Flix – A powerful effect-oriented programming language

I am deeply impressed by the depth and breadth of this language. Algebraic data types, logic programming, mutability, all there from the get go.

Another aspect that I love from their comparison table is that a single executable is both the package manager, LSP and the compiler. As I understand, the language server for Haskell has/had to do a lot of dances and re implement things from ghc as a dance between the particular ghc version and your cabal file. And maybe stack too, because I don't know which package manager is the blessed one these days. Not to shit on Haskell -- it is actually a very fine language.

However, the best feature is a bit buried and I wonder why.

How ergonomic is the integration with the rest of the JVM, from the likes of Java? AFAIK, types are erased by JVM compilers... With the concept of `regions` they have at least first class support for imperative interaction. Note: With the JVM you get billions worth of code from a high quality professional standard library, so that is a huge plus. That is why the JVM and .net core are IMHO the most sane choices for 90+% of projects. I think the only comparable language would be F#. I would love to see a document about Flix limitations in the JVM interoperability story.

__EDIT__

- There is a bit of info here. Basically all values from Flix/Java have to be boxed/unboxed. https://doc.flix.dev/interoperability.html

- Records are first-class citizens.

On a language semantics note: the semantics of extending/restricting polymorphic records seem to follow Leijen's approach [0] with scoped labels. That is, if you have a record e.g. r1 = { color = "yellow" }, you can extend it with r2 = { +color = "red" | r1 }, and doing r2#color will evaluate to "red"... and if you then strip the field "color" away, r3 = { -color | r2 }, then you'll get back an original record, r3#color will evaluate to "yellow". Which IMO is the sanest approach, as opposed to earlier attempts of trying to outlaw such behaviour, preferably statically (yes, people developed astonishingly high-kinded type systems to track records' labels, just to make sure that two fields with the same label couldn't be re-added to a record).

[0] https://www.cs.ioc.ee/tfp-icfp-gpce05/tfp-proc/21num.pdf

Tangential, but I have a basic question: What makes Aarhus (mainly its university/techhub) a powerhouse for Programming Languages?

C++, C#/Typescript, Dart, etc all have strong roots in that one small area in Denmark.

In general, I am curious what makes some of these places very special (Delft, INRIA, etc)?

They aren't your 'typical' Ivy League/Oxbridge univ+techhubs.

Is it the water? Or something else? :)

I looked and Flix a while ago and found it really interesting - so much so that I wrote an article "Flix for Java Programmers" about it. Might actually be a bit outdated by now.. need to look at Flix's recent development again.

But if you're interested: https://www.reactivesystems.eu/2022/06/24/flix-for-java-prog...

Awesome, it even supports HKTs.

Can't find any mentions of typeclasses though, are they supported?

Give me typeclasses and macros comparable with Scala ones and I would be happy to port my libraries (distage, izumi-reflect, BIO) to Flix and consider moving to it from Scala :3

UPD: ah, alright, they call typeclasses traits. What about macros?

UPD2: ergh, they don't support nominal inheritance even in the most harmless form of Scala traits. Typeclasses are not a replacement for interfaces, an extremely important abstraction is missing from the language (due to H-M typer perhaps), so a lot of useful things are just impossible there (or would look ugly).

Flix FAQ (https://flix.dev/faq/) starts normal, but becomes increasingly more hilarious towards the end :D

Some gems:

---

Q: Wait, division by zero is zero, really?

A: Yes. But focusing on this is a bit like focusing on the color of the seats in a spacecraft.

---

Q: "This site requires JavaScript"

A: People who have criticized the website for using JavaScript: [1], [2], [3], [4], [5].

People who have offered to help refactor the site to use static html: 0.

---

Q: I was disappointed to learn that Flix has feature X instead of my favorite feature Y.

A: We are deeply sorry to have let you down.

---

Q: This is – by far – the worst syntax I have ever seen in a functional language. Semicolons, braces, symbolic soup, et al. It is like if Scala, Java and Haskell had a one night stand in the center of Chernobyl.

A: Quite an achievement, wouldn't you say?

