Crate interoptopus

Interoptopus 🐙

The polyglot bindings generator for your library.

Write a robust library in Rust, easily access it from your second-favorite language:

• Design a single .dll / .so in Rust, consume it from anywhere.
• Get QoL features (e.g., classes, strings) in languages that have them.
• Always have a sane, C-compatible API.
• Painless workflow, no external tooling required.
• Easy to support more languages, backends fully decoupled from main project.

We strive to make our generated bindings zero cost. They should be as idiomatic as you could have reasonably written them yourself, but never magic or hiding the interface you actually wanted to expose.

Code you write …

use interoptopus::{ffi_function, ffi_type, Inventory, InventoryBuilder, function};

#[ffi_type]
#[repr(C)]
pub struct Vec2 {
    pub x: f32,
    pub y: f32,
}

#[ffi_function]
#[no_mangle]
pub extern "C" fn my_function(input: Vec2) {
    println!("{}", input.x);
}

// Define our FFI interface as `ffi_inventory` containing
// a single function `my_function`. Types are inferred.
pub fn ffi_inventory() -> Inventory {
    InventoryBuilder::new()
        .register(function!(my_function))
        .inventory()
}

… Interoptopus generates

Language	Crate	Sample Output1
C#	interoptopus_backend_csharp	Interop.cs
C	interoptopus_backend_c	my_header.h
Python	interoptopus_backend_cpython	reference.py
Other	Write your own backend2	-

¹ For the reference project.
² Add support for a new language in just a few hours. No pull request needed. Pinkie promise.

Getting Started 🍼

If you want to …

• create a new API see the hello world,
• understand what’s possible, see the reference project,
• support a new language, copy the C backend.

Supported Rust Constructs

See the reference project for an overview:

• functions (extern "C" functions and delegates)
• types (composites, enums, opaques, references, …)
• constants (primitive constants; results of const evaluation)
• patterns (ASCII pointers, options, slices, classes, …)

Performance 🏁

Generated low-level bindings are zero cost w.r.t. hand-crafted bindings for that language.

That said, even hand-crafted bindings encounter some target-specific overhead at the FFI boundary (e.g., marshalling or pinning in managed languages). For C# that cost is often nanoseconds, for Python CFFI it can be microseconds.

While ultimately there is nothing you can do about a language’s FFI performance, being aware of call costs can help you design better APIs.

Detailed call cost tables can be found here: ^🔥

• C# call overhead
• Python call overhead

For a quick overview, this table lists the most common call types in ns / call:

Construct	C#	Python
primitive_void()	7	272
primitive_u32(0)	8	392
many_args_5(0, 0, 0, 0, 0)	10	786
callback(x => x, 0)	43	1168

Feature Flags

Gated behind feature flags, these enable:

• derive - Proc macros such as ffi_type, …
• serde - Serde attributes on internal types.
• log - Invoke log on FFI errors.

Changelog

• v0.14 - Better inventory UX.
• v0.13 - Python backend uses ctypes now.
• v0.12 - Better compat using #[ffi_service_method].
• v0.11 - C# switch ctors to static methods.
• v0.10 - C# flavors DotNet and Unity (incl. Burst).
• v0.9 - 150x faster C# slices, Python type hints.
• v0.8 - Moved testing functions to respective backends.
• v0.7 - Make patterns proc macros for better FFI docs.
• v0.6 - Renamed and clarified many patterns.
• v0.5 - More ergonomic slice usage in Rust and FFI.
• v0.4 - Enable logging support in auto-generated FFI calls.
• v0.3 - Better compatibility with generics.
• v0.2 - Introduced “patterns”; working interop for C#.
• v0.1 - First version.

Also see our upgrade instructions.

FAQ

• FAQ and Safety Guides.

Contributing

PRs are welcome.

• Submit small bug fixes directly. Major changes should be issues first.
• Anything that makes previously working bindings change behavior or stop compiling is a major change;
• This doesn’t mean we’re opposed to breaking stuff just that we’d like to talk about it before it happens.
• New features or patterns must be materialized in the reference project and accompanied by an interop test (i.e., a backend test running C# / Python against a DLL invoking that code) in at least one included backend.

Modules

• lang
  Abstractions for authors of backends.
• patterns
  Optional types that translate to binding with better semantics in languages supporting them.
• testing
  Test generated bindings for various languages.
• util
  Helpers for backend authors.
• writer
  Types used by backends to produce pretty output.

Macros

• callback
  Defines a callback type, akin to a fn f(T) -> R wrapped in an Option.
• constant
  Register a constant with an InventoryBuilder.
• extra_type
  Register an extra type with an InventoryBuilder.
• function
  Register a function with an InventoryBuilder.
• here
  Debug macro resolving to the current file and line number.
• indented
  Writes a line of code, possibly with multiple indentations. Used in backends.
• pattern
  Register a pattern with an InventoryBuilder.
• unindented
  Writes an unindented line of code. Used in backends.

Structs

• Inventory
  Represents all FFI-relevant items, produced via InventoryBuilder, ingested by backends.
• InventoryBuilder
  Produces a Inventory inside your inventory function, start here.

Enums

• Error
  Can be observed if something goes wrong.
• InventoryItem
  References to items contained within an Inventory.
• Symbol
  Tells the InventoryBuilder what to register.

Traits

• Interop
  Main entry point for backends to generate language bindings.

Functions

• merge_inventories
  Create a single Inventory from a number of individual inventories.
• non_service_functions
  Returns all functions not belonging to a service pattern.

Attribute Macros

• ffi_constantderive
  Enables a const to appear in generated bindings.
• ffi_functionderive
  Enable an extern "C" function to appear in generated bindings.
• ffi_servicederive
  Creates a FFI service from an impl Service {} block.
• ffi_service_ctorderive
  Inside a #[ffi_service] block, mark the FFI constructor.
• ffi_service_ignorederive
  Inside a #[ffi_service] block, don’t emit code for a method.
• ffi_service_methodderive
  Inside a #[ffi_service] block, configure the generated FFI helper.
• ffi_surrogatesderive
  On methods and structs, provide a type helper for foreign types.^⚠️
• ffi_typederive
  Enable a struct or enum to appear in generated bindings.