// Copyright 2012-2014 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 back::link::mangle_internal_name_by_path_and_seq; use llvm::ValueRef; use middle::mem_categorization::Typer; use trans::adt; use trans::base::*; use trans::build::*; use trans::cleanup::{CleanupMethods, ScopeId}; use trans::common::*; use trans::datum::{Datum, rvalue_scratch_datum}; use trans::datum::{Rvalue, ByValue}; use trans::debuginfo; use trans::expr; use trans::monomorphize::{self, MonoId}; use trans::type_of::*; use middle::ty::{self, ClosureTyper}; use middle::subst::{Substs}; use session::config::FullDebugInfo; use syntax::ast; use syntax::ast_util; fn load_closure_environment<'blk, 'tcx>(bcx: Block<'blk, 'tcx>, arg_scope_id: ScopeId, freevars: &[ty::Freevar]) -> Block<'blk, 'tcx> { let _icx = push_ctxt("closure::load_closure_environment"); // Special case for small by-value selfs. let closure_id = ast_util::local_def(bcx.fcx.id); let self_type = self_type_for_closure(bcx.ccx(), closure_id, node_id_type(bcx, closure_id.node)); let kind = kind_for_closure(bcx.ccx(), closure_id); let llenv = if kind == ty::FnOnceClosureKind && !arg_is_indirect(bcx.ccx(), self_type) { let datum = rvalue_scratch_datum(bcx, self_type, "closure_env"); store_ty(bcx, bcx.fcx.llenv.unwrap(), datum.val, self_type); datum.val } else { bcx.fcx.llenv.unwrap() }; // Store the pointer to closure data in an alloca for debug info because that's what the // llvm.dbg.declare intrinsic expects let env_pointer_alloca = if bcx.sess().opts.debuginfo == FullDebugInfo { let alloc = alloca(bcx, val_ty(llenv), "__debuginfo_env_ptr"); Store(bcx, llenv, alloc); Some(alloc) } else { None }; for (i, freevar) in freevars.iter().enumerate() { let upvar_id = ty::UpvarId { var_id: freevar.def.local_node_id(), closure_expr_id: closure_id.node }; let upvar_capture = bcx.tcx().upvar_capture(upvar_id).unwrap(); let mut upvar_ptr = GEPi(bcx, llenv, &[0, i]); let captured_by_ref = match upvar_capture { ty::UpvarCapture::ByValue => false, ty::UpvarCapture::ByRef(..) => { upvar_ptr = Load(bcx, upvar_ptr); true } }; let def_id = freevar.def.def_id(); bcx.fcx.llupvars.borrow_mut().insert(def_id.node, upvar_ptr); if kind == ty::FnOnceClosureKind && !captured_by_ref { bcx.fcx.schedule_drop_mem(arg_scope_id, upvar_ptr, node_id_type(bcx, def_id.node)) } if let Some(env_pointer_alloca) = env_pointer_alloca { debuginfo::create_captured_var_metadata( bcx, def_id.node, env_pointer_alloca, i, captured_by_ref, freevar.span); } } bcx } pub enum ClosureEnv<'a> { NotClosure, Closure(&'a [ty::Freevar]), } impl<'a> ClosureEnv<'a> { pub fn load<'blk,'tcx>(self, bcx: Block<'blk, 'tcx>, arg_scope: ScopeId) -> Block<'blk, 'tcx> { match self { ClosureEnv::NotClosure => bcx, ClosureEnv::Closure(freevars) => { if freevars.is_empty() { bcx } else { load_closure_environment(bcx, arg_scope, freevars) } } } } } /// Returns the LLVM function declaration for a closure, creating it if /// necessary. If the ID does not correspond to a closure ID, returns None. pub fn get_or_create_declaration_if_closure<'a, 'tcx>(ccx: &CrateContext<'a, 'tcx>, closure_id: ast::DefId, substs: &Substs<'tcx>) -> Option> { if !ccx.tcx().closure_kinds.borrow().contains_key(&closure_id) { // Not a closure. return None } let function_type = ty::node_id_to_type(ccx.tcx(), closure_id.node); let function_type = monomorphize::apply_param_substs(ccx.tcx(), substs, &function_type); // Normalize type so differences in regions and typedefs don't cause // duplicate declarations let function_type = erase_regions(ccx.tcx(), &function_type); let params = match function_type.sty { ty::ty_closure(_, _, substs) => &substs.types, _ => unreachable!() }; let mono_id = MonoId { def: closure_id, params: params }; match ccx.closure_vals().borrow().get(&mono_id) { Some(&llfn) => { debug!("get_or_create_declaration_if_closure(): found closure"); return Some(Datum::new(llfn, function_type, Rvalue::new(ByValue))) } None => {} } let symbol = ccx.tcx().map.with_path(closure_id.node, |path| { mangle_internal_name_by_path_and_seq(path, "closure") }); let llfn = decl_internal_rust_fn(ccx, function_type, &symbol[..]); // set an inline hint for all closures set_inline_hint(llfn); debug!("get_or_create_declaration_if_closure(): inserting new \ closure {:?} (type {})", mono_id, ccx.tn().type_to_string(val_ty(llfn))); ccx.closure_vals().borrow_mut().insert(mono_id, llfn); Some(Datum::new(llfn, function_type, Rvalue::new(ByValue))) } pub enum Dest<'a, 'tcx: 'a> { SaveIn(Block<'a, 'tcx>, ValueRef), Ignore(&'a CrateContext<'a, 'tcx>) } pub fn trans_closure_expr<'a, 'tcx>(dest: Dest<'a, 'tcx>, decl: &ast::FnDecl, body: &ast::Block, id: ast::NodeId, param_substs: &'tcx Substs<'tcx>) -> Option> { let ccx = match dest { Dest::SaveIn(bcx, _) => bcx.ccx(), Dest::Ignore(ccx) => ccx }; let tcx = ccx.tcx(); let _icx = push_ctxt("closure::trans_closure"); debug!("trans_closure()"); let closure_id = ast_util::local_def(id); let llfn = get_or_create_declaration_if_closure( ccx, closure_id, param_substs).unwrap(); // Get the type of this closure. Use the current `param_substs` as // the closure substitutions. This makes sense because the closure // takes the same set of type arguments as the enclosing fn, and // this function (`trans_closure`) is invoked at the point // of the closure expression. let typer = NormalizingClosureTyper::new(tcx); let function_type = typer.closure_type(closure_id, param_substs); let freevars: Vec = ty::with_freevars(tcx, id, |fv| fv.iter().cloned().collect()); let sig = ty::erase_late_bound_regions(tcx, &function_type.sig); trans_closure(ccx, decl, body, llfn.val, param_substs, id, &[], sig.output, function_type.abi, ClosureEnv::Closure(&freevars[..])); // Don't hoist this to the top of the function. It's perfectly legitimate // to have a zero-size closure (in which case dest will be `Ignore`) and // we must still generate the closure body. let (mut bcx, dest_addr) = match dest { Dest::SaveIn(bcx, p) => (bcx, p), Dest::Ignore(_) => { debug!("trans_closure() ignoring result"); return None; } }; let repr = adt::represent_type(ccx, node_id_type(bcx, id)); // Create the closure. for (i, freevar) in freevars.iter().enumerate() { let datum = expr::trans_local_var(bcx, freevar.def); let upvar_slot_dest = adt::trans_field_ptr(bcx, &*repr, dest_addr, 0, i); let upvar_id = ty::UpvarId { var_id: freevar.def.local_node_id(), closure_expr_id: id }; match tcx.upvar_capture(upvar_id).unwrap() { ty::UpvarCapture::ByValue => { bcx = datum.store_to(bcx, upvar_slot_dest); } ty::UpvarCapture::ByRef(..) => { Store(bcx, datum.to_llref(), upvar_slot_dest); } } } adt::trans_set_discr(bcx, &*repr, dest_addr, 0); Some(bcx) }