| // Copyright 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 <LICENSE-APACHE or |
| // http://www.apache.org/licenses/LICENSE-2.0> or the MIT license |
| // <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your |
| // option. This file may not be copied, modified, or distributed |
| // except according to those terms. |
| |
| use llvm; |
| use llvm::{ContextRef, ModuleRef, ValueRef}; |
| use rustc::dep_graph::{DepGraph, DepNode, DepTrackingMap, DepTrackingMapConfig, WorkProduct}; |
| use middle::cstore::LinkMeta; |
| use rustc::hir; |
| use rustc::hir::def::ExportMap; |
| use rustc::hir::def_id::DefId; |
| use rustc::traits; |
| use debuginfo; |
| use callee::Callee; |
| use base; |
| use declare; |
| use glue::DropGlueKind; |
| use monomorphize::Instance; |
| |
| use partitioning::CodegenUnit; |
| use trans_item::TransItem; |
| use type_::Type; |
| use rustc_data_structures::base_n; |
| use rustc::ty::subst::Substs; |
| use rustc::ty::{self, Ty, TyCtxt}; |
| use session::config::NoDebugInfo; |
| use session::Session; |
| use session::config; |
| use symbol_map::SymbolMap; |
| use util::nodemap::{NodeSet, DefIdMap, FxHashMap, FxHashSet}; |
| |
| use std::ffi::{CStr, CString}; |
| use std::cell::{Cell, RefCell}; |
| use std::marker::PhantomData; |
| use std::ptr; |
| use std::iter; |
| use std::rc::Rc; |
| use std::str; |
| use syntax::ast; |
| use syntax::symbol::InternedString; |
| use syntax_pos::DUMMY_SP; |
| use abi::{Abi, FnType}; |
| |
| pub struct Stats { |
| pub n_glues_created: Cell<usize>, |
| pub n_null_glues: Cell<usize>, |
| pub n_real_glues: Cell<usize>, |
| pub n_fns: Cell<usize>, |
| pub n_inlines: Cell<usize>, |
| pub n_closures: Cell<usize>, |
| pub n_llvm_insns: Cell<usize>, |
| pub llvm_insns: RefCell<FxHashMap<String, usize>>, |
| // (ident, llvm-instructions) |
| pub fn_stats: RefCell<Vec<(String, usize)> >, |
| } |
| |
| /// The shared portion of a `CrateContext`. There is one `SharedCrateContext` |
| /// per crate. The data here is shared between all compilation units of the |
| /// crate, so it must not contain references to any LLVM data structures |
| /// (aside from metadata-related ones). |
| pub struct SharedCrateContext<'a, 'tcx: 'a> { |
| metadata_llmod: ModuleRef, |
| metadata_llcx: ContextRef, |
| |
| export_map: ExportMap, |
| exported_symbols: NodeSet, |
| link_meta: LinkMeta, |
| tcx: TyCtxt<'a, 'tcx, 'tcx>, |
| empty_param_env: ty::ParameterEnvironment<'tcx>, |
| stats: Stats, |
| check_overflow: bool, |
| |
| use_dll_storage_attrs: bool, |
| |
| translation_items: RefCell<FxHashSet<TransItem<'tcx>>>, |
| trait_cache: RefCell<DepTrackingMap<TraitSelectionCache<'tcx>>>, |
| project_cache: RefCell<DepTrackingMap<ProjectionCache<'tcx>>>, |
| } |
| |
| /// The local portion of a `CrateContext`. There is one `LocalCrateContext` |
| /// per compilation unit. Each one has its own LLVM `ContextRef` so that |
| /// several compilation units may be optimized in parallel. All other LLVM |
| /// data structures in the `LocalCrateContext` are tied to that `ContextRef`. |
| pub struct LocalCrateContext<'tcx> { |
| llmod: ModuleRef, |
| llcx: ContextRef, |
| previous_work_product: Option<WorkProduct>, |
| codegen_unit: CodegenUnit<'tcx>, |
| needs_unwind_cleanup_cache: RefCell<FxHashMap<Ty<'tcx>, bool>>, |
| fn_pointer_shims: RefCell<FxHashMap<Ty<'tcx>, ValueRef>>, |
| drop_glues: RefCell<FxHashMap<DropGlueKind<'tcx>, (ValueRef, FnType)>>, |
| /// Cache instances of monomorphic and polymorphic items |
| instances: RefCell<FxHashMap<Instance<'tcx>, ValueRef>>, |
| /// Cache generated vtables |
| vtables: RefCell<FxHashMap<(ty::Ty<'tcx>, |
| Option<ty::PolyExistentialTraitRef<'tcx>>), ValueRef>>, |
| /// Cache of constant strings, |
| const_cstr_cache: RefCell<FxHashMap<InternedString, ValueRef>>, |
| |
| /// Reverse-direction for const ptrs cast from globals. |
| /// Key is a ValueRef holding a *T, |
| /// Val is a ValueRef holding a *[T]. |
| /// |
| /// Needed because LLVM loses pointer->pointee association |
| /// when we ptrcast, and we have to ptrcast during translation |
| /// of a [T] const because we form a slice, a (*T,usize) pair, not |
| /// a pointer to an LLVM array type. Similar for trait objects. |
| const_unsized: RefCell<FxHashMap<ValueRef, ValueRef>>, |
| |
| /// Cache of emitted const globals (value -> global) |
| const_globals: RefCell<FxHashMap<ValueRef, ValueRef>>, |
| |
| /// Cache of emitted const values |
| const_values: RefCell<FxHashMap<(ast::NodeId, &'tcx Substs<'tcx>), ValueRef>>, |
| |
| /// Cache of external const values |
| extern_const_values: RefCell<DefIdMap<ValueRef>>, |
| |
| /// Mapping from static definitions to their DefId's. |
| statics: RefCell<FxHashMap<ValueRef, DefId>>, |
| |
| impl_method_cache: RefCell<FxHashMap<(DefId, ast::Name), DefId>>, |
| |
| /// Cache of closure wrappers for bare fn's. |
| closure_bare_wrapper_cache: RefCell<FxHashMap<ValueRef, ValueRef>>, |
| |
| /// List of globals for static variables which need to be passed to the |
| /// LLVM function ReplaceAllUsesWith (RAUW) when translation is complete. |
| /// (We have to make sure we don't invalidate any ValueRefs referring |
| /// to constants.) |
| statics_to_rauw: RefCell<Vec<(ValueRef, ValueRef)>>, |
| |
| lltypes: RefCell<FxHashMap<Ty<'tcx>, Type>>, |
| llsizingtypes: RefCell<FxHashMap<Ty<'tcx>, Type>>, |
