use std::map; use std::map::HashMap; use lib::llvm::llvm; use lib::llvm::ValueRef; use trans::common::*; use trans::base; use trans::build::B; use middle::ty; use syntax::{ast, codemap, ast_util, ast_map}; use syntax::parse::token::ident_interner; use codemap::span; use ast::Ty; use pat_util::*; use util::ppaux::ty_to_str; use driver::session::session; export create_local_var; export create_function; export create_arg; export update_source_pos; export debug_ctxt; export mk_ctxt; const LLVMDebugVersion: int = (9 << 16); const DW_LANG_RUST: int = 0x9000; const DW_VIRTUALITY_none: int = 0; const CompileUnitTag: int = 17; const FileDescriptorTag: int = 41; const SubprogramTag: int = 46; const SubroutineTag: int = 21; const BasicTypeDescriptorTag: int = 36; const AutoVariableTag: int = 256; const ArgVariableTag: int = 257; const ReturnVariableTag: int = 258; const LexicalBlockTag: int = 11; const PointerTypeTag: int = 15; const StructureTypeTag: int = 19; const MemberTag: int = 13; const ArrayTypeTag: int = 1; const SubrangeTag: int = 33; const DW_ATE_boolean: int = 0x02; const DW_ATE_float: int = 0x04; const DW_ATE_signed: int = 0x05; const DW_ATE_signed_char: int = 0x06; const DW_ATE_unsigned: int = 0x07; const DW_ATE_unsigned_char: int = 0x08; fn llstr(s: ~str) -> ValueRef { str::as_c_str(s, |sbuf| { llvm::LLVMMDString(sbuf, str::len(s) as libc::c_uint) }) } fn lltag(lltag: int) -> ValueRef { lli32(LLVMDebugVersion | lltag) } fn lli32(val: int) -> ValueRef { C_i32(val as i32) } fn lli64(val: int) -> ValueRef { C_i64(val as i64) } fn lli1(bval: bool) -> ValueRef { C_bool(bval) } fn llmdnode(elems: ~[ValueRef]) -> ValueRef unsafe { llvm::LLVMMDNode(vec::raw::to_ptr(elems), vec::len(elems) as libc::c_uint) } fn llunused() -> ValueRef { lli32(0x0) } fn llnull() -> ValueRef unsafe { cast::reinterpret_cast(&ptr::null::()) } fn add_named_metadata(cx: @crate_ctxt, name: ~str, val: ValueRef) { str::as_c_str(name, |sbuf| { llvm::LLVMAddNamedMetadataOperand(cx.llmod, sbuf, val) }) } //////////////// type debug_ctxt = { llmetadata: metadata_cache, names: namegen, crate_file: ~str }; fn mk_ctxt(crate: ~str, intr: @ident_interner) -> debug_ctxt { {llmetadata: map::HashMap(), names: new_namegen(intr), crate_file: crate} } fn update_cache(cache: metadata_cache, mdtag: int, val: debug_metadata) { let existing = if cache.contains_key(mdtag) { cache.get(mdtag) } else { ~[] }; cache.insert(mdtag, vec::append_one(existing, val)); } type metadata = {node: ValueRef, data: T}; type file_md = {path: ~str}; type compile_unit_md = {name: ~str}; type subprogram_md = {id: ast::node_id}; type local_var_md = {id: ast::node_id}; type tydesc_md = {hash: uint}; type block_md = {start: codemap::loc, end: codemap::loc}; type argument_md = {id: ast::node_id}; type retval_md = {id: ast::node_id}; type metadata_cache = HashMap; enum debug_metadata { file_metadata(@metadata), compile_unit_metadata(@metadata), subprogram_metadata(@metadata), local_var_metadata(@metadata), tydesc_metadata(@metadata), block_metadata(@metadata), argument_metadata(@metadata), retval_metadata(@metadata), } fn cast_safely(val: T) -> U unsafe { let val2 = val; return cast::transmute(move val2); } fn md_from_metadata(val: debug_metadata) -> T unsafe { match val { file_metadata(md) => cast_safely(md), compile_unit_metadata(md) => cast_safely(md), subprogram_metadata(md) => cast_safely(md), local_var_metadata(md) => cast_safely(md), tydesc_metadata(md) => cast_safely(md), block_metadata(md) => cast_safely(md), argument_metadata(md) => cast_safely(md), retval_metadata(md) => cast_safely(md) } } fn cached_metadata(cache: metadata_cache, mdtag: int, eq: fn(md: T) -> bool) -> Option unsafe { if cache.contains_key(mdtag) { let items = cache.get(mdtag); for items.each |item| { let md: T = md_from_metadata::(*item); if eq(md) { return option::Some(md); } } } return option::None; } fn create_compile_unit(cx: @crate_ctxt) -> @metadata unsafe { let cache = get_cache(cx); let crate_name = cx.dbg_cx.get().crate_file; let tg = CompileUnitTag; match cached_metadata::<@metadata>(cache, tg, |md| md.data.name == crate_name) { option::Some(md) => return md, option::None => () } let (_, work_dir) = get_file_path_and_dir(cx.sess.working_dir.to_str(), crate_name); let unit_metadata = ~[lltag(tg), llunused(), lli32(DW_LANG_RUST), llstr(crate_name), llstr(work_dir), llstr(env!("CFG_VERSION")), lli1(true), // deprecated: main compile unit lli1(cx.sess.opts.optimize != session::No), llstr(~""), // flags (???) lli32(0) // runtime version (???) ]; let unit_node = llmdnode(unit_metadata); add_named_metadata(cx, ~"llvm.dbg.cu", unit_node); let mdval = @{node: unit_node, data: {name: crate_name}}; update_cache(cache, tg, compile_unit_metadata(mdval)); return mdval; } fn get_cache(cx: @crate_ctxt) -> metadata_cache { cx.dbg_cx.get().llmetadata } fn get_file_path_and_dir(work_dir: &str, full_path: &str) -> (~str, ~str) { (if str::starts_with(full_path, work_dir) { str::slice(full_path, str::len(work_dir) + 1u, str::len(full_path)) } else { str::from_slice(full_path) }, str::from_slice(work_dir)) } fn create_file(cx: @crate_ctxt, full_path: ~str) -> @metadata { let cache = get_cache(cx);; let tg = FileDescriptorTag; match cached_metadata::<@metadata>( cache, tg, |md| md.data.path == full_path) { option::Some(md) => return md, option::None => () } let (file_path, work_dir) = get_file_path_and_dir(cx.sess.working_dir.to_str(), full_path); let unit_node = create_compile_unit(cx).node; let file_md = ~[lltag(tg), llstr(file_path), llstr(work_dir), unit_node]; let val = llmdnode(file_md); let mdval = @{node: val, data: {path: full_path}}; update_cache(cache, tg, file_metadata(mdval)); return mdval; } fn line_from_span(cm: codemap::CodeMap, sp: span) -> uint { codemap::lookup_char_pos(cm, sp.lo).line } fn create_block(cx: block) -> @metadata { let cache = get_cache(cx.ccx()); let mut cx = cx; while cx.node_info.is_none() { match cx.parent { Some(b) => cx = b, None => fail } } let sp = cx.node_info.get().span; let start = codemap::lookup_char_pos(cx.sess().codemap, sp.lo); let fname = start.file.name; let end = codemap::lookup_char_pos(cx.sess().codemap, sp.hi); let tg = LexicalBlockTag; /*alt cached_metadata::<@metadata>( cache, tg, {|md| start == md.data.start && end == md.data.end}) { option::Some(md) { return md; } option::None {} }*/ let parent = match cx.parent { None => create_function(cx.fcx).node, Some(bcx) => create_block(bcx).node }; let file_node = create_file(cx.ccx(), fname); let unique_id = match cache.find(LexicalBlockTag) { option::Some(v) => vec::len(v) as int, option::None => 0 }; let lldata = ~[lltag(tg), parent, lli32(start.line as int), lli32(start.col as int), file_node.node, lli32(unique_id) ]; let val = llmdnode(lldata); let mdval = @{node: val, data: {start: start, end: end}}; //update_cache(cache, tg, block_metadata(mdval)); return mdval; } fn size_and_align_of(cx: @crate_ctxt, t: ty::t) -> (int, int) { let llty = type_of::type_of(cx, t); (shape::llsize_of_real(cx, llty) as int, shape::llalign_of_pref(cx, llty) as int) } fn create_basic_type(cx: @crate_ctxt, t: ty::t, span: span) -> @metadata { let cache = get_cache(cx); let tg = BasicTypeDescriptorTag; match