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| author | Paul Daniel Faria <Nashenas88@users.noreply.github.com> | 2019-11-06 12:34:16 -0500 |
|---|---|---|
| committer | Paul Daniel Faria <Nashenas88@users.noreply.github.com> | 2019-12-02 08:40:56 -0500 |
| commit | ed90818ac8b826249f786aae701bf1602a830a8f (patch) | |
| tree | c8922e71c80dd1cec5b264f9334f49fd62c4110a /src/librustc_codegen_ssa/mir | |
| parent | 51b06656da0106c254466429fa1f9d58bc74ea72 (diff) | |
| download | rust-ed90818ac8b826249f786aae701bf1602a830a8f.tar.gz rust-ed90818ac8b826249f786aae701bf1602a830a8f.zip | |
Remove files created during conflict resolution
Diffstat (limited to 'src/librustc_codegen_ssa/mir')
| -rw-r--r-- | src/librustc_codegen_ssa/mir/block.rs.orig | 1257 | ||||
| -rw-r--r-- | src/librustc_codegen_ssa/mir/mod.rs.orig | 439 |
2 files changed, 0 insertions, 1696 deletions
diff --git a/src/librustc_codegen_ssa/mir/block.rs.orig b/src/librustc_codegen_ssa/mir/block.rs.orig deleted file mode 100644 index d715a4e0e09..00000000000 --- a/src/librustc_codegen_ssa/mir/block.rs.orig +++ /dev/null @@ -1,1257 +0,0 @@ -use rustc_index::vec::Idx; -use rustc::middle::lang_items; -use rustc::ty::{self, Ty, TypeFoldable, Instance}; -use rustc::ty::layout::{self, LayoutOf, HasTyCtxt, FnAbiExt}; -use rustc::mir::{self, PlaceBase, Static, StaticKind}; -use rustc::mir::interpret::PanicInfo; -use rustc_target::abi::call::{ArgAbi, FnAbi, PassMode}; -use rustc_target::spec::abi::Abi; -use crate::base; -use crate::MemFlags; -use crate::common::{self, IntPredicate}; -use crate::meth; - -use crate::traits::*; - -use std::borrow::Cow; - -use syntax::{source_map::Span, symbol::Symbol}; - -use super::{FunctionCx, LocalRef}; -use super::place::PlaceRef; -use super::operand::OperandRef; -use super::operand::OperandValue::{Pair, Ref, Immediate}; - -/// Used by `FunctionCx::codegen_terminator` for emitting common patterns -/// e.g., creating a basic block, calling a function, etc. -struct TerminatorCodegenHelper<'a, 'tcx> { - bb: &'a mir::BasicBlock, - terminator: &'a mir::Terminator<'tcx>, - funclet_bb: Option<mir::BasicBlock>, -} - -impl<'a, 'tcx> TerminatorCodegenHelper<'a, 'tcx> { - /// Returns the associated funclet from `FunctionCx::funclets` for the - /// `funclet_bb` member if it is not `None`. - fn funclet<'c, 'b, Bx: BuilderMethods<'b, 'tcx>>( - &self, - fx: &'c mut FunctionCx<'b, 'tcx, Bx>, - ) -> Option<&'c Bx::Funclet> { - match self.funclet_bb { - Some(funcl) => fx.funclets[funcl].as_ref(), - None => None, - } - } - - fn lltarget<'b, 'c, Bx: BuilderMethods<'b, 'tcx>>( - &self, - fx: &'c mut FunctionCx<'b, 'tcx, Bx>, - target: mir::BasicBlock, - ) -> (Bx::BasicBlock, bool) { - let span = self.terminator.source_info.span; - let lltarget = fx.blocks[target]; - let target_funclet = fx.cleanup_kinds[target].funclet_bb(target); - match (self.funclet_bb, target_funclet) { - (None, None) => (lltarget, false), - (Some(f), Some(t_f)) if f == t_f || !base::wants_msvc_seh(fx.cx.tcx().sess) => - (lltarget, false), - // jump *into* cleanup - need a landing pad if GNU - (None, Some(_)) => (fx.landing_pad_to(target), false), - (Some(_), None) => span_bug!(span, "{:?} - jump out of cleanup?", self.terminator), - (Some(_), Some(_)) => (fx.landing_pad_to(target), true), - } - } - - /// Create a basic block. - fn llblock<'c, 'b, Bx: BuilderMethods<'b, 'tcx>>( - &self, - fx: &'c mut FunctionCx<'b, 'tcx, Bx>, - target: mir::BasicBlock, - ) -> Bx::BasicBlock { - let (lltarget, is_cleanupret) = self.lltarget(fx, target); - if is_cleanupret { - // MSVC cross-funclet jump - need a trampoline - - debug!("llblock: creating cleanup trampoline for {:?}", target); - let name = &format!("{:?}_cleanup_trampoline_{:?}", self.bb, target); - let mut trampoline = fx.new_block(name); - trampoline.cleanup_ret(self.funclet(fx).unwrap(), - Some(lltarget)); - trampoline.llbb() - } else { - lltarget - } - } - - fn funclet_br<'c, 'b, Bx: BuilderMethods<'b, 'tcx>>( - &self, - fx: &'c mut FunctionCx<'b, 'tcx, Bx>, - bx: &mut Bx, - target: mir::BasicBlock, - ) { - let (lltarget, is_cleanupret) = self.lltarget(fx, target); - if is_cleanupret { - // micro-optimization: generate a `ret` rather than a jump - // to a trampoline. - bx.cleanup_ret(self.funclet(fx).unwrap(), Some(lltarget)); - } else { - bx.br(lltarget); - } - } - - /// Call `fn_ptr` of `fn_abi` with the arguments `llargs`, the optional - /// return destination `destination` and the cleanup function `cleanup`. - fn do_call<'c, 'b, Bx: BuilderMethods<'b, 'tcx>>( - &self, - fx: &'c mut FunctionCx<'b, 'tcx, Bx>, - bx: &mut Bx, - fn_abi: FnAbi<'tcx, Ty<'tcx>>, - fn_ptr: Bx::Value, - llargs: &[Bx::Value], - destination: Option<(ReturnDest<'tcx, Bx::Value>, mir::BasicBlock)>, - cleanup: Option<mir::BasicBlock>, - ) { - if let Some(cleanup) = cleanup { - let ret_bx = if let Some((_, target)) = destination { - fx.blocks[target] - } else { - fx.unreachable_block() - }; - let invokeret = bx.invoke(fn_ptr, - &llargs, - ret_bx, - self.llblock(fx, cleanup), - self.funclet(fx)); - bx.apply_attrs_callsite(&fn_abi, invokeret); - - if let Some((ret_dest, target)) = destination { - let mut ret_bx = fx.build_block(target); - fx.set_debug_loc(&mut ret_bx, self.terminator.source_info); - fx.store_return(&mut ret_bx, ret_dest, &fn_abi.ret, invokeret); - } - } else { - let llret = bx.call(fn_ptr, &llargs, self.funclet(fx)); - bx.apply_attrs_callsite(&fn_abi, llret); - if fx.mir[*self.bb].is_cleanup { - // Cleanup is always the cold path. Don't inline - // drop glue. Also, when there is a deeply-nested - // struct, there are "symmetry" issues that cause - // exponential inlining - see issue #41696. - bx.do_not_inline(llret); - } - - if let Some((ret_dest, target)) = destination { - fx.store_return(bx, ret_dest, &fn_abi.ret, llret); - self.funclet_br(fx, bx, target); - } else { - bx.unreachable(); - } - } - } - - // Generate sideeffect intrinsic if jumping to any of the targets can form - // a loop. - fn maybe_sideeffect<'b, 'tcx2: 'b, Bx: BuilderMethods<'b, 'tcx2>>( - &self, - mir: mir::ReadOnlyBodyCache<'b, 'tcx>, - bx: &mut Bx, - targets: &[mir::BasicBlock], - ) { - if bx.tcx().sess.opts.debugging_opts.insert_sideeffect { - if targets.iter().any(|target| { - *target <= *self.bb - && target - .start_location() - .is_predecessor_of(self.bb.start_location(), mir) - }) { - bx.sideeffect(); - } - } - } -} - -/// Codegen implementations for some terminator variants. -impl<'a, 'tcx, Bx: BuilderMethods<'a, 'tcx>> FunctionCx<'a, 'tcx, Bx> { - /// Generates code for a `Resume` terminator. - fn codegen_resume_terminator<'b>( - &mut self, - helper: TerminatorCodegenHelper<'b, 'tcx>, - mut bx: Bx, - ) { - if let Some(funclet) = helper.funclet(self) { - bx.cleanup_ret(funclet, None); - } else { - let slot = self.get_personality_slot(&mut bx); - let lp0 = slot.project_field(&mut bx, 0); - let lp0 = bx.load_operand(lp0).immediate(); - let lp1 = slot.project_field(&mut bx, 1); - let lp1 = bx.load_operand(lp1).immediate(); - slot.storage_dead(&mut bx); - - if !bx.sess().target.target.options.custom_unwind_resume { - let mut lp = bx.const_undef(self.landing_pad_type()); - lp = bx.insert_value(lp, lp0, 0); - lp = bx.insert_value(lp, lp1, 1); - bx.resume(lp); - } else { - bx.call(bx.eh_unwind_resume(), &[lp0], - helper.funclet(self)); - bx.unreachable(); - } - } - } - - fn codegen_switchint_terminator<'b>( - &mut self, - helper: TerminatorCodegenHelper<'b, 'tcx>, - mut bx: Bx, - discr: &mir::Operand<'tcx>, - switch_ty: Ty<'tcx>, - values: &Cow<'tcx, [u128]>, - targets: &Vec<mir::BasicBlock>, - ) { - let discr = self.codegen_operand(&mut bx, &discr); - if targets.len() == 2 { - // If there are two targets, emit br instead of switch - let lltrue = helper.llblock(self, targets[0]); - let llfalse = helper.llblock(self, targets[1]); - if switch_ty == bx.tcx().types.bool { - helper.maybe_sideeffect(self.mir, &mut bx, targets.as_slice()); - // Don't generate trivial icmps when switching on bool - if let [0] = values[..] { - bx.cond_br(discr.immediate(), llfalse, lltrue); - } else { - assert_eq!(&values[..], &[1]); - bx.cond_br(discr.immediate(), lltrue, llfalse); - } - } else { - let switch_llty = bx.immediate_backend_type( - bx.layout_of(switch_ty) - ); - let llval = bx.const_uint_big(switch_llty, values[0]); - let cmp = bx.icmp(IntPredicate::IntEQ, discr.immediate(), llval); - helper.maybe_sideeffect(self.mir, &mut bx, targets.as_slice()); - bx.cond_br(cmp, lltrue, llfalse); - } - } else { - helper.maybe_sideeffect(self.mir, &mut bx, targets.as_slice()); - let (otherwise, targets) = targets.split_last().unwrap(); - bx.switch( - discr.immediate(), - helper.llblock(self, *otherwise), - values.iter().zip(targets).map(|(&value, target)| { - (value, helper.llblock(self, *target)) - }) - ); - } - } - - fn codegen_return_terminator(&mut self, mut bx: Bx) { - // Call `va_end` if this is the definition of a C-variadic function. - if self.fn_abi.c_variadic { - // The `VaList` "spoofed" argument is just after all the real arguments. - let va_list_arg_idx = self.fn_abi.args.len(); - match self.locals[mir::Local::new(1 + va_list_arg_idx)] { - LocalRef::Place(va_list) => { - bx.va_end(va_list.llval); - } - _ => bug!("C-variadic function must have a `VaList` place"), - } - } - if self.fn_abi.ret.layout.abi.is_uninhabited() { - // Functions with uninhabited return values are marked `noreturn`, - // so we should make sure that we never actually do. - bx.abort(); - bx.unreachable(); - return; - } - let llval = match self.fn_abi.ret.mode { - PassMode::Ignore | PassMode::Indirect(..) => { - bx.ret_void(); - return; - } - - PassMode::Direct(_) | PassMode::Pair(..) => { - let op = - self.codegen_consume(&mut bx, &mir::Place::return_place().as_ref()); - if let Ref(llval, _, align) = op.val { - bx.load(llval, align) - } else { - op.immediate_or_packed_pair(&mut bx) - } - } - - PassMode::Cast(cast_ty) => { - let op = match self.locals[mir::RETURN_PLACE] { - LocalRef::Operand(Some(op)) => op, - LocalRef::Operand(None) => bug!("use of return before def"), - LocalRef::Place(cg_place) => { - OperandRef { - val: Ref(cg_place.llval, None, cg_place.align), - layout: cg_place.layout - } - } - LocalRef::UnsizedPlace(_) => bug!("return type must be sized"), - }; - let llslot = match op.val { - Immediate(_) | Pair(..) => { - let scratch = - PlaceRef::alloca(&mut bx, self.fn_abi.ret.layout); - op.val.store(&mut bx, scratch); - scratch.llval - } - Ref(llval, _, align) => { - assert_eq!(align, op.layout.align.abi, - "return place is unaligned!"); - llval - } - }; - let addr = bx.pointercast(llslot, bx.type_ptr_to( - bx.cast_backend_type(&cast_ty) - )); - bx.load(addr, self.fn_abi.ret.layout.align.abi) - } - }; - bx.ret(llval); - } - - - fn codegen_drop_terminator<'b>( - &mut self, - helper: TerminatorCodegenHelper<'b, 'tcx>, - mut bx: Bx, - location: &mir::Place<'tcx>, - target: mir::BasicBlock, - unwind: Option<mir::BasicBlock>, - ) { - let ty = location.ty(self.mir.body(), bx.tcx()).ty; - let ty = self.monomorphize(&ty); - let drop_fn = Instance::resolve_drop_in_place(bx.tcx(), ty); - - if let ty::InstanceDef::DropGlue(_, None) = drop_fn.def { - // we don't actually need to drop anything. - helper.maybe_sideeffect(self.mir, &mut bx, &[target]); - helper.funclet_br(self, &mut bx, target); - return - } - - let place = self.codegen_place(&mut bx, &location.as_ref()); - let (args1, args2); - let mut args = if let Some(llextra) = place.llextra { - args2 = [place.llval, llextra]; - &args2[..] - } else { - args1 = [place.llval]; - &args1[..] - }; - let (drop_fn, fn_abi) = match ty.kind { - ty::Dynamic(..) => { - let sig = drop_fn.fn_sig(self.cx.tcx()); - let sig = self.cx.tcx().normalize_erasing_late_bound_regions( - ty::ParamEnv::reveal_all(), - &sig, - ); - let fn_abi = FnAbi::new_vtable(&bx, sig, &[]); - let vtable = args[1]; - args = &args[..1]; - (meth::DESTRUCTOR.get_fn(&mut bx, vtable, &fn_abi), fn_abi) - } - _ => { - (bx.get_fn_addr(drop_fn), - FnAbi::of_instance(&bx, drop_fn)) - } - }; - helper.maybe_sideeffect(self.mir, &mut bx, &[target]); - helper.do_call(self, &mut bx, fn_ty, drop_fn, args, - Some((ReturnDest::Nothing, target)), - unwind); - } - - fn codegen_assert_terminator<'b>( - &mut self, - helper: TerminatorCodegenHelper<'b, 'tcx>, - mut bx: Bx, - terminator: &mir::Terminator<'tcx>, - cond: &mir::Operand<'tcx>, - expected: bool, - msg: &mir::AssertMessage<'tcx>, - target: mir::BasicBlock, - cleanup: Option<mir::BasicBlock>, - ) { - let span = terminator.source_info.span; - let cond = self.codegen_operand(&mut bx, cond).immediate(); - let mut const_cond = bx.const_to_opt_u128(cond, false).map(|c| c == 1); - - // This case can currently arise only from functions marked - // with #[rustc_inherit_overflow_checks] and inlined from - // another crate (mostly core::num generic/#[inline] fns), - // while the current crate doesn't use overflow checks. - // NOTE: Unlike binops, negation doesn't have its own - // checked operation, just a comparison with the minimum - // value, so we have to check for the assert message. - if !bx.check_overflow() { - if let PanicInfo::OverflowNeg = *msg { - const_cond = Some(expected); - } - } - - // Don't codegen the panic block if success if