rust/src/comp/metadata/encoder.rs
2011-12-16 22:18:38 +01:00

700 lines
24 KiB
Rust

// Metadata encoding
import core::{vec, str, uint};
import std::{io, ebml, map};
import syntax::ast::*;
import syntax::ast_util;
import syntax::ast_util::local_def;
import common::*;
import middle::trans_common::crate_ctxt;
import middle::ty;
import middle::ty::node_id_to_monotype;
import front::attr;
export encode_metadata;
export encoded_ty;
type abbrev_map = map::hashmap<ty::t, tyencode::ty_abbrev>;
type encode_ctxt = {ccx: @crate_ctxt, type_abbrevs: abbrev_map};
// Path table encoding
fn encode_name(ebml_w: ebml::writer, name: str) {
ebml::start_tag(ebml_w, tag_paths_data_name);
ebml_w.writer.write(str::bytes(name));
ebml::end_tag(ebml_w);
}
fn encode_def_id(ebml_w: ebml::writer, id: def_id) {
ebml::start_tag(ebml_w, tag_def_id);
ebml_w.writer.write(str::bytes(def_to_str(id)));
ebml::end_tag(ebml_w);
}
type entry<T> = {val: T, pos: uint};
fn encode_tag_variant_paths(ebml_w: ebml::writer, variants: [variant],
path: [str], &index: [entry<str>]) {
for variant: variant in variants {
add_to_index(ebml_w, path, index, variant.node.name);
ebml::start_tag(ebml_w, tag_paths_data_item);
encode_name(ebml_w, variant.node.name);
encode_def_id(ebml_w, local_def(variant.node.id));
ebml::end_tag(ebml_w);
}
}
fn add_to_index(ebml_w: ebml::writer, path: [str], &index: [entry<str>],
name: str) {
let full_path = path + [name];
index +=
[{val: str::connect(full_path, "::"), pos: ebml_w.writer.tell()}];
}
fn encode_native_module_item_paths(ebml_w: ebml::writer, nmod: native_mod,
path: [str], &index: [entry<str>]) {
for nitem: @native_item in nmod.items {
add_to_index(ebml_w, path, index, nitem.ident);
ebml::start_tag(ebml_w, tag_paths_data_item);
encode_name(ebml_w, nitem.ident);
encode_def_id(ebml_w, local_def(nitem.id));
ebml::end_tag(ebml_w);
}
}
fn encode_module_item_paths(ebml_w: ebml::writer, module: _mod, path: [str],
&index: [entry<str>]) {
for it: @item in module.items {
if !ast_util::is_exported(it.ident, module) { cont; }
alt it.node {
item_const(_, _) {
add_to_index(ebml_w, path, index, it.ident);
ebml::start_tag(ebml_w, tag_paths_data_item);
encode_name(ebml_w, it.ident);
encode_def_id(ebml_w, local_def(it.id));
ebml::end_tag(ebml_w);
}
item_fn(_, tps) {
add_to_index(ebml_w, path, index, it.ident);
ebml::start_tag(ebml_w, tag_paths_data_item);
encode_name(ebml_w, it.ident);
encode_def_id(ebml_w, local_def(it.id));
ebml::end_tag(ebml_w);
}
item_mod(_mod) {
add_to_index(ebml_w, path, index, it.ident);
ebml::start_tag(ebml_w, tag_paths_data_mod);
encode_name(ebml_w, it.ident);
encode_def_id(ebml_w, local_def(it.id));
encode_module_item_paths(ebml_w, _mod, path + [it.ident], index);
ebml::end_tag(ebml_w);
