src/librustc_trans/trans_item.rs - third_party/rust - Git at Google

 // Copyright 2016 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.

 //! Walks the crate looking for items/impl-items/trait-items that have
 //! either a `rustc_symbol_name` or `rustc_item_path` attribute and
 //! generates an error giving, respectively, the symbol name or
 //! item-path. This is used for unit testing the code that generates
 //! paths etc in all kinds of annoying scenarios.

 use asm;
 use attributes;
 use base;
 use consts;
 use context::CrateContext;
 use declare;
 use llvm;
 use monomorphize::Instance;
 use type_of::LayoutLlvmExt;
 use rustc::hir;
 use rustc::mir::mono::{Linkage, Visibility};
 use rustc::ty::{TyCtxt, TypeFoldable};
 use rustc::ty::layout::LayoutOf;
 use syntax::ast;
 use syntax::attr;
 use syntax_pos::Span;
 use std::fmt;

 pub use rustc::mir::mono::MonoItem;

 pub use rustc_mir::monomorphize::item::*;
 pub use rustc_mir::monomorphize::item::MonoItemExt as BaseMonoItemExt;

 pub trait MonoItemExt<'a, 'tcx>: fmt::Debug + BaseMonoItemExt<'a, 'tcx> {
     fn define(&self, ccx: &CrateContext<'a, 'tcx>) {
         debug!("BEGIN IMPLEMENTING '{} ({})' in cgu {}",
                self.to_string(ccx.tcx()),
                self.to_raw_string(),
                ccx.codegen_unit().name());

         match *self.as_mono_item() {
             MonoItem::Static(node_id) => {
                 let tcx = ccx.tcx();
                 let item = tcx.hir.expect_item(node_id);
                 if let hir::ItemStatic(_, m, _) = item.node {
                     match consts::trans_static(&ccx, m, item.id, &item.attrs) {
                         Ok(_) => { /* Cool, everything's alright. */ },
                         Err(err) => {
                             err.report(tcx, item.span, "static");
                         }
                     };
                 } else {
                     span_bug!(item.span, "Mismatch between hir::Item type and TransItem type")
                 }
             }
             MonoItem::GlobalAsm(node_id) => {
                 let item = ccx.tcx().hir.expect_item(node_id);
                 if let hir::ItemGlobalAsm(ref ga) = item.node {
                     asm::trans_global_asm(ccx, ga);
                 } else {
                     span_bug!(item.span, "Mismatch between hir::Item type and TransItem type")
                 }
             }
             MonoItem::Fn(instance) => {
                 base::trans_instance(&ccx, instance);
             }
         }

         debug!("END IMPLEMENTING '{} ({})' in cgu {}",
                self.to_string(ccx.tcx()),
                self.to_raw_string(),
                ccx.codegen_unit().name());
     }

     fn predefine(&self,
                  ccx: &CrateContext<'a, 'tcx>,
                  linkage: Linkage,
                  visibility: Visibility) {
         debug!("BEGIN PREDEFINING '{} ({})' in cgu {}",
                self.to_string(ccx.tcx()),
                self.to_raw_string(),
                ccx.codegen_unit().name());

         let symbol_name = self.symbol_name(ccx.tcx());

         debug!("symbol {}", &symbol_name);

         match *self.as_mono_item() {
             MonoItem::Static(node_id) => {
                 predefine_static(ccx, node_id, linkage, visibility, &symbol_name);
             }
             MonoItem::Fn(instance) => {
                 predefine_fn(ccx, instance, linkage, visibility, &symbol_name);
             }
             MonoItem::GlobalAsm(..) => {}
         }

         debug!("END PREDEFINING '{} ({})' in cgu {}",
                self.to_string(ccx.tcx()),
                self.to_raw_string(),
                ccx.codegen_unit().name());
     }

