to integral types what is meant by 'precision' and 'magnitude'. Isn't number n totally different from number n+1 unlike real numbers where 3.333333 and 3.333329 may be considered close enough for a calculation (i.e. depending on what precision programmer wants)
- Isn't allowing implicit conversion from long to float an invitation to subtle bugs as it can lead a long to 'silently' lose value (as a C# programmer I am accustomed to compiler doing an excellent job in guarding me against such issues)
So what could have been the rationale of C# language design team in allowing this conversion as implicit? What is it that I am missing here that justifies implicit conversion from long to float?