}
item_native_mod(nmod) {
add_to_index(ebml_w, path, index, it.ident);
ebml::start_tag(ebml_w, tag_paths_data_mod);
encode_name(ebml_w, it.ident);
encode_def_id(ebml_w, local_def(it.id));
encode_native_module_item_paths(ebml_w, nmod, path + [it.ident],
index);
ebml::end_tag(ebml_w);
}
item_ty(_, tps) {
add_to_index(ebml_w, path, index, it.ident);
ebml::start_tag(ebml_w, tag_paths_data_item);
encode_name(ebml_w, it.ident);
encode_def_id(ebml_w, local_def(it.id));
ebml::end_tag(ebml_w);
}
item_res(_, _, tps, ctor_id) {
add_to_index(ebml_w, path, index, it.ident);
ebml::start_tag(ebml_w, tag_paths_data_item);
encode_name(ebml_w, it.ident);
encode_def_id(ebml_w, local_def(ctor_id));
ebml::end_tag(ebml_w);
add_to_index(ebml_w, path, index, it.ident);
ebml::start_tag(ebml_w, tag_paths_data_item);
encode_name(ebml_w, it.ident);
encode_def_id(ebml_w, local_def(it.id));
ebml::end_tag(ebml_w);
}
item_tag(variants, tps) {
add_to_index(ebml_w, path, index, it.ident);
ebml::start_tag(ebml_w, tag_paths_data_item);
encode_name(ebml_w, it.ident);
encode_def_id(ebml_w, local_def(it.id));
ebml::end_tag(ebml_w);
encode_tag_variant_paths(ebml_w, variants, path, index);
}
item_obj(_, tps, ctor_id) {
add_to_index(ebml_w, path, index, it.ident);
ebml::start_tag(ebml_w, tag_paths_data_item);
encode_name(ebml_w, it.ident);
encode_def_id(ebml_w, local_def(ctor_id));
ebml::end_tag(ebml_w);
add_to_index(ebml_w, path, index, it.ident);
ebml::start_tag(ebml_w, tag_paths_data_item);
encode_name(ebml_w, it.ident);
encode_def_id(ebml_w, local_def(it.id));
ebml::end_tag(ebml_w);
}
item_impl(_, _, _) {}
}
}
}
fn encode_item_paths(ebml_w: ebml::writer, ecx: @encode_ctxt, crate: @crate)
-> [entry<str>] {
let index: [entry<str>] = [];
let path: [str] = [];
ebml::start_tag(ebml_w, tag_paths);
encode_module_item_paths(ebml_w, crate.node.module, path, index);
encode_reexport_paths(ebml_w, ecx, index);
ebml::end_tag(ebml_w);
ret index;
}
fn encode_reexport_paths(ebml_w: ebml::writer,
ecx: @encode_ctxt, &index: [entry<str>]) {
ecx.ccx.exp_map.items {|path, def|
index += [{val: path, pos: ebml_w.writer.tell()}];
ebml::start_tag(ebml_w, tag_paths_data_item);
encode_name(ebml_w, path);
encode_def_id(ebml_w, ast_util::def_id_of_def(def));
ebml::end_tag(ebml_w);
}
}
// Item info table encoding
fn encode_family(ebml_w: ebml::writer, c: u8) {
ebml::start_tag(ebml_w, tag_items_data_item_family);
ebml_w.writer.write([c]);
ebml::end_tag(ebml_w);
}
fn encode_inlineness(ebml_w: ebml::writer, c: u8) {
ebml::start_tag(ebml_w, tag_items_data_item_inlineness);
ebml_w.writer.write([c]);
ebml::end_tag(ebml_w);
}
fn def_to_str(did: def_id) -> str { ret #fmt["%d:%d", did.crate, did.node]; }
fn encode_type_param_kinds(ebml_w: ebml::writer, tps: [ty_param]) {
