// Copyright 2012-2013 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. //! // // Code relating to taking, dropping, etc as well as type descriptors. use back::abi; use back::link::*; use llvm::{ValueRef, True, get_param}; use llvm; use middle::lang_items::{FreeFnLangItem, ExchangeFreeFnLangItem}; use middle::subst; use middle::subst::Subst; use middle::trans::adt; use middle::trans::base::*; use middle::trans::build::*; use middle::trans::callee; use middle::trans::cleanup; use middle::trans::cleanup::CleanupMethods; use middle::trans::common::*; use middle::trans::datum; use middle::trans::expr; use middle::trans::machine::*; use middle::trans::reflect; use middle::trans::tvec; use middle::trans::type_::Type; use middle::trans::type_of::{type_of, sizing_type_of, align_of}; use middle::ty; use util::ppaux::{ty_to_short_str, Repr}; use util::ppaux; use arena::TypedArena; use std::c_str::ToCStr; use std::cell::Cell; use libc::c_uint; use syntax::ast; use syntax::parse::token; pub fn trans_free<'blk, 'tcx>(cx: Block<'blk, 'tcx>, v: ValueRef) -> Block<'blk, 'tcx> { let _icx = push_ctxt("trans_free"); callee::trans_lang_call(cx, langcall(cx, None, "", FreeFnLangItem), [PointerCast(cx, v, Type::i8p(cx.ccx()))], Some(expr::Ignore)).bcx } pub fn trans_exchange_free_dyn<'blk, 'tcx>(cx: Block<'blk, 'tcx>, v: ValueRef, size: ValueRef, align: ValueRef) -> Block<'blk, 'tcx> { let _icx = push_ctxt("trans_exchange_free"); let ccx = cx.ccx(); callee::trans_lang_call(cx, langcall(cx, None, "", ExchangeFreeFnLangItem), [PointerCast(cx, v, Type::i8p(ccx)), size, align], Some(expr::Ignore)).bcx } pub fn trans_exchange_free<'blk, 'tcx>(cx: Block<'blk, 'tcx>, v: ValueRef, size: u64, align: u64) -> Block<'blk, 'tcx> { trans_exchange_free_dyn(cx, v, C_uint(cx.ccx(), size as uint), C_uint(cx.ccx(), align as uint)) } pub fn trans_exchange_free_ty<'blk, 'tcx>(bcx: Block<'blk, 'tcx>, ptr: ValueRef, content_ty: ty::t) -> Block<'blk, 'tcx> { assert!(ty::type_is_sized(bcx.ccx().tcx(), content_ty)); let sizing_type = sizing_type_of(bcx.ccx(), content_ty); let content_size = llsize_of_alloc(bcx.ccx(), sizing_type); // `Box` does not allocate. if content_size != 0 { let content_align = align_of(bcx.ccx(), content_ty); trans_exchange_free(bcx, ptr, content_size, content_align) } else { bcx } } pub fn take_ty<'blk, 'tcx>(bcx: Block<'blk, 'tcx>, v: ValueRef, t: ty::t) -> Block<'blk, 'tcx> { // NB: v is an *alias* of type t here, not a direct value. let _icx = push_ctxt("take_ty"); match ty::get(t).sty { ty::ty_box(_) => incr_refcnt_of_boxed(bcx, v), _ if ty::type_is_structural(t) && ty::type_needs_drop(bcx.tcx(), t) => { iter_structural_ty(bcx, v, t, take_ty) } _ => bcx } } pub fn get_drop_glue_type(ccx: &CrateContext, t: ty::t) -> ty::t { let tcx = ccx.tcx(); // Even if there is no dtor for t, there might be one deeper down and we // might need to pass in the vtable ptr. if !ty::type_is_sized(tcx, t) { return t } if !ty::type_needs_drop(tcx, t) { return ty::mk_i8(); } match ty::get(t).sty { ty::ty_uniq(typ) if !ty::type_needs_drop(tcx, typ) && ty::type_is_sized(tcx, typ) => { let llty = sizing_type_of(ccx, typ); // `Box` does not allocate. if llsize_of_alloc(ccx, llty) == 0 { ty::mk_i8() } else { t } } _ => t } } pub fn drop_ty<'blk, 'tcx>(bcx: Block<'blk, 'tcx>, v: ValueRef, t: ty::t) -> Block<'blk, 'tcx> { // NB: v is an *alias* of type t here, not a direct value. debug!