| type_hashcodes: RefCell<FxHashMap<Ty<'tcx>, String>>, |
| int_type: Type, |
| opaque_vec_type: Type, |
| str_slice_type: Type, |
| |
| /// Holds the LLVM values for closure IDs. |
| closure_vals: RefCell<FxHashMap<Instance<'tcx>, ValueRef>>, |
| |
| dbg_cx: Option<debuginfo::CrateDebugContext<'tcx>>, |
| |
| eh_personality: Cell<Option<ValueRef>>, |
| eh_unwind_resume: Cell<Option<ValueRef>>, |
| rust_try_fn: Cell<Option<ValueRef>>, |
| |
| intrinsics: RefCell<FxHashMap<&'static str, ValueRef>>, |
| |
| /// Depth of the current type-of computation - used to bail out |
| type_of_depth: Cell<usize>, |
| |
| symbol_map: Rc<SymbolMap<'tcx>>, |
| |
| /// A counter that is used for generating local symbol names |
| local_gen_sym_counter: Cell<usize>, |
| } |
| |
| // Implement DepTrackingMapConfig for `trait_cache` |
| pub struct TraitSelectionCache<'tcx> { |
| data: PhantomData<&'tcx ()> |
| } |
| |
| impl<'tcx> DepTrackingMapConfig for TraitSelectionCache<'tcx> { |
| type Key = ty::PolyTraitRef<'tcx>; |
| type Value = traits::Vtable<'tcx, ()>; |
| fn to_dep_node(key: &ty::PolyTraitRef<'tcx>) -> DepNode<DefId> { |
| key.to_poly_trait_predicate().dep_node() |
| } |
| } |
| |
| // # Global Cache |
| |
| pub struct ProjectionCache<'gcx> { |
| data: PhantomData<&'gcx ()> |
| } |
| |
| impl<'gcx> DepTrackingMapConfig for ProjectionCache<'gcx> { |
| type Key = Ty<'gcx>; |
| type Value = Ty<'gcx>; |
| fn to_dep_node(key: &Self::Key) -> DepNode<DefId> { |
| // Ideally, we'd just put `key` into the dep-node, but we |
| // can't put full types in there. So just collect up all the |
| // def-ids of structs/enums as well as any traits that we |
| // project out of. It doesn't matter so much what we do here, |
| // except that if we are too coarse, we'll create overly |
| // coarse edges between impls and the trans. For example, if |
| // we just used the def-id of things we are projecting out of, |
| // then the key for `<Foo as SomeTrait>::T` and `<Bar as |
| // SomeTrait>::T` would both share a dep-node |
| // (`TraitSelect(SomeTrait)`), and hence the impls for both |
| // `Foo` and `Bar` would be considered inputs. So a change to |
| // `Bar` would affect things that just normalized `Foo`. |
| // Anyway, this heuristic is not ideal, but better than |
| // nothing. |
| let def_ids: Vec<DefId> = |
| key.walk() |
| .filter_map(|t| match t.sty { |
| ty::TyAdt(adt_def, _) => Some(adt_def.did), |
| ty::TyProjection(ref proj) => Some(proj.trait_ref.def_id), |
| _ => None, |
| }) |
| .collect(); |
| DepNode::TraitSelect(def_ids) |
| } |
| } |
| |
| /// This list owns a number of LocalCrateContexts and binds them to their common |
| /// SharedCrateContext. This type just exists as a convenience, something to |
| /// pass around all LocalCrateContexts with and get an iterator over them. |
| pub struct CrateContextList<'a, 'tcx: 'a> { |
| shared: &'a SharedCrateContext<'a, 'tcx>, |
| local_ccxs: Vec<LocalCrateContext<'tcx>>, |
| } |
| |
| impl<'a, 'tcx: 'a> CrateContextList<'a, 'tcx> { |
| pub fn new(shared_ccx: &'a SharedCrateContext<'a, 'tcx>, |
| codegen_units: Vec<CodegenUnit<'tcx>>, |
| previous_work_products: Vec<Option<WorkProduct>>, |
| symbol_map: Rc<SymbolMap<'tcx>>) |
| -> CrateContextList<'a, 'tcx> { |
| CrateContextList { |
| shared: shared_ccx, |
| local_ccxs: codegen_units.into_iter().zip(previous_work_products).map(|(cgu, wp)| { |
| LocalCrateContext::new(shared_ccx, cgu, wp, symbol_map.clone()) |
| }).collect() |
| } |
| } |
| |
| /// Iterate over all crate contexts, whether or not they need |
| /// translation. That is, whether or not a `.o` file is available |
| /// for re-use from a previous incr. comp.). |
| pub fn iter_all<'b>(&'b self) -> CrateContextIterator<'b, 'tcx> { |
| CrateContextIterator { |
| shared: self.shared, |
| index: 0, |
| local_ccxs: &self.local_ccxs[..], |
| filter_to_previous_work_product_unavail: false, |
| } |
| } |
| |
| /// Iterator over all CCX that need translation (cannot reuse results from |
| /// previous incr. comp.). |
| pub fn iter_need_trans<'b>(&'b self) -> CrateContextIterator<'b, 'tcx> { |
| CrateContextIterator { |
| shared: self.shared, |
| index: 0, |
| local_ccxs: &self.local_ccxs[..], |
| filter_to_previous_work_product_unavail: true, |
| } |
| } |
| |
| pub fn shared(&self) -> &'a SharedCrateContext<'a, 'tcx> { |
| self.shared |
| } |
| } |
| |
| /// A CrateContext value binds together one LocalCrateContext with the |
| /// SharedCrateContext. It exists as a convenience wrapper, so we don't have to |
| /// pass around (SharedCrateContext, LocalCrateContext) tuples all over trans. |
| pub struct CrateContext<'a, 'tcx: 'a> { |
| shared: &'a SharedCrateContext<'a, 'tcx>, |
| local_ccxs: &'a [LocalCrateContext<'tcx>], |
| /// The index of `local` in `local_ccxs`. This is used in |
| /// `maybe_iter(true)` to identify the original `LocalCrateContext`. |
| index: usize, |
| } |
| |
| pub struct CrateContextIterator<'a, 'tcx: 'a> { |
| shared: &'a SharedCrateContext<'a, 'tcx>, |
| local_ccxs: &'a [LocalCrateContext<'tcx>], |
| index: usize, |
| |
| /// if true, only return results where `previous_work_product` is none |
| filter_to_previous_work_product_unavail: bool, |
| } |
| |
| impl<'a, 'tcx> Iterator for CrateContextIterator<'a,'tcx> { |
| type Item = CrateContext<'a, 'tcx>; |
| |
| fn next(&mut self) -> Option<CrateContext<'a, 'tcx>> { |