ebml::start_tag(ebml_w, tag_items_data_item_ty_param_kinds);
ebml::write_vint(ebml_w.writer, vec::len::<ty_param>(tps));
for tp: ty_param in tps {
let c = alt ast_util::ty_param_kind(tp) {
kind_sendable. { 's' }
kind_copyable. { 'c' }
kind_noncopyable. { 'a' }
};
ebml_w.writer.write([c as u8]);
}
ebml::end_tag(ebml_w);
}
fn encode_variant_id(ebml_w: ebml::writer, vid: def_id) {
ebml::start_tag(ebml_w, tag_items_data_item_variant);
ebml_w.writer.write(str::bytes(def_to_str(vid)));
ebml::end_tag(ebml_w);
}
fn encode_type(ecx: @encode_ctxt, ebml_w: ebml::writer, typ: ty::t) {
ebml::start_tag(ebml_w, tag_items_data_item_type);
let f = def_to_str;
let ty_str_ctxt =
@{ds: f,
tcx: ecx.ccx.tcx,
abbrevs: tyencode::ac_use_abbrevs(ecx.type_abbrevs)};
tyencode::enc_ty(io::new_writer(ebml_w.writer), ty_str_ctxt, typ);
ebml::end_tag(ebml_w);
}
fn encode_symbol(ecx: @encode_ctxt, ebml_w: ebml::writer, id: node_id) {
ebml::start_tag(ebml_w, tag_items_data_item_symbol);
ebml_w.writer.write(str::bytes(ecx.ccx.item_symbols.get(id)));
ebml::end_tag(ebml_w);
}
fn encode_discriminant(ecx: @encode_ctxt, ebml_w: ebml::writer, id: node_id) {
ebml::start_tag(ebml_w, tag_items_data_item_symbol);
ebml_w.writer.write(str::bytes(ecx.ccx.discrim_symbols.get(id)));
ebml::end_tag(ebml_w);
}
fn encode_tag_id(ebml_w: ebml::writer, id: def_id) {
ebml::start_tag(ebml_w, tag_items_data_item_tag_id);
ebml_w.writer.write(str::bytes(def_to_str(id)));
ebml::end_tag(ebml_w);
}
fn encode_tag_variant_info(ecx: @encode_ctxt, ebml_w: ebml::writer,
id: node_id, variants: [variant],
&index: [entry<int>], ty_params: [ty_param]) {
for variant: variant in variants {
index += [{val: variant.node.id, pos: ebml_w.writer.tell()}];
ebml::start_tag(ebml_w, tag_items_data_item);
encode_def_id(ebml_w, local_def(variant.node.id));
encode_family(ebml_w, 'v' as u8);
encode_tag_id(ebml_w, local_def(id));
encode_type(ecx, ebml_w,
node_id_to_monotype(ecx.ccx.tcx, variant.node.id));
if vec::len::<variant_arg>(variant.node.args) > 0u {
encode_symbol(ecx, ebml_w, variant.node.id);
}
encode_discriminant(ecx, ebml_w, variant.node.id);
encode_type_param_kinds(ebml_w, ty_params);
ebml::end_tag(ebml_w);
}
}
fn encode_info_for_mod(ebml_w: ebml::writer, md: _mod,
id: node_id) {
ebml::start_tag(ebml_w, tag_items_data_item);
encode_def_id(ebml_w, local_def(id));
encode_family(ebml_w, 'm' as u8);
for i in md.items {
alt i.node {
item_impl(_, _, _) {
if ast_util::is_exported(i.ident, md) {
ebml::start_tag(ebml_w, tag_mod_impl);
ebml_w.writer.write(str::bytes(def_to_str(local_def(i.id))));
ebml::end_tag(ebml_w);
}
}
_ {}
}
}
ebml::end_tag(ebml_w);
}
fn encode_info_for_item(ecx: @encode_ctxt, ebml_w: ebml::writer, item: @item,