("drop_ty(t={})", t.repr(bcx.tcx())); let _icx = push_ctxt("drop_ty"); if ty::type_needs_drop(bcx.tcx(), t) { let ccx = bcx.ccx(); let glue = get_drop_glue(ccx, t); let glue_type = get_drop_glue_type(ccx, t); let ptr = if glue_type != t { PointerCast(bcx, v, type_of(ccx, glue_type).ptr_to()) } else { v }; Call(bcx, glue, [ptr], None); } bcx } pub fn drop_ty_immediate<'blk, 'tcx>(bcx: Block<'blk, 'tcx>, v: ValueRef, t: ty::t) -> Block<'blk, 'tcx> { let _icx = push_ctxt("drop_ty_immediate"); let vp = alloca(bcx, type_of(bcx.ccx(), t), ""); Store(bcx, v, vp); drop_ty(bcx, vp, t) } pub fn get_drop_glue(ccx: &CrateContext, t: ty::t) -> ValueRef { debug!("make drop glue for {}", ppaux::ty_to_string(ccx.tcx(), t)); let t = get_drop_glue_type(ccx, t); debug!("drop glue type {}", ppaux::ty_to_string(ccx.tcx(), t)); match ccx.drop_glues().borrow().find(&t) { Some(&glue) => return glue, _ => { } } let llty = if ty::type_is_sized(ccx.tcx(), t) { type_of(ccx, t).ptr_to() } else { type_of(ccx, ty::mk_uniq(ccx.tcx(), t)).ptr_to() }; let llfnty = Type::glue_fn(ccx, llty); let (glue, new_sym) = match ccx.available_drop_glues().borrow().find(&t) { Some(old_sym) => { let glue = decl_cdecl_fn(ccx, old_sym.as_slice(), llfnty, ty::mk_nil()); (glue, None) }, None => { let (sym, glue) = declare_generic_glue(ccx, t, llfnty, "drop"); (glue, Some(sym)) }, }; ccx.drop_glues().borrow_mut().insert(t, glue); // To avoid infinite recursion, don't `make_drop_glue` until after we've // added the entry to the `drop_glues` cache. match new_sym { Some(sym) => { ccx.available_drop_glues().borrow_mut().insert(t, sym); // We're creating a new drop glue, so also generate a body. make_generic_glue(ccx, t, glue, make_drop_glue, "drop"); }, None => {}, } glue } pub fn lazily_emit_visit_glue(ccx: &CrateContext, ti: &tydesc_info) -> ValueRef { let _icx = push_ctxt("lazily_emit_visit_glue"); let llfnty = Type::glue_fn(ccx, type_of(ccx, ti.ty).ptr_to()); match ti.visit_glue.get() { Some(visit_glue) => visit_glue, None => { debug!("+++ lazily_emit_tydesc_glue VISIT {}", ppaux::ty_to_string(ccx.tcx(), ti.ty)); let (glue_fn, new_sym) = match ccx.available_visit_glues().borrow().find(&ti.ty) { Some(old_sym) => { let glue_fn = decl_cdecl_fn(ccx, old_sym.as_slice(), llfnty, ty::mk_nil()); (glue_fn, None) }, None => { let (sym, glue_fn) = declare_generic_glue(ccx, ti.ty, llfnty, "visit"); (glue_fn, Some(sym)) }, }; ti.visit_glue.set(Some(glue_fn)); match new_sym { Some(sym) => { ccx.available_visit_glues().borrow_mut().insert(ti.ty, sym); make_generic_glue(ccx, ti.ty, glue_fn, make_visit_glue, "visit"); }, None => {}, } debug!