// Copyright 2014 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. use llvm::{AvailableExternallyLinkage, InternalLinkage, SetLinkage}; use metadata::csearch; use middle::astencode; use middle::subst::Substs; use trans::base::{push_ctxt, trans_item, get_item_val, trans_fn}; use trans::common::*; use middle::ty; use syntax::ast; use syntax::ast_util::local_def; fn instantiate_inline(ccx: &CrateContext, fn_id: ast::DefId) -> Option { let _icx = push_ctxt("maybe_instantiate_inline"); match ccx.external().borrow().get(&fn_id) { Some(&Some(node_id)) => { // Already inline debug!("maybe_instantiate_inline({}): already inline as node id {}", ty::item_path_str(ccx.tcx(), fn_id), node_id); return Some(local_def(node_id)); } Some(&None) => { return None; // Not inlinable } None => { // Not seen yet } } let csearch_result = csearch::maybe_get_item_ast( ccx.tcx(), fn_id, Box::new(|a,b,c,d| astencode::decode_inlined_item(a, b, c, d))); let inline_id = match csearch_result { csearch::FoundAst::NotFound => { ccx.external().borrow_mut().insert(fn_id, None); return None; } csearch::FoundAst::Found(&ast::IIItem(ref item)) => { ccx.external().borrow_mut().insert(fn_id, Some(item.id)); ccx.external_srcs().borrow_mut().insert(item.id, fn_id); ccx.stats().n_inlines.set(ccx.stats().n_inlines.get() + 1); trans_item(ccx, &**item); let linkage = match item.node { ast::ItemFn(_, _, _, ref generics, _) => { if generics.is_type_parameterized() { // Generics have no symbol, so they can't be given any // linkage. None } else { if ccx.sess().opts.cg.codegen_units == 1 { // We could use AvailableExternallyLinkage here, // but InternalLinkage allows LLVM to optimize more // aggressively (at the cost of sometimes // duplicating code). Some(InternalLinkage) } else { // With multiple compilation units, duplicated code // is more of a problem. Also, `codegen_units > 1` // means the user is okay with losing some // performance. Some(AvailableExternallyLinkage) } } } ast::ItemConst(..) => None, _ => unreachable!(), }; match linkage { Some(linkage) => { let g = get_item_val(ccx, item.id); SetLinkage(g, linkage); } None => {} } item.id } csearch::FoundAst::Found(&ast::IIForeign(ref item)) => { ccx.external().borrow_mut().insert(fn_id, Some(item.id)); ccx.external_srcs().borrow_mut().insert(item.id, fn_id); item.id } csearch::FoundAst::FoundParent(parent_id, &ast::IIItem(ref item)) => { ccx.external().borrow_mut().insert(parent_id, Some(item.id)); ccx.external_srcs().borrow_mut().insert(item.id, parent_id); let mut my_id = 0; match item.node { ast::ItemEnum(_, _) => { let vs_here = ty::enum_variants(ccx.tcx(), local_def(item.id)); let vs_there = ty::enum_variants(ccx.tcx(), parent_id); for (here, there) in vs_here.iter().zip(vs_there.iter()) { if there.id == fn_id { my_id = here.id.node; } ccx.external().borrow_mut().insert(there.id, Some(here.id.node)); } } ast::ItemStruct(ref struct_def, _) => { match struct_def.ctor_id { None => {} Some(ctor_id) => { ccx.external().borrow_mut().insert(fn_id, Some(ctor_id)); my_id = ctor_id; } } } _ => ccx.sess().bug("maybe_instantiate_inline: item has a \ non-enum, non-struct parent") } trans_item(ccx, &**item); my_id } csearch::FoundAst::FoundParent(_, _) => { ccx.sess().bug("maybe_get_item_ast returned a FoundParent \ with a non-item parent"); } csearch::FoundAst::Found(&ast::IITraitItem(_, ref trait_item)) => { ccx.external().borrow_mut().insert(fn_id, Some(trait_item.id)); ccx.external_srcs().borrow_mut().insert(trait_item.id, fn_id); ccx.stats().n_inlines.set(ccx.stats().n_inlines.get() + 1); // Associated consts already have to be evaluated in `typeck`, so // the logic to do that already exists in `middle`. In order to // reuse that code, it needs to be able to look up the traits for // inlined items. let ty_trait_item = ty::impl_or_trait_item(ccx.tcx(), fn_id).clone(); ccx.tcx().impl_or_trait_items.borrow_mut() .insert(local_def(trait_item.id), ty_trait_item); // If this is a default method, we can't look up the // impl type. But we aren't going to translate anyways, so // don't. trait_item.id } csearch::FoundAst::Found(&ast::IIImplItem(impl_did, ref impl_item)) => { ccx.external().borrow_mut().insert(fn_id, Some(impl_item.id)); ccx.external_srcs().borrow_mut().insert(impl_item.id, fn_id); ccx.stats().n_inlines.set(ccx.stats().n_inlines.get() + 1); // Translate monomorphic impl methods immediately. if let ast::MethodImplItem(ref sig, ref body) = impl_item.node { let impl_tpt = ty::lookup_item_type(ccx.tcx(), impl_did); if impl_tpt.generics.types.is_empty() && sig.generics.ty_params.is_empty() { let empty_substs = ccx.tcx().mk_substs(Substs::trans_empty()); let llfn = get_item_val(ccx, impl_item.id); trans_fn(ccx, &sig.decl, body, llfn, empty_substs, impl_item.id, &[]); // Use InternalLinkage so LLVM can optimize more aggressively. SetLinkage(llfn, InternalLinkage); } } impl_item.id } }; Some(local_def(inline_id)) } pub fn get_local_instance(ccx: &CrateContext, fn_id: ast::DefId) -> Option { if fn_id.krate == ast::LOCAL_CRATE { Some(fn_id) } else { instantiate_inline(ccx, fn_id) } } pub fn maybe_instantiate_inline(ccx: &CrateContext, fn_id: ast::DefId) -> ast::DefId { get_local_instance(ccx, fn_id).unwrap_or(fn_id) }