// Decoding metadata from a single crate's metadata import std::{ebml, map}; import std::map::{hashmap, str_hash}; import io::WriterUtil; import dvec::{DVec, dvec}; import syntax::{ast, ast_util}; import syntax::attr; import middle::ty; import syntax::ast_map; import tydecode::{parse_ty_data, parse_def_id, parse_bounds_data, parse_ident}; import syntax::print::pprust; import cmd=cstore::crate_metadata; import util::ppaux::ty_to_str; import syntax::diagnostic::span_handler; import common::*; import syntax::parse::token::ident_interner; export class_dtor; export get_class_fields; export get_symbol; export get_enum_variants; export get_type; export get_region_param; export get_type_param_count; export get_impl_traits; export get_class_method; export get_impl_method; export lookup_def; export resolve_path; export get_crate_attributes; export list_crate_metadata; export crate_dep; export get_crate_deps; export get_crate_hash; export get_crate_vers; export get_impls_for_mod; export get_trait_methods; export get_method_names_if_trait; export get_item_attrs; export get_crate_module_paths; export def_like; export dl_def; export dl_impl; export dl_field; export path_entry; export each_path; export get_item_path; export maybe_find_item; // sketchy export item_type; // sketchy export maybe_get_item_ast; export decode_inlined_item; export method_info, _impl; // Used internally by astencode: export translate_def_id; // A function that takes a def_id relative to the crate being searched and // returns a def_id relative to the compilation environment, i.e. if we hit a // def_id for an item defined in another crate, somebody needs to figure out // what crate that's in and give us a def_id that makes sense for the current // build. fn lookup_hash(d: ebml::doc, eq_fn: fn(x:&[u8]) -> bool, hash: uint) -> option { let index = ebml::get_doc(d, tag_index); let table = ebml::get_doc(index, tag_index_table); let hash_pos = table.start + hash % 256u * 4u; let pos = io::u64_from_be_bytes(*d.data, hash_pos, 4u) as uint; let {tag:_, doc:bucket} = ebml::doc_at(d.data, pos); let belt = tag_index_buckets_bucket_elt; for ebml::tagged_docs(bucket, belt) |elt| { let pos = io::u64_from_be_bytes(*elt.data, elt.start, 4u) as uint; if eq_fn(vec::view(*elt.data, elt.start + 4u, elt.end)) { return some(ebml::doc_at(d.data, pos).doc); } }; none } fn maybe_find_item(item_id: int, items: ebml::doc) -> option { fn eq_item(bytes: &[u8], item_id: int) -> bool { return io::u64_from_be_bytes(vec::view(bytes, 0u, 4u), 0u, 4u) as int == item_id; } lookup_hash(items, |a| eq_item(a, item_id), hash_node_id(item_id)) } fn find_item(item_id: int, items: ebml::doc) -> ebml::doc { return option::get(maybe_find_item(item_id, items)); } // Looks up an item in the given metadata and returns an ebml doc pointing // to the item data. fn lookup_item(item_id: int, data: @~[u8]) -> ebml::doc { let items = ebml::get_doc(ebml::doc(data), tag_items); match maybe_find_item(item_id, items) { none => fail(fmt!