Any code agents work well with this or do we have to start thinking with our own brain again?

Seriously though, looks like a cool language and makes me sad that LLMs will probably inhibit the adoption of new languages, and wonder what we can do about it.

If you are in the JS ecosystem, you should check out Effect TS (https://effect.website)

It's a very fun time

I like it. This is the first time Ive seen a new programming language demo that made me want to use it

Anyone have a good primer on what effect-oriented programming looks like and how it’s used? Feel free to shill your own blog!

love the syntax, and excited to mess with it, but man i’m sad to see it’s on the JVM. if i had to guess, a lot of langs like this are on JVM because that’s a lot simpler than writing a whole backend with anywhere near the same performance or reliability, and i totally get that.

that being said, bearing in mind that i’m not a Java/JVM developer and only rarely have to use it, for the few nontrivial projects i have shipped with it the build system was by far the most challenging and frustrating. it’s so complex and has such a large surface area.

no hate at all, and the trade offs are completely reasonable, but i am hoping during my career we’ll start seeing either a massive simplification of JVM builds or a lot of innovation that would make native compilers easier to build.

(as a side note, it is nice to have langs like this for when JVM is the only option)

I'd love to use Flix for something. It looks beautiful. But I'm a web dev, and never touch the JVM ecosystem

Curious if anyone can weigh in on why Flix requires a developer to explicitly mark a function as pure. I'd imagine in almost all cases this can be derived through static analysis.

Interesting project but whoever decided "forM" is a good name for a language keyword should be made to gurgle Tabasco sauce for a few minutes.

I'm looking forward to the day where an ml/functional inspired language can be used for real time rendering and game engines, how far are we from that?

Realistically, one could argue it's not the right choice overall, but still, it's an application which would push the boundaries of what those languages have been perceived to have the greatness weakness in. An application which is mostly about handing mutable state with high performance.

Very similar to the koka language. I hope these effect systems become mainstream.

If you have an effect ReadsFromDB, you can't enforce statically that someone will not come along and change the ReadsFromDB effect to write to the db. That's why I think Haskell got it right in the first instance, functions are either pure or IO.

Minor nit: the semicolons! Especially in the yield examples, since there's no "return" on the last line, the disparity looks weird.

That said, I like how the syntax isn't overly functional, and not too different from what we see in mainstream languages. I'd be fine with either braces or indentation, but the semicolons have to go!

  "Flix also features full tail call elimination which has some run-time performance cost."

What are the run time costs being refered to here?

    // Computes the delivery date for each component.
    let r = query p select (c, d) from ReadyDate(c; d)

facepalm. Select should always come last, not first, haven't we learned anything from the problems of SQL? LINQ got this right, so it should look like:

    query p from ReadyDate(c; d) select (c, d)

Very cool language otherwise.

This language seems to be aiming high. Congrats!

Looking at their code however, I'm realizing one thing Elixir got "right", in my view, is the order of arguments in function calls.

For example, in Elixir to retrieve the value associated with a key in a map, you would write Map.get(map, key) or Map.get(map, key, default).

This feels so natural, particularly when you chain the operations using the pipe operator (|>):

  map
  |> Map.put(key, value)
  |> Map.get(key)

In Flix it seems one needs to write Map.get(x, map), Map.insert(x, y, map). I guess it follows in the footsteps of F#.

Sweet, aside from n/0==0 and no native compilation, it seems like the perfect language!

It looks beautiful! Now, if I could just find a non-JVM version...

Probably Elixir spoiled me but when I see

  enum Shape {
    case Circle(Int32),
    case Square(Int32),
    case Rectangle(Int32, Int32)
  }
  def area(s: Shape): Int32 = match s {
    case Circle(r)       => 3 * (r * r)
    case Square(w)       => w * w
    case Rectangle(h, w) => h * w
  }

I wonder why not this syntax:

  def area(s: Shape.Circle(r)) = { 3 * (r * r) }
  def area(s: Share.Square(w)) = { w * w }
  def area(s: Shape.Rectangle(h, w)) = { h * w }

  area(Shape.Rectangle(2, 4))

The Int32 or Int32, Int32 types are in the definition of Shape, so we can be DRY and spare us the chances to mismatch the types. We can also do without match/case, reuse the syntax of function definition and enumerate the matches in there. I think that it's called structural pattern matching.

