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I’ve never heard of evading null with a Null object.
This is quite standard, and in fact it’s even a safety feature. C++ introduced nullptr defined as an instance of std::nullptr_t explicitly with this in mind.
Languages that make use of references rather than pointers don’t have this Dualism. C# has nullable references and nullability analysis, and null as a keyword.
Depends on your perspective. It’s convenient to lean on type checking to avoid a whole class of bugs. You can see this either as avoiding NULL or use your type system to flag misuses.
Languages that make use of references rather than pointers don’t have this Dualism. C# has nullable references and nullability analysis, and null as a keyword.
C#'s null keyword matches the monadic approach I mentioned earlier. Nullable types work as a Maybe monad. It’s the same concept shoehorned differently due to the different paths taken by these languages.
as far as I know, C# don’t have proper ergonomic monadic bind as in F# (computation expression), Haskell (do expression), and Ocaml (let*), but I could be wrong.
Languages that make use of references rather than pointers don’t have this Dualism.
It’s not about references vs pointers. You could easily have a language that allowed “null references” (edit: too much C++; of course many languages allow null references, e.g. Javascript) or one that properly separated null pointers out in the type system.
I agree with your point though, using a special Null value is usually worse than using Option or similar. And nullptr_t doesn’t help with this at all.
“Monadic type” has something like three meanings depending on context, and it’s not clear which one you mean. One of them is common in math, but not so common in programming, so probably not that. But neither “parametric types with a single argument” nor “types that encode a category-theoretic monad” have the property you say, as far as I know.
I imagine you’re probably referring to the latter, since the optional monad exists. That’s very different from returning null. The inhabitants of Integer in Java, for example, are the boxed machine ints and null. The inhabitants of Optional[Integer] (it won’t let me use angle brackets here) are Optional.of(i) for each machine int i, Optional.empty(), andnull.
Optional.empty() is not null and should not be called a “Null object.” It’s also not of type Integer, so you’re not even allowed to return it unless the function type explicitly says so. Writing such function types is pretty uncommon to do in java programs but it’s more normal in kotlin. In languages like Haskell, which don’t have null at all, this is idiomatic.
This is quite standard, and in fact it’s even a safety feature. C++ introduced nullptr defined as an instance of std::nullptr_t explicitly with this in mind.
https://en.cppreference.com/w/cpp/language/nullptr
This approach is also quite basic in monadic types.
With what in mind? Evading
NULL
?Languages that make use of references rather than pointers don’t have this Dualism. C# has nullable references and nullability analysis, and
null
as a keyword.What does your reasoning mean in that context?
Depends on your perspective. It’s convenient to lean on type checking to avoid a whole class of bugs. You can see this either as avoiding NULL or use your type system to flag misuses.
C#'s
null
keyword matches the monadic approach I mentioned earlier. Nullable types work as aMaybe
monad. It’s the same concept shoehorned differently due to the different paths taken by these languages.as far as I know, C# don’t have proper ergonomic monadic bind as in F# (computation expression), Haskell (do expression), and Ocaml (let*), but I could be wrong.
Correct.
It’s not about references vs pointers. You could easily have a language that allowed “null references” (edit: too much C++; of course many languages allow null references, e.g. Javascript) or one that properly separated null pointers out in the type system.
I agree with your point though, using a special
Null
value is usually worse than usingOption
or similar. Andnullptr_t
doesn’t help with this at all.“Monadic type” has something like three meanings depending on context, and it’s not clear which one you mean. One of them is common in math, but not so common in programming, so probably not that. But neither “parametric types with a single argument” nor “types that encode a category-theoretic monad” have the property you say, as far as I know.
I imagine you’re probably referring to the latter, since the optional monad exists. That’s very different from returning null. The inhabitants of
Integer
in Java, for example, are the boxed machine ints andnull
. The inhabitants ofOptional[Integer]
(it won’t let me use angle brackets here) areOptional.of(i)
for each machine inti
,Optional.empty()
, andnull
.Optional.empty()
is not null and should not be called a “Null object.” It’s also not of typeInteger
, so you’re not even allowed to return it unless the function type explicitly says so. Writing such function types is pretty uncommon to do in java programs but it’s more normal in kotlin. In languages like Haskell, which don’t havenull
at all, this is idiomatic.I think you’re trying too hard to confuse yourself.