I like Odin and hope for it to gain more momentum.
I have an important metric for new "systems" languages: does the language allow NULL for it's commonly used pointer type. Rust by default does not (References may _not_ be NULL). Here is where I think Odin makes a mistake.
In the linked blog post Odin mentions ^os.File which means pointer to File (somewhat like *FILE in C). Theoretically the pointer can be NULL. In practice, maybe I would need to check for NULL or maybe I would not (I would have to scan the Odin function's documentation to see what the contract is).
In Rust, if a function returns &File or &mut File or Box<File> etc. I know that it will never be NULL.
So Odin repeats the famous "billion-dollar mistake" (Tony Hoare). Zig in comparison is bit more fussy about NULL in pointers so it wins my vote.
Currently this is my biggest complaint about Odin. While Odin packages a lot of power programming idioms (and feels a bit higher level and ergonomic than Zig) it makes the same mistake that Golang, C and others make regarding allowing NULL in the default pointer type.
One thing I think worth considering for systems languages on this point: if you don't want to solve every expressiveness issue downstream of Result/Option/etc from the outset, look at Swift, which has nullable types.
MyObject can't be null. MyObject? can be null. Handling nullability as a special thing might help with the billion-dollar mistake without generating pressure to have a fully fleshed out ADT solution and everything downstream of that.
To people who would dismiss ADTs as a hard problem in terms of ergonomics: Rust makes it less miserable thanks to things like the question-mark shorthand and a bazillion trait methods. Languages like Haskell solve it with a monads + do syntax + operating overload galore. Languages like Scala _don't_ solve it for Result/Option in any fun way and thus are miserable on this point IMHO
I like to think about how many problems a feature solves to judge whether it's "worth it". I believe that the Sum types solve enough different problems that they're worth it, whereas nullability solves only one problem (the C-style or Java-style null object) the Sum types can solve that with Option<T> and also provide error handling with Result<T, Err> and control flow with ControlFlow<Continue, Break> among others so that's already a better deal.
Nullability is a good retro-fit, like Java's type erased generics, or the DSL technology to cram a reasonable short-distance network protocol onto the existing copper lines for telephones. But in the same way that you probably wouldn't start with type erased generics, or build a new city with copper telephone cables, nullability isn't worth it for a new language IMO.
The Scala solution is the same as Haskell. for comprehensions are the same thing as do notation. The future is probably effect systems, so writing direct style code instead of using monads.
It's interesting that effect system-ish ideas are in Zig and Odin as well. Odin has "context". There was a blog post saying it's basically for passing around a memory allocator (IIRC), which I think is a failure of imagination. Zig's new IO model is essentially pass around the IO implementation. Both capture some of the core ideas of effect systems, without the type system work that make effect systems extensible and more pleasant to use.
I personally don't enjoy the MyObject? typing, because it leads to edge cases where you'd like to have MyObject??, but it's indistinguishable from MyObject?.
E.g. if you have a list finding function that returns X?, then if you give it a list of MyObject?, you don't know if you found a null element or if you found nothing.
It's still obviously way better than having all object types include the null value.
Your example produces very distinguishable results. e.g. if Array.first finds a nil value it returns Optional<Type?>.some(.none), and if it doesn't it returns Optional<Type?>.none
The values are not equal, and only the second one evaluates to true when compared to a naked nil.
Well, in a language with nullable reference types, you could use something like
fn find<T>(self: List<T>) -> (T, bool)
to express what you want.
But exactly like Go's error handling via (fake) unnamed tuple, it's very much error-prone (and return value might contain absurd values like `(someInstanceOfT, false)`). So yeah, I also prefer language w/ ADT which solves it via sum-type rather than being stuck with product-type forever.
Odin offers a Maybe(T) type which might satisfy your itch. It's sort of a compromise. Odin uses multiple-returns with a boolean "ok" value for binary failure-detection. There is actually quite a lot of syntax support for these "optional-ok" situations in Odin, and that's plenty for me. I appreciate the simplicity of handling these things as plain values. I see an argument for moving some of this into the type-system (using Maybe) when it comes to package/API boundaries, but in practice I haven't chosen to use it in Odin.
