extern crate syn_impersonated as syn; extern crate quote_impersonated as quote; extern crate proc_macro2_impersonated as proc_macro2; mod features; use proc_macro2::TokenStream; use syn::parse::{Parse, ParseStream}; use syn::{Result, Visibility}; #[derive(Debug)] struct VisRest { vis: Visibility, rest: TokenStream, } impl Parse for VisRest { fn parse(input: ParseStream) -> Result { Ok(VisRest { vis: input.parse()?, rest: input.parse()?, }) } } macro_rules! assert_vis_parse { ($input:expr, Ok($p:pat)) => { assert_vis_parse!($input, Ok($p) + ""); }; ($input:expr, Ok($p:pat) + $rest:expr) => { let expected = $rest.parse::().unwrap(); let parse: VisRest = syn::parse_str($input).unwrap(); match parse.vis { $p => {} _ => panic!("Expected {}, got {:?}", stringify!($p), parse.vis), } // NOTE: Round-trips through `to_string` to avoid potential whitespace // diffs. assert_eq!(parse.rest.to_string(), expected.to_string()); }; ($input:expr, Err) => { syn::parse2::($input.parse().unwrap()).unwrap_err(); }; } #[test] fn test_pub() { assert_vis_parse!("pub", Ok(Visibility::Public(_))); } #[test] fn test_crate() { assert_vis_parse!("crate", Ok(Visibility::Crate(_))); } #[test] fn test_inherited() { assert_vis_parse!("", Ok(Visibility::Inherited)); } #[test] fn test_in() { assert_vis_parse!("pub(in foo::bar)", Ok(Visibility::Restricted(_))); } #[test] fn test_pub_crate() { assert_vis_parse!("pub(crate)", Ok(Visibility::Restricted(_))); } #[test] fn test_pub_self() { assert_vis_parse!("pub(self)", Ok(Visibility::Restricted(_))); } #[test] fn test_pub_super() { assert_vis_parse!("pub(super)", Ok(Visibility::Restricted(_))); } #[test] fn test_missing_in() { assert_vis_parse!("pub(foo::bar)", Ok(Visibility::Public(_)) + "(foo::bar)"); } #[test] fn test_missing_in_path() { assert_vis_parse!("pub(in)", Err); } #[test] fn test_crate_path() { assert_vis_parse!("pub(crate::A, crate::B)", Ok(Visibility::Public(_)) + "(crate::A, crate::B)"); } #[test] fn test_junk_after_in() { assert_vis_parse!("pub(in some::path @@garbage)", Err); }