//! Proc macro ABI use libloading::Library; use proc_macro_api::{ProcMacroKind, RustCInfo}; use crate::{dylib::LoadProcMacroDylibError, server::SYMBOL_INTERNER, tt}; pub(crate) struct ProcMacros { exported_macros: Vec, } impl From for crate::PanicMessage { fn from(p: proc_macro::bridge::PanicMessage) -> Self { Self { message: p.as_str().map(|s| s.to_string()) } } } impl ProcMacros { /// Load a new ABI. /// /// # Arguments /// /// *`lib` - The dynamic library containing the macro implementations /// *`symbol_name` - The symbol name the macros can be found attributes /// *`info` - RustCInfo about the compiler that was used to compile the /// macro crate. This is the information we use to figure out /// which ABI to return pub(crate) fn from_lib( lib: &Library, symbol_name: String, info: RustCInfo, ) -> Result { if info.version_string == crate::RUSTC_VERSION_STRING { let macros = unsafe { lib.get::<&&[proc_macro::bridge::client::ProcMacro]>(symbol_name.as_bytes()) }?; return Ok(Self { exported_macros: macros.to_vec() }); } Err(LoadProcMacroDylibError::AbiMismatch(info.version_string)) } pub(crate) fn expand( &self, macro_name: &str, macro_body: &tt::Subtree, attributes: Option<&tt::Subtree>, ) -> Result { let parsed_body = crate::server::TokenStream::with_subtree(macro_body.clone()); let parsed_attributes = attributes.map_or(crate::server::TokenStream::new(), |attr| { crate::server::TokenStream::with_subtree(attr.clone()) }); for proc_macro in &self.exported_macros { match proc_macro { proc_macro::bridge::client::ProcMacro::CustomDerive { trait_name, client, .. } if *trait_name == macro_name => { let res = client.run( &proc_macro::bridge::server::SameThread, crate::server::RustAnalyzer { interner: &SYMBOL_INTERNER }, parsed_body, true, ); return res.map(|it| it.into_subtree()).map_err(crate::PanicMessage::from); } proc_macro::bridge::client::ProcMacro::Bang { name, client } if *name == macro_name => { let res = client.run( &proc_macro::bridge::server::SameThread, crate::server::RustAnalyzer { interner: &SYMBOL_INTERNER }, parsed_body, true, ); return res.map(|it| it.into_subtree()).map_err(crate::PanicMessage::from); } proc_macro::bridge::client::ProcMacro::Attr { name, client } if *name == macro_name => { let res = client.run( &proc_macro::bridge::server::SameThread, crate::server::RustAnalyzer { interner: &SYMBOL_INTERNER }, parsed_attributes, parsed_body, true, ); return res.map(|it| it.into_subtree()).map_err(crate::PanicMessage::from); } _ => continue, } } Err(proc_macro::bridge::PanicMessage::String("Nothing to expand".to_string()).into()) } pub(crate) fn list_macros(&self) -> Vec<(String, ProcMacroKind)> { self.exported_macros .iter() .map(|proc_macro| match proc_macro { proc_macro::bridge::client::ProcMacro::CustomDerive { trait_name, .. } => { (trait_name.to_string(), ProcMacroKind::CustomDerive) } proc_macro::bridge::client::ProcMacro::Bang { name, .. } => { (name.to_string(), ProcMacroKind::FuncLike) } proc_macro::bridge::client::ProcMacro::Attr { name, .. } => { (name.to_string(), ProcMacroKind::Attr) } }) .collect() } } #[test] fn test_version_check() { let path = paths::AbsPathBuf::assert(crate::proc_macro_test_dylib_path()); let info = proc_macro_api::read_dylib_info(&path).unwrap(); assert_eq!( info.version_string, crate::RUSTC_VERSION_STRING, "sysroot ABI mismatch: dylib rustc version (read from .rustc section): {:?} != proc-macro-srv version (read from 'rustc --version'): {:?}", info.version_string, crate::RUSTC_VERSION_STRING, ); }