WLambda is an embeddable dynamic scripting language for Rust, where every value can be called and the syntax is a blend of Perl, Lua, JavaScript and LISP/Scheme/Clojure.
Here are some of its properties:
unsafe.The embedding API and all internal operations rely on a data structure made of VVal nodes.
Here you can find the WLambda Language Reference.
```rust use wlambda::*;
match wlambda::compiler::eval("40 + 2") { Ok(v) => { println!("Output: {}", v.s()); }, Err(e) => { eprintln!("Error: {}", e); }, } ```
See further down below for more API usage examples!
Try out WLambda right away in the WASM WLambda Evaluator.
```wlambda !x = 10; # Variable definition
.x = 20; # Variable assignment ```
```wlambda !x = (1 + 2) * (8 - 4) / 2;
std:assert_eq x 6; ```
wlambda
? $true {
std:displayln "It's true!";
} {
std:displayln "It's false!";
};
```wlambda !x = 10 / 2;
? x == 5 { std:displayln "x == 5"; }; ```
```wlambda !x = 10;
while x > 0 { std:displayln x;
(x == 5) {
break[];
};
.x = x - 1;
}; ```
```wlambda !x = 10;
while x > 0 { std:displayln x;
? x == 5 {
# break is a function, first arg
# is the return value for `while`:
break[];
};
.x = x - 1;
};
std:assert_eq x 5; ```
```wlambda !sum = 0;
iter i $i(0, 10, 1) { .sum = sum + i; };
std:assert_eq sum 1 + 2 + 3 + 4 + 5 + 6 + 7 + 8 + 9; ```
```wlambda !x = 10;
while $true { std:displayln x; .x = x - 1; ? x == 0 break[]; }; ```
```wlambda !add = { _ + _1 }; # argument names _, _1, _2, ...
!result = add 2 3;
std:assert_eq result 5; ```
Different function call syntaxes:
```wlambda !add = {!(x, y) = @; # named variables, @ evals to list of all args x + y };
std:displayln[add[2, 3]]; # [] parenthesis calling syntax
std:displayln add[2, 3]; # less parenthesis
std:displayln (add 2 3); # explicit expression delimiting with ( ... )
std:displayln ~ add 2 3; # ~ means: evaluate rest as one expression
```
```wlambda
!test = \:retlabela {!(x) = @;
# an `if` is actually a call to another function, so we need to
# dynamically jump upwards the call stack to the given label:
? x > 10 {
return :ret_label_a x * 2;
};
};
std:assert_eq (test 11) 22; ```
```wlambda !v = $[1, 2, 3]; v.1 = 5;
std:assert_eq v.1 5;
std:asserteq (std:pop v) 3; std:asserteq (std:pop v) 5; std:assert_eq (std:pop v) 1; ```
```wlambda !sum = 0;
iter i $[1, 2, 3, 4] { .sum = sum + i; };
std:assert_eq sum 10; ```
```wlambda
!new_vec = $@vec iter i $i(0, 4) { $+ i; };
std:asserteq (str newvec) (str $[0,1,2,3]); ```
```wlambda !sum = $@int iter i $i(0, 4) { $+ i; };
std:assert_eq sum 1 + 2 + 3; ```
```wlambda !m = ${ a = 10, c = 2 };
m.b = m.a + m.c;
std:assert_eq m.b 12; ```
```wlambda !name = "Mr. X";
std:asserteq name.4 "X"; # index a character std:asserteq (name 0 3) "Mr."; # substring
!stuff = "日本人"; std:assert_eq stuff.0 "日"; # Unicode support ```
```wlambda !人 = "jin";
std:assert_eq 人 "jin"; ```
```wlambda !some_url = "http://crates.io/crates/wlambda";
!crate = $none; !domain = $none;
? ($r{$^ (^$+[^:]) \:\/\/ (^$*[^/]) \/crates\/ (^$+[a-z]) } some_url) { .domain = $.2; .crate = $.3; };
std:asserteq domain "crates.io"; std:asserteq crate "wlambda"; ```
```wlambda !MyClass = ${ new = { ${ _proto = $self, _data = ${ balance = 0, } } }, deposit = { $data.balance = $data.balance + _; }, };
!account1 = MyClass.new[];
account1.deposit 100; account1.deposit 50;
std:asserteq account1.data.balance 150; ```
```wlambda
!MyClass = { !self = ${ balance = 0, };
self.deposit = { self.balance = self.balance + _; };
$:self
};
!account1 = MyClass[];
account1.deposit 100; account1.deposit 50;
std:assert_eq account1.balance 150; ```
```txt
!@import std std; !@wlambda;
!@export print_ten = { std:displayln ~ str 10; }; ```
For import you do:
```txt !@import u util;
u:print_ten[] ```
That was just a quick glance at the WLambda syntax and semantics.
More details for the syntax and the provided global functions can be found in the WLambda Language Reference.
Currently there are many more examples in the test cases in tests/language.rs.
Here is how you can quickly evaluate a piece of WLambda code:
rust
let s = "$[1,2,3]";
let r = wlambda::compiler::eval(&s).unwrap();
println!("Res: {}", r.s());
If you want to quickly add some of your own functions,
you can use the GlobalEnv add_func method:
```rust use wlambda::vval::{VVal, VValFun, Env};
let globalenv = wlambda::GlobalEnv::newdefault(); globalenv.borrowmut().addfunc( "mycrazy_add", |env: &mut Env, _argc: usize| { Ok(VVal::Int( env.arg(0).i() * 11 + env.arg(1).i() * 13 )) }, Some(2), Some(2));
let mut ctx = wlambda::compiler::EvalContext::new(global_env);
// Please note, you can also add functions later on, // but this time directly to the EvalContext:
ctx.setglobalvar( "mycrazymul", &VValFun::new_fun(|env: &mut Env, _argc: usize| { Ok(VVal::Int( (env.arg(0).i() + 11) * (env.arg(1).i() + 13))) }, Some(2), Some(2), false));
let resadd : VVal = ctx.eval("mycrazyadd 2 4").unwrap(); asserteq!(res_add.i(), 74);
let resmul : VVal = ctx.eval("mycrazymul 2 4").unwrap(); asserteq!(res_mul.i(), 221); ```
```rust use wlambda::*;
let mut ctx = EvalContext::new_default();
ctx.eval("!x = 10").unwrap();
ctx.setglobalvar("y", &VVal::Int(32));
let r = ctx.eval("x + y").unwrap();
assert_eq!(r.s(), "42"); ```
There are several things that can be added more or less easily to WLambda. But I am currently working on making the language more complete for real world use. So my current goals are:
This project is licensed under the GNU General Public License Version 3 or later.
I (WeirdConstructor) herby promise to release WLambda under MIT / Apache-2.0 license if you use it in an open source / free software game (licensed under MIT and/or Apache-2.0) written in Rust (and WLambda) with a playable beta release, non trivial amount of content and enough gameplay to keep me occupied for at least 2 hours. You may use WLambda for your release as if it was released under MIT and/or Apache-2.0. Proper attribution as required by MIT and/or Apache-2.0.
Picking a license for my code bothered me for a long time. I read many discussions about this topic. Read the license explanations. And discussed this matter with other developers.
First about why I write code for free at all:
Those are the reasons why I write code for free. Now the reasons why I publish the code, when I could as well keep it to myself:
Most of those reasons don't yet justify GPL. The main point of the GPL, as far as I understand: The GPL makes sure the software stays free software until eternity. That the user of the software always stays in control. That the users have at least the means to adapt the software to new platforms or use cases. Even if the original authors don't maintain the software anymore. It ultimately prevents "vendor lock in". I really dislike vendor lock in, especially as developer. Especially as developer I want and need to stay in control of the computers I use.
Another point is, that my work has a value. If I give away my work without any strings attached, I effectively work for free. Work for free for companies. I would compromise the price I can demand for my skill, workforce and time.
This makes two reasons for me to choose the GPL:
Please contact me if you need a different license and really want to use my code. As long as I am the only author, I can change the license. We might find an agreement.
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in WLambda by you, shall be licensed as GPLv3 or later, without any additional terms or conditions.
WeirdConstructor on the Rust Discord.)