("lookup_item: id not found: %d", item_id)), some(d) => d } } enum Family { Const, // c Fn, // f UnsafeFn, // u PureFn, // p StaticMethod, // F UnsafeStaticMethod, // U PureStaticMethod, // P ForeignFn, // e Type, // y ForeignType, // T Mod, // m ForeignMod, // n Enum, // t Variant, // v Impl, // i Trait, // I Class, // C Struct, // S PublicField, // g PrivateField, // j InheritedField // N } fn item_family(item: ebml::doc) -> Family { let fam = ebml::get_doc(item, tag_items_data_item_family); match ebml::doc_as_u8(fam) as char { 'c' => Const, 'f' => Fn, 'u' => UnsafeFn, 'p' => PureFn, 'F' => StaticMethod, 'U' => UnsafeStaticMethod, 'P' => PureStaticMethod, 'e' => ForeignFn, 'y' => Type, 'T' => ForeignType, 'm' => Mod, 'n' => ForeignMod, 't' => Enum, 'v' => Variant, 'i' => Impl, 'I' => Trait, 'C' => Class, 'S' => Struct, 'g' => PublicField, 'j' => PrivateField, 'N' => InheritedField, c => fail (#fmt("unexpected family char: %c", c)) } } fn item_symbol(item: ebml::doc) -> ~str { let sym = ebml::get_doc(item, tag_items_data_item_symbol); return str::from_bytes(ebml::doc_data(sym)); } fn item_parent_item(d: ebml::doc) -> option { for ebml::tagged_docs(d, tag_items_data_parent_item) |did| { return some(ebml::with_doc_data(did, |d| parse_def_id(d))); } none } fn item_def_id(d: ebml::doc, cdata: cmd) -> ast::def_id { let tagdoc = ebml::get_doc(d, tag_def_id); return translate_def_id(cdata, ebml::with_doc_data(tagdoc, |d| parse_def_id(d))); } fn each_reexport(d: ebml::doc, f: fn(ebml::doc) -> bool) { for ebml::tagged_docs(d, tag_items_data_item_reexport) |reexport_doc| { if !f(reexport_doc) { return; } } } fn field_mutability(d: ebml::doc) -> ast::class_mutability { // Use maybe_get_doc in case it's a method option::map_default( ebml::maybe_get_doc(d, tag_class_mut), ast::class_immutable, |d| { match ebml::doc_as_u8(d) as char { 'm' => ast::class_mutable, _ => ast::class_immutable } }) } fn variant_disr_val(d: ebml::doc) -> option { do option::chain(ebml::maybe_get_doc(d, tag_disr_val)) |val_doc| { int::parse_buf(ebml::doc_data(val_doc), 10u) } } fn doc_type(doc: ebml::doc, tcx: ty::ctxt, cdata: cmd) -> ty::t { let tp = ebml::get_doc(doc, tag_items_data_item_type); parse_ty_data(tp.data, cdata.cnum, tp.start, tcx, |did| { translate_def_id(cdata, did) }) } fn item_type(item_id: ast::def_id, item: ebml::doc, tcx: ty::ctxt, cdata: cmd) -> ty::t { let t = doc_type(item, tcx, cdata); if family_names_type(item_family(item)) { ty::mk_with_id(tcx, t, item_id) } else { t } } fn item_impl_traits(item: ebml::doc, tcx: ty::ctxt, cdata: cmd) -> ~[ty::t] { let mut results = ~[]; for ebml::tagged_docs(item, tag_impl_trait) |ity| { vec::push(results, doc_type(ity, tcx, cdata)); }; results } fn item_ty_param_bounds(item: ebml::doc, tcx: ty::ctxt, cdata: cmd) -> @~[ty::param_bounds] { let mut bounds = ~[]; for ebml::tagged_docs(item, tag_items_data_item_ty_param_bounds) |p| { let bd = parse_bounds_data(p.data, p.start, cdata.cnum, tcx, |did| { translate_def_id(cdata, did) }); vec::push(bounds, bd); } @bounds } fn item_ty_region_param(item: ebml::doc) -> option { ebml::maybe_get_doc(item, tag_region_param).map(|doc| { let d = ebml::ebml_deserializer(doc); ty::deserialize_region_variance(d) }) } fn item_ty_param_count(item: ebml::doc) -> uint { let mut n = 0u; ebml::tagged_docs(item, tag_items_data_item_ty_param_bounds, |_p| { n += 1u; true } ); n } fn enum_variant_ids(item: ebml::doc, cdata: cmd) -> ~[ast::def_id] { let mut ids: ~[ast::def_id] = ~[]; let v = tag_items_data_item_variant; for ebml::tagged_docs(item, v) |p| { let ext = ebml::with_doc_data(p, |d| parse_def_id(d)); vec::push(ids, {crate: cdata.cnum, node: ext.node}); }; return ids; } fn item_path(intr: ident_interner, item_doc: ebml::doc) -> ast_map::path { let path_doc = ebml::get_doc(item_doc, tag_path); let len_doc = ebml::get_doc(path_doc, tag_path_len); let len = ebml::doc_as_u32(len_doc) as uint; let mut result = ~[]; vec::reserve(result, len); for ebml::docs(path_doc) |tag, elt_doc| { if