&index: [entry<int>]) {
alt item.node {
item_const(_, _) {
ebml::start_tag(ebml_w, tag_items_data_item);
encode_def_id(ebml_w, local_def(item.id));
encode_family(ebml_w, 'c' as u8);
encode_type(ecx, ebml_w, node_id_to_monotype(ecx.ccx.tcx, item.id));
encode_symbol(ecx, ebml_w, item.id);
ebml::end_tag(ebml_w);
}
item_fn(fd, tps) {
ebml::start_tag(ebml_w, tag_items_data_item);
encode_def_id(ebml_w, local_def(item.id));
encode_family(ebml_w,
alt fd.decl.purity {
unsafe_fn. { 'u' }
pure_fn. { 'p' }
impure_fn. { 'f' }
} as u8);
encode_inlineness(ebml_w,
alt fd.decl.il {
il_normal. { 'n' }
il_inline. { 'i' }
} as u8);
encode_type_param_kinds(ebml_w, tps);
encode_type(ecx, ebml_w, node_id_to_monotype(ecx.ccx.tcx, item.id));
encode_symbol(ecx, ebml_w, item.id);
ebml::end_tag(ebml_w);
}
item_mod(m) {
encode_info_for_mod(ebml_w, m, item.id);
}
item_native_mod(_) {
ebml::start_tag(ebml_w, tag_items_data_item);
encode_def_id(ebml_w, local_def(item.id));
encode_family(ebml_w, 'n' as u8);
ebml::end_tag(ebml_w);
}
item_ty(_, tps) {
ebml::start_tag(ebml_w, tag_items_data_item);
encode_def_id(ebml_w, local_def(item.id));
encode_family(ebml_w, 'y' as u8);
encode_type_param_kinds(ebml_w, tps);
encode_type(ecx, ebml_w, node_id_to_monotype(ecx.ccx.tcx, item.id));
ebml::end_tag(ebml_w);
}
item_tag(variants, tps) {
ebml::start_tag(ebml_w, tag_items_data_item);
encode_def_id(ebml_w, local_def(item.id));
encode_family(ebml_w, 't' as u8);
encode_type_param_kinds(ebml_w, tps);
encode_type(ecx, ebml_w, node_id_to_monotype(ecx.ccx.tcx, item.id));
for v: variant in variants {
encode_variant_id(ebml_w, local_def(v.node.id));
}
ebml::end_tag(ebml_w);
encode_tag_variant_info(ecx, ebml_w, item.id, variants, index, tps);
}
item_res(_, _, tps, ctor_id) {
let fn_ty = node_id_to_monotype(ecx.ccx.tcx, ctor_id);
ebml::start_tag(ebml_w, tag_items_data_item);
encode_def_id(ebml_w, local_def(ctor_id));
encode_family(ebml_w, 'y' as u8);
encode_type_param_kinds(ebml_w, tps);
encode_type(ecx, ebml_w, ty::ty_fn_ret(ecx.ccx.tcx, fn_ty));
encode_symbol(ecx, ebml_w, item.id);
ebml::end_tag(ebml_w);
index += [{val: ctor_id, pos: ebml_w.writer.tell()}];
ebml::start_tag(ebml_w, tag_items_data_item);
encode_def_id(ebml_w, local_def(ctor_id));
encode_family(ebml_w, 'f' as u8);
encode_type_param_kinds(ebml_w, tps);
encode_type(ecx, ebml_w, fn_ty);
encode_symbol(ecx, ebml_w, ctor_id);
ebml::end_tag(ebml_w);
}
item_obj(_, tps, ctor_id) {
let fn_ty = node_id_to_monotype(ecx.ccx.tcx, ctor_id);
ebml::start_tag(ebml_w, tag_items_data_item);
encode_def_id(ebml_w, local_def(item.id));
encode_family(ebml_w, 'y' as u8);
encode_type_param_kinds(ebml_w, tps);
encode_type(ecx, ebml_w, ty::ty_fn_ret(ecx.ccx.tcx, fn_ty));
ebml::end_tag(ebml_w);