known. - if const_cond == Some(expected) { - helper.maybe_sideeffect(self.mir, &mut bx, &[target]); - helper.funclet_br(self, &mut bx, target); - return; - } - - // Pass the condition through llvm.expect for branch hinting. - let cond = bx.expect(cond, expected); - - // Create the failure block and the conditional branch to it. - let lltarget = helper.llblock(self, target); - let panic_block = self.new_block("panic"); - helper.maybe_sideeffect(self.mir, &mut bx, &[target]); - if expected { - bx.cond_br(cond, lltarget, panic_block.llbb()); - } else { - bx.cond_br(cond, panic_block.llbb(), lltarget); - } - - // After this point, bx is the block for the call to panic. - bx = panic_block; - self.set_debug_loc(&mut bx, terminator.source_info); - - // Get the location information. - let location = self.get_caller_location(&mut bx, span).immediate(); - - // Put together the arguments to the panic entry point. - let (lang_item, args) = match msg { - PanicInfo::BoundsCheck { ref len, ref index } => { - let len = self.codegen_operand(&mut bx, len).immediate(); - let index = self.codegen_operand(&mut bx, index).immediate(); - (lang_items::PanicBoundsCheckFnLangItem, vec![location, index, len]) - } - _ => { - let msg_str = Symbol::intern(msg.description()); - let msg = bx.const_str(msg_str); - (lang_items::PanicFnLangItem, vec![msg.0, msg.1, location]) - } - }; - - // Obtain the panic entry point. - let def_id = common::langcall(bx.tcx(), Some(span), "", lang_item); - let instance = ty::Instance::mono(bx.tcx(), def_id); - let fn_abi = FnAbi::of_instance(&bx, instance); - let llfn = bx.get_fn_addr(instance); - - // Codegen the actual panic invoke/call. - helper.do_call(self, &mut bx, fn_abi, llfn, &args, None, cleanup); - } - - fn codegen_call_terminator<'b>( - &mut self, - helper: TerminatorCodegenHelper<'b, 'tcx>, - mut bx: Bx, - terminator: &mir::Terminator<'tcx>, - func: &mir::Operand<'tcx>, - args: &Vec<mir::Operand<'tcx>>, - destination: &Option<(mir::Place<'tcx>, mir::BasicBlock)>, - cleanup: Option<mir::BasicBlock>, - ) { - let span = terminator.source_info.span; - // Create the callee. This is a fn ptr or zero-sized and hence a kind of scalar. - let callee = self.codegen_operand(&mut bx, func); - - let (instance, mut llfn) = match callee.layout.ty.kind { - ty::FnDef(def_id, substs) => { - (Some(ty::Instance::resolve(bx.tcx(), - ty::ParamEnv::reveal_all(), - def_id, - substs).unwrap()), - None) - } - ty::FnPtr(_) => { - (None, Some(callee.immediate())) - } - _ => bug!("{} is not callable", callee.layout.ty), - }; - let def = instance.map(|i| i.def); - let sig = callee.layout.ty.fn_sig(bx.tcx()); - let sig = bx.tcx().normalize_erasing_late_bound_regions( - ty::ParamEnv::reveal_all(), - &sig, - ); - let abi = sig.abi; - - // Handle intrinsics old codegen wants Expr's for, ourselves. - let intrinsic = match def { - Some(ty::InstanceDef::Intrinsic(def_id)) => - Some(bx.tcx().item_name(def_id).as_str()), - _ => None - }; - let intrinsic = intrinsic.as_ref().map(|s| &s[..]); - - if intrinsic == Some("transmute") { - if let Some(destination_ref) = destination.as_ref() { - let &(ref dest, target) = destination_ref; - self.codegen_transmute(&mut bx, &args[0], dest); - helper.maybe_sideeffect(self.mir, &mut bx, &[target]); - helper.funclet_br(self, &mut bx, target); - } else { - // If we are trying to transmute to an uninhabited type, - // it is likely there is no allotted destination. In fact, - // transmuting to an uninhabited type is UB, which means - // we can do what we like. Here, we declare that transmuting - // into an uninhabited type is impossible, so anything following - // it must be unreachable. - assert_eq!(bx.layout_of(sig.output()).abi, layout::Abi::Uninhabited); - bx.unreachable(); - } - return; - } - - let extra_args = &args[sig.inputs().len()..]; - let extra_args = extra_args.iter().map(|op_arg| { - let op_ty = op_arg.ty(self.mir.body(), bx.tcx()); - self.monomorphize(&op_ty) - }).collect::<Vec<_>>(); - - let fn_abi = match def { - Some(ty::InstanceDef::Virtual(..)) => { - FnAbi::new_vtable(&bx, sig, &extra_args) - } - Some(ty::InstanceDef::DropGlue(_, None)) => { - // Empty drop glue; a no-op. - let &(_, target) = destination.as_ref().unwrap(); - helper.maybe_sideeffect(self.mir, &mut bx, &[target]); - helper.funclet_br(self, &mut bx, target); - return; - } - _ => FnAbi::new(&bx, sig, &extra_args) - }; - - // Emit a panic or a no-op for `panic_if_uninhabited`. - if intrinsic == Some("panic_if_uninhabited") { - let ty = instance.unwrap().substs.type_at(0); - let layout = bx.layout_of(ty); - if layout.abi.is_uninhabited() { - let msg_str = format!("Attempted to instantiate uninhabited type {}", ty); - let msg = bx.const_str(Symbol::intern(&msg_str)); - let location = self.get_caller_location(&mut bx, span).immediate(); - - // Obtain the panic entry point. - let def_id = - common::langcall(bx.tcx(), Some(span), "", lang_items::PanicFnLangItem); - let instance = ty::Instance::mono(bx.tcx(), def_id); - let fn_abi = FnAbi::of_instance(&bx, instance); - let llfn = bx.get_fn_addr(instance); - - if let Some((_, target)) = destination.as_ref() { - helper.maybe_sideeffect(self.mir, &mut bx, &[*target]); - } - // Codegen the actual panic invoke/call. - helper.do_call( - self, - &mut bx, - fn_abi, - llfn, - &[msg.0, msg.1, location], - destination.as_ref().map(|(_, bb)| (ReturnDest::Nothing, *bb)), - cleanup, - ); - } else { - // a NOP - let target = destination.as_ref().unwrap().1; - helper.maybe_sideeffect(self.mir, &mut bx, &[target]); - helper.funclet_br(self, &mut bx, destination.as_ref().unwrap().1) - } - return; - } - - // The arguments we'll be passing. Plus one to account for outptr, if used. - let arg_count = fn_abi.args.len() + fn_abi.ret.is_indirect() as usize; - let mut llargs = Vec::with_capacity(arg_count); - - // Prepare the return value destination - let ret_dest = if let Some((ref dest, _)) = *destination { - let is_intrinsic = intrinsic.is_some(); -<<<<<<< HEAD - self.make_return_dest(&mut bx, dest, &fn_abi.ret, &mut llargs, is_intrinsic) -======= - self.make_return_dest(&mut bx, dest, &fn_ty.ret, &mut llargs, - is_intrinsic) ->>>>>>> Undo minor changes that weren't needed, fix one lifetime typo - } else { - ReturnDest::Nothing - }; - - if intrinsic == Some("caller_location") { - if let Some((_, target)) = destination.as_ref() { - let location = self.get_caller_location(&mut bx, span); - - if let ReturnDest::IndirectOperand(tmp, _) = ret_dest { - location.val.store(&mut bx, tmp); - } - self.store_return(&mut bx, ret_dest, &fn_abi.ret, location.immediate()); - - helper.maybe_sideeffect(self.mir, &mut bx, &[*target]); - helper.funclet_br(self, &mut bx, *target); - } - return; - } - - if intrinsic.is_some() && intrinsic != Some("drop_in_place") { - let dest = match ret_dest { - _ if fn_abi.ret.is_indirect() => llargs[0], - ReturnDest::Nothing => - bx.const_undef(bx.type_ptr_to(bx.arg_memory_ty(&fn_abi.ret))), - ReturnDest::IndirectOperand(dst, _) | ReturnDest::Store(dst) => - dst.llval, - ReturnDest::DirectOperand(_) => - bug!