Maybe(T) would be for my own internal code. I would need to wrap/unwrap Maybe at all interfaces with external code.
In my view a huge value addition from plain C to Zig/Rust has been eliminating NULL pointer possibility in default pointer type. Odin makes the same mistake as Golang did. It's not excusable IMHO in such a new language.
Both Odin and Go have the "zero is default" choice. Every type must have a default and that's what zero signifies for that type. In practice some types shouldn't have such a default, so in these languages that zero state becomes a sentinel value - a value notionally of this type but in fact invalid, just like Hoare's NULL pointer, which means anywhere you didn't check for it, you mustn't assume you have a valid value of that type. Sometimes it is named "null" but even if not it's the same problem.
Even ignoring the practical consequences, this means the programmer probably doesn't understand what their code does, because there are unstated assumptions all over the codebase because their type system doesn't do a good job of writing down what was meant. Almost might as well use B (which doesn't have types).
I've been actively toying with Odin in past few days. As a Gopher, the syntax is partially familiar. But as it is a lower level language wiht manual-ish memory management, simple things require much more code to write and a ton of typecasting. Lack of any kind of OOP-ism, like inheritance(bad), encapsulation(ok), or methods(nobrainer), is very spartan and unpleasant in 2025, but that's just a personal preference. I don't think I ever used fully procedural language in my entire life. It requires a complete rewiring on one's brain. Which I'd say is a huge obstacle for most programmers, definitely from the younger crowd. For low-level guys, this is quite a nice and powerful tool. For everyone else, it's a bit of a head ache(even Zig has methods and interfaces). The language still lacks basic things like SQL drivers, solid HTTPS stack, websockets, and essentially anything related to web and networking(which has the bare bones functionality). As a Gopher, I am biased, but the web rules the world, so it is objective complaint. In the end, this is a solid language with great support for 2D and 3D graphics and advanced mathematics, which naturally makes it a very niche language for making games or anything to do with visual programming. Definitely try it out.
PS: I just read a funny comment on YT video: "Odin feels like a DSL for writing games masquerading as a systems language."
Oh, nice. I have to admit I'm not all that familiar with Odin, because I've been all-in on Zig for a long time. I've been meaning to try out a game dev project in Odin for a while though, but haven't had the time.
i'm kinda glad it's lacking typical webdev stuff at the moment. if nothing else for developers focus. its absolutely excellent for game development. i have written 2 complete games in odin and working on a third. all using just vendor raylib and absolutely flying. build time, language server, debug cycles. i complete entire features every session, very productive language. i look forward to its maturity
I think Odin should market itself for aforementioned games and graphics. Otherwise it will become very niche language. Even now, I think there is only about 5k Odin repositories on github while it is essentially a complete language. Contrast it with Zig, which is still evolving and has breaking changes, being still at 0.x without clear sight of 1.0, and it has over 27k repositories and big projects like Ghostty, Bunt or Tiger beetle are written in it.
Once Jonathan Blow's Jai comes out next year, the language that inspired conception of both of these, Odin will likely have no chance competing on the marketing side of things with programmers and will be taken over by Jai, and Zig in a large extent as well. So the future of the language might not be as solid as it might seem and it might end up just as an internal tool for JangaFX, which is how it originated.
Having the "web stuff" can attract literally millions of developers whom can elevate the language into more stable and broadly used language. More documentation would become available, libraries, youtube videos, internet presence in general.
Anyone have a good comparison of Odin vs C/C++/Rust/Zig/Hare/etc? I'm particularly interested in how simple it is to implement a compiler in the given language.
Odin claims to be pragmatic (what language doesn't lol) but "All procedures that returned allocated memory will require an explicit allocator to be passed". Charitably, is this aimed at c/zig heads?
I'm guessing it's aimed at game development since Vulkan has a similar pattern in every function call (although optional, the driver does it's own allocation if you pass null).