I'm quite liking the syntax, especially the !> operator.

>> Flix is a principled effect-oriented functional, imperative, and logic programming language...

>> Why Effects? Effect systems represent the next major evolution in statically typed programming languages. By explicitly modeling side effects, effect-oriented programming enforces modularity and helps program reasoning.

Since when do side effects and functional programming go together?

Flix devs:

in the section:

What features are not supported by Flix?

this Feature on the left side:

No Code Before Main

does not match the Reason on the right side:

In Flix, no code is ever executed before main. Flix has no static initializers (or similar constructs) which are difficult to reason about, error-prone, and often lead to buggy code.

you should change the Feature name to:

Code Before Main

I think their DIDYOUKNOW.md file in the source code is worth showing in full, as it describes the language in a more compact form:

---

# Did You Know?

## Language

Did you know that:

- Flix offers a unique combination of features, including: algebraic data types and pattern matching, extensible records, type classes, higher-kinded types, polymorphic effects, and first-class Datalog constraints.

- Flix has no global state. Any state must be passed around explicitly.

- Flix is one language. There are no pragmas or compiler flags to enable or disable features.

- Flix supports type parameter elision. That is, polymorphic functions can be written without explicitly introducing their type parameters. For example, `def map(f: a -> b, l: List[a]): List[b]`.

- the Flix type and effect system can enforce that a function argument is pure.

- Flix supports effect polymorphism. For example, the `List.map` function is effect polymorphic: its purity depends on the purity of its function argument.

- in Flix every declaration is private by default.

- In Flix no execution happens before `main`. There is no global state nor any static field initializers.

- Flix supports full tail call elimination, i.e. tail calls do not grow the stack. Flix -- being on the JVM -- emulates tail calls until Project Loom arrives.

- Flix supports extensible records with row polymorphism.

- Flix supports string interpolation by default, e.g. "Hello ${name}". String interpolation uses the `ToString` type class.

- Flix supports the "pipeline" operator `|>` and the Flix standard library is designed around it.

- In Flix type variables are lowercase and types are uppercase.

- In Flix local variables and functions are lowercase whereas enum constructors are uppercase.

- Flix supports set and map literals `Set#{1, 2, 3}` and `Map#{1 => 2, 3 => 4}`.

- Flix supports monadic do-notation with the `let*` construct.

- Flix supports "program holes" written as either `???` or as `?name`.

- Flix supports infix function applications via backticks.

- Flix compiles to JVM bytecode and runs on the Java Virtual Machine.

- Flix supports channel and process-based concurrency, including the powerful `select` expression.

- Flix supports first-class Datalog constraints, i.e. Datalog program fragments are values that can be passed to and returned from functions, etc.

- Flix supports compile-time checked stratified negation.

- Flix supports partial application, i.e. a function can be called with fewer arguments that its declared formal parameters.

- the Flix type and effect system is powered by Hindley-Milner. The same core type system that is used by OCaml, Standard ML, and Haskell.

- the Flix type and effect system is sound, i.e. if a program type checks then a type error cannot occur at run-time. If an expression is pure then it cannot have a side-effect.

- the Flix type and effect system supports complete type inference, i.e. if a program is typeable then the type inference with find the typing.

- The Flix "Tips and Tricks"-section https://doc.flix.dev/tipstricks/ describes many useful smaller features of the language.

- Flix has a unique meta-programming feature that allows a higher-order functions to inspect the purity of its function argument(s).

- Flix names its floats and integers types after their sizes, e.g. `Float32`, `Float64`, `Int32` and `Int64`.

- Flix -- by design -- uses records for labelled arguments. Records are a natural part of the type system and works for top-level, local, and first-class functions.

- Flix -- by design -- has no implicit coercions, but provide several functions for explicit coercions.