index += [{val: ctor_id, pos: ebml_w.writer.tell()}];
ebml::start_tag(ebml_w, tag_items_data_item);
encode_def_id(ebml_w, local_def(ctor_id));
encode_family(ebml_w, 'f' as u8);
encode_type_param_kinds(ebml_w, tps);
encode_type(ecx, ebml_w, fn_ty);
encode_symbol(ecx, ebml_w, ctor_id);
ebml::end_tag(ebml_w);
}
item_impl(tps, _, methods) {
ebml::start_tag(ebml_w, tag_items_data_item);
encode_def_id(ebml_w, local_def(item.id));
encode_family(ebml_w, 'i' as u8);
encode_type_param_kinds(ebml_w, tps);
encode_type(ecx, ebml_w, node_id_to_monotype(ecx.ccx.tcx, item.id));
encode_name(ebml_w, item.ident);
for m in methods {
ebml::start_tag(ebml_w, tag_impl_method);
ebml_w.writer.write(str::bytes(def_to_str(local_def(m.node.id))));
ebml::end_tag(ebml_w);
}
ebml::end_tag(ebml_w);
for m in methods {
index += [{val: m.node.id, pos: ebml_w.writer.tell()}];
ebml::start_tag(ebml_w, tag_items_data_item);
encode_def_id(ebml_w, local_def(m.node.id));
encode_family(ebml_w, 'f' as u8);
encode_inlineness(ebml_w, 'n' as u8);
encode_type_param_kinds(ebml_w, tps + m.node.tps);
encode_type(ecx, ebml_w,
node_id_to_monotype(ecx.ccx.tcx, m.node.id));
encode_name(ebml_w, m.node.ident);
encode_symbol(ecx, ebml_w, m.node.id);
ebml::end_tag(ebml_w);
}
}
}
}
fn encode_info_for_native_item(ecx: @encode_ctxt, ebml_w: ebml::writer,
nitem: @native_item) {
ebml::start_tag(ebml_w, tag_items_data_item);
alt nitem.node {
native_item_ty. {
encode_def_id(ebml_w, local_def(nitem.id));
encode_family(ebml_w, 'T' as u8);
encode_type(ecx, ebml_w,
ty::mk_native(ecx.ccx.tcx, local_def(nitem.id)));
}
native_item_fn(fn_decl, tps) {
let letter =
alt fn_decl.purity {
unsafe_fn. { 'U' }
pure_fn. { 'P' } // this is currently impossible, but hey.
impure_fn. { 'F' }
} as u8;
encode_def_id(ebml_w, local_def(nitem.id));
encode_family(ebml_w, letter);
encode_type_param_kinds(ebml_w, tps);
encode_type(ecx, ebml_w, node_id_to_monotype(ecx.ccx.tcx, nitem.id));
encode_symbol(ecx, ebml_w, nitem.id);
}
}
ebml::end_tag(ebml_w);
}
fn encode_info_for_items(ecx: @encode_ctxt, ebml_w: ebml::writer,
crate_mod: _mod) -> [entry<int>] {
let index: [entry<int>] = [];
ebml::start_tag(ebml_w, tag_items_data);
index += [{val: crate_node_id, pos: ebml_w.writer.tell()}];
encode_info_for_mod(ebml_w, crate_mod, crate_node_id);
ecx.ccx.ast_map.items {|key, val|
alt val {
middle::ast_map::node_item(i) {
index += [{val: key, pos: ebml_w.writer.tell()}];
encode_info_for_item(ecx, ebml_w, i, index);
}
middle::ast_map::node_native_item(i) {
index += [{val: key, pos: ebml_w.writer.tell()}];
encode_info_for_native_item(ecx, ebml_w, i);
}
_ { }
}
};
ebml::end_tag(ebml_w);
ret index;
}
// Path and definition ID indexing
fn create_index<copy T>(index: [entry<T>], hash_fn: fn(T) -> uint) ->
[@[entry<T>]] {
let buckets: [@mutable [entry<T>]] = [];
uint::range(0u, 256u) {|_i| buckets += [@mutable []]; };
for elt: entry<T> in index {
let h = hash_fn(elt.val);
*buckets[h % 256u] += [elt];
}
let buckets_frozen = [];
for bucket: @mutable [entry<T>] in buckets {
buckets_frozen += [@*bucket];
}
ret buckets_frozen;
}
fn encode_index<T>(ebml_w: ebml::writer, buckets: [@[entry<T>]],
write_fn: fn(io::writer, T)) {
let writer = io::new_writer(ebml_w.writer);
ebml::start_tag(ebml_w, tag_index);
let bucket_locs: [uint] = [];
ebml::start_tag(ebml_w, tag_index_buckets);
for bucket: @[entry<T>] in buckets {
bucket_locs += [ebml_w.writer.tell()];
ebml::start_tag(ebml_w, tag_index_buckets_bucket);
for elt: entry<T> in *bucket {
ebml::start_tag(ebml_w, tag_index_buckets_bucket_elt);
writer.write_be_uint(elt.pos, 4u);
write_fn(writer, elt.val);
ebml::end_tag(ebml_w);
}
ebml::end_tag(ebml_w);
}
ebml::end_tag(ebml_w);
ebml::start_tag(ebml_w, tag_index_table);
for pos: uint in bucket_locs { writer.write_be_uint(pos, 4u); }
ebml::end_tag(ebml_w);
ebml::end_tag(ebml_w);
}
fn write_str(writer: io::writer, &&s: str) { writer.write_str(s); }
fn write_int(writer: io::writer, &&n: int) {
writer.write_be_uint(n as uint, 4u);
}
fn encode_meta_item(ebml_w: ebml::writer, mi: meta_item) {
alt mi.node {
meta_word(name) {
ebml::start_tag(ebml_w, tag_meta_item_word);
ebml::start_tag(ebml_w, tag_meta_item_name);
ebml_w.writer.write(str::bytes(name));
ebml::end_tag(ebml_w);
ebml::end_tag(ebml_w);
}
meta_name_value(name, value) {
alt value.node {
lit_str(value) {
ebml::start_tag(ebml_w, tag_meta_item_name_value);
ebml::start_tag(ebml_w, tag_meta_item_name);
ebml_w.writer.write(str::bytes(name));
ebml::end_tag(ebml_w);
ebml::start_tag(ebml_w, tag_meta_item_value);
ebml_w.writer.write(str::bytes(value));
ebml::end_tag(ebml_w);
ebml::end_tag(ebml_w);
}
_ {/* FIXME (#611) */ }
}
}
meta_list(name, items) {
ebml::start_tag(ebml_w, tag_meta_item_list);
ebml::start_tag(ebml_w, tag_meta_item_name);
ebml_w.writer.write(str::bytes(name));
ebml::end_tag(ebml_w);
for inner_item: @meta_item in items {
encode_meta_item(ebml_w, *inner_item);
}
ebml::end_tag(ebml_w);
}
}
}
fn encode_attributes(ebml_w: ebml::writer, attrs: [attribute]) {
ebml::start_tag(ebml_w, tag_attributes);
for attr: attribute in attrs {
ebml::start_tag(ebml_w, tag_attribute);
encode_meta_item(ebml_w, attr.node.value);
ebml::end_tag(ebml_w);
}
ebml::end_tag(ebml_w);
}
// So there's a special crate attribute called 'link' which defines the
// metadata that Rust cares about for linking crates. This attribute requires
// 'name' and 'vers' items, so if the user didn't provide them we will throw
// them in anyway with default values.