I have an important metric for new "systems" languages: does the language allow NULL for it's commonly used pointer type. Rust by default does not (References may _not_ be NULL). Here is where I think Odin makes a mistake.
In the linked blog post Odin mentions ^os.File which means pointer to File (somewhat like *FILE in C). Theoretically the pointer can be NULL. In practice, maybe I would need to check for NULL or maybe I would not (I would have to scan the Odin function's documentation to see what the contract is).
In Rust, if a function returns &File or &mut File or Box<File> etc. I know that it will never be NULL.
So Odin repeats the famous "billion-dollar mistake" (Tony Hoare). Zig in comparison is bit more fussy about NULL in pointers so it wins my vote.
Currently this is my biggest complaint about Odin. While Odin packages a lot of power programming idioms (and feels a bit higher level and ergonomic than Zig) it makes the same mistake that Golang, C and others make regarding allowing NULL in the default pointer type.
MyObject can't be null. MyObject? can be null. Handling nullability as a special thing might help with the billion-dollar mistake without generating pressure to have a fully fleshed out ADT solution and everything downstream of that.
To people who would dismiss ADTs as a hard problem in terms of ergonomics: Rust makes it less miserable thanks to things like the question-mark shorthand and a bazillion trait methods. Languages like Haskell solve it with a monads + do syntax + operating overload galore. Languages like Scala _don't_ solve it for Result/Option in any fun way and thus are miserable on this point IMHO
Nullability is a good retro-fit, like Java's type erased generics, or the DSL technology to cram a reasonable short-distance network protocol onto the existing copper lines for telephones. But in the same way that you probably wouldn't start with type erased generics, or build a new city with copper telephone cables, nullability isn't worth it for a new language IMO.
It's interesting that effect system-ish ideas are in Zig and Odin as well. Odin has "context". There was a blog post saying it's basically for passing around a memory allocator (IIRC), which I think is a failure of imagination. Zig's new IO model is essentially pass around the IO implementation. Both capture some of the core ideas of effect systems, without the type system work that make effect systems extensible and more pleasant to use.
E.g. if you have a list finding function that returns X?, then if you give it a list of MyObject?, you don't know if you found a null element or if you found nothing.
It's still obviously way better than having all object types include the null value.
The values are not equal, and only the second one evaluates to true when compared to a naked nil.
But exactly like Go's error handling via (fake) unnamed tuple, it's very much error-prone (and return value might contain absurd values like `(someInstanceOfT, false)`). So yeah, I also prefer language w/ ADT which solves it via sum-type rather than being stuck with product-type forever.
Maybe(T) would be for my own internal code. I would need to wrap/unwrap Maybe at all interfaces with external code.
In my view a huge value addition from plain C to Zig/Rust has been eliminating NULL pointer possibility in default pointer type. Odin makes the same mistake as Golang did. It's not excusable IMHO in such a new language.
Even ignoring the practical consequences, this means the programmer probably doesn't understand what their code does, because there are unstated assumptions all over the codebase because their type system doesn't do a good job of writing down what was meant. Almost might as well use B (which doesn't have types).
PS: I just read a funny comment on YT video: "Odin feels like a DSL for writing games masquerading as a systems language."
Zig doesn't have interfaces as a language level feature. It uses manually implemented vtables and wrapper methods.
You can do the same in Odin with wrapper functions around a vtable.
Once Jonathan Blow's Jai comes out next year, the language that inspired conception of both of these, Odin will likely have no chance competing on the marketing side of things with programmers and will be taken over by Jai, and Zig in a large extent as well. So the future of the language might not be as solid as it might seem and it might end up just as an internal tool for JangaFX, which is how it originated.
Having the "web stuff" can attract literally millions of developers whom can elevate the language into more stable and broadly used language. More documentation would become available, libraries, youtube videos, internet presence in general.
All procedures in core/os. Odin isn't removing the allocator from implicit context in the rest of its APIs.