- Flix -- by design -- disallows unused variables and shadowed variables since these are a frequent source of bugs.

- Flix -- by design -- disallows allow unused declarations. This prevents bit rot.

- Flix -- by design -- does not support unprincipled overloading. Instead, functions are given meaningful names, e.g. `Map.insert` and `Map.insertWithKey`.

- Flix -- by design -- does not support variadic functions. We believe it is better to pass an explicit array or list.

- Controversial: Flix defines division by zero to equal zero.

- Controversial: Flix defines String division as concatenation with the path separator. For example, `"Foo" / "Bar.txt" => "Foo\Bar.txt"` on Windows.

## Standard Library

Did you know that:

- Flix has an extensive standard library with more than 2,600 functions spanning more than 30,000 lines of code.

- the Flix Prelude, i.e. the functions which are imported by default, is kept minimal and contains less than 20 functions.

- most higher-order functions in the Flix standard library are effect polymorphic, i.e. they can be called with pure or impure functions.

- the Flix type and effect system enforces that equality and ordering functions must be pure.

- the Flix standard library uses records to avoid confusion when a function takes multiple arguments of the same type. For example, `String.contains` must be called as `String.contains(substr = "foo", "bar")`.

- the Flix `List` module offers more than 95 functions.

- the Flix `String` module offers more than 95 functions.

- the Flix `Foldable` module offers more than 30 functions.

- the Flix standard library follows the convention of "subject-last" to enable pipelining (`|>`).

## Ecosystem

Did you know that:

- Flix has an official Visual Studio Code extension.

- Flix has an official dark theme inspired by Monokai called "Flixify Dark".

- the Flix website (https://flix.dev/) lists the design principles behind Flix.

- Flix has an online playground available at https://play.flix.dev/

- Flix has online API documentation available at https://doc.flix.dev/

- the Flix VSCode extension uses the real Flix compiler.

- the Flix VSCode extension supports auto-complete, jump to definition, hover to show the type and effect of an expression, find all usages, and more.

- the Flix VSCode extension has built-in snippets for type class instances. Try `instance Eq [auto complete]`.

- the Flix VSCode extension supports semantic highlighting.

- the Flix VSCode extension has built-in "code hints" that suggests when lazy and/or parallel evaluation is enabled or inhibited by impurity.

- Flix has community build where Flix libraries can be included in the CI pipeline used to build the Flix compiler.

- Flix has a nascent build system and package manager based on GitHub releases. Today it is possible to build, package, and install Flix packages. Dependency management is in the works.

## Compiler

Did you know that:

- Flix -- by design -- has no compiler warnings, only compiler errors. Warnings can be ignored, but errors cannot be.

- the Flix compiler uses monomorphization hence primitive values are (almost) never boxed.

- the Flix compiler supports incremental and parallel compilation.

- the Flix compiler has more than 28 compiler phases.

- the Flix compiler contains more than 80,000 lines of code.

- the Flix compiler has more than 13,500 manually written unit tests.

- the performance of the Flix compiler is tracked at https://arewefast.flix.dev/

## Other

Did you know that:

- Flix is developed by programming language researchers at Aarhus University (Denmark) in collaboration with researchers at the University of Waterloo (Canada), and at Eberhard Karls University of Tübingen (Germany), and by a growing open source community.

- Several novel aspects of the Flix programming language has been described in the research literature, including its type and effect system and support for first-class Datalog constraints.

- Flix is funded by the Independent Research Fund Denmark, Amazon Research, DIREC, the Stibo Foundation, and the Concordium Foundation.

- more than 50 people have contributed to the Flix compiler.

- more than 2,000 pull requests have been merged into the Flix compiler.

I hate lot of keywords.

`case Circle(r) => 3 * (r * r)`

I, uh, think your math might need some checking :)

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JVM is a no-starter. The language looks nice tho, shame they built it on JVM.

Very cool language. The standard library looks mostly sane, although it does have `def get(i: Int32, a: Array[a, r]): a \ r` which means that it must have some kind of runtime exception system. Not my cup of tea, but an understandable tradeoff