("--- lazily_emit_tydesc_glue VISIT {}", ppaux::ty_to_string(ccx.tcx(), ti.ty)); glue_fn } } } // See [Note-arg-mode] pub fn call_visit_glue(bcx: Block, v: ValueRef, tydesc: ValueRef) { let _icx = push_ctxt("call_visit_glue"); // Select the glue function to call from the tydesc let llfn = Load(bcx, GEPi(bcx, tydesc, [0u, abi::tydesc_field_visit_glue])); let llrawptr = PointerCast(bcx, v, Type::i8p(bcx.ccx())); Call(bcx, llfn, [llrawptr], None); } fn make_visit_glue<'blk, 'tcx>(bcx: Block<'blk, 'tcx>, v: ValueRef, t: ty::t) -> Block<'blk, 'tcx> { let _icx = push_ctxt("make_visit_glue"); let mut bcx = bcx; let (visitor_trait, object_ty) = match ty::visitor_object_ty(bcx.tcx(), ty::ReStatic, ty::ReStatic) { Ok(pair) => pair, Err(s) => { bcx.tcx().sess.fatal(s.as_slice()); } }; let v = PointerCast(bcx, v, type_of(bcx.ccx(), object_ty).ptr_to()); bcx = reflect::emit_calls_to_trait_visit_ty(bcx, t, v, visitor_trait.def_id); bcx } fn trans_struct_drop_flag<'blk, 'tcx>(mut bcx: Block<'blk, 'tcx>, t: ty::t, v0: ValueRef, dtor_did: ast::DefId, class_did: ast::DefId, substs: &subst::Substs) -> Block<'blk, 'tcx> { let repr = adt::represent_type(bcx.ccx(), t); let struct_data = if ty::type_is_sized(bcx.tcx(), t) { v0 } else { let llval = GEPi(bcx, v0, [0, abi::slice_elt_base]); Load(bcx, llval) }; let drop_flag = unpack_datum!(bcx, adt::trans_drop_flag_ptr(bcx, &*repr, struct_data)); with_cond(bcx, load_ty(bcx, drop_flag.val, ty::mk_bool()), |cx| { trans_struct_drop(cx, t, v0, dtor_did, class_did, substs) }) } fn trans_struct_drop<'blk, 'tcx>(bcx: Block<'blk, 'tcx>, t: ty::t, v0: ValueRef, dtor_did: ast::DefId, class_did: ast::DefId, substs: &subst::Substs) -> Block<'blk, 'tcx> { let repr = adt::represent_type(bcx.ccx(), t); // Find and call the actual destructor let dtor_addr = get_res_dtor(bcx.ccx(), dtor_did, t, class_did, substs); // The first argument is the "self" argument for drop let params = unsafe { let ty = Type::from_ref(llvm::LLVMTypeOf(dtor_addr)); ty.element_type().func_params() }; let fty = ty::lookup_item_type(bcx.tcx(), dtor_did).ty.subst(bcx.tcx(), substs); let self_ty = match ty::get(fty).sty { ty::ty_bare_fn(ref f) => { assert!(f.sig.inputs.len() == 1); f.sig.inputs[0] } _ => bcx.sess().bug(format!("Expected function type, found {}", bcx.ty_to_string(fty)).as_slice()) }; let (struct_data, info) = if ty::type_is_sized(bcx.tcx(), t) { (v0, None) } else { let data = GEPi(bcx, v0, [0, abi::slice_elt_base]); let info = GEPi(bcx, v0, [0, abi::slice_elt_len]); (Load(bcx, data), Some(Load(bcx, info))) }; adt::fold_variants(bcx, &*repr, struct_data, |variant_cx, st, value| { // Be sure to put all of the fields into a scope so we can use an invoke // instruction to call the user destructor but still call the field // destructors if the user destructor fails. let field_scope = variant_cx.fcx.push_custom_cleanup_scope(); // Class dtors have no explicit args, so the params should // just consist of the environment (self). assert_eq!