("Cannot use direct operand with an intrinsic call"), - }; - - let args: Vec<_> = args.iter().enumerate().map(|(i, arg)| { - // The indices passed to simd_shuffle* in the - // third argument must be constant. This is - // checked by const-qualification, which also - // promotes any complex rvalues to constants. - if i == 2 && intrinsic.unwrap().starts_with("simd_shuffle") { - match arg { - // The shuffle array argument is usually not an explicit constant, - // but specified directly in the code. This means it gets promoted - // and we can then extract the value by evaluating the promoted. - mir::Operand::Copy(place) | mir::Operand::Move(place) => { - if let mir::PlaceRef { - base: - &PlaceBase::Static(box Static { - kind: StaticKind::Promoted(promoted, _), - ty, - def_id: _, - }), - projection: &[], - } = place.as_ref() - { - let param_env = ty::ParamEnv::reveal_all(); - let cid = mir::interpret::GlobalId { - instance: self.instance, - promoted: Some(promoted), - }; - let c = bx.tcx().const_eval(param_env.and(cid)); - let (llval, ty) = self.simd_shuffle_indices( - &bx, - terminator.source_info.span, - ty, - c, - ); - return OperandRef { - val: Immediate(llval), - layout: bx.layout_of(ty), - }; - } else { - span_bug!(span, "shuffle indices must be constant"); - } - } - - mir::Operand::Constant(constant) => { - let c = self.eval_mir_constant(constant); - let (llval, ty) = self.simd_shuffle_indices( - &bx, - constant.span, - constant.literal.ty, - c, - ); - return OperandRef { - val: Immediate(llval), - layout: bx.layout_of(ty) - }; - } - } - } - - self.codegen_operand(&mut bx, arg) - }).collect(); - - - bx.codegen_intrinsic_call(*instance.as_ref().unwrap(), &fn_abi, &args, dest, - terminator.source_info.span); - - if let ReturnDest::IndirectOperand(dst, _) = ret_dest { - self.store_return(&mut bx, ret_dest, &fn_abi.ret, dst.llval); - } - - if let Some((_, target)) = *destination { - helper.maybe_sideeffect(self.mir, &mut bx, &[target]); - helper.funclet_br(self, &mut bx, target); - } else { - bx.unreachable(); - } - - return; - } - - // Split the rust-call tupled arguments off. - let (first_args, untuple) = if abi == Abi::RustCall && !args.is_empty() { - let (tup, args) = args.split_last().unwrap(); - (args, Some(tup)) - } else { - (&args[..], None) - }; - - 'make_args: for (i, arg) in first_args.iter().enumerate() { - let mut op = self.codegen_operand(&mut bx, arg); - - if let (0, Some(ty::InstanceDef::Virtual(_, idx))) = (i, def) { - if let Pair(..) = op.val { - // In the case of Rc<Self>, we need to explicitly pass a - // *mut RcBox<Self> with a Scalar (not ScalarPair) ABI. This is a hack - // that is understood elsewhere in the compiler as a method on - // `dyn Trait`. - // To get a `*mut RcBox<Self>`, we just keep unwrapping newtypes until - // we get a value of a built-in pointer type - 'descend_newtypes: while !op.layout.ty.is_unsafe_ptr() - && !op.layout.ty.is_region_ptr() - { - 'iter_fields: for i in 0..op.layout.fields.count() { - let field = op.extract_field(&mut bx, i); - if !field.layout.is_zst() { - // we found the one non-zero-sized field that is allowed - // now find *its* non-zero-sized field, or stop if it's a - // pointer - op = field; - continue 'descend_newtypes - } - } - - span_bug!(span, "receiver has no non-zero-sized fields {:?}", op); - } - - // now that we have `*dyn Trait` or `&dyn Trait`, split it up into its - // data pointer and vtable. Look up the method in the vtable, and pass - // the data pointer as the first argument - match op.val { - Pair(data_ptr, meta) => { - llfn = Some(meth::VirtualIndex::from_index(idx) - .get_fn(&mut bx, meta, &fn_abi)); - llargs.push(data_ptr); - continue 'make_args - } - other => bug!("expected a Pair, got {:?}", other), - } - } else if let Ref(data_ptr, Some(meta), _) = op.val { - // by-value dynamic dispatch - llfn = Some(meth::VirtualIndex::from_index(idx) - .get_fn(&mut bx, meta, &fn_abi)); - llargs.push(data_ptr); - continue; - } else { - span_bug!(span, "can't codegen a virtual call on {:?}", op); - } - } - - // The callee needs to own the argument memory if we pass it - // by-ref, so make a local copy of non-immediate constants. - match (arg, op.val) { - (&mir::Operand::Copy(_), Ref(_, None, _)) | - (&mir::Operand::Constant(_), Ref(_, None, _)) => { - let tmp = PlaceRef::alloca(&mut bx, op.layout); - op.val.store(&mut bx, tmp); - op.val = Ref(tmp.llval, None, tmp.align); - } - _ => {} - } - - self.codegen_argument(&mut bx, op, &mut llargs, &fn_abi.args[i]); - } - if let Some(tup) = untuple { - self.codegen_arguments_untupled(&mut bx, tup, &mut llargs, - &fn_abi.args[first_args.len()..]) - } - - let fn_ptr = match (llfn, instance) { - (Some(llfn), _) => llfn, - (None, Some(instance)) => bx.get_fn_addr(instance), - _ => span_bug!(span, "no llfn for call"), - }; - - if let Some((_, target)) = destination.as_ref() { - helper.maybe_sideeffect(self.mir, &mut bx, &[*target]); - } - helper.do_call(self, &mut bx, fn_ty, fn_ptr, &llargs, - destination.as_ref().map(|&(_, target)| (ret_dest, target)), - cleanup); - } -} - -impl<'a, 'tcx, Bx: BuilderMethods<'a, 'tcx>> FunctionCx<'a, 'tcx, Bx> { - pub fn codegen_block( - &mut self, - bb: mir::BasicBlock, - ) { - let mut bx = self.build_block(bb); - let data = &self.mir.body()[bb]; - - debug!("codegen_block({:?}={:?})", bb, data); - - for statement in &data.statements { - bx = self.codegen_statement(bx, statement); - } - - self.codegen_terminator(bx, bb, data.terminator()); - } - - fn codegen_terminator( - &mut self, - mut bx: Bx, - bb: mir::BasicBlock, - terminator: &mir::Terminator<'tcx> - ) { - debug!("codegen_terminator: {:?