| loop { |
| if self.index >= self.local_ccxs.len() { |
| return None; |
| } |
| |
| let index = self.index; |
| self.index += 1; |
| |
| let ccx = CrateContext { |
| shared: self.shared, |
| index: index, |
| local_ccxs: self.local_ccxs, |
| }; |
| |
| if |
| self.filter_to_previous_work_product_unavail && |
| ccx.previous_work_product().is_some() |
| { |
| continue; |
| } |
| |
| return Some(ccx); |
| } |
| } |
| } |
| |
| pub fn get_reloc_model(sess: &Session) -> llvm::RelocMode { |
| let reloc_model_arg = match sess.opts.cg.relocation_model { |
| Some(ref s) => &s[..], |
| None => &sess.target.target.options.relocation_model[..], |
| }; |
| |
| match ::back::write::RELOC_MODEL_ARGS.iter().find( |
| |&&arg| arg.0 == reloc_model_arg) { |
| Some(x) => x.1, |
| _ => { |
| sess.err(&format!("{:?} is not a valid relocation mode", |
| sess.opts |
| .cg |
| .code_model)); |
| sess.abort_if_errors(); |
| bug!(); |
| } |
| } |
| } |
| |
| fn is_any_library(sess: &Session) -> bool { |
| sess.crate_types.borrow().iter().any(|ty| { |
| *ty != config::CrateTypeExecutable |
| }) |
| } |
| |
| pub fn is_pie_binary(sess: &Session) -> bool { |
| !is_any_library(sess) && get_reloc_model(sess) == llvm::RelocMode::PIC |
| } |
| |
| unsafe fn create_context_and_module(sess: &Session, mod_name: &str) -> (ContextRef, ModuleRef) { |
| let llcx = llvm::LLVMContextCreate(); |
| let mod_name = CString::new(mod_name).unwrap(); |
| let llmod = llvm::LLVMModuleCreateWithNameInContext(mod_name.as_ptr(), llcx); |
| |
| // Ensure the data-layout values hardcoded remain the defaults. |
| if sess.target.target.options.is_builtin { |
| let tm = ::back::write::create_target_machine(sess); |
| llvm::LLVMRustSetDataLayoutFromTargetMachine(llmod, tm); |
| llvm::LLVMRustDisposeTargetMachine(tm); |
| |
| let data_layout = llvm::LLVMGetDataLayout(llmod); |
| let data_layout = str::from_utf8(CStr::from_ptr(data_layout).to_bytes()) |
| .ok().expect("got a non-UTF8 data-layout from LLVM"); |
| |
| // Unfortunately LLVM target specs change over time, and right now we |
| // don't have proper support to work with any more than one |
| // `data_layout` than the one that is in the rust-lang/rust repo. If |
| // this compiler is configured against a custom LLVM, we may have a |
| // differing data layout, even though we should update our own to use |
| // that one. |
| // |
| // As an interim hack, if CFG_LLVM_ROOT is not an empty string then we |
| // disable this check entirely as we may be configured with something |
| // that has a different target layout. |
| // |
| // Unsure if this will actually cause breakage when rustc is configured |
| // as such. |
| // |
| // FIXME(#34960) |
| let cfg_llvm_root = option_env!("CFG_LLVM_ROOT").unwrap_or(""); |
| let custom_llvm_used = cfg_llvm_root.trim() != ""; |
| |
| if !custom_llvm_used && sess.target.target.data_layout != data_layout { |
| bug!("data-layout for builtin `{}` target, `{}`, \ |
| differs from LLVM default, `{}`", |
| sess.target.target.llvm_target, |
| sess.target.target.data_layout, |
| data_layout); |
| } |
| } |
| |
| let data_layout = CString::new(&sess.target.target.data_layout[..]).unwrap(); |
| llvm::LLVMSetDataLayout(llmod, data_layout.as_ptr()); |
| |
| let llvm_target = sess.target.target.llvm_target.as_bytes(); |
| let llvm_target = CString::new(llvm_target).unwrap(); |
| llvm::LLVMRustSetNormalizedTarget(llmod, llvm_target.as_ptr()); |
| |
| if is_pie_binary(sess) { |
| llvm::LLVMRustSetModulePIELevel(llmod); |
| } |
| |
| (llcx, llmod) |
| } |
| |
| impl<'b, 'tcx> SharedCrateContext<'b, 'tcx> { |
| pub fn new(tcx: TyCtxt<'b, 'tcx, 'tcx>, |
| export_map: ExportMap, |
| link_meta: LinkMeta, |
| exported_symbols: NodeSet, |
| check_overflow: bool) |
| -> SharedCrateContext<'b, 'tcx> { |
| let (metadata_llcx, metadata_llmod) = unsafe { |
| create_context_and_module(&tcx.sess, "metadata") |
| }; |
| |
| // An interesting part of Windows which MSVC forces our hand on (and |
| // apparently MinGW didn't) is the usage of `dllimport` and `dllexport` |
| // attributes in LLVM IR as well as native dependencies (in C these |
| // correspond to `__declspec(dllimport)`). |
| // |
| // Whenever a dynamic library is built by MSVC it must have its public |
| // interface specified by functions tagged with `dllexport` or otherwise |
| // they're not available to be linked against. This poses a few problems |
| // for the compiler, some of which are somewhat fundamental, but we use |
| // the `use_dll_storage_attrs` variable below to attach the `dllexport` |
| // attribute to all LLVM functions that are exported e.g. they're |
| // already tagged with external linkage). This is suboptimal for a few |
| // reasons: |
| // |
| // * If an object file will never be included in a dynamic library, |
| // there's no need to attach the dllexport attribute. Most object |
| // files in Rust are not destined to become part of a dll as binaries |
| // are statically linked by default. |
| // * If the compiler is emitting both an rlib and a dylib, the same |
| // source object file is currently used but with MSVC this may be less |
| // feasible. The compiler may be able to get around this, but it may |
| // involve some invasive changes to deal with this. |
| // |
| // The flipside of this situation is that whenever you link to a dll and |