(params.len(), 1); let self_arg = if ty::type_is_fat_ptr(bcx.tcx(), self_ty) { // The dtor expects a fat pointer, so make one, even if we have to fake it. let boxed_ty = ty::mk_open(bcx.tcx(), t); let scratch = datum::rvalue_scratch_datum(bcx, boxed_ty, "__fat_ptr_drop_self"); Store(bcx, value, GEPi(bcx, scratch.val, [0, abi::slice_elt_base])); Store(bcx, // If we just had a thin pointer, make a fat pointer by sticking // null where we put the unsizing info. This works because t // is a sized type, so we will only unpack the fat pointer, never // use the fake info. info.unwrap_or(C_null(Type::i8p(bcx.ccx()))), GEPi(bcx, scratch.val, [0, abi::slice_elt_len])); PointerCast(variant_cx, scratch.val, *params.get(0)) } else { PointerCast(variant_cx, value, *params.get(0)) }; let args = vec!(self_arg); // Add all the fields as a value which needs to be cleaned at the end of // this scope. Iterate in reverse order so a Drop impl doesn't reverse // the order in which fields get dropped. for (i, ty) in st.fields.iter().enumerate().rev() { let llfld_a = adt::struct_field_ptr(variant_cx, &*st, value, i, false); let val = if ty::type_is_sized(bcx.tcx(), *ty) { llfld_a } else { let boxed_ty = ty::mk_open(bcx.tcx(), *ty); let scratch = datum::rvalue_scratch_datum(bcx, boxed_ty, "__fat_ptr_drop_field"); Store(bcx, llfld_a, GEPi(bcx, scratch.val, [0, abi::slice_elt_base])); Store(bcx, info.unwrap(), GEPi(bcx, scratch.val, [0, abi::slice_elt_len])); scratch.val }; variant_cx.fcx.schedule_drop_mem(cleanup::CustomScope(field_scope), val, *ty); } let dtor_ty = ty::mk_ctor_fn(variant_cx.tcx(), ast::DUMMY_NODE_ID, [get_drop_glue_type(bcx.ccx(), t)], ty::mk_nil()); let (_, variant_cx) = invoke(variant_cx, dtor_addr, args, dtor_ty, None, false); variant_cx.fcx.pop_and_trans_custom_cleanup_scope(variant_cx, field_scope); variant_cx }) } fn size_and_align_of_dst(bcx: Block, t :ty::t, info: ValueRef) -> (ValueRef, ValueRef) { debug!("calculate size of DST: {}; with lost info: {}", bcx.ty_to_string(t), bcx.val_to_string(info)); if ty::type_is_sized(bcx.tcx(), t) { let sizing_type = sizing_type_of(bcx.ccx(), t); let size = C_uint(bcx.ccx(), llsize_of_alloc(bcx.ccx(), sizing_type) as uint); let align = C_uint(bcx.ccx(), align_of(bcx.ccx(), t) as uint); return (size, align); } match ty::get(t).sty { ty::ty_struct(id, ref substs) => { let ccx = bcx.ccx(); // First get the size of all statically known fields. // Don't use type_of::sizing_type_of because that expects t to be sized. assert!(!ty::type_is_simd(bcx.tcx(), t)); let repr = adt::represent_type(ccx, t); let sizing_type = adt::sizing_type_of(ccx, &*repr, true); let sized_size = C_uint(ccx, llsize_of_alloc(ccx, sizing_type) as uint); let sized_align = C_uint(ccx, llalign_of_min(ccx, sizing_type) as uint); // Recurse to get the size of the dynamically sized field (must be // the last field). let fields = ty::struct_fields(bcx.tcx(), id, substs); let last_field = fields[fields.len()-1]; let field_ty = last_field.mt.ty; let (unsized_size, unsized_align) = size_and_align_of_dst(bcx, field_ty, info); // Return the sum of sizes and max of aligns. let size = Add(bcx, sized_size, unsized_size); let align = Select(bcx, ICmp(bcx, llvm::IntULT, sized_align, unsized_align), sized_align, unsized_align); (size, align) } ty::ty_trait(..) => { // info points to the vtable and the second entry in the vtable is the // dynamic size of the object. let info = PointerCast(bcx, info, Type::int(bcx.ccx()).ptr_to()); let size_ptr = GEPi(bcx, info, [1u]); let align_ptr = GEPi(bcx, info, [2u]); (Load(bcx, size_ptr), Load(bcx, align_ptr)) } ty::ty_vec(unit_ty, None) => { // The info in this case is the length of the vec, so the size is that // times the unit size. let llunit_ty = sizing_type_of(bcx.ccx(), unit_ty); let unit_size = llsize_of_alloc(bcx.ccx(), llunit_ty); (Mul(bcx, info, C_uint(bcx.ccx(), unit_size as uint)), C_uint(bcx.ccx(), 8)) } _ => bcx.sess().bug(format!("Unexpected unsized type, found {}", bcx.ty_to_string(t)).as_slice()) } } fn make_drop_glue<'blk, 'tcx>(bcx: Block<'blk, 'tcx>, v0: ValueRef, t: ty::t) -> Block<'blk, 'tcx> { // NB: v0 is an *alias* of type t here, not a direct value. let _icx = push_ctxt("make_drop_glue"); match ty::get(t).sty { ty::ty_box(body_ty) => { decr_refcnt_maybe_free(bcx, v0, body_ty) } ty::ty_uniq(content_ty) => { match ty::get(content_ty).sty { ty::ty_vec(ty, None) => { tvec::make_drop_glue_unboxed(bcx, v0, ty, true) } ty::ty_str => { let unit_ty = ty::sequence_element_type(bcx.tcx(), t); tvec::make_drop_glue_unboxed(bcx, v0, unit_ty, true) } ty::ty_trait(..) => { let lluniquevalue = GEPi(bcx, v0, [0, abi::trt_field_box]); // Only drop the value when it is non-null let concrete_ptr = Load(bcx, lluniquevalue); with_cond(bcx, IsNotNull(bcx, concrete_ptr), |bcx| { let dtor_ptr = Load(bcx, GEPi(bcx, v0, [0, abi::trt_field_vtable])); let dtor = Load(bcx, dtor_ptr); Call(bcx, dtor, [PointerCast(bcx, lluniquevalue, Type::i8p(bcx.ccx()))], None); bcx }) } ty::ty_struct(..) if !ty::type_is_sized(bcx.tcx(), content_ty) => { let llval = GEPi(bcx, v0, [0, abi::slice_elt_base]); let llbox = Load(bcx, llval); let not_null = IsNotNull(bcx, llbox); with_cond(bcx, not_null, |bcx| { let bcx = drop_ty(bcx, v0, content_ty); let info = GEPi(bcx, v0, [0, abi::slice_elt_len]); let info = Load(bcx, info); let (llsize, llalign) = size_and_align_of_dst(bcx, content_ty, info); trans_exchange_free_dyn(bcx, llbox, llsize, llalign) }) } _ => { assert!(ty::type_is_sized(bcx.tcx(), content_ty)); let llval = v0; let llbox = Load(bcx, llval); let not_null = IsNotNull(bcx, llbox); with_cond(bcx, not_null, |bcx| { let bcx = drop_ty(bcx, llbox, content_ty); trans_exchange_free_ty(bcx, llbox, content_ty) }) } } } ty::ty_struct(did, ref substs) | ty::ty_enum(did, ref substs) => { let tcx = bcx.tcx(); match ty::ty_dtor(tcx, did) { ty::TraitDtor(dtor, true) => { // FIXME(16758) Since the struct is unsized, it is hard to // find the drop flag (which is at the end of the struct). // Lets just ignore the flag and pretend everything will be // OK. if ty::type_is_sized(bcx.tcx(), t) { trans_struct_drop_flag(bcx, t, v0, dtor, did, substs) } else { // Give the user a heads up that we are doing something // stupid and dangerous. bcx.sess().warn(format!