An F#-inspired, functional-first language that compiles to readable Python.
Project description
Pyfun
Functional programming for the language classrooms already teach.
Pyfun is an F#-inspired, functional-first language that compiles to readable Python. It brings algebraic data types, exhaustive matching, currying, inferred effects, and units of measure to the Python ecosystem, and its Rust compiler checks every one of them before a single line of Python is emitted.
It exists to make functional programming teachable where students already are. CS courses run on Python; learning FP usually means leaving it for Haskell, OCaml, or F# and adopting a whole new ecosystem students rarely touch again. Pyfun keeps them in Python, with no new runtime and no new package manager, and compiles to Python they can read, so every concept stays visible in the code they already understand.
type Shape = Circle float | Rect float float
# `area` handles Circle but forgets Rect, so Pyfun refuses to compile it:
let area s =
match s:
case Circle r: 3.14159 * r * r
$ pyfun check shapes.pyfun
error: non-exhaustive match: `Rect _ _` is not matched
--> 4:3
|
4 | match s:
| ^^^^^^^^
Plain Python compiles and runs this, then silently returns
Nonethe day aRectreaches it, and you debug theTypeErroran hour downstream. Pyfun's Rust compiler checks types, effects, units, and match exhaustiveness before a single line of Python is emitted, then hands you code you can read, diff, and ship.
Made for the classroom
Teaching FP normally forces a detour: a new language, a new toolchain, and a new ecosystem the students abandon the moment the course ends. Pyfun removes the detour.
- They already have the runtime. Pyfun compiles to plain Python, so anything a student writes runs on the interpreter already installed on every lab machine. No VM, no new package manager.
- The concepts stay visible.
pyfun compileshows the Python your functional code becomes, so a student watches an ADT turn into a class, amatchintomatch/case, and currying into a closure. They learn the idea and how it maps to the imperative code they know. - Good habits are enforced, not suggested. The compiler refuses to skip a case, ignore a
None, or mutate what should stay immutable, so students learn to handle every path because the tool insists. - A small, learnable core. Pyfun is deliberately compact, so the language stays out of the way of the ideas you are teaching.
Pyfun is a real, general-purpose language, not a toy. But teaching is why it exists.
Why Pyfun over plain Python?
Python is the best ecosystem in the world, and even with mypy/pyright bolted on, large Python
programs still fail in ways a compiler could have caught. Pyfun keeps the ecosystem and makes the
checks mandatory.
| Plain Python | Pyfun | |
|---|---|---|
| Type errors | mypy/pyright are optional and unsound; they warn, they don't gate |
found at compile time; no Python is emitted until they pass |
None handling |
AttributeError: 'NoneType'… |
Option a with exhaustive match; the compiler makes you handle None |
Missing case |
silently falls through, returns None |
exhaustiveness error with a concrete missing-case witness |
| Mutation | everything is mutable, everywhere | immutable by default; let mut + <- is opt-in and tracked |
| Side effects | invisible | inferred and tracked; let pure is a compile-checked promise |
| Units / dimensions | a comment and a prayer | 10<N> / 2<m^2> : float<Pa>, checked and then erased |
| Runtime | CPython | CPython: Pyfun is Python once compiled |
Why not just mypy/pyright? They're a gradual, optional overlay: unsound by design, never
required, and one # type: ignore from silence. They report; they don't gate. Pyfun makes the same
class of check mandatory: it blocks compilation, infers the signatures pyright often needs spelled
out, and there is no untyped Pyfun to fall back to. And you keep the entire Python ecosystem while
you do it.
Type-checked Python interop
extern imports any Python callable or value at a Pyfun type. The dotted target is imported
for you; the boundary is effectful by default (a Python call can do anything), and pure opts
out where you know better. Once imported, the function is a first-class curried Pyfun value:
type-checked, effect-tracked, and partially applicable.
extern pure mean: List float -> float = statistics.mean
extern pure stdev: List float -> float = statistics.stdev
type Summary = { n: int, mean: float, stdev: float }
let summarize xs =
Summary { n = List.len xs, mean = mean xs, stdev = stdev xs }
let report xs =
let s = summarize xs
f"n={s.n} mean={s.mean} sd={s.stdev}"
print (report [1.0, 2.0, 3.0, 4.0])
pyfun compile turns that into Python you'd be happy to have written by hand:
import statistics
class Summary:
__match_args__ = ('n', 'mean', 'stdev')
def __init__(self, n, mean, stdev):
self.n = n
self.mean = mean
self.stdev = stdev
def __repr__(self):
return f"Summary({self.n!r}, {self.mean!r}, {self.stdev!r})"
# ...structural __eq__/__hash__/ordering elided...
def summarize(xs):
return Summary(len(xs), statistics.mean(xs), statistics.stdev(xs))
def report(xs):
s = summarize(xs)
return f"n={s.n} mean={s.mean} sd={s.stdev}"
print(report([1.0, 2.0, 3.0, 4.0]))
$ pyfun run stats.pyfun
n=4 mean=2.5 sd=1.2909944487358056
Notice what the compiler does:
- No wrapper layer.