| // you import a function from it, the import should be tagged with |
| // `dllimport`. At this time, however, the compiler does not emit |
| // `dllimport` for any declarations other than constants (where it is |
| // required), which is again suboptimal for even more reasons! |
| // |
| // * Calling a function imported from another dll without using |
| // `dllimport` causes the linker/compiler to have extra overhead (one |
| // `jmp` instruction on x86) when calling the function. |
| // * The same object file may be used in different circumstances, so a |
| // function may be imported from a dll if the object is linked into a |
| // dll, but it may be just linked against if linked into an rlib. |
| // * The compiler has no knowledge about whether native functions should |
| // be tagged dllimport or not. |
| // |
| // For now the compiler takes the perf hit (I do not have any numbers to |
| // this effect) by marking very little as `dllimport` and praying the |
| // linker will take care of everything. Fixing this problem will likely |
| // require adding a few attributes to Rust itself (feature gated at the |
| // start) and then strongly recommending static linkage on MSVC! |
| let use_dll_storage_attrs = tcx.sess.target.target.options.is_like_msvc; |
| |
| SharedCrateContext { |
| metadata_llmod: metadata_llmod, |
| metadata_llcx: metadata_llcx, |
| export_map: export_map, |
| exported_symbols: exported_symbols, |
| link_meta: link_meta, |
| empty_param_env: tcx.empty_parameter_environment(), |
| tcx: tcx, |
| stats: Stats { |
| n_glues_created: Cell::new(0), |
| n_null_glues: Cell::new(0), |
| n_real_glues: Cell::new(0), |
| n_fns: Cell::new(0), |
| n_inlines: Cell::new(0), |
| n_closures: Cell::new(0), |
| n_llvm_insns: Cell::new(0), |
| llvm_insns: RefCell::new(FxHashMap()), |
| fn_stats: RefCell::new(Vec::new()), |
| }, |
| check_overflow: check_overflow, |
| use_dll_storage_attrs: use_dll_storage_attrs, |
| translation_items: RefCell::new(FxHashSet()), |
| trait_cache: RefCell::new(DepTrackingMap::new(tcx.dep_graph.clone())), |
| project_cache: RefCell::new(DepTrackingMap::new(tcx.dep_graph.clone())), |
| } |
| } |
| |
| pub fn type_needs_drop(&self, ty: Ty<'tcx>) -> bool { |
| self.tcx.type_needs_drop_given_env(ty, &self.empty_param_env) |
| } |
| |
| pub fn type_is_sized(&self, ty: Ty<'tcx>) -> bool { |
| ty.is_sized(self.tcx, &self.empty_param_env, DUMMY_SP) |
| } |
| |
| pub fn metadata_llmod(&self) -> ModuleRef { |
| self.metadata_llmod |
| } |
| |
| pub fn metadata_llcx(&self) -> ContextRef { |
| self.metadata_llcx |
| } |
| |
| pub fn export_map<'a>(&'a self) -> &'a ExportMap { |
| &self.export_map |
| } |
| |
| pub fn exported_symbols<'a>(&'a self) -> &'a NodeSet { |
| &self.exported_symbols |
| } |
| |
| pub fn trait_cache(&self) -> &RefCell<DepTrackingMap<TraitSelectionCache<'tcx>>> { |
| &self.trait_cache |
| } |
| |
| pub fn project_cache(&self) -> &RefCell<DepTrackingMap<ProjectionCache<'tcx>>> { |
| &self.project_cache |
| } |
| |
| pub fn link_meta<'a>(&'a self) -> &'a LinkMeta { |
| &self.link_meta |
| } |
| |
| pub fn tcx<'a>(&'a self) -> TyCtxt<'a, 'tcx, 'tcx> { |
| self.tcx |
| } |
| |
| pub fn sess<'a>(&'a self) -> &'a Session { |
| &self.tcx.sess |
| } |
| |
| pub fn dep_graph<'a>(&'a self) -> &'a DepGraph { |
| &self.tcx.dep_graph |
| } |
| |
| pub fn stats<'a>(&'a self) -> &'a Stats { |
| &self.stats |
| } |
| |
| pub fn use_dll_storage_attrs(&self) -> bool { |
| self.use_dll_storage_attrs |
| } |
| |
| pub fn translation_items(&self) -> &RefCell<FxHashSet<TransItem<'tcx>>> { |
| &self.translation_items |
| } |
| |
| /// Given the def-id of some item that has no type parameters, make |
| /// a suitable "empty substs" for it. |
| pub fn empty_substs_for_def_id(&self, item_def_id: DefId) -> &'tcx Substs<'tcx> { |
| Substs::for_item(self.tcx(), item_def_id, |
| |_, _| self.tcx().mk_region(ty::ReErased), |
| |_, _| { |
| bug!("empty_substs_for_def_id: {:?} has type parameters", item_def_id) |
| }) |
| } |
| |
| pub fn metadata_symbol_name(&self) -> String { |
| format!("rust_metadata_{}_{}", |
| self.link_meta().crate_name, |
| self.link_meta().crate_hash) |
| } |
| } |
| |
| impl<'tcx> LocalCrateContext<'tcx> { |
| fn new<'a>(shared: &SharedCrateContext<'a, 'tcx>, |
| codegen_unit: CodegenUnit<'tcx>, |
| previous_work_product: Option<WorkProduct>, |
| symbol_map: Rc<SymbolMap<'tcx>>) |
| -> LocalCrateContext<'tcx> { |
| unsafe { |
| // Append ".rs" to LLVM module identifier. |
| // |
| // LLVM code generator emits a ".file filename" directive |
| // for ELF backends. Value of the "filename" is set as the |
| // LLVM module identifier. Due to a LLVM MC bug[1], LLVM |
| // crashes if the module identifier is same as other symbols |
| // such as a function name in the module. |
| // 1. http://llvm.org/bugs/show_bug.cgi?id=11479 |
| let llmod_id = format!("{}.rs", codegen_unit.name()); |
| |
| let (llcx, llmod) = create_context_and_module(&shared.tcx.sess, |
| &llmod_id[..]); |
| |
| let dbg_cx = if shared.tcx.sess.opts.debuginfo != NoDebugInfo { |
| let dctx = debuginfo::CrateDebugContext::new(llmod); |
| debuginfo::metadata::compile_unit_metadata(shared, &dctx, shared.tcx.sess); |
| Some(dctx) |
| } else { |
| None |
| }; |
| |
| let local_ccx = LocalCrateContext { |
| llmod: llmod, |
| llcx: llcx, |
