Crates.io | ruast |
lib.rs | ruast |
version | 0.0.9 |
source | src |
created_at | 2023-07-05 08:30:02.900772 |
updated_at | 2024-11-18 16:26:32.847909 |
description | A printable & modifiable Rust AST |
homepage | https://docs.rs/ruast |
repository | https://github.com/mtshiba/ruast |
max_upload_size | |
id | 908707 |
size | 216,900 |
ruast
This crate provides a printable & modifiable Rust AST.
use ruast::*;
let mut krate = Crate::new();
let def = Fn::main(
None,
Block::from(
Path::single("println")
.mac_call(vec![Token::lit("Hello, world!")])
.semi(),
),
);
krate.add_item(def);
println!("{krate}");
// krate.dump("test.rs")?;
// krate.compile("test.rs", CompileOptions::default())?;
krate.remove_item_by_id("main");
assert!(krate.is_empty());
This is equivalent to:
use ruast::*;
let mut krate = Crate::new();
krate.add_item(Fn {
is_unsafe: false,
is_const: false,
is_async: false,
abi: None,
ident: "main".to_string(),
generics: vec![],
fn_decl: FnDecl::new(vec![], None),
body: Some(Block::from(Stmt::Semi(Semi::new(Expr::new(MacCall {
path: Path::single("println"),
args: DelimArgs::from(vec![Token::lit("Hello, world!")]),
}))))),
});
println!("{krate}");
// krate.dump("test.rs")?;
// krate.compile("test.rs", CompileOptions::default())?;
krate.remove_item_by_id("main");
assert!(krate.is_empty());
> cargo run --example hello
fn main() {
println!("Hello, world!");
}
The source code is available in the examples
directory.
use ruast::*;
let mut krate = Crate::new();
let def = StructDef::empty("Foo")
.with_field(FieldDef::inherited("foo", Type::from("u32")))
.with_field(FieldDef::inherited("bar", Type::from("u32")));
krate.add_item(def);
let imp = Impl::empty("Foo")
.with_item(Fn::empty_method("test", Pat::ref_self()));
krate.add_item(imp);
println!("{krate}");
use ruast::*;
let mut krate = Crate::new();
let def = EnumDef::empty("Foo")
.with_variant(Variant::empty("Bar"))
.with_variant(Variant::tuple("Baz", vec![FieldDef::anonymous("u32")]));
krate.add_item(def);
let imp = Impl::empty("Foo")
.with_item(Fn::empty_method("test", Pat::ref_self()));
krate.add_item(imp);
println!("{krate}");
use ruast::*;
let mut krate = Crate::new();
let partial_eq = Type::simple_path("PartialEq");
let trait_def = TraitDef::new("Eq", vec![], vec![partial_eq], vec![]);
krate.add_item(trait_def);
let arg_t = GenericArg::Type(Type::simple_path("T"));
let eq_bound = GenericBound::Trait(PolyTraitRef::simple("Eq"));
let eq = Type::simple_path("Eq");
let param_t = GenericParam::new("T", vec![eq_bound]);
let self_ty = Type::poly_path("Vec", vec![arg_t]);
let imp = Impl::trait_impl(vec![param_t], self_ty, eq, None, vec![]);
krate.add_item(imp);
println!("{krate}");
proc_macro2::TokenStream
By enabling a feature tokenize
, you can convert ruast
ASTs to proc_macro2::TokenStream
.
You can build ASTs systematically without using syn
or quote
macros.
use ruast::*;
let mut krate = Crate::new();
let def = Fn::main(
None,
Block::from(Path::single("println").mac_call(vec![Token::lit("Hello, world!")])),
);
krate.add_item(def);
let tokens = krate.to_token_stream();
println!("{krate}");
println!("{tokens}");
The Rust project has a submodule called rustc_ast
that defines an AST, but it is not published on crates.io and requires a huge build of rust
itself. Also, rustc_ast
is not designed for third parties to build ASTs by hand.
There is a codegen
crate for Rust code generation, but this crate has not been maintained for some time and only supports basic syntax elements.
There is also a syn
crate that can parse proc_macro::TokenStream
into an AST, but its AST elements don't implement Display
trait and are not designed for direct construction & modification.
The goal of this project is to provide a simple and portable Rust AST building/Rust code generation library.
This library is not directly related to the Rust compiler AST, and ASTs built with this library cannot be directly given as input to the compiler.
This project is licensed under either of Apache license version 2.0 or MIT license at your option.