#[doc( brief = "The attribute parsing pass", desc = "Traverses the document tree, pulling relevant documention out of the \ corresponding AST nodes. The information gathered here is the basis \ of the natural-language documentation for a crate." )]; import syntax::ast; import syntax::ast_map; import std::map::hashmap; export mk_pass; fn mk_pass() -> pass { { name: "attr", f: run } } fn run( srv: astsrv::srv, doc: doc::doc ) -> doc::doc { let fold = fold::fold({ fold_crate: fold_crate, fold_item: fold_item, fold_enum: fold_enum, fold_iface: fold_iface, fold_impl: fold_impl with *fold::default_any_fold(srv) }); fold.fold_doc(fold, doc) } fn fold_crate( fold: fold::fold, doc: doc::cratedoc ) -> doc::cratedoc { let srv = fold.ctxt; let doc = fold::default_seq_fold_crate(fold, doc); let attrs = astsrv::exec(srv) {|ctxt| let attrs = ctxt.ast.node.attrs; attr_parser::parse_crate(attrs) }; { topmod: { item: { name: option::get_default(attrs.name, doc.topmod.name()) with doc.topmod.item } with doc.topmod } } } #[test] fn should_replace_top_module_name_with_crate_name() { let doc = test::mk_doc("#[link(name = \"bond\")];"); assert doc.cratemod().name() == "bond"; } fn fold_item( fold: fold::fold, doc: doc::itemdoc ) -> doc::itemdoc { let srv = fold.ctxt; let doc = fold::default_seq_fold_item(fold, doc); let desc = if doc.id == ast::crate_node_id { // This is the top-level mod, use the crate attributes astsrv::exec(srv) {|ctxt| attr_parser::parse_desc(ctxt.ast.node.attrs) } } else { parse_item_attrs(srv, doc.id, attr_parser::parse_desc) }; { desc: desc with doc } } fn parse_item_attrs( srv: astsrv::srv, id: doc::ast_id, +parse_attrs: fn~([ast::attribute]) -> T) -> T { astsrv::exec(srv) {|ctxt| let attrs = alt ctxt.ast_map.get(id) { ast_map::node_item(item, _) { item.attrs } ast_map::node_native_item(item, _, _) { item.attrs } _ { fail "parse_item_attrs: not an item"; } }; parse_attrs(attrs) } } #[test] fn should_should_extract_mod_attributes() { let doc = test::mk_doc("#[doc = \"test\"] mod a { }"); assert doc.cratemod().mods()[0].desc() == some("test"); } #[test] fn should_extract_top_mod_attributes() { let doc = test::mk_doc("#[doc = \"test\"];"); assert doc.cratemod().desc() == some("test"); } #[test] fn should_extract_native_mod_attributes() { let doc = test::mk_doc("#[doc = \"test\"] native mod a { }"); assert doc.cratemod().nmods()[0].desc() == some("test"); } #[test] fn should_extract_native_fn_attributes() { let doc = test::mk_doc("native mod a { #[doc = \"test\"] fn a(); }"); assert doc.cratemod().nmods()[0].fns[0].desc() == some("test"); } #[test] fn should_extract_fn_attributes() { let doc = test::mk_doc("#[doc = \"test\"] fn a() -> int { }"); assert doc.cratemod().fns()[0].desc() == some("test"); } fn fold_enum( fold: fold::fold, doc: doc::enumdoc ) -> doc::enumdoc { let srv = fold.ctxt; let doc_id = doc.id(); let doc = fold::default_seq_fold_enum(fold, doc); { variants: par::anymap(doc.variants) {|variant| let desc = astsrv::exec(srv) {|ctxt| alt check ctxt.ast_map.get(doc_id) { ast_map::node_item(@{ node: ast::item_enum(ast_variants, _, _), _ }, _) { let ast_variant = option::get( vec::find(ast_variants) {|v| *v.node.name == variant.name }); attr_parser::parse_desc(ast_variant.node.attrs) } } }; { desc: desc with variant } } with doc } } #[test] fn should_extract_enum_docs() { let doc = test::mk_doc("#[doc = \"b\"]\ enum a { v }"); assert doc.cratemod().enums()[0].desc() == some("b"); } #[test] fn should_extract_variant_docs() { let doc = test::mk_doc("enum a { #[doc = \"c\"] v }"); assert doc.cratemod().enums()[0].variants[0].desc == some("c"); } fn fold_iface( fold: fold::fold, doc: doc::ifacedoc ) -> doc::ifacedoc { let srv = fold.ctxt; let doc = fold::default_seq_fold_iface(fold, doc); { methods: merge_method_attrs(srv, doc.id(), doc.methods) with doc } } fn merge_method_attrs( srv: astsrv::srv, item_id: doc::ast_id, docs: [doc::methoddoc] ) -> [doc::methoddoc] { // Create an assoc list from method name to attributes let attrs: [(str, option)] = astsrv::exec(srv) {|ctxt| alt ctxt.ast_map.get(item_id) { ast_map::node_item(@{ node: ast::item_iface(_, _, methods), _ }, _) { par::seqmap(methods) {|method| (*method.ident, attr_parser::parse_desc(method.attrs)) } } ast_map::node_item(@{ node: ast::item_impl(_, _, _, _, methods), _ }, _) { par::seqmap(methods) {|method| (*method.ident, attr_parser::parse_desc(method.attrs)) } } _ { fail "unexpected item" } } }; vec::map2(docs, attrs) {|doc, attrs| assert doc.name == tuple::first(attrs); let desc = tuple::second(attrs); { desc: desc with doc } } } #[test] fn should_extract_iface_docs() { let doc = test::mk_doc("#[doc = \"whatever\"] iface i { fn a(); }"); assert doc.cratemod().ifaces()[0].desc() == some("whatever"); } #[test] fn should_extract_iface_method_docs() { let doc = test::mk_doc( "iface i {\ #[doc = \"desc\"]\ fn f(a: bool) -> bool;\ }"); assert doc.cratemod().ifaces()[0].methods[0].desc == some("desc"); } fn fold_impl( fold: fold::fold, doc: doc::impldoc ) -> doc::impldoc { let srv = fold.ctxt; let doc = fold::default_seq_fold_impl(fold, doc); { methods: merge_method_attrs(srv, doc.id(), doc.methods) with doc } } #[test] fn should_extract_impl_docs() { let doc = test::mk_doc( "#[doc = \"whatever\"] impl i for int { fn a() { } }"); assert doc.cratemod().impls()[0].desc() == some("whatever"); } #[test] fn should_extract_impl_method_docs() { let doc = test::mk_doc( "impl i for int {\ #[doc = \"desc\"]\ fn f(a: bool) -> bool { }\ }"); assert doc.cratemod().impls()[0].methods[0].desc == some("desc"); } #[cfg(test)] mod test { fn mk_doc(source: str) -> doc::doc { astsrv::from_str(source) {|srv| let doc = extract::from_srv(srv, ""); run(srv, doc) } } }