}", terminator); - - // Create the cleanup bundle, if needed. - let funclet_bb = self.cleanup_kinds[bb].funclet_bb(bb); - let helper = TerminatorCodegenHelper { - bb: &bb, terminator, funclet_bb - }; - - self.set_debug_loc(&mut bx, terminator.source_info); - match terminator.kind { - mir::TerminatorKind::Resume => { - self.codegen_resume_terminator(helper, bx) - } - - mir::TerminatorKind::Abort => { - bx.abort(); - bx.unreachable(); - } - - mir::TerminatorKind::Goto { target } => { - helper.maybe_sideeffect(self.mir, &mut bx, &[target]); - helper.funclet_br(self, &mut bx, target); - } - - mir::TerminatorKind::SwitchInt { - ref discr, switch_ty, ref values, ref targets - } => { - self.codegen_switchint_terminator(helper, bx, discr, switch_ty, - values, targets); - } - - mir::TerminatorKind::Return => { - self.codegen_return_terminator(bx); - } - - mir::TerminatorKind::Unreachable => { - bx.unreachable(); - } - - mir::TerminatorKind::Drop { ref location, target, unwind } => { - self.codegen_drop_terminator(helper, bx, location, target, unwind); - } - - mir::TerminatorKind::Assert { ref cond, expected, ref msg, target, cleanup } => { - self.codegen_assert_terminator(helper, bx, terminator, cond, - expected, msg, target, cleanup); - } - - mir::TerminatorKind::DropAndReplace { .. } => { - bug!("undesugared DropAndReplace in codegen: {:?}", terminator); - } - - mir::TerminatorKind::Call { - ref func, - ref args, - ref destination, - cleanup, - from_hir_call: _ - } => { - self.codegen_call_terminator(helper, bx, terminator, func, - args, destination, cleanup); - } - mir::TerminatorKind::GeneratorDrop | - mir::TerminatorKind::Yield { .. } => bug!("generator ops in codegen"), - mir::TerminatorKind::FalseEdges { .. } | - mir::TerminatorKind::FalseUnwind { .. } => bug!("borrowck false edges in codegen"), - } - } - - fn codegen_argument( - &mut self, - bx: &mut Bx, - op: OperandRef<'tcx, Bx::Value>, - llargs: &mut Vec<Bx::Value>, - arg: &ArgAbi<'tcx, Ty<'tcx>> - ) { - // Fill padding with undef value, where applicable. - if let Some(ty) = arg.pad { - llargs.push(bx.const_undef(bx.reg_backend_type(&ty))) - } - - if arg.is_ignore() { - return; - } - - if let PassMode::Pair(..) = arg.mode { - match op.val { - Pair(a, b) => { - llargs.push(a); - llargs.push(b); - return; - } - _ => bug!("codegen_argument: {:?} invalid for pair argument", op) - } - } else if arg.is_unsized_indirect() { - match op.val { - Ref(a, Some(b), _) => { - llargs.push(a); - llargs.push(b); - return; - } - _ => bug!("codegen_argument: {:?} invalid for unsized indirect argument", op) - } - } - - // Force by-ref if we have to load through a cast pointer. - let (mut llval, align, by_ref) = match op.val { - Immediate(_) | Pair(..) => { - match arg.mode { - PassMode::Indirect(..) | PassMode::Cast(_) => { - let scratch = PlaceRef::alloca(bx, arg.layout); - op.val.store(bx, scratch); - (scratch.llval, scratch.align, true) - } - _ => { - (op.immediate_or_packed_pair(bx), arg.layout.align.abi, false) - } - } - } - Ref(llval, _, align) => { - if arg.is_indirect() && align < arg.layout.align.abi { - // `foo(packed.large_field)`. We can't pass the (unaligned) field directly. I - // think that ATM (Rust 1.16) we only pass temporaries, but we shouldn't - // have scary latent bugs around. - - let scratch = PlaceRef::alloca(bx, arg.layout); - base::memcpy_ty(bx, scratch.llval, scratch.align, llval, align, - op.layout, MemFlags::empty()); - (scratch.llval, scratch.align, true) - } else { - (llval, align, true) - } - } - }; - - if by_ref && !arg.is_indirect() { - // Have to load the argument, maybe while casting it. - if let PassMode::Cast(ty) = arg.mode { - let addr = bx.pointercast(llval, bx.type_ptr_to( - bx.cast_backend_type(&ty)) - ); - llval = bx.load(addr, align.min(arg.layout.align.abi)); - } else { - // We can't use `PlaceRef::load` here because the argument - // may have a type we don't treat as immediate, but the ABI - // used for this call is passing it by-value. In that case, - // the load would just produce `OperandValue::Ref` instead - // of the `OperandValue::Immediate` we need for the call. - llval = bx.load(llval, align); - if let layout::Abi::Scalar(ref scalar) = arg.layout.abi { - if scalar.is_bool() { - bx.range_metadata(llval, 0..2); - } - } - // We store bools as `i8` so we need to truncate to `i1`. - llval = base::to_immediate(bx, llval, arg.layout); - } - } - - llargs.push(llval); - } - - fn codegen_arguments_untupled( - &mut self, - bx: &mut Bx, - operand: &mir::Operand<'tcx>, - llargs: &mut Vec<Bx::Value>, - args: &[ArgAbi<'tcx, Ty<'tcx>>] - ) { - let tuple = self.codegen_operand(bx, operand); - - // Handle both by-ref and immediate tuples. - if let Ref(llval, None, align) = tuple.val { - let tuple_ptr = PlaceRef::new_sized_aligned(llval, tuple.layout, align); - for i in 0..tuple.layout.fields.count() { - let field_ptr = tuple_ptr.project_field(bx, i); - let field = bx.load_operand(field_ptr); - self.codegen_argument(bx, field, llargs, &args[i]); - } - } else if let Ref(_, Some(_), _) = tuple.val { - bug!("closure arguments must be sized") - } else { - // If the tuple is immediate, the elements are as well. - for i in 0..tuple.layout.fields.count() { - let op = tuple.extract_field(bx, i); - self.codegen_argument(bx, op, llargs, &args[i]); - } - } - } - - fn get_caller_location( - &mut self, - bx: &mut Bx, - span: Span, - ) -> OperandRef<'tcx, Bx::Value> { - let topmost = span.ctxt().outer_expn().expansion_cause().unwrap_or(span); - let caller = bx.tcx().sess.source_map().lookup_char_pos(topmost.lo()); - let const_loc = bx.tcx().const_caller_location(( - Symbol::intern(&caller.file.name.to_string()), - caller.line as u32, - caller.col_display as u32 + 1, - )); - OperandRef::from_const(bx, const_loc) - } - - fn get_personality_slot( - &mut self, - bx: &mut Bx - ) -> PlaceRef<'tcx, Bx::Value> { - let cx = bx.cx(); - if let Some(slot) = self.personality_slot { - slot - } else { - let layout = cx.layout_of(cx.tcx().intern_tup(&[ - cx.tcx().mk_mut_ptr(cx.tcx().types.u8), - cx.tcx().types.i32 - ])); - let slot = PlaceRef::alloca(bx, layout); - self.personality_slot = Some(slot); - slot - } - } - - /// Returns the landing-pad wrapper around the given basic block. - /// - /// No-op in MSVC SEH scheme. - fn landing_pad_to( - &mut self, - target_bb: mir::BasicBlock - ) -> Bx::BasicBlock { - if let Some(block) = self.landing_pads[target_bb] { - return block; - } - - let block = self.blocks[target_bb]; - let landing_pad = self.landing_pad_uncached(block); - self.landing_pads[target_bb] = Some(landing_pad); - landing_pad - } - - fn landing_pad_uncached( - &mut self, - target_bb: Bx::BasicBlock, - ) -> Bx::BasicBlock { - if base::wants_msvc_seh(self.cx.sess()) { - span_bug!(self.mir.span, "landing pad was not inserted?") - } - - let mut bx = self.new_block("cleanup"); - - let llpersonality = self.cx.eh_personality(); - let llretty = self.landing_pad_type(); - let lp = bx.landing_pad(llretty, llpersonality, 1); - bx.set_cleanup(lp); - - let slot = self.get_personality_slot(&mut bx); - slot.storage_live(&mut bx); - Pair(bx.extract_value(lp, 0), bx.extract_value(lp, 1)).store(&mut bx, slot); - - bx.br(target_bb); - bx.llbb() - } - - fn landing_pad_type(&self) -> Bx::Type { - let cx = self.cx; - cx.type_struct(&[cx.type_i8p(), cx.type_i32()], false) - } - - fn unreachable_block( - &mut self - ) -> Bx::BasicBlock { - self.unreachable_block.unwrap_or_else(|| { - let mut bx = self.new_block("unreachable"); - bx.unreachable(); - self.unreachable_block = Some(bx.llbb()); - bx.llbb() - }) - } - - pub fn new_block(&self, name: &str) -> Bx { - Bx::new_block(self.cx, self.llfn, name) - } - - pub fn build_block( - &self, - bb: mir::BasicBlock - ) -> Bx { - let mut bx = Bx::with_cx(self.cx); - bx.position_at_end(self.blocks[bb]); - bx - } - - fn make_return_dest( - &mut self, - bx: &mut Bx, - dest: &mir::Place<'tcx>, -<<<<<<< HEAD - fn_ret: &ArgAbi<'tcx, Ty<'tcx>>, - llargs: &mut Vec<Bx::Value>, is_intrinsic: bool, -======= - fn_ret: &ArgType<'tcx, Ty<'tcx>>, - llargs: &mut Vec<Bx::Value>, is_intrinsic: bool ->>>>>>> Undo minor changes that weren't needed, fix one lifetime typo - ) -> ReturnDest<'tcx, Bx::Value> { - // If the return is ignored, we can just return a do-nothing `ReturnDest`. - if fn_ret.is_ignore() { - return ReturnDest::Nothing; - } - let dest = if let Some(index) = dest.as_local() { - match self.locals[index] { - LocalRef::Place(dest) => dest, - LocalRef::UnsizedPlace(_) => bug!("return type must be sized"), - LocalRef::Operand(None) => { - // Handle temporary places, specifically `Operand` ones, as - // they don't have `alloca`s. - return if fn_ret.is_indirect() { - // Odd, but possible, case, we have an operand temporary, - // but the calling convention has an indirect return. - let tmp = PlaceRef::alloca(bx, fn_ret.layout); - tmp.storage_live(bx); - llargs.push(tmp.llval); - ReturnDest::IndirectOperand(tmp, index) - } else if is_intrinsic { - // Currently, intrinsics always need a location to store - // the result, so we create a temporary `alloca` for the - // result. - let tmp = PlaceRef::alloca(bx, fn_ret.layout); - tmp.storage_live(bx); - ReturnDest::IndirectOperand(tmp, index) - } else { - ReturnDest::DirectOperand(index) - }; - } - LocalRef::Operand(Some(_)) => { - bug!("place local already assigned to"); - } - } - } else { - self.codegen_place(bx, &mir::PlaceRef { - base: &dest.base, - projection: &dest.projection, - }) - }; - if fn_ret.is_indirect() { - if dest.align < dest.layout.align.abi { - // Currently, MIR code generation does not create calls - // that store directly to fields of packed structs (in - // fact, the calls it creates write only to temps). - // - // If someone changes that, please update this code path - // to create a temporary. - span_bug!(self.mir.span, "can't directly store to unaligned value"); - } - llargs.push(dest.llval); - ReturnDest::Nothing - } else { - ReturnDest::Store(dest) - } - } - - fn codegen_transmute( - &mut self, - bx: &mut Bx, - src: &mir::Operand<'tcx>, - dst: &mir::Place<'tcx> - ) { - if let Some(index) = dst.as_local() { - match self.locals[index] { - LocalRef::Place(place) => self.codegen_transmute_into(bx, src, place), - LocalRef::UnsizedPlace(_) => bug!("transmute must not involve unsized locals"), - LocalRef::Operand(None) => { - let dst_layout = bx.layout_of(self.monomorphized_place_ty(&dst.as_ref())); - assert!(!dst_layout.ty.has_erasable_regions()); - let place = PlaceRef::alloca(bx, dst_layout); - place.storage_live(bx); - self.codegen_transmute_into(bx, src, place); - let op = bx.load_operand(place); - place.storage_dead(bx); - self.locals[index] = LocalRef::Operand(Some(op)); - } - LocalRef::Operand(Some(op)) => { - assert!(op.layout.is_zst(), - "assigning to initialized SSAtemp"); - } - } - } else { - let dst = self.codegen_place(bx, &dst.as_ref()); - self.codegen_transmute_into(bx, src, dst); - } - } - - fn codegen_transmute_into( - &mut self, - bx: &mut Bx, - src: &mir::Operand<'tcx>, - dst: PlaceRef<'tcx, Bx::Value> - ) { - let src = self.codegen_operand(bx, src); - let llty = bx.backend_type(src.layout); - let cast_ptr = bx.pointercast(dst.llval, bx.type_ptr_to(llty)); - let align = src.layout.align.abi.min(dst.align); - src.val.store(bx, PlaceRef::new_sized_aligned(cast_ptr, src.layout, align)); - } - - - // Stores the return value of a function call into it's final location. - fn store_return( - &mut self, - bx: &mut Bx, - dest: ReturnDest<'tcx, Bx::Value>, - ret_abi: &ArgAbi<'tcx, Ty<'tcx>>, - llval: Bx::Value - ) { - use self::ReturnDest::*; - - match dest { - Nothing => (), - Store(dst) => bx.store_arg(&ret_abi, llval, dst), - IndirectOperand(tmp, index) => { - let op = bx.load_operand(tmp); - tmp.storage_dead(bx); - self.locals[index] = LocalRef::Operand(Some(op)); - } - DirectOperand(index) => { - // If there is a cast, we have to store and reload. - let op = if let PassMode::Cast(_) = ret_abi.mode { - let tmp = PlaceRef::alloca(bx, ret_abi.layout); - tmp.storage_live(bx); - bx.store_arg(&ret_abi, llval, tmp); - let op = bx.load_operand(tmp); - tmp.storage_dead(bx); - op - } else { - OperandRef::from_immediate_or_packed_pair(bx, llval, ret_abi.layout) - }; - self.locals[index] = LocalRef::Operand(Some(op)); - } - } - } -} - -enum ReturnDest<'tcx, V> { - // Do nothing; the return value is indirect or ignored. - Nothing, - // Store the return value to the pointer. - Store(PlaceRef<'tcx, V>), - // Store an indirect return value to an operand local place. - IndirectOperand(PlaceRef<'tcx, V>, mir::Local), - // Store a direct return value to an operand local place. - DirectOperand(mir::Local) -} diff --git a/src/librustc_codegen_ssa/mir/mod.rs.orig b/src/librustc_codegen_ssa/mir/mod.rs.orig deleted file mode 100644 index 83365f2ab22..00000000000 --- a/src/librustc_codegen_ssa/mir/mod.rs.orig +++ /dev/null @@ -1,439 +0,0 @@ -use rustc::ty::{self, Ty, TypeFoldable, Instance}; -<<<<<<< HEAD -use rustc::ty::layout::{TyLayout, HasTyCtxt, FnAbiExt}; -use rustc::mir::{self, Body, BodyCache}; -use rustc_target::abi::call::{FnAbi, PassMode}; -======= -use rustc::ty::layout::{TyLayout, HasTyCtxt, FnTypeExt}; -use rustc::mir::{self, Body, ReadOnlyBodyCache}; -use rustc_target::abi::call::{FnType, PassMode}; ->>>>>>> Simplify BodyCache impl and fix all remaining type errors in librustc_mir (lifetime errors still exist) -use crate::base; -use crate::traits::*; - -use std::iter; - -use rustc_index::bit_set::BitSet; -use rustc_index::vec::IndexVec; - -use self::analyze::CleanupKind; -use self::debuginfo::FunctionDebugContext; -use self::place::PlaceRef; -use rustc::mir::traversal; - -use self::operand::{OperandRef, OperandValue}; - -/// Master context for codegenning from MIR. -pub struct FunctionCx<'a, 'tcx, Bx: BuilderMethods<'a, 'tcx>> { - instance: Instance<'tcx>, - - mir: mir::ReadOnlyBodyCache<'a, 'tcx>, - - debug_context: Option<FunctionDebugContext<Bx::DIScope>>, - - llfn: Bx::Function, - - cx: &'a Bx::CodegenCx, - - fn_abi: FnAbi<'tcx, Ty<'tcx>>, - - /// When unwinding is initiated, we have to store this personality - /// value somewhere so that we can load it and re-use it in the - /// resume instruction. The personality is (afaik) some kind of - /// value used for C++ unwinding, which must filter by type: we - /// don't really care about it very much. Anyway, this value - /// contains an alloca into which the personality is stored and - /// then later loaded when generating the DIVERGE_BLOCK. - personality_slot: Option<PlaceRef<'tcx, Bx::Value>>, - - /// A `Block` for each MIR `BasicBlock` - blocks: IndexVec<mir::BasicBlock, Bx::BasicBlock>, - - /// The funclet status of each basic block - cleanup_kinds: IndexVec<mir::BasicBlock, analyze::CleanupKind>, - - /// When targeting MSVC, this stores the cleanup info for each funclet - /// BB. This is initialized as we compute the funclets' head block in RPO. - funclets: IndexVec<mir::BasicBlock, Option<Bx::Funclet>>, - - /// This stores the landing-pad block for a given BB, computed lazily on GNU - /// and eagerly on MSVC. - landing_pads: IndexVec<mir::BasicBlock, Option<Bx::BasicBlock>>, - - /// Cached unreachable block - unreachable_block: Option<Bx::BasicBlock>, - - /// The location where each MIR arg/var/tmp/ret is stored. This is - /// usually an `PlaceRef` representing an alloca, but not always: - /// sometimes we can skip the alloca and just store the value - /// directly using an `OperandRef`, which makes for tighter LLVM - /// IR. The conditions for using an `OperandRef` are as follows: - /// - /// - the type of the local must be judged "immediate" by `is_llvm_immediate` - /// - the operand must never be referenced indirectly - /// - we should not take its address using the `&` operator - /// - nor should it appear in a place path like `tmp.a` - /// - the operand must be defined by an rvalue that can generate immediate - /// values - /// - /// Avoiding allocs can also be important for certain intrinsics, - /// notably `expect`. - locals: IndexVec<mir::Local, LocalRef<'tcx, Bx::Value>>, - - per_local_var_debug_info: Option<IndexVec<mir::Local, Vec<debuginfo::VarDebugInfo<'tcx>>>>, -} - -impl<'a, 'tcx, Bx: BuilderMethods<'a, 'tcx>> FunctionCx<'a, 'tcx, Bx> { - pub fn monomorphize<T>(&self, value: &T) -> T - where T: TypeFoldable<'tcx> - { - self.cx.tcx().subst_and_normalize_erasing_regions( - self.instance.substs, - ty::ParamEnv::reveal_all(), - value, - ) - } -} - -enum LocalRef<'tcx, V> { - Place(PlaceRef<'tcx, V>), - /// `UnsizedPlace(p)`: `p` itself is a thin pointer (indirect place). - /// `*p` is the fat pointer that references the actual unsized place. - /// Every time it is initialized, we have to reallocate the place - /// and update the fat pointer. That's the reason why it is indirect. - UnsizedPlace(PlaceRef<'tcx, V>), - Operand(Option<OperandRef<'tcx, V>>), -} - -impl<'a, 'tcx, V: CodegenObject> LocalRef<'tcx, V> { - fn new_operand<Bx: BuilderMethods<'a, 'tcx, Value = V>>( - bx: &mut Bx, - layout: TyLayout<'tcx>, - ) -> LocalRef<'tcx, V> { - if layout.is_zst() { - // Zero-size temporaries aren't always initialized, which - // doesn't matter because they don't contain data, but - // we need something in the operand. - LocalRef::Operand(Some(OperandRef::new_zst(bx, layout))) - } else { - LocalRef::Operand(None) - } - } -} - -/////////////////////////////////////////////////////////////////////////// - -pub fn codegen_mir<'a, 'tcx, Bx: BuilderMethods<'a, 'tcx>>( - cx: &'a Bx::CodegenCx, - llfn: Bx::Function, - mir: ReadOnlyBodyCache<'a, 'tcx>, - instance: Instance<'tcx>, - sig: ty::FnSig<'tcx>, -) { - assert!(!instance.substs.needs_infer()); - - let fn_abi = FnAbi::new(cx, sig, &[]); - debug!("fn_abi: {:?}", fn_abi); - - let debug_context = - cx.create_function_debug_context(instance, sig, llfn, &mir); - - let mut bx = Bx::new_block(cx, llfn, "start"); - - if mir.basic_blocks().iter().any(|bb| bb.is_cleanup) { - bx.set_personality_fn(cx.eh_personality()); - } - - bx.sideeffect(); - - let cleanup_kinds = analyze::cleanup_kinds(&mir); - // Allocate a `Block` for every basic block, except - // the start block, if nothing loops back to it. - let reentrant_start_block = !mir.predecessors_for(mir::START_BLOCK).is_empty(); - let block_bxs: IndexVec<mir::BasicBlock, Bx::BasicBlock> = - mir.basic_blocks().indices().map(|bb| { - if bb == mir::START_BLOCK && !reentrant_start_block { - bx.llbb() - } else { - bx.build_sibling_block(&format!("{:?}", bb)).llbb() - } - }).collect(); - - let (landing_pads, funclets) = create_funclets(&mir, &mut bx, &cleanup_kinds, &block_bxs); - let mir_body = mir.body(); - let mut fx = FunctionCx { - instance, - mir, - llfn, - fn_abi, - cx, - personality_slot: None, - blocks: block_bxs, - unreachable_block: None, - cleanup_kinds, - landing_pads, - funclets, - locals: IndexVec::new(), - debug_context, - per_local_var_debug_info: debuginfo::per_local_var_debug_info(cx.tcx(), mir), - }; - - let memory_locals = analyze::non_ssa_locals(&fx); - - // Allocate variable and temp allocas - fx.locals = { - let args = arg_local_refs(&mut bx, &fx, &memory_locals); - - let mut allocate_local = |local| { - let decl = &mir_body.local_decls[local]; - let layout = bx.layout_of(fx.monomorphize(&decl.ty)); - assert!(!layout.ty.has_erasable_regions()); - - if local == mir::RETURN_PLACE && fx.fn_abi.ret.is_indirect() { - debug!("alloc: {:?} (return place) -> place", local); - let llretptr = bx.get_param(0); - return LocalRef::Place(PlaceRef::new_sized(llretptr, layout)); - } - - if memory_locals.contains(local) { - debug!("alloc: {:?} -> place", local); - if layout.is_unsized() { - LocalRef::UnsizedPlace(PlaceRef::alloca_unsized_indirect(&mut bx, layout)) - } else { - LocalRef::Place(PlaceRef::alloca(&mut bx, layout)) - } - } else { - debug!("alloc: {:?} -> operand", local); - LocalRef::new_operand(&mut bx, layout) - } - }; - - let retptr = allocate_local(mir::RETURN_PLACE); - iter::once(retptr) - .chain(args.into_iter()) - .chain(mir_body.vars_and_temps_iter().map(allocate_local)) - .collect() - }; - - // Apply debuginfo to the newly allocated locals. - fx.debug_introduce_locals(&mut bx); - - // Branch to the START block, if it's not the entry block. - if reentrant_start_block { - bx.br(fx.blocks[mir::START_BLOCK]); - } - - // Up until here, IR instructions for this function have explicitly not been annotated with - // source code location, so we don't step into call setup code. From here on, source location - // emitting should be enabled. - if let Some(debug_context) = &mut fx.debug_context { - debug_context.source_locations_enabled = true; - } - - let rpo = traversal::reverse_postorder(&mir_body); - let mut visited = BitSet::new_empty(mir_body.basic_blocks().len()); - - // Codegen the body of each block using reverse postorder - for (bb, _) in rpo { - visited.insert(bb.index()); - fx.codegen_block(bb); - } - - // Remove blocks that haven't been visited, or have no - // predecessors. - for bb in mir_body.basic_blocks().indices() { - // Unreachable block - if !visited.contains(bb.index()) { - debug!("codegen_mir: block {:?} was not visited", bb); - unsafe { - bx.delete_basic_block(fx.blocks[bb]); - } - } - } -} - -fn create_funclets<'a, 'b, 'tcx, Bx: BuilderMethods<'a, 'tcx>>( - mir: &'b Body<'tcx>, - bx: &mut Bx, - cleanup_kinds: &IndexVec<mir::BasicBlock, CleanupKind>, - block_bxs: &IndexVec<mir::BasicBlock, Bx::BasicBlock>, -) -> ( - IndexVec<mir::BasicBlock, Option<Bx::BasicBlock>>, - IndexVec<mir::BasicBlock, Option<Bx::Funclet>>, -) { - block_bxs.iter_enumerated().zip(cleanup_kinds).map(|((bb, &llbb), cleanup_kind)| { - match *cleanup_kind { - CleanupKind::Funclet if base::wants_msvc_seh(bx.sess()) => {} - _ => return (None, None) - } - - let funclet; - let ret_llbb; - match mir[bb].terminator.as_ref().map(|t| &t.kind) { - // This is a basic block that we're aborting the program for, - // notably in an `extern` function. These basic blocks are inserted - // so that we assert that `extern` functions do indeed not panic, - // and if they do we abort the process. - // - // On MSVC these are tricky though (where we're doing funclets). If - // we were to do a cleanuppad (like below) the normal functions like - // `longjmp` would trigger the abort logic, terminating the - // program. Instead we insert the equivalent of `catch(...)` for C++ - // which magically doesn't trigger when `longjmp` files over this - // frame. - // - // Lots more discussion can be found on #48251 but this codegen is - // modeled after clang's for: - // - // try { - // foo(); - // } catch (...) { - // bar(); - // } - Some(&mir::TerminatorKind::Abort) => { - let mut cs_bx = bx.build_sibling_block(&format!("cs_funclet{:?}", bb)); - let mut cp_bx = bx.build_sibling_block(&format!("cp_funclet{:?}", bb)); - ret_llbb = cs_bx.llbb(); - - let cs = cs_bx.catch_switch(None, None, 1); - cs_bx.add_handler(cs, cp_bx.llbb()); - - // The "null" here is actually a RTTI type descriptor for the - // C++ personality function, but `catch (...)` has no type so - // it's null. The 64 here is actually a bitfield which - // represents that this is a catch-all block. - let null = bx.const_null(bx.type_i8p()); - let sixty_four = bx.const_i32(64); - funclet = cp_bx.catch_pad(cs, &[null, sixty_four, null]); - cp_bx.br(llbb); - } - _ => { - let mut cleanup_bx = bx.build_sibling_block(&format!("funclet_{:?}", bb)); - ret_llbb = cleanup_bx.llbb(); - funclet = cleanup_bx.cleanup_pad(None, &[]); - cleanup_bx.br(llbb); - } - }; - - (Some(ret_llbb), Some(funclet)) - }).unzip() -} - -/// Produces, for each argument, a `Value` pointing at the -/// argument's value. As arguments are places, these are always -/// indirect. -fn arg_local_refs<'a, 'tcx, Bx: BuilderMethods<'a, 'tcx>>( - bx: &mut Bx, - fx: &FunctionCx<'a, 'tcx, Bx>, - memory_locals: &BitSet<mir::Local>, -) -> Vec<LocalRef<'tcx, Bx::Value>> { - let mut idx = 0; - let mut llarg_idx = fx.fn_abi.ret.is_indirect() as usize; - - fx.mir.args_iter().enumerate().map(|(arg_index, local)| { - let arg_decl = &fx.mir.local_decls[local]; - - if Some(local) == fx.mir.spread_arg { - // This argument (e.g., the last argument in the "rust-call" ABI) - // is a tuple that was spread at the ABI level and now we have - // to reconstruct it into a tuple local variable, from multiple - // individual LLVM function arguments. - - let arg_ty = fx.monomorphize(&arg_decl.ty); - let tupled_arg_tys = match arg_ty.kind { - ty::Tuple(ref tys) => tys, - _ => bug!("spread argument isn't a tuple?!") - }; - - let place = PlaceRef::alloca(bx, bx.layout_of(arg_ty)); - for i in 0..tupled_arg_tys.len() { - let arg = &fx.fn_abi.args[idx]; - idx += 1; - if arg.pad.is_some() { - llarg_idx += 1; - } - let pr_field = place.project_field(bx, i); - bx.store_fn_arg(arg, &mut llarg_idx, pr_field); - } - - return LocalRef::Place(place); - } - - if fx.fn_abi.c_variadic && arg_index == fx.fn_abi.args.len() { - let arg_ty = fx.monomorphize(&arg_decl.ty); - - let va_list = PlaceRef::alloca(bx, bx.layout_of(arg_ty)); - bx.va_start(va_list.llval); - - return LocalRef::Place(va_list); - } - - let arg = &fx.fn_abi.args[idx]; - idx += 1; - if arg.pad.is_some() { - llarg_idx += 1; - } - - if !memory_locals.contains(local) { - // We don't have to cast or keep the argument in the alloca. - // FIXME(eddyb): We should figure out how to use llvm.dbg.value instead - // of putting everything in allocas just so we can use llvm.dbg.declare. - let local = |op| LocalRef::Operand(Some(op)); - match arg.mode { - PassMode::Ignore => { - return local(OperandRef::new_zst(bx, arg.layout)); - } - PassMode::Direct(_) => { - let llarg = bx.get_param(llarg_idx); - llarg_idx += 1; - return local( - OperandRef::from_immediate_or_packed_pair(bx, llarg, arg.layout)); - } - PassMode::Pair(..) => { - let (a, b) = (bx.get_param(llarg_idx), bx.get_param(llarg_idx + 1)); - llarg_idx += 2; - - return local(OperandRef { - val: OperandValue::Pair(a, b), - layout: arg.layout - }); - } - _ => {} - } - } - - if arg.is_sized_indirect() { - // Don't copy an indirect argument to an alloca, the caller - // already put it in a temporary alloca and gave it up. - // FIXME: lifetimes - let llarg = bx.get_param(llarg_idx); - llarg_idx += 1; - LocalRef::Place(PlaceRef::new_sized(llarg, arg.layout)) - } else if arg.is_unsized_indirect() { - // As the storage for the indirect argument lives during - // the whole function call, we just copy the fat pointer. - let llarg = bx.get_param(llarg_idx); - llarg_idx += 1; - let llextra = bx.get_param(llarg_idx); - llarg_idx += 1; - let indirect_operand = OperandValue::Pair(llarg, llextra); - - let tmp = PlaceRef::alloca_unsized_indirect(bx, arg.layout); - indirect_operand.store(bx, tmp); - LocalRef::UnsizedPlace(tmp) - } else { - let tmp = PlaceRef::alloca(bx, arg.layout); - bx.store_fn_arg(arg, &mut llarg_idx, tmp); - LocalRef::Place(tmp) - } - }).collect() -} - -mod analyze; -mod block; -pub mod constant; -pub mod debuginfo; -pub mod place; -pub mod operand; -mod rvalue; -mod statement; |