| previous_work_product: previous_work_product, |
| codegen_unit: codegen_unit, |
| needs_unwind_cleanup_cache: RefCell::new(FxHashMap()), |
| fn_pointer_shims: RefCell::new(FxHashMap()), |
| drop_glues: RefCell::new(FxHashMap()), |
| instances: RefCell::new(FxHashMap()), |
| vtables: RefCell::new(FxHashMap()), |
| const_cstr_cache: RefCell::new(FxHashMap()), |
| const_unsized: RefCell::new(FxHashMap()), |
| const_globals: RefCell::new(FxHashMap()), |
| const_values: RefCell::new(FxHashMap()), |
| extern_const_values: RefCell::new(DefIdMap()), |
| statics: RefCell::new(FxHashMap()), |
| impl_method_cache: RefCell::new(FxHashMap()), |
| closure_bare_wrapper_cache: RefCell::new(FxHashMap()), |
| statics_to_rauw: RefCell::new(Vec::new()), |
| lltypes: RefCell::new(FxHashMap()), |
| llsizingtypes: RefCell::new(FxHashMap()), |
| type_hashcodes: RefCell::new(FxHashMap()), |
| int_type: Type::from_ref(ptr::null_mut()), |
| opaque_vec_type: Type::from_ref(ptr::null_mut()), |
| str_slice_type: Type::from_ref(ptr::null_mut()), |
| closure_vals: RefCell::new(FxHashMap()), |
| dbg_cx: dbg_cx, |
| eh_personality: Cell::new(None), |
| eh_unwind_resume: Cell::new(None), |
| rust_try_fn: Cell::new(None), |
| intrinsics: RefCell::new(FxHashMap()), |
| type_of_depth: Cell::new(0), |
| symbol_map: symbol_map, |
| local_gen_sym_counter: Cell::new(0), |
| }; |
| |
| let (int_type, opaque_vec_type, str_slice_ty, mut local_ccx) = { |
| // Do a little dance to create a dummy CrateContext, so we can |
| // create some things in the LLVM module of this codegen unit |
| let mut local_ccxs = vec![local_ccx]; |
| let (int_type, opaque_vec_type, str_slice_ty) = { |
| let dummy_ccx = LocalCrateContext::dummy_ccx(shared, |
| local_ccxs.as_mut_slice()); |
| let mut str_slice_ty = Type::named_struct(&dummy_ccx, "str_slice"); |
| str_slice_ty.set_struct_body(&[Type::i8p(&dummy_ccx), |
| Type::int(&dummy_ccx)], |
| false); |
| (Type::int(&dummy_ccx), Type::opaque_vec(&dummy_ccx), str_slice_ty) |
| }; |
| (int_type, opaque_vec_type, str_slice_ty, local_ccxs.pop().unwrap()) |
| }; |
| |
| local_ccx.int_type = int_type; |
| local_ccx.opaque_vec_type = opaque_vec_type; |
| local_ccx.str_slice_type = str_slice_ty; |
| |
| local_ccx |
| } |
| } |
| |
| /// Create a dummy `CrateContext` from `self` and the provided |
| /// `SharedCrateContext`. This is somewhat dangerous because `self` may |
| /// not be fully initialized. |
| /// |
| /// This is used in the `LocalCrateContext` constructor to allow calling |
| /// functions that expect a complete `CrateContext`, even before the local |
| /// portion is fully initialized and attached to the `SharedCrateContext`. |
| fn dummy_ccx<'a>(shared: &'a SharedCrateContext<'a, 'tcx>, |
| local_ccxs: &'a [LocalCrateContext<'tcx>]) |
| -> CrateContext<'a, 'tcx> { |
| assert!(local_ccxs.len() == 1); |
| CrateContext { |
| shared: shared, |
| index: 0, |
| local_ccxs: local_ccxs |
| } |
| } |
| } |
| |
| impl<'b, 'tcx> CrateContext<'b, 'tcx> { |
| pub fn shared(&self) -> &'b SharedCrateContext<'b, 'tcx> { |
| self.shared |
| } |
| |
| fn local(&self) -> &'b LocalCrateContext<'tcx> { |
| &self.local_ccxs[self.index] |
| } |
| |
| pub fn tcx<'a>(&'a self) -> TyCtxt<'a, 'tcx, 'tcx> { |
| self.shared.tcx |
| } |
| |
| pub fn sess<'a>(&'a self) -> &'a Session { |
| &self.shared.tcx.sess |
| } |
| |
| pub fn get_intrinsic(&self, key: &str) -> ValueRef { |
| if let Some(v) = self.intrinsics().borrow().get(key).cloned() { |
| return v; |
| } |
| match declare_intrinsic(self, key) { |
| Some(v) => return v, |
| None => bug!("unknown intrinsic '{}'", key) |
| } |
| } |
| |
| pub fn llmod(&self) -> ModuleRef { |
| self.local().llmod |
| } |
| |
| pub fn llcx(&self) -> ContextRef { |
| self.local().llcx |
| } |
| |
| pub fn previous_work_product(&self) -> Option<&WorkProduct> { |
| self.local().previous_work_product.as_ref() |
| } |
| |
| pub fn codegen_unit(&self) -> &CodegenUnit<'tcx> { |
| &self.local().codegen_unit |
| } |
| |
| pub fn td(&self) -> llvm::TargetDataRef { |
| unsafe { llvm::LLVMRustGetModuleDataLayout(self.llmod()) } |
| } |
| |
| pub fn export_map<'a>(&'a self) -> &'a ExportMap { |
| &self.shared.export_map |
| } |
| |
| pub fn exported_symbols<'a>(&'a self) -> &'a NodeSet { |
| &self.shared.exported_symbols |
| } |
| |
| pub fn link_meta<'a>(&'a self) -> &'a LinkMeta { |
| &self.shared.link_meta |
| } |
| |
| pub fn needs_unwind_cleanup_cache(&self) -> &RefCell<FxHashMap<Ty<'tcx>, bool>> { |
| &self.local().needs_unwind_cleanup_cache |
| } |
| |
| pub fn fn_pointer_shims(&self) -> &RefCell<FxHashMap<Ty<'tcx>, ValueRef>> { |
| &self.local().fn_pointer_shims |
| } |
| |
| pub fn drop_glues<'a>(&'a self) |
| -> &'a RefCell<FxHashMap<DropGlueKind<'tcx>, (ValueRef, FnType)>> { |
| &self.local().drop_glues |
| } |
| |
| pub fn instances<'a>(&'a self) -> &'a RefCell<FxHashMap<Instance<'tcx>, ValueRef>> { |
| &self.local().instances |
| } |
| |
| pub fn vtables<'a>(&'a self) |
| -> &'a RefCell<FxHashMap<(ty::Ty<'tcx>, |
| Option<ty::PolyExistentialTraitRef<'tcx>>), ValueRef>> { |
| &self.local().vtables |
| } |
| |
| pub fn const_cstr_cache<'a>(&'a self) -> &'a RefCell<FxHashMap<InternedString, ValueRef>> { |
| &self.local().const_cstr_cache |
| } |
| |
| pub fn const_unsized<'a>(&'a self) -> &'a RefCell<FxHashMap<ValueRef, ValueRef>> { |
| &self.local().const_unsized |
| } |