tag == tag_path_elt_mod { let str = ebml::doc_as_str(elt_doc); vec::push(result, ast_map::path_mod(intr.intern(@str))); } else if tag == tag_path_elt_name { let str = ebml::doc_as_str(elt_doc); vec::push(result, ast_map::path_name(intr.intern(@str))); } else { // ignore tag_path_len element } } return result; } fn item_name(intr: ident_interner, item: ebml::doc) -> ast::ident { let name = ebml::get_doc(item, tag_paths_data_name); intr.intern(@str::from_bytes(ebml::doc_data(name))) } fn item_to_def_like(item: ebml::doc, did: ast::def_id, cnum: ast::crate_num) -> def_like { let fam = item_family(item); match fam { Const => dl_def(ast::def_const(did)), Class => dl_def(ast::def_class(did, true)), Struct => dl_def(ast::def_class(did, false)), UnsafeFn => dl_def(ast::def_fn(did, ast::unsafe_fn)), Fn => dl_def(ast::def_fn(did, ast::impure_fn)), PureFn => dl_def(ast::def_fn(did, ast::pure_fn)), ForeignFn => dl_def(ast::def_fn(did, ast::extern_fn)), UnsafeStaticMethod => dl_def(ast::def_static_method(did, ast::unsafe_fn)), StaticMethod => dl_def(ast::def_static_method(did, ast::impure_fn)), PureStaticMethod => dl_def(ast::def_static_method(did, ast::pure_fn)), Type | ForeignType => dl_def(ast::def_ty(did)), Mod => dl_def(ast::def_mod(did)), ForeignMod => dl_def(ast::def_foreign_mod(did)), Variant => { match item_parent_item(item) { some(t) => { let tid = {crate: cnum, node: t.node}; dl_def(ast::def_variant(tid, did)) } none => fail ~"item_to_def_like: enum item has no parent" } } Trait | Enum => dl_def(ast::def_ty(did)), Impl => dl_impl(did), PublicField | PrivateField | InheritedField => dl_field, } } fn lookup_def(cnum: ast::crate_num, data: @~[u8], did_: ast::def_id) -> ast::def { let item = lookup_item(did_.node, data); let did = {crate: cnum, node: did_.node}; // We treat references to enums as references to types. return def_like_to_def(item_to_def_like(item, did, cnum)); } fn get_type(cdata: cmd, id: ast::node_id, tcx: ty::ctxt) -> ty::ty_param_bounds_and_ty { let item = lookup_item(id, cdata.data); let t = item_type({crate: cdata.cnum, node: id}, item, tcx, cdata); let tp_bounds = if family_has_type_params(item_family(item)) { item_ty_param_bounds(item, tcx, cdata) } else { @~[] }; let rp = item_ty_region_param(item); return {bounds: tp_bounds, region_param: rp, ty: t}; } fn get_region_param(cdata: cmd, id: ast::node_id) -> option { let item = lookup_item(id, cdata.data); return item_ty_region_param(item); } fn get_type_param_count(data: @~[u8], id: ast::node_id) -> uint { item_ty_param_count(lookup_item(id, data)) } fn get_impl_traits(cdata: cmd, id: ast::node_id, tcx: ty::ctxt) -> ~[ty::t] { item_impl_traits(lookup_item(id, cdata.data), tcx, cdata) } fn get_impl_method(intr: ident_interner, cdata: cmd, id: ast::node_id, name: ast::ident) -> ast::def_id { let items = ebml::get_doc(ebml::doc(cdata.data), tag_items); let mut found = none; for ebml::tagged_docs(find_item(id, items), tag_item_impl_method) |mid| { let m_did = ebml::with_doc_data(mid, |d| parse_def_id(d)); if item_name(intr, find_item(m_did.node, items)) == name { found = some(translate_def_id(cdata, m_did)); } } option::get(found) } fn get_class_method(intr: ident_interner, cdata: cmd, id: ast::node_id, name: ast::ident) -> ast::def_id { let items = ebml::get_doc(ebml::doc(cdata.data), tag_items); let mut found = none; let cls_items = match maybe_find_item(id, items) { some(it) => it, none => fail (fmt!