803d2008d9
* remove ≔ from the language and replace it by := * revert accidental changes in juvix input mode * update stdlib submodule * rename ℕ by Nat in the tests and examples * fix shell tests |
||
---|---|---|
.github | ||
app | ||
assets | ||
c-runtime | ||
docker | ||
docs/org | ||
examples/milestone | ||
juvix-mode | ||
juvix-stdlib@2c76589027 | ||
licenses | ||
src/Juvix | ||
test | ||
tests | ||
.github_changelog_generator | ||
.gitignore | ||
.gitmodules | ||
.hlint.yaml | ||
.pre-commit-config.yaml | ||
.pre-commit-hooks.yaml | ||
book.toml | ||
changelog.org | ||
hie.yaml | ||
LICENSE | ||
Makefile | ||
package.yaml | ||
README.org | ||
stack.yaml |
Juvix
<a href="https://github.com/anoma/juvix/actions/workflows/ci.yml"> <img alt="CI status" src="" /> </a>
<a href="https://github.com/anoma/juvix/actions/workflows/pages/pages-build-deployment"><img src="" alt="pages-build-deployment" /></a>
<a href="https://github.com/anoma/juvix/tags"> <img alt="" src="https://img.shields.io/github/v/release/anoma/juvix?include_prereleases" /> </a>
<a href="https://github.com/anoma/juvix/blob/main/LICENSE"> <img alt="LICENSE" src="" /> </a>
<a href="https://github.com/anoma/juvix"> <img align="right" width="300" height="300" alt="Juvix Mascot" src="assets/seating-mascot.051c86a.svg" /> </a>
Description
Juvix is a research programming language created by Heliax as a first step toward creating more robust and reliable alternatives for formally verified smart contracts than existing languages. The Juvix language is constantly evolving, open-source, functional, and statically typed with special support for compiling validity predicates to the C
language, which can be deployed to various distributed ledgers including Anoma.
The Juvix language and related tools are documented in the Juvix book. To write
and test Juvix programs, you can use your favorite text editor and the juvix
command line tool. However, we recommend using the juvix-mode
in Emacs or the
plugin in VSCode.
First examples of programs written in Juvix
The following links are clickable versions of their corresponding Juvix programs. The HTML output is generated by running juvix html --recursive FileName.juvix
.
- HelloWorld.juvix
- Fibonacci.juvix
- Hanoi.juvix
- PascalsTriangle.juvix
- Collatz.juvix
- TicTacToe.juvix
- SimpleFungibleToken.juvix
The Juvix standard library contains common functions that can be used in Juvix programs.
Installation
MacOS
The easiest way to install Juvix on MacOS is by using Homebrew.
To install the homebrew-juvix tap, run:
brew tap anoma/juvix
To install Juvix, run:
brew install juvix
Helpful information on the shell can also be obtained by running:
brew info juvix
Linux x86_64
A binary executable is available on the Juvix release page.
Building Juvix from source
To install Juvix from source you must clone the Github repository. Then Juvix can be installed with the following commands. We assume you have Stack installed.
git clone --recursive https://github.com/anoma/juvix.git
cd juvix
stack install
On MacOS you can alternatively run the following command for Homebrew. The flag
--HEAD
used below is optional, use it to build the latest version of Juvix in
the main
branch on Github.
brew install --build-from-source --HEAD juvix --verbose
Quick Start
After installation run juvix --help
to see the list of commands available. See
CLI usage examples for descriptions of common tasks.
Run Juvix doctor to check your system setup:
juvix doctor
The Hello World example
This is the Juvix source code of the traditional Hello World program.
-- HelloWorld.juvix
module HelloWorld;
open import Stdlib.Prelude;
main : IO;
main := putStrLn "hello world!";
end;
To compile and run a binary generated by Juvix, save the source code to a file
called HelloWorld.juvix
and run the following command from the directory
containing it:
juvix compile HelloWorld.juvix
./HelloWorld
You should see the output: hello world!
The source code can also be compiled to a WebAssembly binary. This requires some
additional setup. See Installing dependencies in the documentation for more
information. You can also run juvix doctor
to check your setup.
juvix compile --target wasm HelloWorld.juvix
wasmer HelloWorld.wasm
The Juvix programming language
Juvix allows us to write programs with a high degree of assurance. The Juvix compiler runs several static analyses during the compilation phase to guarantee no runtime errors. Analyses permormed during this phase include scope, termination, arity, and type checkiqng. As a result, functional programs, especially validity predicates, can be written with greater confidence that they will be free of runtime errors.
Some of the language features in Juvix include:
- unicode syntax
- parametric polymorphism
- inductive and parametric data types
- higher-order functions
- implicit arguments
- holes in expressions
- axioms for non-computable terms
Additionally, the foreign and compile blocks syntax enable developers to compile
a program to different backends including the C
language. The Juvix module
system further permits splitting programs into several modules to build
libraries which can be later documented by generating HTML files based on the
codebase, see for example, the Juvix
standard library's website. For futher details, please refer to
the Juvix book which includes our
latest updates.
Coming soon
For the language:
- lambda expressions
let
expressions- tail call optimization
- inference for mutually recursive functions
- compilation to circuits
- coverage checking (i.e. exhaustiveness and useless clauses)
For the compiler:
- Init command
- Better documentation tool:
juvix doc MyFile.juvix
Community
We would love to hear what you think of Juvix! Join us on the Anoma Discord.