| |
| pub fn const_globals<'a>(&'a self) -> &'a RefCell<FxHashMap<ValueRef, ValueRef>> { |
| &self.local().const_globals |
| } |
| |
| pub fn const_values<'a>(&'a self) -> &'a RefCell<FxHashMap<(ast::NodeId, &'tcx Substs<'tcx>), |
| ValueRef>> { |
| &self.local().const_values |
| } |
| |
| pub fn extern_const_values<'a>(&'a self) -> &'a RefCell<DefIdMap<ValueRef>> { |
| &self.local().extern_const_values |
| } |
| |
| pub fn statics<'a>(&'a self) -> &'a RefCell<FxHashMap<ValueRef, DefId>> { |
| &self.local().statics |
| } |
| |
| pub fn impl_method_cache<'a>(&'a self) |
| -> &'a RefCell<FxHashMap<(DefId, ast::Name), DefId>> { |
| &self.local().impl_method_cache |
| } |
| |
| pub fn closure_bare_wrapper_cache<'a>(&'a self) -> &'a RefCell<FxHashMap<ValueRef, ValueRef>> { |
| &self.local().closure_bare_wrapper_cache |
| } |
| |
| pub fn statics_to_rauw<'a>(&'a self) -> &'a RefCell<Vec<(ValueRef, ValueRef)>> { |
| &self.local().statics_to_rauw |
| } |
| |
| pub fn lltypes<'a>(&'a self) -> &'a RefCell<FxHashMap<Ty<'tcx>, Type>> { |
| &self.local().lltypes |
| } |
| |
| pub fn llsizingtypes<'a>(&'a self) -> &'a RefCell<FxHashMap<Ty<'tcx>, Type>> { |
| &self.local().llsizingtypes |
| } |
| |
| pub fn type_hashcodes<'a>(&'a self) -> &'a RefCell<FxHashMap<Ty<'tcx>, String>> { |
| &self.local().type_hashcodes |
| } |
| |
| pub fn stats<'a>(&'a self) -> &'a Stats { |
| &self.shared.stats |
| } |
| |
| pub fn int_type(&self) -> Type { |
| self.local().int_type |
| } |
| |
| pub fn opaque_vec_type(&self) -> Type { |
| self.local().opaque_vec_type |
| } |
| |
| pub fn str_slice_type(&self) -> Type { |
| self.local().str_slice_type |
| } |
| |
| pub fn closure_vals<'a>(&'a self) -> &'a RefCell<FxHashMap<Instance<'tcx>, ValueRef>> { |
| &self.local().closure_vals |
| } |
| |
| pub fn dbg_cx<'a>(&'a self) -> &'a Option<debuginfo::CrateDebugContext<'tcx>> { |
| &self.local().dbg_cx |
| } |
| |
| pub fn rust_try_fn<'a>(&'a self) -> &'a Cell<Option<ValueRef>> { |
| &self.local().rust_try_fn |
| } |
| |
| fn intrinsics<'a>(&'a self) -> &'a RefCell<FxHashMap<&'static str, ValueRef>> { |
| &self.local().intrinsics |
| } |
| |
| pub fn obj_size_bound(&self) -> u64 { |
| self.tcx().data_layout.obj_size_bound() |
| } |
| |
| pub fn report_overbig_object(&self, obj: Ty<'tcx>) -> ! { |
| self.sess().fatal( |
| &format!("the type `{:?}` is too big for the current architecture", |
| obj)) |
| } |
| |
| pub fn enter_type_of(&self, ty: Ty<'tcx>) -> TypeOfDepthLock<'b, 'tcx> { |
| let current_depth = self.local().type_of_depth.get(); |
| debug!("enter_type_of({:?}) at depth {:?}", ty, current_depth); |
| if current_depth > self.sess().recursion_limit.get() { |
| self.sess().fatal( |
| &format!("overflow representing the type `{}`", ty)) |
| } |
| self.local().type_of_depth.set(current_depth + 1); |
| TypeOfDepthLock(self.local()) |
| } |
| |
| pub fn layout_of(&self, ty: Ty<'tcx>) -> &'tcx ty::layout::Layout { |
| self.tcx().infer_ctxt((), traits::Reveal::All).enter(|infcx| { |
| ty.layout(&infcx).unwrap_or_else(|e| { |
| match e { |
| ty::layout::LayoutError::SizeOverflow(_) => |
| self.sess().fatal(&e.to_string()), |
| _ => bug!("failed to get layout for `{}`: {}", ty, e) |
| } |
| }) |
| }) |
| } |
| |
| pub fn check_overflow(&self) -> bool { |
| self.shared.check_overflow |
| } |
| |
| pub fn use_dll_storage_attrs(&self) -> bool { |
| self.shared.use_dll_storage_attrs() |
| } |
| |
| pub fn symbol_map(&self) -> &SymbolMap<'tcx> { |
| &*self.local().symbol_map |
| } |
| |
| pub fn translation_items(&self) -> &RefCell<FxHashSet<TransItem<'tcx>>> { |
| &self.shared.translation_items |
| } |
| |
| /// Given the def-id of some item that has no type parameters, make |
| /// a suitable "empty substs" for it. |
| pub fn empty_substs_for_def_id(&self, item_def_id: DefId) -> &'tcx Substs<'tcx> { |
| self.shared().empty_substs_for_def_id(item_def_id) |
| } |
| |
| /// Generate a new symbol name with the given prefix. This symbol name must |
| /// only be used for definitions with `internal` or `private` linkage. |
| pub fn generate_local_symbol_name(&self, prefix: &str) -> String { |
| let idx = self.local().local_gen_sym_counter.get(); |
| self.local().local_gen_sym_counter.set(idx + 1); |
| // Include a '.' character, so there can be no accidental conflicts with |
| // user defined names |
| let mut name = String::with_capacity(prefix.len() + 6); |
| name.push_str(prefix); |
| name.push_str("."); |
| base_n::push_str(idx as u64, base_n::ALPHANUMERIC_ONLY, &mut name); |
| name |
| } |
| |
| pub fn eh_personality(&self) -> ValueRef { |
| // The exception handling personality function. |
| // |
| // If our compilation unit has the `eh_personality` lang item somewhere |
| // within it, then we just need to translate that. Otherwise, we're |
| // building an rlib which will depend on some upstream implementation of |
| // this function, so we just codegen a generic reference to it. We don't |
| // specify any of the types for the function, we just make it a symbol |
| // that LLVM can later use. |
| // |
| // Note that MSVC is a little special here in that we don't use the |
| // `eh_personality` lang item at all. Currently LLVM has support for |
| // both Dwarf and SEH unwind mechanisms for MSVC targets and uses the |
| // *name of the personality function* to decide what kind of unwind side |
| // tables/landing pads to emit. It looks like Dwarf is used by default, |
| // injecting a dependency on the `_Unwind_Resume` symbol for resuming |
| // an "exception", but for MSVC we want to force SEH. This means that we |
| // can't actually have the personality function be our standard |
| // `rust_eh_personality` function, but rather we wired it up to the |
| // CRT's custom personality function, which forces LLVM to consider |
| // landing pads as "landing pads for SEH". |
| if let Some(llpersonality) = self.local().eh_personality.get() { |
| return llpersonality |
| } |
| let tcx = self.tcx(); |
| let llfn = match tcx.lang_items.eh_personality() { |
| Some(def_id) if !base::wants_msvc_seh(self.sess()) => { |
| Callee::def(self, def_id, tcx.intern_substs(&[])).reify(self) |
| } |
| _ => { |
| let name = if base::wants_msvc_seh(self.sess()) { |
| "__CxxFrameHandler3" |
| } else { |
| "rust_eh_personality" |
| }; |
| let fty = Type::variadic_func(&[], &Type::i32(self)); |
| declare::declare_cfn(self, name, fty) |
| } |
| }; |
| self.local().eh_personality.set(Some(llfn)); |
| llfn |
| } |
| |
| // Returns a ValueRef of the "eh_unwind_resume" lang item if one is defined, |
| // otherwise declares it as an external function. |
| pub fn eh_unwind_resume(&self) -> ValueRef { |
| use attributes; |
| let unwresume = &self.local().eh_unwind_resume; |
| if let Some(llfn) = unwresume.get() { |
| return llfn; |
| } |
| |
| let tcx = self.tcx(); |
| assert!(self.sess().target.target.options.custom_unwind_resume); |
| if let Some(def_id) = tcx.lang_items.eh_unwind_resume() { |
| let llfn = Callee::def(self, def_id, tcx.intern_substs(&[])).reify(self); |
| unwresume.set(Some(llfn)); |
| return llfn; |
| } |
| |
| let ty = tcx.mk_fn_ptr(tcx.mk_bare_fn(ty::BareFnTy { |
| unsafety: hir::Unsafety::Unsafe, |
| abi: Abi::C, |
| sig: ty::Binder(tcx.mk_fn_sig( |
| iter::once(tcx.mk_mut_ptr(tcx.types.u8)), |
| tcx.types.never, |
| false |
| )), |
| })); |
| |
| let llfn = declare::declare_fn(self, "rust_eh_unwind_resume", ty); |
| attributes::unwind(llfn, true); |
| unwresume.set(Some(llfn)); |
| llfn |
| } |
| } |
| |
| pub struct TypeOfDepthLock<'a, 'tcx: 'a>(&'a LocalCrateContext<'tcx>); |
| |
| impl<'a, 'tcx> Drop for TypeOfDepthLock<'a, 'tcx> { |
| fn drop(&mut self) { |
| self.0.type_of_depth.set(self.0.type_of_depth.get() - 1); |
| } |
| } |
| |
| /// Declare any llvm intrinsics that you might need |
| fn declare_intrinsic(ccx: &CrateContext, key: &str) -> Option<ValueRef> { |
| macro_rules! ifn { |
| ($name:expr, fn() -> $ret:expr) => ( |
| if key == $name { |
| let f = declare::declare_cfn(ccx, $name, Type::func(&[], &$ret)); |
| llvm::SetUnnamedAddr(f, false); |
| ccx.intrinsics().borrow_mut().insert($name, f.clone()); |
| return Some(f); |
| } |
| ); |
| ($name:expr, fn(...) -> $ret:expr) => ( |
| if key == $name { |
| let f = declare::declare_cfn(ccx, $name, Type::variadic_func(&[], &$ret)); |
| llvm::SetUnnamedAddr(f, false); |
| ccx.intrinsics().borrow_mut().insert($name, f.clone()); |
| return Some(f); |
| } |
| ); |
| ($name:expr, fn($($arg:expr),*) -> $ret:expr) => ( |
| if key == $name { |
| let f = declare::declare_cfn(ccx, $name, Type::func(&[$($arg),*], &$ret)); |
| llvm::SetUnnamedAddr(f, false); |
| ccx.intrinsics().borrow_mut().insert($name, f.clone()); |
| return Some(f); |
| } |
| ); |
| } |
| macro_rules! mk_struct { |
| ($($field_ty:expr),*) => (Type::struct_(ccx, &[$($field_ty),*], false)) |
| } |
| |
| let i8p = Type::i8p(ccx); |
| let void = Type::void(ccx); |
| let i1 = Type::i1(ccx); |
| let t_i8 = Type::i8(ccx); |
| let t_i16 = Type::i16(ccx); |
| let t_i32 = Type::i32(ccx); |
| let t_i64 = Type::i64(ccx); |
| let t_i128 = Type::i128(ccx); |
| let t_f32 = Type::f32(ccx); |
| let t_f64 = Type::f64(ccx); |
| |
| ifn!("llvm.memcpy.p0i8.p0i8.i16", fn(i8p, i8p, t_i16, t_i32, i1) -> void); |
| ifn!("llvm.memcpy.p0i8.p0i8.i32", fn(i8p, i8p, t_i32, t_i32, i1) -> void); |
| ifn!("llvm.memcpy.p0i8.p0i8.i64", fn(i8p, i8p, t_i64, t_i32, i1) -> void); |
| ifn!("llvm.memmove.p0i8.p0i8.i16", fn(i8p, i8p, t_i16, t_i32, i1) -> void); |
| ifn!("llvm.memmove.p0i8.p0i8.i32", fn(i8p, i8p, t_i32, t_i32, i1) -> void); |
| ifn!("llvm.memmove.p0i8.p0i8.i64", fn(i8p, i8p, t_i64, t_i32, i1) -> void); |
| ifn!("llvm.memset.p0i8.i16", fn(i8p, t_i8, t_i16, t_i32, i1) -> void); |
| ifn!("llvm.memset.p0i8.i32", fn(i8p, t_i8, t_i32, t_i32, i1) -> void); |
| ifn!("llvm.memset.p0i8.i64", fn(i8p, t_i8, t_i64, t_i32, i1) -> void); |
| |
| ifn!("llvm.trap", fn() -> void); |
| ifn!("llvm.debugtrap", fn() -> void); |
| ifn!("llvm.frameaddress", fn(t_i32) -> i8p); |
| |
| ifn!("llvm.powi.f32", fn(t_f32, t_i32) -> t_f32); |
| ifn!("llvm.powi.f64", fn(t_f64, t_i32) -> t_f64); |
| ifn!("llvm.pow.f32", fn(t_f32, t_f32) -> t_f32); |
| ifn!("llvm.pow.f64", fn(t_f64, t_f64) -> t_f64); |
| |
| ifn!("llvm.sqrt.f32", fn(t_f32) -> t_f32); |
| ifn!("llvm.sqrt.f64", fn(t_f64) -> t_f64); |
| ifn!("llvm.sin.f32", fn(t_f32) -> t_f32); |
| ifn!("llvm.sin.f64", fn(t_f64) -> t_f64); |
| ifn!("llvm.cos.f32", fn(t_f32) -> t_f32); |
| ifn!("llvm.cos.f64", fn(t_f64) -> t_f64); |
| ifn!("llvm.exp.f32", fn(t_f32) -> t_f32); |
| ifn!("llvm.exp.f64", fn(t_f64) -> t_f64); |
| ifn!("llvm.exp2.f32", fn(t_f32) -> t_f32); |
| ifn!("llvm.exp2.f64", fn(t_f64) -> t_f64); |
| ifn!("llvm.log.f32", fn(t_f32) -> t_f32); |