("get_class_method: class id not found \ when looking up method %s", *intr.get(name))) }; for ebml::tagged_docs(cls_items, tag_item_trait_method) |mid| { let m_did = item_def_id(mid, cdata); if item_name(intr, mid) == name { found = some(m_did); } } match found { some(found) => found, none => fail (fmt!("get_class_method: no method named %s", *intr.get(name))) } } fn class_dtor(cdata: cmd, id: ast::node_id) -> option { let items = ebml::get_doc(ebml::doc(cdata.data), tag_items); let mut found = none; let cls_items = match maybe_find_item(id, items) { some(it) => it, none => fail (fmt!("class_dtor: class id not found \ when looking up dtor for %d", id)) }; for ebml::tagged_docs(cls_items, tag_item_dtor) |doc| { let doc1 = ebml::get_doc(doc, tag_def_id); let did = ebml::with_doc_data(doc1, |d| parse_def_id(d)); found = some(translate_def_id(cdata, did)); }; found } fn get_symbol(data: @~[u8], id: ast::node_id) -> ~str { return item_symbol(lookup_item(id, data)); } // Something that a name can resolve to. enum def_like { dl_def(ast::def), dl_impl(ast::def_id), dl_field } fn def_like_to_def(def_like: def_like) -> ast::def { match def_like { dl_def(def) => return def, dl_impl(*) => fail ~"found impl in def_like_to_def", dl_field => fail ~"found field in def_like_to_def" } } // A path. struct path_entry { // The full path, separated by '::'. let path_string: ~str; // The definition, implementation, or field that this path corresponds to. let def_like: def_like; new(path_string: ~str, def_like: def_like) { self.path_string = path_string; self.def_like = def_like; } } /// Iterates over all the paths in the given crate. fn each_path(intr: ident_interner, cdata: cmd, f: fn(path_entry) -> bool) { let root = ebml::doc(cdata.data); let items = ebml::get_doc(root, tag_items); let items_data = ebml::get_doc(items, tag_items_data); let mut broken = false; // First, go through all the explicit items. for ebml::tagged_docs(items_data, tag_items_data_item) |item_doc| { if !broken { let path = ast_map::path_to_str_with_sep( item_path(intr, item_doc), ~"::", intr); if path != ~"" { // Extract the def ID. let def_id = item_def_id(item_doc, cdata); // Construct the def for this item. debug!("(each_path) yielding explicit item: %s", path); let def_like = item_to_def_like(item_doc, def_id, cdata.cnum); // Hand the information off to the iteratee. let this_path_entry = path_entry(path, def_like); if !f(this_path_entry) { broken = true; // XXX: This is awful. } } // If this is a module, find the reexports. for each_reexport(item_doc) |reexport_doc| { if !broken { let def_id_doc = ebml::get_doc(reexport_doc, tag_items_data_item_reexport_def_id); let def_id = ebml::with_doc_data(def_id_doc, |d| parse_def_id(d)); let def_id = translate_def_id(cdata, def_id); let reexport_name_doc = ebml::get_doc(reexport_doc, tag_items_data_item_reexport_name); let reexport_name = ebml::doc_as_str(reexport_name_doc); let reexport_path; if path == ~"" { reexport_path = reexport_name; } else { reexport_path = path + ~"::" + reexport_name; } // Get the item. match maybe_find_item(def_id.node, items) { none => {} some(item_doc) => { // Construct the def for this item. let def_like = item_to_def_like(item_doc, def_id, cdata.cnum); // Hand the information off to the iteratee. debug!("(each_path) yielding reexported \ item: %s", reexport_path); let this_path_entry = path_entry(reexport_path, def_like); if (!f(this_path_entry)) { broken = true; // XXX: This is awful. } } } } } } } // If broken, stop here. if broken { return; } } fn get_item_path(intr: ident_interner, cdata: cmd, id: ast::node_id) -> ast_map::path { item_path(intr, lookup_item(id, cdata.data)) } type decode_inlined_item = fn( cdata: cstore::crate_metadata, tcx: ty::ctxt, path: ast_map::path, par_doc: ebml::doc) -> option; fn maybe_get_item_ast(intr: ident_interner, cdata: cmd, tcx: ty::ctxt, id: ast::node_id, decode_inlined_item: decode_inlined_item ) -> csearch::found_ast { debug!("Looking up item: %d", id); let item_doc = lookup_item(id, cdata.data); let path = vec::init(item_path(intr, item_doc)); match decode_inlined_item(cdata, tcx, path, item_doc) { some(ii) => csearch::found(ii), none => { match item_parent_item(item_doc) { some(did) => { let did = translate_def_id(cdata, did); let parent_item = lookup_item(did.node, cdata.data); match decode_inlined_item(cdata, tcx, path, parent_item) { some(ii) => csearch::found_parent(did, ii), none => csearch::not_found } } none => csearch::not_found } } } } fn get_enum_variants(intr: ident_interner, cdata: cmd, id: ast::node_id, tcx: ty::ctxt) -> ~[ty::variant_info] { let data = cdata.data; let items = ebml::get_doc(ebml::doc(data), tag_items); let item = find_item(id, items); let mut infos: ~[ty::variant_info] = ~[]; let variant_ids = enum_variant_ids(item, cdata); let mut disr_val = 0; for variant_ids.each |did| { let item = find_item(did.node, items); let ctor_ty = item_type({crate: cdata.cnum, node: id}, item, tcx, cdata); let name = item_name(intr, item); let mut arg_tys: ~[ty::t] = ~[]; match ty::get(ctor_ty).struct { ty::ty_fn(f) => { for f.inputs.each |a| { vec::push(arg_tys, a.ty); } } _ => { /* Nullary enum variant. */ } } match variant_disr_val(item) { some(val) => { disr_val = val; } _ => { /* empty */ } } vec::push(infos, @{args: arg_tys, ctor_ty: ctor_ty, name: name, id: did, disr_val: disr_val}); disr_val += 1; } return infos; } // NB: These types are duplicated in resolve.rs type method_info = { did: ast::def_id, n_tps: uint, ident: ast::ident, self_type: ast::self_ty_ }; type _impl = {did: ast::def_id, ident: ast::ident, methods: ~[@method_info]}; fn get_self_ty(item: ebml::doc) -> ast::self_ty_ { fn get_mutability(ch: u8) -> ast::mutability { match ch as char { 'i' => { ast::m_imm } 'm' => { ast::m_mutbl } 'c' => { ast::m_const } _ => { fail fmt!("unknown mutability character: `%c`", ch as char) } } } let self_type_doc = ebml::get_doc(item, tag_item_trait_method_self_ty); let string = ebml::doc_as_str(self_type_doc); let self_ty_kind = string[0]; match self_ty_kind as char { 's' => { return ast::sty_static; } 'r' => { return ast::sty_by_ref; } 'v' => { return ast::sty_value; } '@' => { return ast::sty_box(get_mutability(string[1])); } '~' => { return ast::sty_uniq(get_mutability(string[1])); } '&' => { return ast::sty_region(get_mutability(string[1])); } _ => { fail fmt!("unknown self type code: `%c`", self_ty_kind as char); } } } fn item_impl_methods(intr: ident_interner, cdata: cmd, item: ebml::doc, base_tps: uint) -> ~[@method_info] { let mut rslt = ~[]; for ebml::tagged_docs(item, tag_item_impl_method) |doc| { let m_did = ebml::with_doc_data(doc, |d| parse_def_id(d)); let mth_item = lookup_item(m_did.node, cdata.data); let self_ty = get_self_ty(mth_item); vec::push(rslt, @{did: translate_def_id(cdata, m_did), /* FIXME (maybe #2323) tjc: take a look at this. */ n_tps: item_ty_param_count(mth_item) - base_tps, ident: item_name(intr, mth_item), self_type: self_ty}); } rslt } fn get_impls_for_mod(intr: ident_interner, cdata: cmd, m_id: ast::node_id, name: option, get_cdata: fn(ast::crate_num) -> cmd) -> @~[@_impl] { let data = cdata.data; let mod_item = lookup_item(m_id, data); let mut result = ~[]; for ebml::tagged_docs(mod_item, tag_mod_impl) |doc| { let did = ebml::with_doc_data(doc, |d| parse_def_id(d)); let local_did = translate_def_id(cdata, did); debug!("(get impls for mod) getting did %? for '%?'", local_did, name); // The impl may be defined in a different crate. Ask the caller // to give us the metadata let impl_cdata = get_cdata(local_did.crate); let impl_data = impl_cdata.data; let item = lookup_item(local_did.node, impl_data); let nm = item_name(intr, item); if match name { some(n) => { n == nm } none => { true } } { let base_tps = item_ty_param_count(item); vec::push(result, @{ did: local_did, ident: nm, methods: item_impl_methods(intr, impl_cdata, item, base_tps) }); }; } @result } /* Works for both classes and traits */ fn get_trait_methods(intr: ident_interner, cdata: cmd, id: ast::node_id, tcx: ty::ctxt) -> @~[ty::method] { let data = cdata.data; let item = lookup_item(id, data); let mut result = ~[]; for ebml::tagged_docs(item, tag_item_trait_method) |mth| { let bounds = item_ty_param_bounds(mth, tcx, cdata); let name = item_name(intr, mth); let ty = doc_type(mth, tcx, cdata); let fty = match ty::get(ty).struct { ty::ty_fn(f) => f, _ => { tcx.diag.handler().bug( ~"get_trait_methods: id has non-function type"); } }; let self_ty = get_self_ty(mth); vec::push(result, {ident: name, tps: bounds, fty: fty, self_ty: self_ty, vis: ast::public}); } #debug("get_trait_methods: }"); @result } // If the item in question is a trait, returns its set of methods and // their self types. Otherwise, returns none. This overlaps in an // annoying way with get_trait_methods. fn get_method_names_if_trait(intr: ident_interner, cdata: cmd, node_id: ast::node_id) -> option<@DVec<(ast::ident, ast::self_ty_)>> { let item = lookup_item(node_id, cdata.data); if item_family(item) != Trait { return none; } let resulting_methods = @dvec(); for ebml::tagged_docs(item, tag_item_trait_method) |method| { resulting_methods.push( (item_name(intr, method), get_self_ty(method))); } return some(resulting_methods); } fn get_item_attrs(cdata: cmd, node_id: ast::node_id, f: fn(~[@ast::meta_item])) { let item = lookup_item(node_id, cdata.data); for ebml::tagged_docs(item, tag_attributes) |attributes| { for ebml::tagged_docs(attributes, tag_attribute) |attribute| { f(get_meta_items(attribute)); } } } // Helper function that gets either fields or methods fn get_class_members(intr: ident_interner, cdata: cmd, id: ast::node_id, p: fn(Family) -> bool) -> ~[ty::field_ty] { let data = cdata.data; let item = lookup_item(id, data); let mut result = ~[]; for ebml::tagged_docs(item, tag_item_field) |an_item| { let f = item_family(an_item); if p(f) { let name = item_name(intr, an_item); let did = item_def_id(an_item, cdata); let mt = field_mutability(an_item); vec::push(result, {ident: name, id: did, vis: family_to_visibility(f), mutability: mt}); } } result } pure fn family_to_visibility(family: Family) -> ast::visibility { match family { PublicField => ast::public, PrivateField => ast::private, InheritedField => ast::inherited, _ => fail } } fn get_class_fields(intr: ident_interner, cdata: cmd, id: ast::node_id) -> ~[ty::field_ty] { get_class_members(intr, cdata, id, |f| f == PublicField || f == PrivateField || f == InheritedField) } fn family_has_type_params(fam: Family) -> bool { match fam { Const | ForeignType | Mod | ForeignMod | PublicField | PrivateField | ForeignFn => false, _ => true } } fn family_names_type(fam: Family) -> bool { match fam { Type | Mod | Trait => true, _ => false } } fn read_path(d: ebml::doc) -> {path: ~str, pos: uint} { let desc = ebml::doc_data(d); let pos = io::u64_from_be_bytes(desc, 0u, 4u) as uint; let pathbytes = vec::slice::(desc, 4u, vec::len::(desc)); let path = str::from_bytes(pathbytes); return {path: path, pos: pos}; } fn describe_def(items: ebml::doc, id: ast::def_id) -> ~str { if id.crate != ast::local_crate { return ~"external"; } let it = match maybe_find_item(id.node, items) { some(it) => it, none => fail (fmt!("describe_def: item not found %?", id)) }; return item_family_to_str(item_family(it)); } fn item_family_to_str(fam: Family) -> ~str { match fam { Const => ~"const", Fn => ~"fn", UnsafeFn => ~"unsafe fn", PureFn => ~"pure fn", StaticMethod => ~"static method", UnsafeStaticMethod => ~"unsafe static method", PureStaticMethod => ~"pure static method", ForeignFn => ~"foreign fn", Type => ~"type", ForeignType => ~"foreign type", Mod => ~"mod", ForeignMod => ~"foreign mod", Enum => ~"enum", Variant => ~"variant", Impl => ~"impl", Trait => ~"trait", Class => ~"class", Struct => ~"struct", PublicField => ~"public field", PrivateField => ~"private field", InheritedField => ~"inherited field", } } fn get_meta_items(md: ebml::doc) -> ~[@ast::meta_item] { let mut items: ~[@ast::meta_item] = ~[]; for ebml::tagged_docs(md, tag_meta_item_word) |meta_item_doc| { let nd = ebml::get_doc(meta_item_doc, tag_meta_item_name); let n = str::from_bytes(ebml::doc_data(nd)); vec::push(items, attr::mk_word_item(n)); }; for ebml::tagged_docs(md, tag_meta_item_name_value) |meta_item_doc| { let nd = ebml::get_doc(meta_item_doc, tag_meta_item_name); let vd = ebml::get_doc(meta_item_doc, tag_meta_item_value); let n = str::from_bytes(ebml::doc_data(nd)); let v = str::from_bytes(ebml::doc_data(vd)); // FIXME (#623): Should be able to decode meta_name_value variants, // but currently the encoder just drops them vec::push(items, attr::mk_name_value_item_str(n, v)); }; for ebml::tagged_docs(md, tag_meta_item_list) |meta_item_doc| { let nd = ebml::get_doc(meta_item_doc, tag_meta_item_name); let n = str::from_bytes(ebml::doc_data(nd)); let subitems = get_meta_items(meta_item_doc); vec::push(items, attr::mk_list_item(n, subitems)); }; return items; } fn get_attributes(md: ebml::doc) -> ~[ast::attribute] { let mut attrs: ~[ast::attribute] = ~[]; match ebml::maybe_get_doc(md, tag_attributes) { option::some(attrs_d) => { for ebml::tagged_docs(attrs_d, tag_attribute) |attr_doc| { let meta_items = get_meta_items(attr_doc); // Currently it's only possible to have a single meta item on // an attribute assert (vec::len(meta_items) == 1u); let meta_item = meta_items[0]; vec::push(attrs, {node: {style: ast::attr_outer, value: *meta_item, is_sugared_doc: false}, span: ast_util::dummy_sp()}); }; } option::none => () } return attrs; } fn list_meta_items(intr: ident_interner, meta_items: ebml::doc, out: io::Writer) { for get_meta_items(meta_items).each |mi| { out.write_str(fmt!("%s\n", pprust::meta_item_to_str(mi, intr))); } } fn list_crate_attributes(intr: ident_interner, md: ebml::doc, hash: ~str, out: io::Writer) { out.write_str(fmt!("=Crate Attributes (%s)=\n", hash)); for get_attributes(md).each |attr| { out.write_str(fmt!