use std::map::{hashmap,str_hash}; use driver::session::session; use lib::llvm::{TypeRef, ValueRef}; use syntax::ast; use back::abi; use common::*; use build::*; use base::*; use type_of::*; use ast::def_id; use util::ppaux::ty_to_str; enum reflector = { visitor_val: ValueRef, visitor_methods: @~[ty::method], final_bcx: block, tydesc_ty: TypeRef, mut bcx: block }; impl reflector { fn c_uint(u: uint) -> ValueRef { C_uint(self.bcx.ccx(), u) } fn c_int(i: int) -> ValueRef { C_int(self.bcx.ccx(), i) } fn c_slice(s: ~str) -> ValueRef { let ss = C_estr_slice(self.bcx.ccx(), s); do_spill_noroot(self.bcx, ss) } fn c_size_and_align(t: ty::t) -> ~[ValueRef] { let tr = type_of::type_of(self.bcx.ccx(), t); let s = shape::llsize_of_real(self.bcx.ccx(), tr); let a = shape::llalign_of_min(self.bcx.ccx(), tr); return ~[self.c_uint(s), self.c_uint(a)]; } fn c_tydesc(t: ty::t) -> ValueRef { let bcx = self.bcx; let static_ti = get_tydesc(bcx.ccx(), t); lazily_emit_all_tydesc_glue(bcx.ccx(), static_ti); PointerCast(bcx, static_ti.tydesc, T_ptr(self.tydesc_ty)) } fn c_mt(mt: ty::mt) -> ~[ValueRef] { ~[self.c_uint(mt.mutbl as uint), self.c_tydesc(mt.ty)] } fn visit(ty_name: ~str, args: ~[ValueRef]) { let tcx = self.bcx.tcx(); let mth_idx = option::get(ty::method_idx( tcx.sess.ident_of(~"visit_" + ty_name), *self.visitor_methods)); let mth_ty = ty::mk_fn(tcx, self.visitor_methods[mth_idx].fty); let v = self.visitor_val; let get_lval = |bcx| { let callee = impl::trans_trait_callee(bcx, v, mth_ty, mth_idx); debug!("calling mth ty %s, lltype %s", ty_to_str(bcx.ccx().tcx, mth_ty), val_str(bcx.ccx().tn, callee.val)); callee }; debug!("passing %u args:", vec::len(args)); let bcx = self.bcx; for args.eachi |i, a| { debug!("arg %u: %s", i, val_str(bcx.ccx().tn, a)); } let d = empty_dest_cell(); let bcx = trans_call_inner(self.bcx, None, mth_ty, ty::mk_bool(tcx), get_lval, arg_vals(args), by_val(d)); let next_bcx = sub_block(bcx, ~"next"); CondBr(bcx, *d, next_bcx.llbb, self.final_bcx.llbb); self.bcx = next_bcx } fn bracketed(bracket_name: ~str, extra: ~[ValueRef], inner: fn()) { self.visit(~"enter_" + bracket_name, extra); inner(); self.visit(~"leave_" + bracket_name, extra); } fn vstore_name_and_extra(t: ty::t, vstore: ty::vstore, f: fn(~str,~[ValueRef])) { match vstore { ty::vstore_fixed(n) => { let extra = vec::append(~[self.c_uint(n)], self.c_size_and_align(t)); f(~"fixed", extra) } ty::vstore_slice(_) => f(~"slice", ~[]), ty::vstore_uniq => f(~"uniq", ~[]), ty::vstore_box => f(~"box", ~[]) } } fn leaf(name: ~str) { self.visit(name, ~[]); } // Entrypoint fn visit_ty(t: ty::t) { let bcx = self.bcx; debug!("reflect::visit_ty %s", ty_to_str(bcx.ccx().tcx, t)); match ty::get(t).struct { ty::ty_bot => self.leaf(~"bot"), ty::ty_nil => self.leaf(~"nil"), ty::ty_bool => self.leaf(~"bool"), ty::ty_int(ast::ty_i) => self.leaf(~"int"), ty::ty_int(ast::ty_char) => self.leaf(~"char"), ty::ty_int(ast::ty_i8) => self.leaf(~"i8"), ty::ty_int(ast::ty_i16) => self.leaf(~"i16"), ty::ty_int(ast::ty_i32) => self.leaf(~"i32"), ty::ty_int(ast::ty_i64) => self.leaf(~"i64"), ty::ty_uint(ast::ty_u) => self.leaf(~"uint"), ty::ty_uint(ast::ty_u8) => self.leaf(~"u8"), ty::ty_uint(ast::ty_u16) => self.leaf(~"u16"), ty::ty_uint(ast::ty_u32) => self.leaf(~"u32"), ty::ty_uint(ast::ty_u64) => self.leaf(~"u64"), ty::ty_float(ast::ty_f) => self.leaf(~"float"), ty::ty_float(ast::ty_f32) => self.leaf(~"f32"), ty::ty_float(ast::ty_f64) => self.leaf(~"f64"), ty::ty_unboxed_vec(mt) => self.visit(~"vec", self.c_mt(mt)), ty::ty_estr(vst) => { do self.vstore_name_and_extra(t, vst) |name, extra| { self.visit(~"estr_" + name, extra) } } ty::ty_evec(mt, vst) => { do self.vstore_name_and_extra(t, vst) |name, extra| { self.visit(~"evec_" + name, extra + self.c_mt(mt)) } } ty::ty_box(mt) => self.visit(~"box", self.c_mt(mt)), ty::ty_uniq(mt) => self.visit(~"uniq", self.c_mt(mt)), ty::ty_ptr(mt) => self.visit(~"ptr", self.c_mt(mt)), ty::ty_rptr(_, mt) => self.visit(~"rptr", self.c_mt(mt)), ty::ty_rec(fields) => { do