     fn local_span(&self, tcx: TyCtxt<'a, 'tcx, 'tcx>) -> Option<Span> {
         match *self.as_mono_item() {
             MonoItem::Fn(Instance { def, .. }) => {
                 tcx.hir.as_local_node_id(def.def_id())
             }
             MonoItem::Static(node_id) |
             MonoItem::GlobalAsm(node_id) => {
                 Some(node_id)
             }
         }.map(|node_id| tcx.hir.span(node_id))
     }

     fn to_raw_string(&self) -> String {
         match *self.as_mono_item() {
             MonoItem::Fn(instance) => {
                 format!("Fn({:?}, {})",
                          instance.def,
                          instance.substs.as_ptr() as usize)
             }
             MonoItem::Static(id) => {
                 format!("Static({:?})", id)
             }
             MonoItem::GlobalAsm(id) => {
                 format!("GlobalAsm({:?})", id)
             }
         }
     }
 }

 impl<'a, 'tcx> MonoItemExt<'a, 'tcx> for MonoItem<'tcx> {}

 fn predefine_static<'a, 'tcx>(ccx: &CrateContext<'a, 'tcx>,
                               node_id: ast::NodeId,
                               linkage: Linkage,
                               visibility: Visibility,
                               symbol_name: &str) {
     let def_id = ccx.tcx().hir.local_def_id(node_id);
     let instance = Instance::mono(ccx.tcx(), def_id);
     let ty = instance.ty(ccx.tcx());
     let llty = ccx.layout_of(ty).llvm_type(ccx);

     let g = declare::define_global(ccx, symbol_name, llty).unwrap_or_else(|| {
         ccx.sess().span_fatal(ccx.tcx().hir.span(node_id),
             &format!("symbol `{}` is already defined", symbol_name))
     });

     unsafe {
         llvm::LLVMRustSetLinkage(g, base::linkage_to_llvm(linkage));
         llvm::LLVMRustSetVisibility(g, base::visibility_to_llvm(visibility));
     }

     ccx.instances().borrow_mut().insert(instance, g);
     ccx.statics().borrow_mut().insert(g, def_id);
 }

 fn predefine_fn<'a, 'tcx>(ccx: &CrateContext<'a, 'tcx>,
                           instance: Instance<'tcx>,
                           linkage: Linkage,
                           visibility: Visibility,
                           symbol_name: &str) {
     assert!(!instance.substs.needs_infer() &&
             !instance.substs.has_param_types());

     let mono_ty = instance.ty(ccx.tcx());
     let attrs = instance.def.attrs(ccx.tcx());
     let lldecl = declare::declare_fn(ccx, symbol_name, mono_ty);
     unsafe { llvm::LLVMRustSetLinkage(lldecl, base::linkage_to_llvm(linkage)) };
     base::set_link_section(ccx, lldecl, &attrs);
     if linkage == Linkage::LinkOnceODR ||
         linkage == Linkage::WeakODR {
         llvm::SetUniqueComdat(ccx.llmod(), lldecl);
     }

     // If we're compiling the compiler-builtins crate, e.g. the equivalent of
     // compiler-rt, then we want to implicitly compile everything with hidden
     // visibility as we're going to link this object all over the place but
     // don't want the symbols to get exported.
     if linkage != Linkage::Internal && linkage != Linkage::Private &&
        attr::contains_name(ccx.tcx().hir.krate_attrs(), "compiler_builtins") {
         unsafe {
             llvm::LLVMRustSetVisibility(lldecl, llvm::Visibility::Hidden);
         }
     } else {
         unsafe {
             llvm::LLVMRustSetVisibility(lldecl, base::visibility_to_llvm(visibility));
         }
     }

     debug!("predefine_fn: mono_ty = {:?} instance = {:?}", mono_ty, instance);
     if instance.def.is_inline(ccx.tcx()) {
         attributes::inline(lldecl, attributes::InlineAttr::Hint);
     }
     attributes::from_fn_attrs(ccx, lldecl, instance.def.def_id());

     ccx.instances().borrow_mut().insert(instance, lldecl);
 }
	// Copyright 2016 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.

	//! Walks the crate looking for items/impl-items/trait-items that have
	//! either a `rustc_symbol_name` or `rustc_item_path` attribute and
	//! generates an error giving, respectively, the symbol name or
	//! item-path. This is used for unit testing the code that generates
	//! paths etc in all kinds of annoying scenarios.

	use asm;
	use attributes;
	use base;
	use consts;
	use context::CrateContext;
	use declare;
	use llvm;
	use monomorphize::Instance;
	use type_of::LayoutLlvmExt;
	use rustc::hir;
	use rustc::mir::mono::{Linkage, Visibility};
	use rustc::ty::{TyCtxt, TypeFoldable};
	use rustc::ty::layout::LayoutOf;
	use syntax::ast;
	use syntax::attr;
	use syntax_pos::Span;
	use std::fmt;

	pub use rustc::mir::mono::MonoItem;

	pub use rustc_mir::monomorphize::item::*;
	pub use rustc_mir::monomorphize::item::MonoItemExt as BaseMonoItemExt;

	pub trait MonoItemExt<'a, 'tcx>: fmt::Debug + BaseMonoItemExt<'a, 'tcx> {
	fn define(&self, ccx: &CrateContext<'a, 'tcx>) {
	debug!("BEGIN IMPLEMENTING '{} ({})' in cgu {}",
	self.to_string(ccx.tcx()),
	self.to_raw_string(),
	ccx.codegen_unit().name());

	match *self.as_mono_item() {
	MonoItem::Static(node_id) => {
	let tcx = ccx.tcx();
	let item = tcx.hir.expect_item(node_id);
	if let hir::ItemStatic(_, m, _) = item.node {
	match consts::trans_static(&ccx, m, item.id, &item.attrs) {
	Ok(_) => { /* Cool, everything's alright. */ },
	Err(err) => {
	err.report(tcx, item.span, "static");
	}
	};
	} else {
	span_bug!(item.span, "Mismatch between hir::Item type and TransItem type")
	}
	}
	MonoItem::GlobalAsm(node_id) => {
	let item = ccx.tcx().hir.expect_item(node_id);
	if let hir::ItemGlobalAsm(ref ga) = item.node {
	asm::trans_global_asm(ccx, ga);
	} else {
	span_bug!(item.span, "Mismatch between hir::Item type and TransItem type")
	}
	}
	MonoItem::Fn(instance) => {
	base::trans_instance(&ccx, instance);
	}
	}

	debug!("END IMPLEMENTING '{} ({})' in cgu {}",
	self.to_string(ccx.tcx()),
	self.to_raw_string(),
	ccx.codegen_unit().name());
	}

	fn predefine(&self,
	ccx: &CrateContext<'a, 'tcx>,
	linkage: Linkage,
	visibility: Visibility) {
	debug!("BEGIN PREDEFINING '{} ({})' in cgu {}",
	self.to_string(ccx.tcx()),
	self.to_raw_string(),
	ccx.codegen_unit().name());

	let symbol_name = self.symbol_name(ccx.tcx());

	debug!("symbol {}", &symbol_name);

	match *self.as_mono_item() {
	MonoItem::Static(node_id) => {
	predefine_static(ccx, node_id, linkage, visibility, &symbol_name);
	}
	MonoItem::Fn(instance) => {
	predefine_fn(ccx, instance, linkage, visibility, &symbol_name);
	}
	MonoItem::GlobalAsm(..) => {}
	}

	debug!("END PREDEFINING '{} ({})' in cgu {}",
	self.to_string(ccx.tcx()),
	self.to_raw_string(),
	ccx.codegen_unit().name());
	}

	fn local_span(&self, tcx: TyCtxt<'a, 'tcx, 'tcx>) -> Option<Span> {
	match *self.as_mono_item() {
	MonoItem::Fn(Instance { def, .. }) => {
	tcx.hir.as_local_node_id(def.def_id())
	}
	MonoItem::Static(node_id) \|
	MonoItem::GlobalAsm(node_id) => {
	Some(node_id)
	}
	}.map(\|node_id\| tcx.hir.span(node_id))
	}

	fn to_raw_string(&self) -> String {
	match *self.as_mono_item() {
	MonoItem::Fn(instance) => {
	format!("Fn({:?}, {})",
	instance.def,
	instance.substs.as_ptr() as usize)
	}
	MonoItem::Static(id) => {
	format!("Static({:?})", id)
	}
	MonoItem::GlobalAsm(id) => {
	format!("GlobalAsm({:?})", id)
	}
	}
	}
	}

	impl<'a, 'tcx> MonoItemExt<'a, 'tcx> for MonoItem<'tcx> {}

	fn predefine_static<'a, 'tcx>(ccx: &CrateContext<'a, 'tcx>,
	node_id: ast::NodeId,
	linkage: Linkage,
	visibility: Visibility,
	symbol_name: &str) {
	let def_id = ccx.tcx().hir.local_def_id(node_id);
	let instance = Instance::mono(ccx.tcx(), def_id);
	let ty = instance.ty(ccx.tcx());
	let llty = ccx.layout_of(ty).llvm_type(ccx);

	let g = declare::define_global(ccx, symbol_name, llty).unwrap_or_else(\|\| {
	ccx.sess().span_fatal(ccx.tcx().hir.span(node_id),
	&format!("symbol `{}` is already defined", symbol_name))
	});

	unsafe {
	llvm::LLVMRustSetLinkage(g, base::linkage_to_llvm(linkage));
	llvm::LLVMRustSetVisibility(g, base::visibility_to_llvm(visibility));
	}

	ccx.instances().borrow_mut().insert(instance, g);
	ccx.statics().borrow_mut().insert(g, def_id);
	}

	fn predefine_fn<'a, 'tcx>(ccx: &CrateContext<'a, 'tcx>,
	instance: Instance<'tcx>,
	linkage: Linkage,
	visibility: Visibility,
	symbol_name: &str) {
	assert!(!instance.substs.needs_infer() &&
	!instance.substs.has_param_types());

	let mono_ty = instance.ty(ccx.tcx());
	let attrs = instance.def.attrs(ccx.tcx());
	let lldecl = declare::declare_fn(ccx, symbol_name, mono_ty);
	unsafe { llvm::LLVMRustSetLinkage(lldecl, base::linkage_to_llvm(linkage)) };
	base::set_link_section(ccx, lldecl, &attrs);
	if linkage == Linkage::LinkOnceODR \|\|
	linkage == Linkage::WeakODR {
	llvm::SetUniqueComdat(ccx.llmod(), lldecl);
	}

	// If we're compiling the compiler-builtins crate, e.g. the equivalent of
	// compiler-rt, then we want to implicitly compile everything with hidden
	// visibility as we're going to link this object all over the place but
	// don't want the symbols to get exported.
	if linkage != Linkage::Internal && linkage != Linkage::Private &&
	attr::contains_name(ccx.tcx().hir.krate_attrs(), "compiler_builtins") {
	unsafe {
	llvm::LLVMRustSetVisibility(lldecl, llvm::Visibility::Hidden);
	}
	} else {
	unsafe {
	llvm::LLVMRustSetVisibility(lldecl, base::visibility_to_llvm(visibility));
	}
	}

	debug!("predefine_fn: mono_ty = {:?} instance = {:?}", mono_ty, instance);
	if instance.def.is_inline(ccx.tcx()) {
	attributes::inline(lldecl, attributes::InlineAttr::Hint);
	}
	attributes::from_fn_attrs(ccx, lldecl, instance.def.def_id());

	ccx.instances().borrow_mut().insert(instance, lldecl);
	}