("Ignoring drop flag in destructor for {}\ because the struct is unsized. See issue\ #16758", bcx.ty_to_string(t)).as_slice()); trans_struct_drop(bcx, t, v0, dtor, did, substs) } } ty::TraitDtor(dtor, false) => { trans_struct_drop(bcx, t, v0, dtor, did, substs) } ty::NoDtor => { // No dtor? Just the default case iter_structural_ty(bcx, v0, t, drop_ty) } } } ty::ty_unboxed_closure(..) => iter_structural_ty(bcx, v0, t, drop_ty), ty::ty_closure(ref f) if f.store == ty::UniqTraitStore => { let box_cell_v = GEPi(bcx, v0, [0u, abi::fn_field_box]); let env = Load(bcx, box_cell_v); let env_ptr_ty = Type::at_box(bcx.ccx(), Type::i8(bcx.ccx())).ptr_to(); let env = PointerCast(bcx, env, env_ptr_ty); with_cond(bcx, IsNotNull(bcx, env), |bcx| { let dtor_ptr = GEPi(bcx, env, [0u, abi::box_field_drop_glue]); let dtor = Load(bcx, dtor_ptr); Call(bcx, dtor, [PointerCast(bcx, box_cell_v, Type::i8p(bcx.ccx()))], None); bcx }) } ty::ty_trait(..) => { // No need to do a null check here (as opposed to the Box tvec::make_drop_glue_unboxed(bcx, v0, ty, false), _ => { assert!(ty::type_is_sized(bcx.tcx(), t)); if ty::type_needs_drop(bcx.tcx(), t) && ty::type_is_structural(t) { iter_structural_ty(bcx, v0, t, drop_ty) } else { bcx } } } } fn decr_refcnt_maybe_free<'blk, 'tcx>(bcx: Block<'blk, 'tcx>, box_ptr_ptr: ValueRef, t: ty::t) -> Block<'blk, 'tcx> { let _icx = push_ctxt("decr_refcnt_maybe_free"); let fcx = bcx.fcx; let ccx = bcx.ccx(); let decr_bcx = fcx.new_temp_block("decr"); let free_bcx = fcx.new_temp_block("free"); let next_bcx = fcx.new_temp_block("next"); let box_ptr = Load(bcx, box_ptr_ptr); let llnotnull = IsNotNull(bcx, box_ptr); CondBr(bcx, llnotnull, decr_bcx.llbb, next_bcx.llbb); let rc_ptr = GEPi(decr_bcx, box_ptr, [0u, abi::box_field_refcnt]); let rc = Sub(decr_bcx, Load(decr_bcx, rc_ptr), C_int(ccx, 1)); Store(decr_bcx, rc, rc_ptr); CondBr(decr_bcx, IsNull(decr_bcx, rc), free_bcx.llbb, next_bcx.llbb); let v = Load(free_bcx, box_ptr_ptr); let body = GEPi(free_bcx, v, [0u, abi::box_field_body]); let free_bcx = drop_ty(free_bcx, body, t); let free_bcx = trans_free(free_bcx, v); Br(free_bcx, next_bcx.llbb); next_bcx } fn incr_refcnt_of_boxed<'blk, 'tcx>(bcx: Block<'blk, 'tcx>, box_ptr_ptr: ValueRef) -> Block<'blk, 'tcx> { let _icx = push_ctxt("incr_refcnt_of_boxed"); let ccx = bcx.ccx(); let box_ptr = Load(bcx, box_ptr_ptr); let rc_ptr = GEPi(bcx, box_ptr, [0u, abi::box_field_refcnt]); let rc = Load(bcx, rc_ptr); let rc = Add(bcx, rc, C_int(ccx, 1)); Store(bcx, rc, rc_ptr); bcx } // Generates the declaration for (but doesn't emit) a type descriptor. pub fn declare_tydesc(ccx: &CrateContext, t: ty::t) -> tydesc_info { // If emit_tydescs already ran, then we shouldn't be creating any new // tydescs. assert!(!ccx.finished_tydescs().get()); let llty = type_of(ccx, t); if ccx.sess().count_type_sizes() { println!("{}\t{}", llsize_of_real(ccx, llty), ppaux::ty_to_string(ccx.tcx(), t)); } let llsize = llsize_of(ccx, llty); let llalign = llalign_of(ccx, llty); let name = mangle_internal_name_by_type_and_seq(ccx, t, "tydesc"); debug!("+++ declare_tydesc {} {}", ppaux::ty_to_string(ccx.tcx(), t), name); let gvar = name.as_slice().with_c_str(|buf| { unsafe { llvm::LLVMAddGlobal(ccx.llmod(), ccx.tydesc_type().to_ref(), buf) } }); note_unique_llvm_symbol(ccx, name); let ty_name = token::intern_and_get_ident( ppaux::ty_to_string(ccx.tcx(), t).as_slice()); let ty_name = C_str_slice(ccx, ty_name); debug!