cached_metadata::<@metadata>( cache, tg, |md| ty::type_id(t) == md.data.hash) { option::Some(md) => return md, option::None => () } let (name, encoding) = (~"uint", DW_ATE_unsigned); let fname = filename_from_span(cx, span); let file_node = create_file(cx, fname); let cu_node = create_compile_unit(cx); let (size, align) = size_and_align_of(cx, t); let lldata = ~[lltag(tg), cu_node.node, llstr(name), file_node.node, lli32(0), //XXX source line lli64(size * 8), // size in bits lli64(align * 8), // alignment in bits lli64(0), //XXX offset? lli32(0), //XXX flags? lli32(encoding)]; let llnode = llmdnode(lldata); let mdval = @{node: llnode, data: {hash: ty::type_id(t)}}; update_cache(cache, tg, tydesc_metadata(mdval)); add_named_metadata(cx, ~"llvm.dbg.ty", llnode); return mdval; } fn create_pointer_type(cx: @crate_ctxt, t: ty::t, span: span, pointee: @metadata) -> @metadata { let tg = PointerTypeTag; /*let cache = cx.llmetadata; match cached_metadata::<@metadata>( cache, tg, {|md| ty::hash_ty(t) == ty::hash_ty(md.data.hash)}) { option::Some(md) { return md; } option::None {} }*/ let (size, align) = size_and_align_of(cx, t); let fname = filename_from_span(cx, span); let file_node = create_file(cx, fname); //let cu_node = create_compile_unit(cx, fname); let llnode = create_derived_type(tg, file_node.node, ~"", 0, size * 8, align * 8, 0, pointee.node); let mdval = @{node: llnode, data: {hash: ty::type_id(t)}}; //update_cache(cache, tg, tydesc_metadata(mdval)); add_named_metadata(cx, ~"llvm.dbg.ty", llnode); return mdval; } type struct_ctxt = { file: ValueRef, name: ~str, line: int, mut members: ~[ValueRef], mut total_size: int, align: int }; fn finish_structure(cx: @struct_ctxt) -> ValueRef { return create_composite_type(StructureTypeTag, cx.name, cx.file, cx.line, cx.total_size, cx.align, 0, option::None, option::Some(cx.members)); } fn create_structure(file: @metadata, name: ~str, line: int) -> @struct_ctxt { let cx = @{file: file.node, name: name, line: line, mut members: ~[], mut total_size: 0, align: 64 //XXX different alignment per arch? }; return cx; } fn create_derived_type(type_tag: int, file: ValueRef, name: ~str, line: int, size: int, align: int, offset: int, ty: ValueRef) -> ValueRef { let lldata = ~[lltag(type_tag), file, llstr(name), file, lli32(line), lli64(size), lli64(align), lli64(offset), lli32(0), ty]; return llmdnode(lldata); } fn add_member(cx: @struct_ctxt, name: ~str, line: int, size: int, align: int, ty: ValueRef) { cx.members.push(create_derived_type(MemberTag, cx.file, name, line, size * 8, align * 8, cx.total_size, ty)); cx.total_size += size * 8; } fn create_record(cx: @crate_ctxt, t: ty::t, fields: ~[ast::ty_field], span: span) -> @metadata { let fname = filename_from_span(cx, span); let file_node = create_file(cx, fname); let scx = create_structure(file_node, cx.sess.str_of( cx.dbg_cx.get().names(~"rec")), line_from_span(cx.sess.codemap, span) as int); for fields.each |field| { let field_t = ty::get_field(cx.tcx, t, field.node.ident).mt.ty; let ty_md = create_ty(cx, field_t, field.node.mt.ty); let (size, align) = size_and_align_of(cx, field_t); add_member(scx, cx.sess.str_of(field.node.ident), line_from_span(cx.sess.codemap, field.span) as int, size as int, align as int, ty_md.node); } let mdval = @{node: finish_structure(scx), data:{hash: ty::type_id(t)}}; return mdval; } fn create_boxed_type(cx: @crate_ctxt, outer: ty::t, _inner: ty::t, span: span, boxed: @metadata) -> @metadata { //let tg = StructureTypeTag; /*let cache = cx.llmetadata; match cached_metadata::<@metadata>( cache, tg, {|md| ty::hash_ty(outer) == ty::hash_ty(md.data.hash)}) { option::Some(md) { return md; } option::None {} }*/ let fname = filename_from_span(cx, span); let file_node = create_file(cx, fname); //let cu_node = create_compile_unit_metadata(cx, fname); let uint_t = ty::mk_uint(cx.tcx); let refcount_type = create_basic_type(cx, uint_t, span); let scx = create_structure(file_node, ty_to_str(cx.tcx, outer), 0); add_member(scx, ~"refcnt", 0, sys::size_of::() as int, sys::min_align_of::() as int, refcount_type.node); add_member(scx, ~"boxed", 0, 8, //XXX member_size_and_align(??) 8, //XXX just a guess boxed.node); let llnode = finish_structure(scx); let mdval = @{node: llnode, data: {hash: ty::type_id(outer)}}; //update_cache(cache, tg, tydesc_metadata(mdval)); add_named_metadata(cx, ~"llvm.dbg.ty", llnode); return mdval; } fn create_composite_type(type_tag: int, name: ~str, file: ValueRef, line: int, size: int, align: int, offset: int, derived: Option, members: Option<~[ValueRef]>) -> ValueRef { let lldata = ~[lltag(type_tag), file, llstr(name), // type name file, // source file definition lli32(line), // source line definition lli64(size), // size of members lli64(align), // align lli32/*64*/(offset), // offset lli32(0), // flags if derived.is_none() { llnull() } else { // derived from derived.get() }, if members.is_none() { llnull() } else { //members llmdnode(members.get()) }, lli32(0), // runtime language llnull() ]; return llmdnode(lldata); } fn create_vec(cx: @crate_ctxt, vec_t: ty::t, elem_t: ty::t, vec_ty_span: codemap::span, elem_ty: @ast::Ty) -> @metadata { let fname = filename_from_span(cx, vec_ty_span); let file_node = create_file(cx, fname); let elem_ty_md = create_ty(cx, elem_t, elem_ty); let scx = create_structure(file_node, ty_to_str(cx.tcx, vec_t), 0); let size_t_type = create_basic_type(cx, ty::mk_uint(cx.tcx), vec_ty_span); add_member(scx, ~"fill", 0, sys::size_of::() as int, sys::min_align_of::() as int, size_t_type.node); add_member(scx, ~"alloc", 0, sys::size_of::() as int, sys::min_align_of::() as int, size_t_type.node); let subrange = llmdnode(~[lltag(SubrangeTag), lli64(0), lli64(0)]); let (arr_size, arr_align) = size_and_align_of(cx, elem_t); let data_ptr = create_composite_type(ArrayTypeTag, ~"", file_node.node, 0, arr_size, arr_align, 0, option::Some(elem_ty_md.node), option::Some(~[subrange])); add_member(scx, ~"data", 0, 0, // clang says the size should be 0 sys::min_align_of::() as int, data_ptr); let llnode = finish_structure(scx); return @{node: llnode, data: {hash: ty::type_id(vec_t)}}; } fn create_ty(_cx: @crate_ctxt, _t: ty::t, _ty: @ast::Ty) -> @metadata { /*let cache = get_cache(cx); match cached_metadata::<@metadata>( cache, tg, {|md| t == md.data.hash}) { option::Some(md) { return md; } option::None {} }*/ /* FIXME (#2012): disabled this code as part of the patch that moves * recognition of named builtin types into resolve. I tried to fix * it, but it seems to already be broken -- it's only called when * --xg is given, and compiling with --xg fails on trivial programs. * * Generating an ast::ty from a ty::t seems like it should not be * needed. It is only done to track spans, but you will not get the * right spans anyway -- types tend to refer to stuff defined * elsewhere, not be self-contained. */ fail; /* fn t_to_ty(cx: crate_ctxt, t: ty::t, span: span) -> @ast::ty { let ty = match ty::get(t).struct { ty::ty_nil { ast::ty_nil } ty::ty_bot { ast::ty_bot } ty::ty_bool { ast::ty_bool } ty::ty_int(t) { ast::ty_int(t) } ty::ty_float(t) { ast::ty_float(t) } ty::ty_uint(t) { ast::ty_uint(t) } ty::ty_box(mt) { ast::ty_box({ty: t_to_ty(cx, mt.ty, span), mutbl: mt.mutbl}) } ty::ty_uniq(mt) { ast::ty_uniq({ty: t_to_ty(cx, mt.ty, span), mutbl: mt.mutbl}) } ty::ty_rec(fields) { let fs = ~[]; for field in fields { fs.push({node: {ident: field.ident, mt: {ty: t_to_ty(cx, field.mt.ty, span), mutbl: field.mt.mutbl}}, span: span}); } ast::ty_rec(fs) } ty::ty_vec(mt) { ast::ty_vec({ty: t_to_ty(cx, mt.ty, span), mutbl: mt.mutbl}) } _ { cx.sess.span_bug(span, "t_to_ty: Can't handle this type"); } }; return @{node: ty, span: span}; } match ty.node { ast::ty_box(mt) { let inner_t = match ty::get(t).struct { ty::ty_box(boxed) { boxed.ty } _ { cx.sess.span_bug(ty.span, "t_to_ty was incoherent"); } }; let md = create_ty(cx, inner_t, mt.ty); let box = create_boxed_type(cx, t, inner_t, ty.span, md); return create_pointer_type(cx, t, ty.span, box); } ast::ty_uniq(mt) { let inner_t = match ty::get(t).struct { ty::ty_uniq(boxed) { boxed.ty } // Hoping we'll have a way to eliminate this check soon. _ { cx.sess.span_bug(ty.span, "t_to_ty was incoherent"); } }; let md = create_ty(cx, inner_t, mt.ty); return create_pointer_type(cx, t, ty.span, md); } ast::ty_infer { let inferred = t_to_ty(cx, t, ty.span); return create_ty(cx, t, inferred); } ast::ty_rec(fields) { return create_record(cx, t, fields, ty.span); } ast::ty_vec(mt) { let inner_t = ty::sequence_element_type(cx.tcx, t); let inner_ast_t = t_to_ty(cx, inner_t, mt.ty.span); let v = create_vec(cx, t, inner_t, ty.span, inner_ast_t); return create_pointer_type(cx, t, ty.span, v); } ast::ty_path(_, id) { match cx.tcx.def_map.get(id) { ast::def_prim_ty(pty) { return create_basic_type(cx, t, pty, ty.span); } _ {} } } _ {} }; */ } fn filename_from_span(cx: @crate_ctxt, sp: codemap::span) -> ~str { codemap::lookup_char_pos(cx.sess.codemap, sp.lo).file.name } fn create_var(type_tag: int, context: ValueRef, name: ~str, file: ValueRef, line: int, ret_ty: ValueRef) -> ValueRef { let lldata = ~[lltag(type_tag), context, llstr(name), file, lli32(line), ret_ty, lli32(0) ]; return llmdnode(lldata); } fn create_local_var(bcx: block, local: @ast::local) -> @metadata unsafe { let cx = bcx.ccx(); let cache = get_cache(cx); let tg = AutoVariableTag; match cached_metadata::<@metadata>( cache, tg, |md| md.data.id == local.node.id) { option::Some(md) => return md, option::None => () } let name = match local.node.pat.node { ast::pat_ident(_, pth, _) => ast_util::path_to_ident(pth), // FIXME this should be handled (#2533) _ => fail ~"no single variable name for local" }; let loc = codemap::lookup_char_pos(cx.sess.codemap, local.span.lo); let ty = node_id_type(bcx, local.node.id); let tymd = create_ty(cx, ty, local.node.ty); let filemd = create_file(cx, loc.file.name); let context = match bcx.parent { None => create_function(bcx.fcx).node, Some(_) => create_block(bcx).node }; let mdnode = create_var(tg, context, cx.sess.str_of(name), filemd.node, loc.line as int, tymd.node); let mdval = @{node: mdnode, data: {id: local.node.id}}; update_cache(cache, AutoVariableTag, local_var_metadata(mdval)); let llptr = match bcx.fcx.lllocals.find(local.node.id) { option::Some(local_mem(v)) => v, option::Some(_) => { bcx.tcx().sess.span_bug(local.span, ~"local is bound to \ something weird"); } option::None => { match bcx.fcx.lllocals.get(local.node.pat.id) { local_imm(v) => v, _ => bcx.tcx().sess.span_bug(local.span, ~"local is bound to \ something weird") } } }; let declargs = ~[llmdnode(~[llptr]), mdnode]; trans::build::Call(bcx, cx.intrinsics.get(~"llvm.dbg.declare"), declargs); return mdval; } fn create_arg(bcx: block, arg: ast::arg, sp: span) -> Option<@metadata> unsafe { let fcx = bcx.fcx, cx = fcx.ccx; let cache = get_cache(cx); let tg = ArgVariableTag; match cached_metadata::<@metadata>( cache, ArgVariableTag, |md| md.data.id == arg.id) { option::Some(md) => return Some(md), option::None => () } let loc = codemap::lookup_char_pos(cx.sess.codemap, sp.lo); let ty = node_id_type(bcx, arg.id); let tymd = create_ty(cx, ty, arg.ty); let filemd = create_file(cx, loc.file.name); let context = create_function(bcx.fcx); match arg.pat.node { ast::pat_ident(_, path, _) => { // XXX: This is wrong; it should work for multiple bindings. let mdnode = create_var(tg, context.node, cx.sess.str_of(path.idents.last()), filemd.node, loc.line as int, tymd.node); let mdval = @{node: mdnode, data: {id: arg.id}}; update_cache(cache, tg, argument_metadata(mdval)); let llptr = match fcx.llargs.get(arg.id) { local_mem(v) | local_imm(v) => v, }; let declargs = ~[llmdnode(~[llptr]), mdnode]; trans::build::Call(bcx, cx.intrinsics.get(~"llvm.dbg.declare"), declargs); return Some(mdval); } _ => { return None; } } } fn update_source_pos(cx: block, s: span) { if !cx.sess().opts.debuginfo { return; } let cm = cx.sess().codemap; let blockmd = create_block(cx); let loc = codemap::lookup_char_pos(cm, s.lo); let scopedata = ~[lli32(loc.line as int), lli32(loc.col as int), blockmd.node, llnull()]; let dbgscope = llmdnode(scopedata); llvm::LLVMSetCurrentDebugLocation(trans::build::B(cx), dbgscope); } fn create_function(fcx: fn_ctxt) -> @metadata { let cx = fcx.ccx; let dbg_cx = cx.dbg_cx.get(); debug!("~~"); log(debug, fcx.id); let sp = fcx.span.get(); log(debug, codemap::span_to_str(sp, cx.sess.codemap)); let (ident, ret_ty, id) = match cx.tcx.items.get(fcx.id) { ast_map::node_item(item, _) => { match item.node { ast::item_fn(decl, _, _, _) => { (item.ident, decl.output, item.id) } _ => fcx.ccx.sess.span_bug(item.span, ~"create_function: item \ bound to non-function") } } ast_map::node_method(method, _, _) => { (method.ident, method.decl.output, method.id) } ast_map::node_expr(expr) => { match expr.node { ast::expr_fn(_, decl, _, _) => { (dbg_cx.names(~"fn"), decl.output, expr.id) } ast::expr_fn_block(decl, _, _) => { (dbg_cx.names(~"fn"), decl.output, expr.id) } _ => fcx.ccx.sess.span_bug(expr.span, ~"create_function: \ expected an expr_fn or fn_block here") } } _ => fcx.ccx.sess.bug(~"create_function: unexpected \ sort of node") }; log(debug, ident); log(debug, id); let cache = get_cache(cx); match cached_metadata::<@metadata>( cache, SubprogramTag, |md| md.data.id == id) { option::Some(md) => return md, option::None => () } let loc = codemap::lookup_char_pos(cx.sess.codemap, sp.lo); let file_node = create_file(cx, loc.file.name).node; let ty_node = if cx.sess.opts.extra_debuginfo { match ret_ty.node { ast::ty_nil => llnull(), _ => create_ty(cx, ty::node_id_to_type(cx.tcx, id), ret_ty).node } } else { llnull() }; let sub_node = create_composite_type(SubroutineTag, ~"", file_node, 0, 0, 0, 0, option::None, option::Some(~[ty_node])); let fn_metadata = ~[lltag(SubprogramTag), llunused(), file_node, llstr(cx.sess.str_of(ident)), //XXX fully-qualified C++ name: llstr(cx.sess.str_of(ident)), llstr(~""), //XXX MIPS name????? file_node, lli32(loc.line as int), sub_node, lli1(false), //XXX static (check export) lli1(true), // defined in compilation unit lli32(DW_VIRTUALITY_none), // virtual-ness lli32(0i), //index into virt func /*llnull()*/ lli32(0), // base type with vtbl lli32(256), // flags lli1(cx.sess.opts.optimize != session::No), fcx.llfn //list of template params //func decl descriptor //list of func vars ]; let val = llmdnode(fn_metadata); add_named_metadata(cx, ~"llvm.dbg.sp", val); let mdval = @{node: val, data: {id: id}}; update_cache(cache, SubprogramTag, subprogram_metadata(mdval)); return mdval; }