import std._str; import std._vec; import std.ebml; import std.io; import std.option; import front.ast; import middle.fold; import middle.trans; import middle.ty; import back.x86; import util.common; import lib.llvm.llvm; import lib.llvm.llvm.ValueRef; import lib.llvm.False; const uint tag_paths = 0x01u; const uint tag_items = 0x02u; const uint tag_paths_name = 0x03u; const uint tag_paths_item = 0x04u; const uint tag_paths_mod = 0x05u; const uint tag_items_item = 0x06u; const uint tag_items_def_id = 0x07u; const uint tag_items_kind = 0x08u; const uint tag_items_ty_param = 0x09u; const uint tag_items_type = 0x0au; const uint tag_items_symbol = 0x0bu; const uint tag_items_variant = 0x0cu; const uint tag_items_tag_id = 0x0du; // Type encoding // Compact string representation for ty.t values. API ty_str & parse_from_str. // (The second has to be authed pure.) Extra parameters are for converting // to/from def_ids in the string rep. Whatever format you choose should not // contain pipe characters. // Callback to translate defs to strs or back. type def_str = fn(ast.def_id) -> str; fn ty_str(@ty.t t, def_str ds) -> str { ret sty_str(t.struct, ds); } fn mt_str(&ty.mt mt, def_str ds) -> str { auto mut_str; alt (mt.mut) { case (ast.imm) { mut_str = ""; } case (ast.mut) { mut_str = "m"; } case (ast.maybe_mut) { mut_str = "?"; } } ret mut_str + ty_str(mt.ty, ds); } fn sty_str(ty.sty st, def_str ds) -> str { alt (st) { case (ty.ty_nil) {ret "n";} case (ty.ty_bool) {ret "b";} case (ty.ty_int) {ret "i";} case (ty.ty_uint) {ret "u";} case (ty.ty_float) {ret "l";} case (ty.ty_machine(?mach)) { alt (mach) { case (common.ty_u8) {ret "Mb";} case (common.ty_u16) {ret "Mw";} case (common.ty_u32) {ret "Ml";} case (common.ty_u64) {ret "Md";} case (common.ty_i8) {ret "MB";} case (common.ty_i16) {ret "MW";} case (common.ty_i32) {ret "ML";} case (common.ty_i64) {ret "MD";} case (common.ty_f32) {ret "Mf";} case (common.ty_f64) {ret "MF";} } } case (ty.ty_char) {ret "c";} case (ty.ty_str) {ret "s";} case (ty.ty_tag(?def,?tys)) { // TODO restore def_id auto acc = "t[" + ds(def) + "|"; for (@ty.t t in tys) {acc += ty_str(t, ds);} ret acc + "]"; } case (ty.ty_box(?mt)) {ret "@" + mt_str(mt, ds);} case (ty.ty_vec(?mt)) {ret "V" + mt_str(mt, ds);} case (ty.ty_port(?t)) {ret "P" + ty_str(t, ds);} case (ty.ty_chan(?t)) {ret "C" + ty_str(t, ds);} case (ty.ty_tup(?mts)) { auto acc = "T["; for (ty.mt mt in mts) {acc += mt_str(mt, ds);} ret acc + "]"; } case (ty.ty_rec(?fields)) { auto acc = "R["; for (ty.field field in fields) { acc += field.ident + "="; acc += mt_str(field.mt, ds); } ret acc + "]"; } case (ty.ty_fn(?proto,?args,?out)) { ret proto_str(proto) + ty_fn_str(args, out, ds); } case (ty.ty_native_fn(?abi,?args,?out)) { auto abistr; alt (abi) { case (ast.native_abi_rust) {abistr = "r";} case (ast.native_abi_cdecl) {abistr = "c";} case (ast.native_abi_llvm) {abistr = "l";} } ret "N" + abistr + ty_fn_str(args, out, ds); } case (ty.ty_obj(?methods)) { auto acc = "O["; for (ty.method m in methods) { acc += proto_str(m.proto); acc += m.ident; acc += ty_fn_str(m.inputs, m.output, ds); } ret acc + "]"; } case (ty.ty_var(?id)) {ret "X" + common.istr(id);} case (ty.ty_native) {ret "E";} case (ty.ty_param(?def)) {ret "p" + ds(def);} case (ty.ty_type) {ret "Y";} } } fn proto_str(ast.proto proto) -> str { alt (proto) { case (ast.proto_iter) {ret "W";} case (ast.proto_fn) {ret "F";} } } fn ty_fn_str(vec[ty.arg] args, @ty.t out, def_str ds) -> str { auto acc = "["; for (ty.arg arg in args) { if (arg.mode == ast.alias) {acc += "&";} acc += ty_str(arg.ty, ds); } ret acc + "]" + ty_str(out, ds); } // Returns a Plain Old LLVM String, *without* the trailing zero byte. fn C_postr(str s) -> ValueRef { ret llvm.LLVMConstString(_str.buf(s), _str.byte_len(s) - 1u, False); } // Path table encoding fn encode_name(&ebml.writer ebml_w, str name) { ebml.start_tag(ebml_w, tag_paths_name); ebml_w.writer.write(_str.bytes(name)); ebml.end_tag(ebml_w); } fn encode_def_id(&ebml.writer ebml_w, &ast.def_id id) { ebml.start_tag(ebml_w, tag_items_def_id); ebml_w.writer.write(_str.bytes(def_to_str(id))); ebml.end_tag(ebml_w); } fn encode_tag_variant_paths(&ebml.writer ebml_w, vec[ast.variant] variants) { for (ast.variant variant in variants) { ebml.start_tag(ebml_w, tag_paths_item); encode_name(ebml_w, variant.name); encode_def_id(ebml_w, variant.id); ebml.end_tag(ebml_w); } } fn encode_native_module_item_paths(&ebml.writer ebml_w, &ast.native_mod nmod) { for (@ast.native_item nitem in nmod.items) { alt (nitem.node) { case (ast.native_item_ty(?id, ?did)) { ebml.start_tag(ebml_w, tag_paths_item); encode_name(ebml_w, id); encode_def_id(ebml_w, did); ebml.end_tag(ebml_w); } case (ast.native_item_fn(?id, _, _, _, ?did, _)) { ebml.start_tag(ebml_w, tag_paths_item); encode_name(ebml_w, id); encode_def_id(ebml_w, did); ebml.end_tag(ebml_w); } } } } fn encode_module_item_paths(&ebml.writer ebml_w, &ast._mod module) { // TODO: only encode exported items for (@ast.item it in module.items) { alt (it.node) { case (ast.item_const(?id, _, ?tps, ?did, ?ann)) { ebml.start_tag(ebml_w, tag_paths_item); encode_name(ebml_w, id); encode_def_id(ebml_w, did); ebml.end_tag(ebml_w); } case (ast.item_fn(?id, _, ?tps, ?did, ?ann)) { ebml.start_tag(ebml_w, tag_paths_item); encode_name(ebml_w, id); encode_def_id(ebml_w, did); ebml.end_tag(ebml_w); } case (ast.item_mod(?id, ?_mod, ?did)) { ebml.start_tag(ebml_w, tag_paths_mod); encode_name(ebml_w, id); encode_def_id(ebml_w, did); encode_module_item_paths(ebml_w, _mod); ebml.end_tag(ebml_w); } case (ast.item_native_mod(?id, ?nmod, ?did)) { ebml.start_tag(ebml_w, tag_paths_mod); encode_name(ebml_w, id); encode_def_id(ebml_w, did); encode_native_module_item_paths(ebml_w, nmod); ebml.end_tag(ebml_w); } case (ast.item_ty(?id, _, ?tps, ?did, ?ann)) { ebml.start_tag(ebml_w, tag_paths_item); encode_name(ebml_w, id); encode_def_id(ebml_w, did); ebml.end_tag(ebml_w); } case (ast.item_tag(?id, ?variants, ?tps, ?did)) { ebml.start_tag(ebml_w, tag_paths_item); encode_name(ebml_w, id); encode_tag_variant_paths(ebml_w, variants); encode_def_id(ebml_w, did); ebml.end_tag(ebml_w); } case (ast.item_obj(?id, _, ?tps, ?did, ?ann)) { ebml.start_tag(ebml_w, tag_paths_item); encode_name(ebml_w, id); encode_def_id(ebml_w, did); ebml.end_tag(ebml_w); } } } } fn encode_item_paths(&ebml.writer ebml_w, @ast.crate crate) { ebml.start_tag(ebml_w, tag_paths); encode_module_item_paths(ebml_w, crate.node.module); ebml.end_tag(ebml_w); } // Item info table encoding fn encode_kind(&ebml.writer ebml_w, u8 c) { ebml.start_tag(ebml_w, tag_items_kind); ebml_w.writer.write(vec(c)); ebml.end_tag(ebml_w); } fn def_to_str(ast.def_id did) -> str { ret #fmt("%d:%d", did._0, did._1); } // TODO: We need to encode the "crate numbers" somewhere for diamond imports. fn encode_type_params(&ebml.writer ebml_w, vec[ast.ty_param] tps) { for (ast.ty_param tp in tps) { ebml.start_tag(ebml_w, tag_items_ty_param); ebml_w.writer.write(_str.bytes(def_to_str(tp.id))); ebml.end_tag(ebml_w); } } fn encode_type(&ebml.writer ebml_w, @ty.t typ) { ebml.start_tag(ebml_w, tag_items_type); auto f = def_to_str; ebml_w.writer.write(_str.bytes(ty_str(typ, f))); ebml.end_tag(ebml_w); } fn encode_symbol(@trans.crate_ctxt cx, &ebml.writer ebml_w, ast.def_id did) { ebml.start_tag(ebml_w, tag_items_symbol); ebml_w.writer.write(_str.bytes(cx.item_symbols.get(did))); ebml.end_tag(ebml_w); } fn encode_discriminant(@trans.crate_ctxt cx, &ebml.writer ebml_w, ast.def_id did) { ebml.start_tag(ebml_w, tag_items_symbol); ebml_w.writer.write(_str.bytes(cx.discrim_symbols.get(did))); ebml.end_tag(ebml_w); } fn encode_tag_id(&ebml.writer ebml_w, &ast.def_id id) { ebml.start_tag(ebml_w, tag_items_tag_id); ebml_w.writer.write(_str.bytes(def_to_str(id))); ebml.end_tag(ebml_w); } fn encode_tag_variant_info(@trans.crate_ctxt cx, &ebml.writer ebml_w, ast.def_id did, vec[ast.variant] variants) { for (ast.variant variant in variants) { ebml.start_tag(ebml_w, tag_items_item); encode_def_id(ebml_w, variant.id); encode_kind(ebml_w, 'v' as u8); encode_tag_id(ebml_w, did); encode_type(ebml_w, trans.node_ann_type(cx, variant.ann)); if (_vec.len[ast.variant_arg](variant.args) > 0u) { encode_symbol(cx, ebml_w, variant.id); } encode_discriminant(cx, ebml_w, variant.id); ebml.end_tag(ebml_w); } } fn encode_info_for_item(@trans.crate_ctxt cx, &ebml.writer ebml_w, @ast.item item) { alt (item.node) { case (ast.item_const(_, _, _, ?did, ?ann)) { ebml.start_tag(ebml_w, tag_items_item); encode_def_id(ebml_w, did); encode_kind(ebml_w, 'c' as u8); encode_type(ebml_w, trans.node_ann_type(cx, ann)); encode_symbol(cx, ebml_w, did); ebml.end_tag(ebml_w); } case (ast.item_fn(_, _, ?tps, ?did, ?ann)) { ebml.start_tag(ebml_w, tag_items_item); encode_def_id(ebml_w, did); encode_kind(ebml_w, 'f' as u8); encode_type_params(ebml_w, tps); encode_type(ebml_w, trans.node_ann_type(cx, ann)); encode_symbol(cx, ebml_w, did); ebml.end_tag(ebml_w); } case (ast.item_mod(_, _, ?did)) { ebml.start_tag(ebml_w, tag_items_item); encode_def_id(ebml_w, did); encode_kind(ebml_w, 'm' as u8); ebml.end_tag(ebml_w); } case (ast.item_native_mod(_, _, ?did)) { ebml.start_tag(ebml_w, tag_items_item); encode_def_id(ebml_w, did); encode_kind(ebml_w, 'n' as u8); ebml.end_tag(ebml_w); } case (ast.item_ty(?id, _, ?tps, ?did, ?ann)) { ebml.start_tag(ebml_w, tag_items_item); encode_def_id(ebml_w, did); encode_kind(ebml_w, 'y' as u8); encode_type_params(ebml_w, tps); encode_type(ebml_w, trans.node_ann_type(cx, ann)); ebml.end_tag(ebml_w); } case (ast.item_tag(?id, ?variants, ?tps, ?did)) { ebml.start_tag(ebml_w, tag_items_item); encode_def_id(ebml_w, did); encode_kind(ebml_w, 't' as u8); encode_type_params(ebml_w, tps); ebml.end_tag(ebml_w); encode_tag_variant_info(cx, ebml_w, did, variants); } case (ast.item_obj(?id, _, ?tps, ?did, ?ann)) { ebml.start_tag(ebml_w, tag_items_item); encode_def_id(ebml_w, did); encode_kind(ebml_w, 'o' as u8); encode_type_params(ebml_w, tps); encode_type(ebml_w, trans.node_ann_type(cx, ann)); encode_symbol(cx, ebml_w, did); ebml.end_tag(ebml_w); } } } fn encode_info_for_native_item(@trans.crate_ctxt cx, &ebml.writer ebml_w, @ast.native_item nitem) { ebml.start_tag(ebml_w, tag_items_item); alt (nitem.node) { case (ast.native_item_ty(_, ?did)) { encode_def_id(ebml_w, did); encode_kind(ebml_w, 'T' as u8); } case (ast.native_item_fn(_, _, _, ?tps, ?did, ?ann)) { encode_def_id(ebml_w, did); encode_kind(ebml_w, 'F' as u8); encode_type_params(ebml_w, tps); encode_type(ebml_w, trans.node_ann_type(cx, ann)); } } ebml.end_tag(ebml_w); } fn encode_info_for_items(@trans.crate_ctxt cx, &ebml.writer ebml_w) { ebml.start_tag(ebml_w, tag_items); for each (@tup(ast.def_id, @ast.item) kvp in cx.items.items()) { encode_info_for_item(cx, ebml_w, kvp._1); } for each (@tup(ast.def_id, @ast.native_item) kvp in cx.native_items.items()) { encode_info_for_native_item(cx, ebml_w, kvp._1); } ebml.end_tag(ebml_w); } fn encode_metadata(@trans.crate_ctxt cx, @ast.crate crate) -> ValueRef { auto string_w = io.string_writer(); auto buf_w = string_w.get_writer().get_buf_writer(); auto ebml_w = ebml.create_writer(buf_w); encode_item_paths(ebml_w, crate); encode_info_for_items(cx, ebml_w); ret C_postr(string_w.get_str()); } fn write_metadata(@trans.crate_ctxt cx, @ast.crate crate) { auto llmeta = encode_metadata(cx, crate); auto llconst = trans.C_struct(vec(llmeta)); auto llglobal = llvm.LLVMAddGlobal(cx.llmod, trans.val_ty(llconst), _str.buf("rust_metadata")); llvm.LLVMSetInitializer(llglobal, llconst); llvm.LLVMSetSection(llglobal, _str.buf(x86.get_meta_sect_name())); } // // Local Variables: // mode: rust // fill-column: 78; // indent-tabs-mode: nil // c-basic-offset: 4 // buffer-file-coding-system: utf-8-unix // compile-command: "make -k -C $RBUILD 2>&1 | sed -e 's/\\/x\\//x:\\//g'"; // End: //