("%s\n", pprust::attribute_to_str(attr, intr))); } out.write_str(~"\n\n"); } fn get_crate_attributes(data: @~[u8]) -> ~[ast::attribute] { return get_attributes(ebml::doc(data)); } type crate_dep = {cnum: ast::crate_num, name: ast::ident, vers: ~str, hash: ~str}; fn get_crate_deps(intr: ident_interner, data: @~[u8]) -> ~[crate_dep] { let mut deps: ~[crate_dep] = ~[]; let cratedoc = ebml::doc(data); let depsdoc = ebml::get_doc(cratedoc, tag_crate_deps); let mut crate_num = 1; fn docstr(doc: ebml::doc, tag_: uint) -> ~str { str::from_bytes(ebml::doc_data(ebml::get_doc(doc, tag_))) } for ebml::tagged_docs(depsdoc, tag_crate_dep) |depdoc| { vec::push(deps, {cnum: crate_num, name: intr.intern(@docstr(depdoc, tag_crate_dep_name)), vers: docstr(depdoc, tag_crate_dep_vers), hash: docstr(depdoc, tag_crate_dep_hash)}); crate_num += 1; }; return deps; } fn list_crate_deps(intr: ident_interner, data: @~[u8], out: io::Writer) { out.write_str(~"=External Dependencies=\n"); for get_crate_deps(intr, data).each |dep| { out.write_str( fmt!("%d %s-%s-%s\n", dep.cnum, *intr.get(dep.name), dep.hash, dep.vers)); } out.write_str(~"\n"); } fn get_crate_hash(data: @~[u8]) -> ~str { let cratedoc = ebml::doc(data); let hashdoc = ebml::get_doc(cratedoc, tag_crate_hash); return str::from_bytes(ebml::doc_data(hashdoc)); } fn get_crate_vers(data: @~[u8]) -> ~str { let attrs = decoder::get_crate_attributes(data); return match attr::last_meta_item_value_str_by_name( attr::find_linkage_metas(attrs), ~"vers") { some(ver) => ver, none => ~"0.0" }; } fn iter_crate_items(intr: ident_interner, cdata: cmd, proc: fn(~str, ast::def_id)) { for each_path(intr, cdata) |path_entry| { match path_entry.def_like { dl_impl(*) | dl_field => {} dl_def(def) => { proc(path_entry.path_string, ast_util::def_id_of_def(def)) } } } } fn get_crate_module_paths(intr: ident_interner, cdata: cmd) -> ~[(ast::def_id, ~str)] { fn mod_of_path(p: ~str) -> ~str { str::connect(vec::init(str::split_str(p, ~"::")), ~"::") } // find all module (path, def_ids), which are not // fowarded path due to renamed import or reexport let mut res = ~[]; let mods = map::str_hash(); do iter_crate_items(intr, cdata) |path, did| { let m = mod_of_path(path); if str::is_not_empty(m) { // if m has a sub-item, it must be a module mods.insert(m, true); } // Collect everything by now. There might be multiple // paths pointing to the same did. Those will be // unified later by using the mods map vec::push(res, (did, path)); } return do vec::filter(res) |x| { let (_, xp) = x; mods.contains_key(xp) } } fn list_crate_metadata(intr: ident_interner, bytes: @~[u8], out: io::Writer) { let hash = get_crate_hash(bytes); let md = ebml::doc(bytes); list_crate_attributes(intr, md, hash, out); list_crate_deps(intr, bytes, out); } // Translates a def_id from an external crate to a def_id for the current // compilation environment. We use this when trying to load types from // external crates - if those types further refer to types in other crates // then we must translate the crate number from that encoded in the external // crate to the correct local crate number. fn translate_def_id(cdata: cmd, did: ast::def_id) -> ast::def_id { if did.crate == ast::local_crate { return {crate: cdata.cnum, node: did.node}; } match cdata.cnum_map.find(did.crate) { option::some(n) => return {crate: n, node: did.node}, option::none => fail ~"didn't find a crate in the cnum_map" } } // Local Variables: // mode: rust // fill-column: 78; // indent-tabs-mode: nil // c-basic-offset: 4 // buffer-file-coding-system: utf-8-unix // End: