genco
A whitespace-aware quasiquoter for beautiful code generation.
Central to genco are the quote! and quote_in! procedural macros which ease the construction of token streams.
This project solves the following language-specific concerns:
-
Imports โ Generates and groups import statements as they are used. So you only import what you use, with no redundancy. We also do our best to solve namespace conflicts.
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String Quoting โ genco knows how to quote strings. And can even interpolate values into the quoted string if it's supported by the language.
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Structural Indentation โ The quoter relies on intuitive whitespace detection to structurally sort out spacings and indentation. Allowing genco to generate beautiful readable code with minimal effort. This is also a requirement for generating correctly behaving code in languages like Python where indentation is meaningful.
-
Language Customization โ Building support for new languages is a piece of cake with the help of the impl_lang! macro.
To support line changes during whitespace detection, we depend on the
nightly proc_macro_span
feature. On stable we can only detect column
changes.
Until this is stabilized and you want fully functional whitespace
detection you must build and run projects using genco with a nightly
compiler. This is important for whitespace-sensitive languages like python.
You can try the difference between:
cargo run --example rust
And:
cargo +nightly run --example rust
Supported Languages
The following are languages which have built-in support in genco.
-
๐ Python
Example
Requires anightly
compiler
Is your favorite language missing? Open an issue!
You can run one of the examples by:
cargo +nightly run --example rust
Rust Example
The following is a simple program producing Rust code to stdout with custom configuration:
use genco::prelude::*;
let hash_map = rust::import("std::collections", "HashMap");
let tokens: rust::Tokens = quote! {
fn main() {
let mut m = #hash_map::new();
m.insert(1u32, 2u32);
}
};
println!("{}", tokens.to_file_string()?);
This would produce:
use std::collections::HashMap;
fn main() {
let mut m = HashMap::new();
m.insert(1u32, 2u32);
}