use std::mem; use syntax::ast::{self, Ident}; use syntax::attr; use syntax::source_map::{ExpnInfo, ExpnKind, respan}; use syntax::ext::base::{ExtCtxt, MacroKind}; use syntax::ext::expand::ExpansionConfig; use syntax::ext::hygiene::ExpnId; use syntax::ext::proc_macro::is_proc_macro_attr; use syntax::mut_visit::MutVisitor; use syntax::parse::ParseSess; use syntax::ptr::P; use syntax::symbol::{kw, sym}; use syntax::visit::{self, Visitor}; use syntax_pos::{Span, DUMMY_SP}; struct ProcMacroDerive { trait_name: ast::Name, function_name: Ident, span: Span, attrs: Vec, } struct ProcMacroDef { function_name: Ident, span: Span, } struct CollectProcMacros<'a> { derives: Vec, attr_macros: Vec, bang_macros: Vec, in_root: bool, handler: &'a errors::Handler, is_proc_macro_crate: bool, is_test_crate: bool, } pub fn inject(sess: &ParseSess, resolver: &mut dyn (::syntax::ext::base::Resolver), mut krate: ast::Crate, is_proc_macro_crate: bool, has_proc_macro_decls: bool, is_test_crate: bool, num_crate_types: usize, handler: &errors::Handler) -> ast::Crate { let ecfg = ExpansionConfig::default("proc_macro".to_string()); let mut cx = ExtCtxt::new(sess, ecfg, resolver); let (derives, attr_macros, bang_macros) = { let mut collect = CollectProcMacros { derives: Vec::new(), attr_macros: Vec::new(), bang_macros: Vec::new(), in_root: true, handler, is_proc_macro_crate, is_test_crate, }; if has_proc_macro_decls || is_proc_macro_crate { visit::walk_crate(&mut collect, &krate); } (collect.derives, collect.attr_macros, collect.bang_macros) }; if !is_proc_macro_crate { return krate } if num_crate_types > 1 { handler.err("cannot mix `proc-macro` crate type with others"); } if is_test_crate { return krate; } krate.module.items.push(mk_decls(&mut cx, &derives, &attr_macros, &bang_macros)); krate } impl<'a> CollectProcMacros<'a> { fn check_not_pub_in_root(&self, vis: &ast::Visibility, sp: Span) { if self.is_proc_macro_crate && self.in_root && vis.node.is_pub() { self.handler.span_err(sp, "`proc-macro` crate types cannot \ export any items other than functions \ tagged with `#[proc_macro_derive]` currently"); } } fn collect_custom_derive(&mut self, item: &'a ast::Item, attr: &'a ast::Attribute) { // Once we've located the `#[proc_macro_derive]` attribute, verify // that it's of the form `#[proc_macro_derive(Foo)]` or // `#[proc_macro_derive(Foo, attributes(A, ..))]` let list = match attr.meta_item_list() { Some(list) => list, None => return, }; if list.len() != 1 && list.len() != 2 { self.handler.span_err(attr.span, "attribute must have either one or two arguments"); return } let trait_attr = match list[0].meta_item() { Some(meta_item) => meta_item, _ => { self.handler.span_err(list[0].span(), "not a meta item"); return } }; let trait_ident = match trait_attr.ident() { Some(trait_ident) if trait_attr.is_word() => trait_ident, _ => { self.handler.span_err(trait_attr.span, "must only be one word"); return } }; if !trait_ident.name.can_be_raw() { self.handler.span_err(trait_attr.span, &format!("`{}` cannot be a name of derive macro", trait_ident)); } let attributes_attr = list.get(1); let proc_attrs: Vec<_> = if let Some(attr) = attributes_attr { if !attr.check_name(sym::attributes) { self.handler.span_err(attr.span(), "second argument must be `attributes`") } attr.meta_item_list().unwrap_or_else(|| { self.handler.span_err(attr.span(), "attribute must be of form: `attributes(foo, bar)`"); &[] }).into_iter().filter_map(|attr| { let attr = match attr.meta_item() { Some(meta_item) => meta_item, _ => { self.handler.span_err(attr.span(), "not a meta item"); return None; } }; let ident = match attr.ident() { Some(ident) if attr.is_word() => ident, _ => { self.handler.span_err(attr.span, "must only be one word"); return None; } }; if !ident.name.can_be_raw() { self.handler.span_err( attr.span, &format!("`{}` cannot be a name of derive helper attribute", ident), ); } Some(ident.name) }).collect() } else { Vec::new() }; if self.in_root && item.vis.node.is_pub() { self.derives.push(ProcMacroDerive { span: item.span, trait_name: trait_ident.name, function_name: item.ident, attrs: proc_attrs, }); } else { let msg = if !self.in_root { "functions tagged with `#[proc_macro_derive]` must \ currently reside in the root of the crate" } else { "functions tagged with `#[proc_macro_derive]` must be `pub`" }; self.handler.span_err(item.span, msg); } } fn collect_attr_proc_macro(&mut self, item: &'a ast::Item) { if self.in_root && item.vis.node.is_pub() { self.attr_macros.push(ProcMacroDef { span: item.span, function_name: item.ident, }); } else { let msg = if !self.in_root { "functions tagged with `#[proc_macro_attribute]` must \ currently reside in the root of the crate" } else { "functions tagged with `#[proc_macro_attribute]` must be `pub`" }; self.handler.span_err(item.span, msg); } } fn collect_bang_proc_macro(&mut self, item: &'a ast::Item) { if self.in_root && item.vis.node.is_pub() { self.bang_macros.push(ProcMacroDef { span: item.span, function_name: item.ident, }); } else { let msg = if !self.in_root { "functions tagged with `#[proc_macro]` must \ currently reside in the root of the crate" } else { "functions tagged with `#[proc_macro]` must be `pub`" }; self.handler.span_err(item.span, msg); } } } impl<'a> Visitor<'a> for CollectProcMacros<'a> { fn visit_item(&mut self, item: &'a ast::Item) { if let ast::ItemKind::MacroDef(..) = item.node { if self.is_proc_macro_crate && attr::contains_name(&item.attrs, sym::macro_export) { let msg = "cannot export macro_rules! macros from a `proc-macro` crate type currently"; self.handler.span_err(item.span, msg); } } // First up, make sure we're checking a bare function. If we're not then // we're just not interested in this item. // // If we find one, try to locate a `#[proc_macro_derive]` attribute on it. let is_fn = match item.node { ast::ItemKind::Fn(..) => true, _ => false, }; let mut found_attr: Option<&'a ast::Attribute> = None; for attr in &item.attrs { if is_proc_macro_attr(&attr) { if let Some(prev_attr) = found_attr { let msg = if attr.path.segments[0].ident.name == prev_attr.path.segments[0].ident.name { format!("only one `#[{}]` attribute is allowed on any given function", attr.path) } else { format!("`#[{}]` and `#[{}]` attributes cannot both be applied \ to the same function", attr.path, prev_attr.path) }; self.handler.struct_span_err(attr.span, &msg) .span_note(prev_attr.span, "previous attribute here") .emit(); return; } found_attr = Some(attr); } } let attr = match found_attr { None => { self.check_not_pub_in_root(&item.vis, item.span); let prev_in_root = mem::replace(&mut self.in_root, false); visit::walk_item(self, item); self.in_root = prev_in_root; return; }, Some(attr) => attr, }; if !is_fn { let msg = format!("the `#[{}]` attribute may only be used on bare functions", attr.path); self.handler.span_err(attr.span, &msg); return; } if self.is_test_crate { return; } if !self.is_proc_macro_crate { let msg = format!