// Type decoding import syntax::ast; import syntax::ast::*; import syntax::ast_util; import syntax::ast_util::respan; import middle::ty; import std::map::hashmap; export parse_ty_data, parse_def_id, parse_ident; export parse_bounds_data; // Compact string representation for ty::t values. API ty_str & // parse_from_str. Extra parameters are for converting to/from def_ids in the // data buffer. Whatever format you choose should not contain pipe characters. // Callback to translate defs to strs or back: type conv_did = fn(ast::def_id) -> ast::def_id; type pstate = {data: @~[u8], crate: int, mut pos: uint, tcx: ty::ctxt}; fn peek(st: @pstate) -> char { st.data[st.pos] as char } fn next(st: @pstate) -> char { let ch = st.data[st.pos] as char; st.pos = st.pos + 1u; return ch; } fn next_byte(st: @pstate) -> u8 { let b = st.data[st.pos]; st.pos = st.pos + 1u; return b; } fn parse_ident(st: @pstate, last: char) -> ast::ident { fn is_last(b: char, c: char) -> bool { return c == b; } return parse_ident_(st, |a| is_last(last, a) ); } fn parse_ident_(st: @pstate, is_last: fn@(char) -> bool) -> ast::ident { let mut rslt = ~""; while !is_last(peek(st)) { rslt += str::from_byte(next_byte(st)); } return @rslt; } fn parse_ty_data(data: @~[u8], crate_num: int, pos: uint, tcx: ty::ctxt, conv: conv_did) -> ty::t { let st = @{data: data, crate: crate_num, mut pos: pos, tcx: tcx}; parse_ty(st, conv) } fn parse_ret_ty(st: @pstate, conv: conv_did) -> (ast::ret_style, ty::t) { match peek(st) { '!' => { next(st); (ast::noreturn, ty::mk_bot(st.tcx)) } _ => (ast::return_val, parse_ty(st, conv)) } } fn parse_path(st: @pstate) -> @ast::path { let mut idents: ~[ast::ident] = ~[]; fn is_last(c: char) -> bool { return c == '(' || c == ':'; } vec::push(idents, parse_ident_(st, is_last)); loop { match peek(st) { ':' => { next(st); next(st); } c => { if c == '(' { return @{span: ast_util::dummy_sp(), global: false, idents: idents, rp: none, types: ~[]}; } else { vec::push(idents, parse_ident_(st, is_last)); } } } }; } fn parse_ty_rust_fn(st: @pstate, conv: conv_did) -> ty::t { return ty::mk_fn(st.tcx, parse_ty_fn(st, conv)); } fn parse_proto(st: @pstate) -> ty::fn_proto { match next(st) { 'n' => ty::proto_bare, 'v' => ty::proto_vstore(parse_vstore(st)), c => fail ~"illegal proto type kind " + str::from_char(c) } } fn parse_vstore(st: @pstate) -> ty::vstore { assert next(st) == '/'; let c = peek(st); if '0' <= c && c <= '9' { let n = parse_int(st) as uint; assert next(st) == '|'; return ty::vstore_fixed(n); } match check next(st) { '~' => ty::vstore_uniq, '@' => ty::vstore_box, '&' => ty::vstore_slice(parse_region(st)) } } fn parse_substs(st: @pstate, conv: conv_did) -> ty::substs { let self_r = parse_opt(st, || parse_region(st) ); let self_ty = parse_opt(st, || parse_ty(st, conv) ); assert next(st) == '['; let mut params: ~[ty::t] = ~[]; while peek(st) != ']' { vec::push(params, parse_ty(st, conv)); } st.pos = st.pos + 1u; return {self_r: self_r, self_ty: self_ty, tps: params}; } fn parse_bound_region(st: @pstate) -> ty::bound_region { match check next(st) { 's' => ty::br_self, 'a' => ty::br_anon, '[' => ty::br_named(@parse_str(st, ']')), 'c' => { let id = parse_int(st); assert next(st) == '|'; ty::br_cap_avoid(id, @parse_bound_region(st)) } } } fn parse_region(st: @pstate) -> ty::region { match check next(st) { 'b' => { ty::re_bound(parse_bound_region(st)) } 'f' => { assert next(st) == '['; let id = parse_int(st); assert next(st) == '|'; let br = parse_bound_region(st); assert next(st) == ']'; ty::re_free(id, br) } 's' => { let id = parse_int(st); assert next(st) == '|'; ty::re_scope(id) } 't' => { ty::re_static } } } fn parse_opt(st: @pstate, f: fn() -> T) -> option { match check next(st) { 'n' => none, 's' => some(f()) } } fn parse_str(st: @pstate, term: char) -> ~str { let mut result = ~""; while peek(st) != term { result += str::from_byte(next_byte(st)); } next(st); return result; } fn parse_ty(st: @pstate, conv: conv_did) -> ty::t { match check next(st) { 'n' => return ty::mk_nil(st.tcx), 'z' => return ty::mk_bot(st.tcx), 'b' => return ty::mk_bool(st.tcx), 'i' => return ty::mk_int(st.tcx), 'u' => return ty::mk_uint(st.tcx), 'l' => return ty::mk_float(st.tcx), 'M' => { match check next(st) { 'b' => return ty::mk_mach_uint(st.tcx, ast::ty_u8), 'w' => return ty::mk_mach_uint(st.tcx, ast::ty_u16), 'l' => return ty::mk_mach_uint(st.tcx, ast::ty_u32), 'd' => return ty::mk_mach_uint(st.tcx, ast::ty_u64), 'B' => return ty::mk_mach_int(st.tcx, ast::ty_i8), 'W' => return ty::mk_mach_int(st.tcx, ast::ty_i16), 'L' => return ty::mk_mach_int(st.tcx, ast::ty_i32), 'D' => return ty::mk_mach_int(st.tcx, ast::ty_i64), 'f' => return ty::mk_mach_float(st.tcx, ast::ty_f32), 'F' => return ty::mk_mach_float(st.tcx, ast::ty_f64) } } 'c' => return ty::mk_char(st.tcx), 't' => { assert (next(st) == '['); let def = parse_def(st, conv); let substs = parse_substs(st, conv); assert next(st) == ']'; return ty::mk_enum(st.tcx, def, substs); } 'x' => { assert next(st) == '['; let def = parse_def(st, conv); let substs = parse_substs(st, conv); assert next(st) == ']'; return ty::mk_trait(st.tcx, def, substs); } 'p' => { let did = parse_def(st, conv); return ty::mk_param(st.tcx, parse_int(st) as uint, did); } 's' => { return ty::mk_self(st.tcx); } '@' => return ty::mk_box(st.tcx, parse_mt(st, conv)), '~' => return ty::mk_uniq(st.tcx, parse_mt(st, conv)), '*' => return ty::mk_ptr(st.tcx, parse_mt(st, conv)), '&' => { let r = parse_region(st); let mt = parse_mt(st, conv); return ty::mk_rptr(st.tcx, r, mt); } 'U' => return ty::mk_unboxed_vec(st.tcx, parse_mt(st, conv)), 'V' => { let mt = parse_mt(st, conv); let v = parse_vstore(st); return ty::mk_evec(st.tcx, mt, v); } 'v' => { let v = parse_vstore(st); return ty::mk_estr(st.tcx, v); } 'R' => { assert (next(st) == '['); let mut fields: ~[ty::field] = ~[]; while peek(st) != ']' { let name = @parse_str(st, '='); vec::push(fields, {ident: name, mt: parse_mt(st, conv)}); } st.pos = st.pos + 1u; return ty::mk_rec(st.tcx, fields); } 'T' => { assert (next(st) == '['); let mut params = ~[]; while peek(st) != ']' { vec::push(params, parse_ty(st, conv)); } st.pos = st.pos + 1u; return ty::mk_tup(st.tcx, params); } 'f' => { parse_ty_rust_fn(st, conv) } 'X' => { return ty::mk_var(st.tcx, ty::tv_vid(parse_int(st) as uint)); } 'Y' => return ty::mk_type(st.tcx), 'C' => { let ck = match check next(st) { '&' => ty::ck_block, '@' => ty::ck_box, '~' => ty::ck_uniq }; return ty::mk_opaque_closure_ptr(st.tcx, ck); } '#' => { let pos = parse_hex(st); assert (next(st) == ':'); let len = parse_hex(st); assert (next(st) == '#'); match st.tcx.rcache.find({cnum: st.crate, pos: pos, len: len}) { some(tt) => return tt, none => { let ps = @{pos: pos with *st}; let tt = parse_ty(ps, conv); st.tcx.rcache.insert({cnum: st.crate, pos: pos, len: len}, tt); return tt; } } } '"' => { let def = parse_def(st, conv); let inner = parse_ty(st, conv); ty::mk_with_id(st.tcx, inner, def) } 'B' => ty::mk_opaque_box(st.tcx), 'a' => { debug!{"saw a class"}; assert (next(st) == '['); debug!{"saw a ["}; let did = parse_def(st, conv); debug!{"parsed a def_id %?", did}; let substs = parse_substs(st, conv); assert (next(st) == ']'); return ty::mk_class(st.tcx, did, substs); } c => { error!{"unexpected char in type string: %c", c}; fail;} } } fn parse_mt(st: @pstate, conv: conv_did) -> ty::mt { let mut m; match peek(st) { 'm' => { next(st); m = ast::m_mutbl; } '?' => { next(st); m = ast::m_const; } _ => { m = ast::m_imm; } } return {ty: parse_ty(st, conv), mutbl: m}; } fn parse_def(st: @pstate, conv: conv_did) -> ast::def_id { let mut def = ~[]; while peek(st) != '|' { vec::push(def, next_byte(st)); } st.pos = st.pos + 1u; return conv(parse_def_id(def)); } fn parse_int(st: @pstate) -> int { let mut n = 0; loop { let cur = peek(st); if cur < '0' || cur > '9' { return n; } st.pos = st.pos + 1u; n *= 10; n += (cur as int) - ('0' as int); }; } fn parse_hex(st: @pstate) -> uint { let mut n = 0u; loop { let cur = peek(st); if (cur < '0' || cur > '9') && (cur < 'a' || cur > 'f') { return n; } st.pos = st.pos + 1u; n *= 16u; if '0' <= cur && cur <= '9' { n += (cur as uint) - ('0' as uint); } else { n += 10u + (cur as uint) - ('a' as uint); } }; } fn parse_purity(c: char) -> purity { match check c { 'u' => unsafe_fn, 'p' => pure_fn, 'i' => impure_fn, 'c' => extern_fn } } fn parse_ty_fn(st: @pstate, conv: conv_did) -> ty::fn_ty { let proto = parse_proto(st); let purity = parse_purity(next(st)); let bounds = parse_bounds(st, conv); assert (next(st) == '['); let mut inputs: ~[ty::arg] = ~[]; while peek(st) != ']' { let mode = match check peek(st) { '&' => ast::by_mutbl_ref, '-' => ast::by_move, '+' => ast::by_copy, '=' => ast::by_ref, '#' => ast::by_val }; st.pos += 1u; vec::push(inputs, {mode: ast::expl(mode), ty: parse_ty(st, conv)}); } st.pos += 1u; // eat the ']' let (ret_style, ret_ty) = parse_ret_ty(st, conv); return {purity: purity, proto: proto, bounds: bounds, inputs: inputs, output: ret_ty, ret_style: ret_style}; } // Rust metadata parsing fn parse_def_id(buf: &[u8]) -> ast::def_id { let mut colon_idx = 0u; let len = vec::len(buf); while colon_idx < len && buf[colon_idx] != ':' as u8 { colon_idx += 1u; } if colon_idx == len { error!{"didn't find ':' when parsing def id"}; fail; } let crate_part = vec::slice(buf, 0u, colon_idx); let def_part = vec::slice(buf, colon_idx + 1u, len); let crate_num = match uint::parse_buf(crate_part, 10u) { some(cn) => cn as int, none => fail (fmt!{"internal error: parse_def_id: crate number \ expected, but found %?", crate_part}) }; let def_num = match uint::parse_buf(def_part, 10u) { some(dn) => dn as int, none => fail (fmt!{"internal error: parse_def_id: id expected, but \ found %?", def_part}) }; return {crate: crate_num, node: def_num}; } fn parse_bounds_data(data: @~[u8], start: uint, crate_num: int, tcx: ty::ctxt, conv: conv_did) -> @~[ty::param_bound] { let st = @{data: data, crate: crate_num, mut pos: start, tcx: tcx}; parse_bounds(st, conv) } fn parse_bounds(st: @pstate, conv: conv_did) -> @~[ty::param_bound] { let mut bounds = ~[]; loop { vec::push(bounds, match check next(st) { 'S' => ty::bound_send, 'C' => ty::bound_copy, 'K' => ty::bound_const, 'O' => ty::bound_owned, 'I' => ty::bound_trait(parse_ty(st, conv)), '.' => break }); } @bounds } // // Local Variables: // mode: rust // fill-column: 78; // indent-tabs-mode: nil // c-basic-offset: 4 // buffer-file-coding-system: utf-8-unix // End: //