statistics.mean(xs)is called directly.Listis a Pythonlist, and a Pyfun record is a plain class. There is no runtime, no VM, no marshalling. - Effects tracked across the boundary. A bare
externisioat full application, so it can't be called from alet pure. Mark itpure(likestatistics.mean) and it composes into pure code. You can even annotate other effect labels:extern fetch: string ->{async} string = httpx.get. - Exceptions become values.
try (parseInt s) : Result int Exceptioncatches whatever the Python side raises and hands you aResulttomatchon. The imperative FFI edge becomes the FP error type, witherrorKindanderrorMessagefields.
extern parseInt: string -> int = int # Python's built-in int()
let safe s = Result.withDefault 0 (try (parseInt s))
print (safe "42") # 42
print (safe "oops") # 0 (the ValueError was caught into an Error)
A whistle-stop tour
Everything below type-checks, compiles, and runs today. See
examples/hello.pyfun for the exhaustive version.
Algebraic data types, records, and exhaustive matching. None cannot bite you:
type Shape = Circle float | Rect float float
let area s =
match s:
case Circle r: 3.14159 * r * r
case Rect w h: w * h
# forget a case and the compiler reports the missing witness, e.g. `Rect _ _ is not matched`
Pipelines, currying, composition. F#'s |>, <|, >>, <<, and operator sections (+):
let describe =
List.filter (fun x -> x > 0)
>> List.map ((*) 2)
>> List.fold (+) 0
let total = [1, -2, 3] |> describe # (1 + 3) * 2 = 8
Inferred effects. Purity is a checked promise, never boilerplate:
let pure add a b = a + b # OK: no effects
# let pure shout n = print n # compile error: `print` performs `io`
Units of measure. Dimensional analysis at compile time, erased at runtime:
measure m
measure s
measure kg
measure N = kg m / s^2 # derived aliases expand to base units
let speed = 100<m> / 10<s> # float<m/s>
let force = 10<N>
# let bad = 100<m> + 10<s> # compile error: m vs s
let side = sqrt 16.0<m^2> # float<m>, unit-aware roots
Computation expressions (F#'s showcase feature): result, seq, async, plus your own:
let checked ok v =
result { # railway-oriented; short-circuits on Error
let! x = if ok then Ok v else Error "bad"
return x + 1
}
Rich literals and strings. F-strings, raw strings, triple-quotes, scientific notation, digit separators, hex/octal/binary:
let planck = 6.626e-34
let million = 1_000_000
let mask = 0xFF
let who = "Ada"
let line = f"{who} scored {million} ({String.upper who})"
let path = r"C:\Users\pyfun" # raw string, backslashes literal
And a standard library that reads like F#'s: module-qualified List / Set / Map / Option /
Result / Seq / String (List.map, Map.tryFind, Result.bind, lazy Seq.take,
String.split), tuples, active patterns, typed holes for type-driven development, and
multi-file projects with import.
How Pyfun compares
A few projects bring functional or statically-typed code to Python. Here is the field, and the bet Pyfun makes within it:
- Fable compiles real F# to Python, the most capable option by far, because
it is F#, with the whole language and a mature ecosystem. The trade-offs: it needs the .NET
toolchain, and its output depends on a runtime library (
fable_library). - Erg is a statically-typed, Python-compatible language with a rich type system and marker-based effect control. It is the closest to Pyfun in ambition, though "rusty"/OO rather than ML-family, with explicit effect annotations.
- Coconut is a functional superset of Python; static typing is an optional MyPy add-on, so nothing is enforced.
- Dynamic dialects (Hy, Mochi, Dogelang) are dynamically-typed FP/Lisp languages that run on Python; they share the last column, since they trade static guarantees for Python's dynamism.
Legend: ✅ yes · ⚠️ partial · ➖ different approach · ❌ no
| Pyfun | Fable | Erg | Coconut | Dynamic dialects | |
|---|---|---|---|---|---|
| FP-first language (not a Python superset) | ✅ | ✅ | ✅ | ➖ | ⚠️ |
| ML / F#-family syntax | ✅ | ✅ | ➖ | ➖ | ❌ |
| Mandatory static typing | ✅ | ✅ | ✅ | ❌ | ❌ |
| Type inference | ✅ | ✅ | ✅ | ➖ | ❌ |
| Zero annotations required | ✅ | ⚠️ | ⚠️ | ❌ | ➖ |
| ADTs + enforced exhaustiveness | ✅ | ✅ | ⚠️ | ⚠️ | ❌ |
| Inferred effects (never annotated) | ✅ | ❌ | ➖ | ❌ | ❌ |
| Units of measure | ✅ | ✅ | ❌ | ❌ | ❌ |
| Computation expressions | ✅ | ✅ | ❌ | ❌ | ❌ |
Nested record-update ({ p with a.b = v }) |
✅ | ✅ | ❌ | ❌ | ➖ |
| Typed holes (type-driven dev) | ✅ | ❌ | ❌ | ❌ | ❌ |
Chained comparisons (a < b < c) |
✅ | ❌ | ⚠️ | ✅ | ✅ |
| Compiler-as-gatekeeper | ✅ | ✅ | ✅ | ❌ | ❌ |
| Self-contained output (no runtime library) | ✅ | ❌ | ❌ | ❌ | ➖ |
| No .NET / host-runtime toolchain | ✅ | ❌ | ✅ | ➖ | ➖ |
| Python-library interop | ✅ | ✅ | ✅ | ✅ | ✅ |
| Maturity / production use | ❌ pre-1.0 | ⚠️ Py beta | ⚠️ | ✅ | ⚠️ |
| Language surface (built-in constructs) | ⚠️ small core | ✅ full F# | ⚠️ | ✅ Python superset | ✅ |
| Community, docs, support | ❌ solo | ✅ | ⚠️ | ✅ | ⚠️ |
Pyfun's strengths are the bold rows: self-contained, runtime-free Python output (a List is a
list, a record is a plain class), a single dependency-free compiler with no .NET, inferred
effects, and a language designed for Python interop first. On several rows it reaches past F#
itself, borrowing inferred effects from Koka, typed holes from Haskell and Idris, and Python-style
chained comparisons. Every tool here reaches the full Python ecosystem
(the interop row), so Pyfun's small core costs nothing in libraries; it just buys simplicity.
Reach for Fable when you want all of F# and are happy to bring the .NET toolchain and a runtime library along. Reach for Pyfun when you want the emitted Python to be a first-class, readable artifact you own outright, or when you are teaching functional programming to people who live in Python.
Getting started
Pyfun runs on the Python you already have. With Python 3.12+ and pip, install the compiler:
pip install pyfun-lang
That puts the pyfun command on your PATH, with no Rust toolchain required. (The PyPI package is
pyfun-lang; the command it installs is pyfun.)
Write your first program. Save this as hello.pyfun:
type Shape = Circle float | Rect float float
let area s =
match s:
case Circle r: 3.14159 * r * r
case Rect w h: w * h
print (area (Circle 2.0))
Then run it, type-check it, or see the Python it becomes:
pyfun run hello.pyfun # 12.56636
pyfun check hello.pyfun # type-check, rustc-style diagnostics
pyfun compile hello.pyfun # emit readable Python to stdout
pyfun repl # interactive REPL
Multi-file projects just work: import Geometry pulls in a sibling geometry.pyfun, and any command
drives the whole graph. Clone the repo for a runnable tour in examples/, including a
multi-module project (pyfun run examples/modules/main.pyfun).
Building from source (or hacking on the compiler) needs Rust, which auto-selects the pinned 1.96 toolchain:
cargo install --git https://github.com/simontreanor/Pyfun pyfun
# or, from a clone: cargo install --path .
Editor support
Pyfun ships a dependency-free language server (pyfun lsp) and a VS Code client in
editors/vscode/. Over resilient analysis that survives a half-typed file, you get:
- Diagnostics as you type
- Hover showing the inferred type and effect of any expression, binding, or parameter
- Go-to-definition and find-references, across files
- Rename, project-wide, for values, constructors, and types
- Completion, document symbols, and workspace symbols
Build and install the extension from editors/vscode/; once pyfun is on your
PATH, it launches pyfun lsp automatically.
How it works
Pyfun is a dependency-free Rust crate that runs a classic pipeline, and the compiler is the gatekeeper: nothing is emitted until every check passes.
.pyfun ──► lexer ──► parser ──► Hindley–Milner type inference ──► Python-AST IR ──► readable .py
│ │ (+ effects, units, exhaustiveness) │
offside recursive lowered, not
rule descent string-spliced
- Type inference is full HM with let-generalization: you never annotate a value. The only
types you write are in
type/externdeclarations, and every signature is inferred. It also does unit-of-measure inference (abelian-group unification), effect-row inference, and Maranget-style exhaustiveness with concrete witnesses. - Lowering targets a Python-AST IR and emits real, formatted Python: curried functions
collapse to n-ary
defs and direct calls (closures only for genuine partial application), CEs desugar to their natural Python (async/await, generators, railwayResult), and units erase. - No CPython fork. Pyfun is a front end for the Python ecosystem, not a competing runtime.
The full language design and rationale live in DESIGN.md.
Status
MVP showcase complete and runnable: ADTs, records, tuples, computation expressions (including
user-defined builders), units of measure, mutability, inferred multi-label effects, general Python
FFI via extern, a module-qualified standard library, string interpolation, active patterns,
typed holes, file-based modules, and a full LSP. See ROADMAP.md for what's next.
This is a solo, actively-developed project: the MVP is feature-complete and runnable, but it's pre-1.0. Expect sharp edges; the language surface is stabilizing but not frozen.
License
Pyfun is free and open source under the Apache License 2.0: use, modify, and
redistribute it, including commercially. The accompanying NOTICE names Simon Treanor
as the original author; keep it with any redistribution or derivative work.
Copyright © 2026 Simon Treanor.
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Provenance
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Publisher:
wheels.yml on simontreanor/Pyfun
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refs/tags/v0.0.2 - Owner: https://github.com/simontreanor
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