| ifn!("llvm.log.f64", fn(t_f64) -> t_f64); |
| ifn!("llvm.log10.f32", fn(t_f32) -> t_f32); |
| ifn!("llvm.log10.f64", fn(t_f64) -> t_f64); |
| ifn!("llvm.log2.f32", fn(t_f32) -> t_f32); |
| ifn!("llvm.log2.f64", fn(t_f64) -> t_f64); |
| |
| ifn!("llvm.fma.f32", fn(t_f32, t_f32, t_f32) -> t_f32); |
| ifn!("llvm.fma.f64", fn(t_f64, t_f64, t_f64) -> t_f64); |
| |
| ifn!("llvm.fabs.f32", fn(t_f32) -> t_f32); |
| ifn!("llvm.fabs.f64", fn(t_f64) -> t_f64); |
| |
| ifn!("llvm.floor.f32", fn(t_f32) -> t_f32); |
| ifn!("llvm.floor.f64", fn(t_f64) -> t_f64); |
| ifn!("llvm.ceil.f32", fn(t_f32) -> t_f32); |
| ifn!("llvm.ceil.f64", fn(t_f64) -> t_f64); |
| ifn!("llvm.trunc.f32", fn(t_f32) -> t_f32); |
| ifn!("llvm.trunc.f64", fn(t_f64) -> t_f64); |
| |
| ifn!("llvm.copysign.f32", fn(t_f32, t_f32) -> t_f32); |
| ifn!("llvm.copysign.f64", fn(t_f64, t_f64) -> t_f64); |
| ifn!("llvm.round.f32", fn(t_f32) -> t_f32); |
| ifn!("llvm.round.f64", fn(t_f64) -> t_f64); |
| |
| ifn!("llvm.rint.f32", fn(t_f32) -> t_f32); |
| ifn!("llvm.rint.f64", fn(t_f64) -> t_f64); |
| ifn!("llvm.nearbyint.f32", fn(t_f32) -> t_f32); |
| ifn!("llvm.nearbyint.f64", fn(t_f64) -> t_f64); |
| |
| ifn!("llvm.ctpop.i8", fn(t_i8) -> t_i8); |
| ifn!("llvm.ctpop.i16", fn(t_i16) -> t_i16); |
| ifn!("llvm.ctpop.i32", fn(t_i32) -> t_i32); |
| ifn!("llvm.ctpop.i64", fn(t_i64) -> t_i64); |
| ifn!("llvm.ctpop.i128", fn(t_i128) -> t_i128); |
| |
| ifn!("llvm.ctlz.i8", fn(t_i8 , i1) -> t_i8); |
| ifn!("llvm.ctlz.i16", fn(t_i16, i1) -> t_i16); |
| ifn!("llvm.ctlz.i32", fn(t_i32, i1) -> t_i32); |
| ifn!("llvm.ctlz.i64", fn(t_i64, i1) -> t_i64); |
| ifn!("llvm.ctlz.i128", fn(t_i128, i1) -> t_i128); |
| |
| ifn!("llvm.cttz.i8", fn(t_i8 , i1) -> t_i8); |
| ifn!("llvm.cttz.i16", fn(t_i16, i1) -> t_i16); |
| ifn!("llvm.cttz.i32", fn(t_i32, i1) -> t_i32); |
| ifn!("llvm.cttz.i64", fn(t_i64, i1) -> t_i64); |
| ifn!("llvm.cttz.i128", fn(t_i128, i1) -> t_i128); |
| |
| ifn!("llvm.bswap.i16", fn(t_i16) -> t_i16); |
| ifn!("llvm.bswap.i32", fn(t_i32) -> t_i32); |
| ifn!("llvm.bswap.i64", fn(t_i64) -> t_i64); |
| ifn!("llvm.bswap.i128", fn(t_i128) -> t_i128); |
| |
| ifn!("llvm.sadd.with.overflow.i8", fn(t_i8, t_i8) -> mk_struct!{t_i8, i1}); |
| ifn!("llvm.sadd.with.overflow.i16", fn(t_i16, t_i16) -> mk_struct!{t_i16, i1}); |
| ifn!("llvm.sadd.with.overflow.i32", fn(t_i32, t_i32) -> mk_struct!{t_i32, i1}); |
| ifn!("llvm.sadd.with.overflow.i64", fn(t_i64, t_i64) -> mk_struct!{t_i64, i1}); |
| ifn!("llvm.sadd.with.overflow.i128", fn(t_i128, t_i128) -> mk_struct!{t_i128, i1}); |
| |
| ifn!("llvm.uadd.with.overflow.i8", fn(t_i8, t_i8) -> mk_struct!{t_i8, i1}); |
| ifn!("llvm.uadd.with.overflow.i16", fn(t_i16, t_i16) -> mk_struct!{t_i16, i1}); |
| ifn!("llvm.uadd.with.overflow.i32", fn(t_i32, t_i32) -> mk_struct!{t_i32, i1}); |
| ifn!("llvm.uadd.with.overflow.i64", fn(t_i64, t_i64) -> mk_struct!{t_i64, i1}); |
| ifn!("llvm.uadd.with.overflow.i128", fn(t_i128, t_i128) -> mk_struct!{t_i128, i1}); |
| |
| ifn!("llvm.ssub.with.overflow.i8", fn(t_i8, t_i8) -> mk_struct!{t_i8, i1}); |
| ifn!("llvm.ssub.with.overflow.i16", fn(t_i16, t_i16) -> mk_struct!{t_i16, i1}); |
| ifn!("llvm.ssub.with.overflow.i32", fn(t_i32, t_i32) -> mk_struct!{t_i32, i1}); |
| ifn!("llvm.ssub.with.overflow.i64", fn(t_i64, t_i64) -> mk_struct!{t_i64, i1}); |
| ifn!("llvm.ssub.with.overflow.i128", fn(t_i128, t_i128) -> mk_struct!{t_i128, i1}); |
| |
| ifn!("llvm.usub.with.overflow.i8", fn(t_i8, t_i8) -> mk_struct!{t_i8, i1}); |
| ifn!("llvm.usub.with.overflow.i16", fn(t_i16, t_i16) -> mk_struct!{t_i16, i1}); |
| ifn!("llvm.usub.with.overflow.i32", fn(t_i32, t_i32) -> mk_struct!{t_i32, i1}); |
| ifn!("llvm.usub.with.overflow.i64", fn(t_i64, t_i64) -> mk_struct!{t_i64, i1}); |
| ifn!("llvm.usub.with.overflow.i128", fn(t_i128, t_i128) -> mk_struct!{t_i128, i1}); |
| |
| ifn!("llvm.smul.with.overflow.i8", fn(t_i8, t_i8) -> mk_struct!{t_i8, i1}); |
| ifn!("llvm.smul.with.overflow.i16", fn(t_i16, t_i16) -> mk_struct!{t_i16, i1}); |
| ifn!("llvm.smul.with.overflow.i32", fn(t_i32, t_i32) -> mk_struct!{t_i32, i1}); |
| ifn!("llvm.smul.with.overflow.i64", fn(t_i64, t_i64) -> mk_struct!{t_i64, i1}); |
| ifn!("llvm.smul.with.overflow.i128", fn(t_i128, t_i128) -> mk_struct!{t_i128, i1}); |
| |
| ifn!("llvm.umul.with.overflow.i8", fn(t_i8, t_i8) -> mk_struct!{t_i8, i1}); |
| ifn!("llvm.umul.with.overflow.i16", fn(t_i16, t_i16) -> mk_struct!{t_i16, i1}); |
| ifn!("llvm.umul.with.overflow.i32", fn(t_i32, t_i32) -> mk_struct!{t_i32, i1}); |
| ifn!("llvm.umul.with.overflow.i64", fn(t_i64, t_i64) -> mk_struct!{t_i64, i1}); |
| ifn!("llvm.umul.with.overflow.i128", fn(t_i128, t_i128) -> mk_struct!{t_i128, i1}); |
| |
| ifn!("llvm.lifetime.start", fn(t_i64,i8p) -> void); |
| ifn!("llvm.lifetime.end", fn(t_i64, i8p) -> void); |
| |
| ifn!("llvm.expect.i1", fn(i1, i1) -> i1); |
| ifn!("llvm.eh.typeid.for", fn(i8p) -> t_i32); |
| ifn!("llvm.localescape", fn(...) -> void); |
| ifn!("llvm.localrecover", fn(i8p, i8p, t_i32) -> i8p); |
| ifn!("llvm.x86.seh.recoverfp", fn(i8p, i8p) -> i8p); |
| |
| ifn!("llvm.assume", fn(i1) -> void); |
| |
| if ccx.sess().opts.debuginfo != NoDebugInfo { |
| ifn!("llvm.dbg.declare", fn(Type::metadata(ccx), Type::metadata(ccx)) -> void); |
| ifn!("llvm.dbg.value", fn(Type::metadata(ccx), t_i64, Type::metadata(ccx)) -> void); |
| } |
| return None; |
| } |