("--- declare_tydesc {}", ppaux::ty_to_string(ccx.tcx(), t)); tydesc_info { ty: t, tydesc: gvar, size: llsize, align: llalign, name: ty_name, visit_glue: Cell::new(None), } } fn declare_generic_glue(ccx: &CrateContext, t: ty::t, llfnty: Type, name: &str) -> (String, ValueRef) { let _icx = push_ctxt("declare_generic_glue"); let fn_nm = mangle_internal_name_by_type_and_seq( ccx, t, format!("glue_{}", name).as_slice()); let llfn = decl_cdecl_fn(ccx, fn_nm.as_slice(), llfnty, ty::mk_nil()); note_unique_llvm_symbol(ccx, fn_nm.clone()); return (fn_nm, llfn); } fn make_generic_glue(ccx: &CrateContext, t: ty::t, llfn: ValueRef, helper: <'blk, 'tcx> |Block<'blk, 'tcx>, ValueRef, ty::t| -> Block<'blk, 'tcx>, name: &str) -> ValueRef { let _icx = push_ctxt("make_generic_glue"); let glue_name = format!("glue {} {}", name, ty_to_short_str(ccx.tcx(), t)); let _s = StatRecorder::new(ccx, glue_name); let arena = TypedArena::new(); let empty_param_substs = param_substs::empty(); let fcx = new_fn_ctxt(ccx, llfn, ast::DUMMY_NODE_ID, false, ty::mk_nil(), &empty_param_substs, None, &arena); let bcx = init_function(&fcx, false, ty::mk_nil()); update_linkage(ccx, llfn, None, OriginalTranslation); ccx.stats().n_glues_created.set(ccx.stats().n_glues_created.get() + 1u); // All glue functions take values passed *by alias*; this is a // requirement since in many contexts glue is invoked indirectly and // the caller has no idea if it's dealing with something that can be // passed by value. // // llfn is expected be declared to take a parameter of the appropriate // type, so we don't need to explicitly cast the function parameter. let llrawptr0 = get_param(llfn, fcx.arg_pos(0) as c_uint); let bcx = helper(bcx, llrawptr0, t); finish_fn(&fcx, bcx, ty::mk_nil()); llfn } pub fn emit_tydescs(ccx: &CrateContext) { let _icx = push_ctxt("emit_tydescs"); // As of this point, allow no more tydescs to be created. ccx.finished_tydescs().set(true); let glue_fn_ty = Type::generic_glue_fn(ccx).ptr_to(); for (_, ti) in ccx.tydescs().borrow().iter() { // Each of the glue functions needs to be cast to a generic type // before being put into the tydesc because we only have a singleton // tydesc type. Then we'll recast each function to its real type when // calling it. let drop_glue = unsafe { llvm::LLVMConstPointerCast(get_drop_glue(ccx, ti.ty), glue_fn_ty.to_ref()) }; ccx.stats().n_real_glues.set(ccx.stats().n_real_glues.get() + 1); let visit_glue = match ti.visit_glue.get() { None => { ccx.stats().n_null_glues.set(ccx.stats().n_null_glues.get() + 1u); C_null(glue_fn_ty) } Some(v) => { unsafe { ccx.stats().n_real_glues.set(ccx.stats().n_real_glues.get() + 1); llvm::LLVMConstPointerCast(v, glue_fn_ty.to_ref()) } } }; let tydesc = C_named_struct(ccx.tydesc_type(), [ti.size, // size ti.align, // align drop_glue, // drop_glue visit_glue, // visit_glue ti.name]); // name unsafe { let gvar = ti.tydesc; llvm::LLVMSetInitializer(gvar, tydesc); llvm::LLVMSetGlobalConstant(gvar, True); llvm::SetLinkage(gvar, llvm::InternalLinkage); } }; }