("the `#[{}]` attribute is only usable with crates of the \ `proc-macro` crate type", attr.path); self.handler.span_err(attr.span, &msg); return; } if attr.check_name(sym::proc_macro_derive) { self.collect_custom_derive(item, attr); } else if attr.check_name(sym::proc_macro_attribute) { self.collect_attr_proc_macro(item); } else if attr.check_name(sym::proc_macro) { self.collect_bang_proc_macro(item); }; let prev_in_root = mem::replace(&mut self.in_root, false); visit::walk_item(self, item); self.in_root = prev_in_root; } fn visit_mac(&mut self, mac: &'a ast::Mac) { visit::walk_mac(self, mac) } } // Creates a new module which looks like: // // #[doc(hidden)] // mod $gensym { // extern crate proc_macro; // // use proc_macro::bridge::client::ProcMacro; // // #[rustc_proc_macro_decls] // static DECLS: &[ProcMacro] = &[ // ProcMacro::custom_derive($name_trait1, &[], ::$name1); // ProcMacro::custom_derive($name_trait2, &["attribute_name"], ::$name2); // // ... // ]; // } fn mk_decls( cx: &mut ExtCtxt<'_>, custom_derives: &[ProcMacroDerive], custom_attrs: &[ProcMacroDef], custom_macros: &[ProcMacroDef], ) -> P { let span = DUMMY_SP.fresh_expansion(ExpnId::root(), ExpnInfo::allow_unstable( ExpnKind::Macro(MacroKind::Attr, sym::proc_macro), DUMMY_SP, cx.parse_sess.edition, [sym::rustc_attrs, sym::proc_macro_internals][..].into(), )); let hidden = cx.meta_list_item_word(span, sym::hidden); let doc = cx.meta_list(span, sym::doc, vec![hidden]); let doc_hidden = cx.attribute(doc); let proc_macro = Ident::with_empty_ctxt(sym::proc_macro); let krate = cx.item(span, proc_macro, Vec::new(), ast::ItemKind::ExternCrate(None)); let bridge = Ident::from_str("bridge"); let client = Ident::from_str("client"); let proc_macro_ty = Ident::from_str("ProcMacro"); let custom_derive = Ident::from_str("custom_derive"); let attr = Ident::from_str("attr"); let bang = Ident::from_str("bang"); let crate_kw = Ident::with_empty_ctxt(kw::Crate); let decls = { let local_path = |sp: Span, name| { cx.expr_path(cx.path(sp.with_ctxt(span.ctxt()), vec![crate_kw, name])) }; let proc_macro_ty_method_path = |method| cx.expr_path(cx.path(span, vec![ proc_macro, bridge, client, proc_macro_ty, method, ])); custom_derives.iter().map(|cd| { cx.expr_call(span, proc_macro_ty_method_path(custom_derive), vec![ cx.expr_str(cd.span, cd.trait_name), cx.expr_vec_slice( span, cd.attrs.iter().map(|&s| cx.expr_str(cd.span, s)).collect::>() ), local_path(cd.span, cd.function_name), ]) }).chain(custom_attrs.iter().map(|ca| { cx.expr_call(span, proc_macro_ty_method_path(attr), vec![ cx.expr_str(ca.span, ca.function_name.name), local_path(ca.span, ca.function_name), ]) })).chain(custom_macros.iter().map(|cm| { cx.expr_call(span, proc_macro_ty_method_path(bang), vec![ cx.expr_str(cm.span, cm.function_name.name), local_path(cm.span, cm.function_name), ]) })).collect() }; let decls_static = cx.item_static( span, Ident::from_str("_DECLS"), cx.ty_rptr(span, cx.ty(span, ast::TyKind::Slice( cx.ty_path(cx.path(span, vec![proc_macro, bridge, client, proc_macro_ty])))), None, ast::Mutability::Immutable), ast::Mutability::Immutable, cx.expr_vec_slice(span, decls), ).map(|mut i| { let attr = cx.meta_word(span, sym::rustc_proc_macro_decls); i.attrs.push(cx.attribute(attr)); i.vis = respan(span, ast::VisibilityKind::Public); i }); let module = cx.item_mod( span, span, ast::Ident::from_str("decls").gensym(), vec![doc_hidden], vec![krate, decls_static], ).map(|mut i| { i.vis = respan(span, ast::VisibilityKind::Public); i }); cx.monotonic_expander().flat_map_item(module).pop().unwrap() }