self.bracketed(~"rec", ~[self.c_uint(vec::len(fields))] + self.c_size_and_align(t)) { for fields.eachi |i, field| { self.visit(~"rec_field", ~[self.c_uint(i), self.c_slice( bcx.ccx().sess.str_of(field.ident))] + self.c_mt(field.mt)); } } } ty::ty_tup(tys) => { do self.bracketed(~"tup", ~[self.c_uint(vec::len(tys))] + self.c_size_and_align(t)) { for tys.eachi |i, t| { self.visit(~"tup_field", ~[self.c_uint(i), self.c_tydesc(t)]); } } } // FIXME (#2594): fetch constants out of intrinsic:: for the // numbers. ty::ty_fn(fty) => { let pureval = match fty.purity { ast::pure_fn => 0u, ast::unsafe_fn => 1u, ast::impure_fn => 2u, ast::extern_fn => 3u }; let protoval = match fty.proto { ty::proto_bare => 0u, ty::proto_vstore(ty::vstore_uniq) => 2u, ty::proto_vstore(ty::vstore_box) => 3u, ty::proto_vstore(ty::vstore_slice(_)) => 4u, ty::proto_vstore(ty::vstore_fixed(_)) => fail ~"fixed unexpected" }; let retval = match fty.ret_style { ast::noreturn => 0u, ast::return_val => 1u }; let extra = ~[self.c_uint(pureval), self.c_uint(protoval), self.c_uint(vec::len(fty.inputs)), self.c_uint(retval)]; self.visit(~"enter_fn", extra); for fty.inputs.eachi |i, arg| { let modeval = match arg.mode { ast::infer(_) => 0u, ast::expl(e) => match e { ast::by_ref => 1u, ast::by_val => 2u, ast::by_mutbl_ref => 3u, ast::by_move => 4u, ast::by_copy => 5u } }; self.visit(~"fn_input", ~[self.c_uint(i), self.c_uint(modeval), self.c_tydesc(arg.ty)]); } self.visit(~"fn_output", ~[self.c_uint(retval), self.c_tydesc(fty.output)]); self.visit(~"leave_fn", extra); } ty::ty_class(did, ref substs) => { let bcx = self.bcx; let tcx = bcx.ccx().tcx; let fields = ty::class_items_as_fields(tcx, did, substs); do self.bracketed(~"class", ~[self.c_uint(vec::len(fields))] + self.c_size_and_align(t)) { for fields.eachi |i, field| { self.visit(~"class_field", ~[self.c_uint(i), self.c_slice( bcx.ccx().sess.str_of(field.ident))] + self.c_mt(field.mt)); } } } // FIXME (#2595): visiting all the variants in turn is probably // not ideal. It'll work but will get costly on big enums. Maybe // let the visitor tell us if it wants to visit only a particular // variant? ty::ty_enum(did, ref substs) => { let bcx = self.bcx; let tcx = bcx.ccx().tcx; let variants = ty::substd_enum_variants(tcx, did, substs); do self.bracketed(~"enum", ~[self.c_uint(vec::len(variants))] + self.c_size_and_align(t)) { for variants.eachi |i, v| { do self.bracketed(~"enum_variant", ~[self.c_uint(i), self.c_int(v.disr_val), self.c_uint(vec::len(v.args)), self.c_slice( bcx.ccx().sess.str_of(v.name))]) { for v.args.eachi |j, a| { self.visit(~"enum_variant_field", ~[self.c_uint(j), self.c_tydesc(a)]); } } } } } // Miscallaneous extra types ty::ty_trait(_, _, _) => self.leaf(~"trait"), ty::ty_var(_) => self.leaf(~"var"), ty::ty_var_integral(_) => self.leaf(~"var_integral"), ty::ty_param(p) => self.visit(~"param", ~[self.c_uint(p.idx)]), ty::ty_self => self.leaf(~"self"), ty::ty_type => self.leaf(~"type"), ty::ty_opaque_box => self.leaf(~"opaque_box"), ty::ty_opaque_closure_ptr(ck) => { let ckval = match ck { ty::ck_block => 0u, ty::ck_box => 1u, ty::ck_uniq => 2u }; self.visit(~"closure_ptr", ~[self.c_uint(ckval)]) } } } } // Emit a sequence of calls to visit_ty::visit_foo fn emit_calls_to_trait_visit_ty(bcx: block, t: ty::t, visitor_val: ValueRef, visitor_trait_id: def_id) -> block { import syntax::parse::token::special_idents::tydesc; let final = sub_block(bcx, ~"final"); assert bcx.ccx().tcx.intrinsic_defs.contains_key(tydesc); let (_, tydesc_ty) = bcx.ccx().tcx.intrinsic_defs.get(tydesc); let tydesc_ty = type_of::type_of(bcx.ccx(), tydesc_ty); let r = reflector({ visitor_val: visitor_val, visitor_methods: ty::trait_methods(bcx.tcx(), visitor_trait_id), final_bcx: final, tydesc_ty: tydesc_ty, mut bcx: bcx }); r.visit_ty(t); Br(r.bcx, final.llbb); return final; }