fn synthesize_crate_attrs(ecx: @encode_ctxt, crate: @crate) -> [attribute] {
fn synthesize_link_attr(ecx: @encode_ctxt, items: [@meta_item]) ->
attribute {
assert (ecx.ccx.link_meta.name != "");
assert (ecx.ccx.link_meta.vers != "");
let name_item =
attr::mk_name_value_item_str("name", ecx.ccx.link_meta.name);
let vers_item =
attr::mk_name_value_item_str("vers", ecx.ccx.link_meta.vers);
let other_items =
{
let tmp = attr::remove_meta_items_by_name(items, "name");
attr::remove_meta_items_by_name(tmp, "vers")
};
let meta_items = [name_item, vers_item] + other_items;
let link_item = attr::mk_list_item("link", meta_items);
ret attr::mk_attr(link_item);
}
let attrs: [attribute] = [];
let found_link_attr = false;
for attr: attribute in crate.node.attrs {
attrs +=
if attr::get_attr_name(attr) != "link" {
[attr]
} else {
alt attr.node.value.node {
meta_list(n, l) {
found_link_attr = true;;
[synthesize_link_attr(ecx, l)]
}
_ { [attr] }
}
};
}
if !found_link_attr { attrs += [synthesize_link_attr(ecx, [])]; }
ret attrs;
}
fn encode_crate_deps(ebml_w: ebml::writer, cstore: cstore::cstore) {
fn get_ordered_names(cstore: cstore::cstore) -> [str] {
type hashkv = @{key: crate_num, val: cstore::crate_metadata};
type numname = {crate: crate_num, ident: str};
// Pull the cnums and names out of cstore
let pairs: [mutable numname] = [mutable];
cstore::iter_crate_data(cstore) {|key, val|
pairs += [mutable {crate: key, ident: val.name}];
};
// Sort by cnum
fn lteq(kv1: numname, kv2: numname) -> bool { kv1.crate <= kv2.crate }
std::sort::quick_sort(lteq, pairs);
// Sanity-check the crate numbers
let expected_cnum = 1;
for n: numname in pairs {
assert (n.crate == expected_cnum);
expected_cnum += 1;
}
// Return just the names
fn name(kv: numname) -> str { kv.ident }
// mutable -> immutable hack for vec::map
let immpairs = vec::slice(pairs, 0u, vec::len(pairs));
ret vec::map(immpairs, name);
}
// We're just going to write a list of crate names, with the assumption
// that they are numbered 1 to n.
// FIXME: This is not nearly enough to support correct versioning
// but is enough to get transitive crate dependencies working.
ebml::start_tag(ebml_w, tag_crate_deps);
for cname: str in get_ordered_names(cstore) {
ebml::start_tag(ebml_w, tag_crate_dep);
ebml_w.writer.write(str::bytes(cname));
ebml::end_tag(ebml_w);
}
ebml::end_tag(ebml_w);
}
fn encode_hash(ebml_w: ebml::writer, hash: str) {
ebml::start_tag(ebml_w, tag_crate_hash);
ebml_w.writer.write(str::bytes(hash));
ebml::end_tag(ebml_w);
}
fn encode_metadata(cx: @crate_ctxt, crate: @crate) -> str {
let abbrevs = map::mk_hashmap(ty::hash_ty, ty::eq_ty);
let ecx = @{ccx: cx, type_abbrevs: abbrevs};
let string_w = io::string_writer();
let buf_w = string_w.get_writer().get_buf_writer();
let ebml_w = ebml::create_writer(buf_w);
encode_hash(ebml_w, cx.link_meta.extras_hash);
let crate_attrs = synthesize_crate_attrs(ecx, crate);
encode_attributes(ebml_w, crate_attrs);
encode_crate_deps(ebml_w, cx.sess.get_cstore());
// Encode and index the paths.
ebml::start_tag(ebml_w, tag_paths);
let paths_index = encode_item_paths(ebml_w, ecx, crate);
let paths_buckets = create_index(paths_index, hash_path);
encode_index(ebml_w, paths_buckets, write_str);
ebml::end_tag(ebml_w);
// Encode and index the items.
ebml::start_tag(ebml_w, tag_items);
let items_index = encode_info_for_items(ecx, ebml_w, crate.node.module);
let items_buckets = create_index(items_index, hash_node_id);
encode_index(ebml_w, items_buckets, write_int);
ebml::end_tag(ebml_w);
// Pad this, since something (LLVM, presumably) is cutting off the
// remaining % 4 bytes.
buf_w.write([0u8, 0u8, 0u8, 0u8]);
ret string_w.get_str();
}
// Get the encoded string for a type
fn encoded_ty(tcx: ty::ctxt, t: ty::t) -> str {
let cx = @{ds: def_to_str, tcx: tcx, abbrevs: tyencode::ac_no_abbrevs};
let sw = io::string_writer();
tyencode::enc_ty(sw.get_writer(), cx, t);
ret sw.get_str();
}
// Local Variables:
// mode: rust
// fill-column: 78;
// indent-tabs-mode: nil
// c-basic-offset: 4
// buffer-file-coding-system: utf-8-unix
// End: