1use std::cmp;
2
3use rustc_abi::{Align, BackendRepr, ExternAbi, HasDataLayout, Reg, Size, WrappingRange};
4use rustc_ast as ast;
5use rustc_ast::{InlineAsmOptions, InlineAsmTemplatePiece};
6use rustc_data_structures::packed::Pu128;
7use rustc_hir::lang_items::LangItem;
8use rustc_middle::mir::{self, AssertKind, InlineAsmMacro, SwitchTargets, UnwindTerminateReason};
9use rustc_middle::ty::layout::{HasTyCtxt, LayoutOf, ValidityRequirement};
10use rustc_middle::ty::print::{with_no_trimmed_paths, with_no_visible_paths};
11use rustc_middle::ty::{self, Instance, Ty};
12use rustc_middle::{bug, span_bug};
13use rustc_session::config::OptLevel;
14use rustc_span::Span;
15use rustc_span::source_map::Spanned;
16use rustc_target::callconv::{ArgAbi, CastTarget, FnAbi, PassMode};
17use tracing::{debug, info};
18
19use super::operand::OperandRef;
20use super::operand::OperandValue::{Immediate, Pair, Ref, ZeroSized};
21use super::place::{PlaceRef, PlaceValue};
22use super::{CachedLlbb, FunctionCx, LocalRef};
23use crate::base::{self, is_call_from_compiler_builtins_to_upstream_monomorphization};
24use crate::common::{self, IntPredicate};
25use crate::errors::CompilerBuiltinsCannotCall;
26use crate::traits::*;
27use crate::{MemFlags, meth};
28
29#[derive(Debug, PartialEq)]
33enum MergingSucc {
34 False,
35 True,
36}
37
38struct TerminatorCodegenHelper<'tcx> {
41 bb: mir::BasicBlock,
42 terminator: &'tcx mir::Terminator<'tcx>,
43}
44
45impl<'a, 'tcx> TerminatorCodegenHelper<'tcx> {
46 fn funclet<'b, Bx: BuilderMethods<'a, 'tcx>>(
49 &self,
50 fx: &'b mut FunctionCx<'a, 'tcx, Bx>,
51 ) -> Option<&'b Bx::Funclet> {
52 let cleanup_kinds = fx.cleanup_kinds.as_ref()?;
53 let funclet_bb = cleanup_kinds[self.bb].funclet_bb(self.bb)?;
54 if fx.funclets[funclet_bb].is_none() {
63 fx.landing_pad_for(funclet_bb);
64 }
65 Some(
66 fx.funclets[funclet_bb]
67 .as_ref()
68 .expect("landing_pad_for didn't also create funclets entry"),
69 )
70 }
71
72 fn llbb_with_cleanup<Bx: BuilderMethods<'a, 'tcx>>(
75 &self,
76 fx: &mut FunctionCx<'a, 'tcx, Bx>,
77 target: mir::BasicBlock,
78 ) -> Bx::BasicBlock {
79 let (needs_landing_pad, is_cleanupret) = self.llbb_characteristics(fx, target);
80 let mut lltarget = fx.llbb(target);
81 if needs_landing_pad {
82 lltarget = fx.landing_pad_for(target);
83 }
84 if is_cleanupret {
85 assert!(base::wants_new_eh_instructions(fx.cx.tcx().sess));
87 debug!("llbb_with_cleanup: creating cleanup trampoline for {:?}", target);
88 let name = &format!("{:?}_cleanup_trampoline_{:?}", self.bb, target);
89 let trampoline_llbb = Bx::append_block(fx.cx, fx.llfn, name);
90 let mut trampoline_bx = Bx::build(fx.cx, trampoline_llbb);
91 trampoline_bx.cleanup_ret(self.funclet(fx).unwrap(), Some(lltarget));
92 trampoline_llbb
93 } else {
94 lltarget
95 }
96 }
97
98 fn llbb_characteristics<Bx: BuilderMethods<'a, 'tcx>>(
99 &self,
100 fx: &mut FunctionCx<'a, 'tcx, Bx>,
101 target: mir::BasicBlock,
102 ) -> (bool, bool) {
103 if let Some(ref cleanup_kinds) = fx.cleanup_kinds {
104 let funclet_bb = cleanup_kinds[self.bb].funclet_bb(self.bb);
105 let target_funclet = cleanup_kinds[target].funclet_bb(target);
106 let (needs_landing_pad, is_cleanupret) = match (funclet_bb, target_funclet) {
107 (None, None) => (false, false),
108 (None, Some(_)) => (true, false),
109 (Some(f), Some(t_f)) => (f != t_f, f != t_f),
110 (Some(_), None) => {
111 let span = self.terminator.source_info.span;
112 span_bug!(span, "{:?} - jump out of cleanup?", self.terminator);
113 }
114 };
115 (needs_landing_pad, is_cleanupret)
116 } else {
117 let needs_landing_pad = !fx.mir[self.bb].is_cleanup && fx.mir[target].is_cleanup;
118 let is_cleanupret = false;
119 (needs_landing_pad, is_cleanupret)
120 }
121 }
122
123 fn funclet_br<Bx: BuilderMethods<'a, 'tcx>>(
124 &self,
125 fx: &mut FunctionCx<'a, 'tcx, Bx>,
126 bx: &mut Bx,
127 target: mir::BasicBlock,
128 mergeable_succ: bool,
129 ) -> MergingSucc {
130 let (needs_landing_pad, is_cleanupret) = self.llbb_characteristics(fx, target);
131 if mergeable_succ && !needs_landing_pad && !is_cleanupret {
132 MergingSucc::True
134 } else {
135 let mut lltarget = fx.llbb(target);
136 if needs_landing_pad {
137 lltarget = fx.landing_pad_for(target);
138 }
139 if is_cleanupret {
140 bx.cleanup_ret(self.funclet(fx).unwrap(), Some(lltarget));
143 } else {
144 bx.br(lltarget);
145 }
146 MergingSucc::False
147 }
148 }
149
150 fn do_call<Bx: BuilderMethods<'a, 'tcx>>(
153 &self,
154 fx: &mut FunctionCx<'a, 'tcx, Bx>,
155 bx: &mut Bx,
156 fn_abi: &'tcx FnAbi<'tcx, Ty<'tcx>>,
157 fn_ptr: Bx::Value,
158 llargs: &[Bx::Value],
159 destination: Option<(ReturnDest<'tcx, Bx::Value>, mir::BasicBlock)>,
160 mut unwind: mir::UnwindAction,
161 lifetime_ends_after_call: &[(Bx::Value, Size)],
162 instance: Option<Instance<'tcx>>,
163 mergeable_succ: bool,
164 ) -> MergingSucc {
165 let tcx = bx.tcx();
166 if let Some(instance) = instance
167 && is_call_from_compiler_builtins_to_upstream_monomorphization(tcx, instance)
168 {
169 if destination.is_some() {
170 let caller_def = fx.instance.def_id();
171 let e = CompilerBuiltinsCannotCall {
172 span: tcx.def_span(caller_def),
173 caller: with_no_trimmed_paths!(tcx.def_path_str(caller_def)),
174 callee: with_no_trimmed_paths!(tcx.def_path_str(instance.def_id())),
175 };
176 tcx.dcx().emit_err(e);
177 } else {
178 info!(
179 "compiler_builtins call to diverging function {:?} replaced with abort",
180 instance.def_id()
181 );
182 bx.abort();
183 bx.unreachable();
184 return MergingSucc::False;
185 }
186 }
187
188 let fn_ty = bx.fn_decl_backend_type(fn_abi);
191
192 let fn_attrs = if bx.tcx().def_kind(fx.instance.def_id()).has_codegen_attrs() {
193 Some(bx.tcx().codegen_fn_attrs(fx.instance.def_id()))
194 } else {
195 None
196 };
197
198 if !fn_abi.can_unwind {
199 unwind = mir::UnwindAction::Unreachable;
200 }
201
202 let unwind_block = match unwind {
203 mir::UnwindAction::Cleanup(cleanup) => Some(self.llbb_with_cleanup(fx, cleanup)),
204 mir::UnwindAction::Continue => None,
205 mir::UnwindAction::Unreachable => None,
206 mir::UnwindAction::Terminate(reason) => {
207 if fx.mir[self.bb].is_cleanup && base::wants_new_eh_instructions(fx.cx.tcx().sess) {
208 None
218 } else {
219 Some(fx.terminate_block(reason))
220 }
221 }
222 };
223
224 if let Some(unwind_block) = unwind_block {
225 let ret_llbb = if let Some((_, target)) = destination {
226 fx.llbb(target)
227 } else {
228 fx.unreachable_block()
229 };
230 let invokeret = bx.invoke(
231 fn_ty,
232 fn_attrs,
233 Some(fn_abi),
234 fn_ptr,
235 llargs,
236 ret_llbb,
237 unwind_block,
238 self.funclet(fx),
239 instance,
240 );
241 if fx.mir[self.bb].is_cleanup {
242 bx.apply_attrs_to_cleanup_callsite(invokeret);
243 }
244
245 if let Some((ret_dest, target)) = destination {
246 bx.switch_to_block(fx.llbb(target));
247 fx.set_debug_loc(bx, self.terminator.source_info);
248 for &(tmp, size) in lifetime_ends_after_call {
249 bx.lifetime_end(tmp, size);
250 }
251 fx.store_return(bx, ret_dest, &fn_abi.ret, invokeret);
252 }
253 MergingSucc::False
254 } else {
255 let llret =
256 bx.call(fn_ty, fn_attrs, Some(fn_abi), fn_ptr, llargs, self.funclet(fx), instance);
257 if fx.mir[self.bb].is_cleanup {
258 bx.apply_attrs_to_cleanup_callsite(llret);
259 }
260
261 if let Some((ret_dest, target)) = destination {
262 for &(tmp, size) in lifetime_ends_after_call {
263 bx.lifetime_end(tmp, size);
264 }
265 fx.store_return(bx, ret_dest, &fn_abi.ret, llret);
266 self.funclet_br(fx, bx, target, mergeable_succ)
267 } else {
268 bx.unreachable();
269 MergingSucc::False
270 }
271 }
272 }
273
274 fn do_inlineasm<Bx: BuilderMethods<'a, 'tcx>>(
276 &self,
277 fx: &mut FunctionCx<'a, 'tcx, Bx>,
278 bx: &mut Bx,
279 template: &[InlineAsmTemplatePiece],
280 operands: &[InlineAsmOperandRef<'tcx, Bx>],
281 options: InlineAsmOptions,
282 line_spans: &[Span],
283 destination: Option<mir::BasicBlock>,
284 unwind: mir::UnwindAction,
285 instance: Instance<'_>,
286 mergeable_succ: bool,
287 ) -> MergingSucc {
288 let unwind_target = match unwind {
289 mir::UnwindAction::Cleanup(cleanup) => Some(self.llbb_with_cleanup(fx, cleanup)),
290 mir::UnwindAction::Terminate(reason) => Some(fx.terminate_block(reason)),
291 mir::UnwindAction::Continue => None,
292 mir::UnwindAction::Unreachable => None,
293 };
294
295 if operands.iter().any(|x| matches!(x, InlineAsmOperandRef::Label { .. })) {
296 assert!(unwind_target.is_none());
297 let ret_llbb = if let Some(target) = destination {
298 fx.llbb(target)
299 } else {
300 fx.unreachable_block()
301 };
302
303 bx.codegen_inline_asm(
304 template,
305 operands,
306 options,
307 line_spans,
308 instance,
309 Some(ret_llbb),
310 None,
311 );
312 MergingSucc::False
313 } else if let Some(cleanup) = unwind_target {
314 let ret_llbb = if let Some(target) = destination {
315 fx.llbb(target)
316 } else {
317 fx.unreachable_block()
318 };
319
320 bx.codegen_inline_asm(
321 template,
322 operands,
323 options,
324 line_spans,
325 instance,
326 Some(ret_llbb),
327 Some((cleanup, self.funclet(fx))),
328 );
329 MergingSucc::False
330 } else {
331 bx.codegen_inline_asm(template, operands, options, line_spans, instance, None, None);
332
333 if let Some(target) = destination {
334 self.funclet_br(fx, bx, target, mergeable_succ)
335 } else {
336 bx.unreachable();
337 MergingSucc::False
338 }
339 }
340 }
341}
342
343impl<'a, 'tcx, Bx: BuilderMethods<'a, 'tcx>> FunctionCx<'a, 'tcx, Bx> {
345 fn codegen_resume_terminator(&mut self, helper: TerminatorCodegenHelper<'tcx>, bx: &mut Bx) {
347 if let Some(funclet) = helper.funclet(self) {
348 bx.cleanup_ret(funclet, None);
349 } else {
350 let slot = self.get_personality_slot(bx);
351 let exn0 = slot.project_field(bx, 0);
352 let exn0 = bx.load_operand(exn0).immediate();
353 let exn1 = slot.project_field(bx, 1);
354 let exn1 = bx.load_operand(exn1).immediate();
355 slot.storage_dead(bx);
356
357 bx.resume(exn0, exn1);
358 }
359 }
360
361 fn codegen_switchint_terminator(
362 &mut self,
363 helper: TerminatorCodegenHelper<'tcx>,
364 bx: &mut Bx,
365 discr: &mir::Operand<'tcx>,
366 targets: &SwitchTargets,
367 ) {
368 let discr = self.codegen_operand(bx, discr);
369 let discr_value = discr.immediate();
370 let switch_ty = discr.layout.ty;
371 if let Some(const_discr) = bx.const_to_opt_u128(discr_value, false) {
373 let target = targets.target_for_value(const_discr);
374 bx.br(helper.llbb_with_cleanup(self, target));
375 return;
376 };
377
378 let mut target_iter = targets.iter();
379 if target_iter.len() == 1 {
380 let (test_value, target) = target_iter.next().unwrap();
383 let otherwise = targets.otherwise();
384 let lltarget = helper.llbb_with_cleanup(self, target);
385 let llotherwise = helper.llbb_with_cleanup(self, otherwise);
386 let target_cold = self.cold_blocks[target];
387 let otherwise_cold = self.cold_blocks[otherwise];
388 let expect = if target_cold == otherwise_cold { None } else { Some(otherwise_cold) };
392 if switch_ty == bx.tcx().types.bool {
393 match test_value {
395 0 => {
396 let expect = expect.map(|e| !e);
397 bx.cond_br_with_expect(discr_value, llotherwise, lltarget, expect);
398 }
399 1 => {
400 bx.cond_br_with_expect(discr_value, lltarget, llotherwise, expect);
401 }
402 _ => bug!(),
403 }
404 } else {
405 let switch_llty = bx.immediate_backend_type(bx.layout_of(switch_ty));
406 let llval = bx.const_uint_big(switch_llty, test_value);
407 let cmp = bx.icmp(IntPredicate::IntEQ, discr_value, llval);
408 bx.cond_br_with_expect(cmp, lltarget, llotherwise, expect);
409 }
410 } else if target_iter.len() == 2
411 && self.mir[targets.otherwise()].is_empty_unreachable()
412 && targets.all_values().contains(&Pu128(0))
413 && targets.all_values().contains(&Pu128(1))
414 {
415 let true_bb = targets.target_for_value(1);
419 let false_bb = targets.target_for_value(0);
420 let true_ll = helper.llbb_with_cleanup(self, true_bb);
421 let false_ll = helper.llbb_with_cleanup(self, false_bb);
422
423 let expected_cond_value = if self.cx.sess().opts.optimize == OptLevel::No {
424 None
425 } else {
426 match (self.cold_blocks[true_bb], self.cold_blocks[false_bb]) {
427 (true, true) | (false, false) => None,
429 (true, false) => Some(false),
431 (false, true) => Some(true),
432 }
433 };
434
435 let bool_ty = bx.tcx().types.bool;
436 let cond = if switch_ty == bool_ty {
437 discr_value
438 } else {
439 let bool_llty = bx.immediate_backend_type(bx.layout_of(bool_ty));
440 bx.unchecked_utrunc(discr_value, bool_llty)
441 };
442 bx.cond_br_with_expect(cond, true_ll, false_ll, expected_cond_value);
443 } else if self.cx.sess().opts.optimize == OptLevel::No
444 && target_iter.len() == 2
445 && self.mir[targets.otherwise()].is_empty_unreachable()
446 {
447 let (test_value1, target1) = target_iter.next().unwrap();
460 let (_test_value2, target2) = target_iter.next().unwrap();
461 let ll1 = helper.llbb_with_cleanup(self, target1);
462 let ll2 = helper.llbb_with_cleanup(self, target2);
463 let switch_llty = bx.immediate_backend_type(bx.layout_of(switch_ty));
464 let llval = bx.const_uint_big(switch_llty, test_value1);
465 let cmp = bx.icmp(IntPredicate::IntEQ, discr_value, llval);
466 bx.cond_br(cmp, ll1, ll2);
467 } else {
468 let otherwise = targets.otherwise();
469 let otherwise_cold = self.cold_blocks[otherwise];
470 let otherwise_unreachable = self.mir[otherwise].is_empty_unreachable();
471 let cold_count = targets.iter().filter(|(_, target)| self.cold_blocks[*target]).count();
472 let none_cold = cold_count == 0;
473 let all_cold = cold_count == targets.iter().len();
474 if (none_cold && (!otherwise_cold || otherwise_unreachable))
475 || (all_cold && (otherwise_cold || otherwise_unreachable))
476 {
477 bx.switch(
480 discr_value,
481 helper.llbb_with_cleanup(self, targets.otherwise()),
482 target_iter
483 .map(|(value, target)| (value, helper.llbb_with_cleanup(self, target))),
484 );
485 } else {
486 bx.switch_with_weights(
488 discr_value,
489 helper.llbb_with_cleanup(self, targets.otherwise()),
490 otherwise_cold,
491 target_iter.map(|(value, target)| {
492 (value, helper.llbb_with_cleanup(self, target), self.cold_blocks[target])
493 }),
494 );
495 }
496 }
497 }
498
499 fn codegen_return_terminator(&mut self, bx: &mut Bx) {
500 if self.fn_abi.c_variadic {
502 let va_list_arg_idx = self.fn_abi.args.len();
504 match self.locals[mir::Local::from_usize(1 + va_list_arg_idx)] {
505 LocalRef::Place(va_list) => {
506 bx.va_end(va_list.val.llval);
507 }
508 _ => bug!("C-variadic function must have a `VaList` place"),
509 }
510 }
511 if self.fn_abi.ret.layout.is_uninhabited() {
512 bx.abort();
517 bx.unreachable();
520 return;
521 }
522 let llval = match &self.fn_abi.ret.mode {
523 PassMode::Ignore | PassMode::Indirect { .. } => {
524 bx.ret_void();
525 return;
526 }
527
528 PassMode::Direct(_) | PassMode::Pair(..) => {
529 let op = self.codegen_consume(bx, mir::Place::return_place().as_ref());
530 if let Ref(place_val) = op.val {
531 bx.load_from_place(bx.backend_type(op.layout), place_val)
532 } else {
533 op.immediate_or_packed_pair(bx)
534 }
535 }
536
537 PassMode::Cast { cast: cast_ty, pad_i32: _ } => {
538 let op = match self.locals[mir::RETURN_PLACE] {
539 LocalRef::Operand(op) => op,
540 LocalRef::PendingOperand => bug!("use of return before def"),
541 LocalRef::Place(cg_place) => {
542 OperandRef { val: Ref(cg_place.val), layout: cg_place.layout }
543 }
544 LocalRef::UnsizedPlace(_) => bug!("return type must be sized"),
545 };
546 let llslot = match op.val {
547 Immediate(_) | Pair(..) => {
548 let scratch = PlaceRef::alloca(bx, self.fn_abi.ret.layout);
549 op.val.store(bx, scratch);
550 scratch.val.llval
551 }
552 Ref(place_val) => {
553 assert_eq!(
554 place_val.align, op.layout.align.abi,
555 "return place is unaligned!"
556 );
557 place_val.llval
558 }
559 ZeroSized => bug!("ZST return value shouldn't be in PassMode::Cast"),
560 };
561 load_cast(bx, cast_ty, llslot, self.fn_abi.ret.layout.align.abi)
562 }
563 };
564 bx.ret(llval);
565 }
566
567 #[tracing::instrument(level = "trace", skip(self, helper, bx))]
568 fn codegen_drop_terminator(
569 &mut self,
570 helper: TerminatorCodegenHelper<'tcx>,
571 bx: &mut Bx,
572 source_info: &mir::SourceInfo,
573 location: mir::Place<'tcx>,
574 target: mir::BasicBlock,
575 unwind: mir::UnwindAction,
576 mergeable_succ: bool,
577 ) -> MergingSucc {
578 let ty = location.ty(self.mir, bx.tcx()).ty;
579 let ty = self.monomorphize(ty);
580 let drop_fn = Instance::resolve_drop_in_place(bx.tcx(), ty);
581
582 if let ty::InstanceKind::DropGlue(_, None) = drop_fn.def {
583 return helper.funclet_br(self, bx, target, mergeable_succ);
585 }
586
587 let place = self.codegen_place(bx, location.as_ref());
588 let (args1, args2);
589 let mut args = if let Some(llextra) = place.val.llextra {
590 args2 = [place.val.llval, llextra];
591 &args2[..]
592 } else {
593 args1 = [place.val.llval];
594 &args1[..]
595 };
596 let (maybe_null, drop_fn, fn_abi, drop_instance) = match ty.kind() {
597 ty::Dynamic(_, _, ty::Dyn) => {
600 let virtual_drop = Instance {
613 def: ty::InstanceKind::Virtual(drop_fn.def_id(), 0), args: drop_fn.args,
615 };
616 debug!("ty = {:?}", ty);
617 debug!("drop_fn = {:?}", drop_fn);
618 debug!("args = {:?}", args);
619 let fn_abi = bx.fn_abi_of_instance(virtual_drop, ty::List::empty());
620 let vtable = args[1];
621 args = &args[..1];
623 (
624 true,
625 meth::VirtualIndex::from_index(ty::COMMON_VTABLE_ENTRIES_DROPINPLACE)
626 .get_optional_fn(bx, vtable, ty, fn_abi),
627 fn_abi,
628 virtual_drop,
629 )
630 }
631 ty::Dynamic(_, _, ty::DynStar) => {
632 let virtual_drop = Instance {
655 def: ty::InstanceKind::Virtual(drop_fn.def_id(), 0), args: drop_fn.args,
657 };
658 debug!("ty = {:?}", ty);
659 debug!("drop_fn = {:?}", drop_fn);
660 debug!("args = {:?}", args);
661 let fn_abi = bx.fn_abi_of_instance(virtual_drop, ty::List::empty());
662 let meta_ptr = place.project_field(bx, 1);
663 let meta = bx.load_operand(meta_ptr);
664 args = &args[..1];
666 debug!("args' = {:?}", args);
667 (
668 true,
669 meth::VirtualIndex::from_index(ty::COMMON_VTABLE_ENTRIES_DROPINPLACE)
670 .get_optional_fn(bx, meta.immediate(), ty, fn_abi),
671 fn_abi,
672 virtual_drop,
673 )
674 }
675 _ => (
676 false,
677 bx.get_fn_addr(drop_fn),
678 bx.fn_abi_of_instance(drop_fn, ty::List::empty()),
679 drop_fn,
680 ),
681 };
682
683 if maybe_null {
686 let is_not_null = bx.append_sibling_block("is_not_null");
687 let llty = bx.fn_ptr_backend_type(fn_abi);
688 let null = bx.const_null(llty);
689 let non_null =
690 bx.icmp(base::bin_op_to_icmp_predicate(mir::BinOp::Ne, false), drop_fn, null);
691 bx.cond_br(non_null, is_not_null, helper.llbb_with_cleanup(self, target));
692 bx.switch_to_block(is_not_null);
693 self.set_debug_loc(bx, *source_info);
694 }
695
696 helper.do_call(
697 self,
698 bx,
699 fn_abi,
700 drop_fn,
701 args,
702 Some((ReturnDest::Nothing, target)),
703 unwind,
704 &[],
705 Some(drop_instance),
706 !maybe_null && mergeable_succ,
707 )
708 }
709
710 fn codegen_assert_terminator(
711 &mut self,
712 helper: TerminatorCodegenHelper<'tcx>,
713 bx: &mut Bx,
714 terminator: &mir::Terminator<'tcx>,
715 cond: &mir::Operand<'tcx>,
716 expected: bool,
717 msg: &mir::AssertMessage<'tcx>,
718 target: mir::BasicBlock,
719 unwind: mir::UnwindAction,
720 mergeable_succ: bool,
721 ) -> MergingSucc {
722 let span = terminator.source_info.span;
723 let cond = self.codegen_operand(bx, cond).immediate();
724 let mut const_cond = bx.const_to_opt_u128(cond, false).map(|c| c == 1);
725
726 if !bx.sess().overflow_checks() && msg.is_optional_overflow_check() {
731 const_cond = Some(expected);
732 }
733
734 if const_cond == Some(expected) {
736 return helper.funclet_br(self, bx, target, mergeable_succ);
737 }
738
739 let lltarget = helper.llbb_with_cleanup(self, target);
744 let panic_block = bx.append_sibling_block("panic");
745 if expected {
746 bx.cond_br(cond, lltarget, panic_block);
747 } else {
748 bx.cond_br(cond, panic_block, lltarget);
749 }
750
751 bx.switch_to_block(panic_block);
753 self.set_debug_loc(bx, terminator.source_info);
754
755 let location = self.get_caller_location(bx, terminator.source_info).immediate();
757
758 let (lang_item, args) = match msg {
760 AssertKind::BoundsCheck { len, index } => {
761 let len = self.codegen_operand(bx, len).immediate();
762 let index = self.codegen_operand(bx, index).immediate();
763 (LangItem::PanicBoundsCheck, vec![index, len, location])
766 }
767 AssertKind::MisalignedPointerDereference { required, found } => {
768 let required = self.codegen_operand(bx, required).immediate();
769 let found = self.codegen_operand(bx, found).immediate();
770 (LangItem::PanicMisalignedPointerDereference, vec![required, found, location])
773 }
774 AssertKind::NullPointerDereference => {
775 (LangItem::PanicNullPointerDereference, vec![location])
778 }
779 _ => {
780 (msg.panic_function(), vec![location])
782 }
783 };
784
785 let (fn_abi, llfn, instance) = common::build_langcall(bx, span, lang_item);
786
787 let merging_succ =
789 helper.do_call(self, bx, fn_abi, llfn, &args, None, unwind, &[], Some(instance), false);
790 assert_eq!(merging_succ, MergingSucc::False);
791 MergingSucc::False
792 }
793
794 fn codegen_terminate_terminator(
795 &mut self,
796 helper: TerminatorCodegenHelper<'tcx>,
797 bx: &mut Bx,
798 terminator: &mir::Terminator<'tcx>,
799 reason: UnwindTerminateReason,
800 ) {
801 let span = terminator.source_info.span;
802 self.set_debug_loc(bx, terminator.source_info);
803
804 let (fn_abi, llfn, instance) = common::build_langcall(bx, span, reason.lang_item());
806
807 let merging_succ = helper.do_call(
809 self,
810 bx,
811 fn_abi,
812 llfn,
813 &[],
814 None,
815 mir::UnwindAction::Unreachable,
816 &[],
817 Some(instance),
818 false,
819 );
820 assert_eq!(merging_succ, MergingSucc::False);
821 }
822
823 fn codegen_panic_intrinsic(
825 &mut self,
826 helper: &TerminatorCodegenHelper<'tcx>,
827 bx: &mut Bx,
828 intrinsic: ty::IntrinsicDef,
829 instance: Instance<'tcx>,
830 source_info: mir::SourceInfo,
831 target: Option<mir::BasicBlock>,
832 unwind: mir::UnwindAction,
833 mergeable_succ: bool,
834 ) -> Option<MergingSucc> {
835 let Some(requirement) = ValidityRequirement::from_intrinsic(intrinsic.name) else {
839 return None;
840 };
841
842 let ty = instance.args.type_at(0);
843
844 let is_valid = bx
845 .tcx()
846 .check_validity_requirement((requirement, bx.typing_env().as_query_input(ty)))
847 .expect("expect to have layout during codegen");
848
849 if is_valid {
850 let target = target.unwrap();
852 return Some(helper.funclet_br(self, bx, target, mergeable_succ));
853 }
854
855 let layout = bx.layout_of(ty);
856
857 let msg_str = with_no_visible_paths!({
858 with_no_trimmed_paths!({
859 if layout.is_uninhabited() {
860 format!("attempted to instantiate uninhabited type `{ty}`")
862 } else if requirement == ValidityRequirement::Zero {
863 format!("attempted to zero-initialize type `{ty}`, which is invalid")
864 } else {
865 format!("attempted to leave type `{ty}` uninitialized, which is invalid")
866 }
867 })
868 });
869 let msg = bx.const_str(&msg_str);
870
871 let (fn_abi, llfn, instance) =
873 common::build_langcall(bx, source_info.span, LangItem::PanicNounwind);
874
875 Some(helper.do_call(
877 self,
878 bx,
879 fn_abi,
880 llfn,
881 &[msg.0, msg.1],
882 target.as_ref().map(|bb| (ReturnDest::Nothing, *bb)),
883 unwind,
884 &[],
885 Some(instance),
886 mergeable_succ,
887 ))
888 }
889
890 fn codegen_call_terminator(
891 &mut self,
892 helper: TerminatorCodegenHelper<'tcx>,
893 bx: &mut Bx,
894 terminator: &mir::Terminator<'tcx>,
895 func: &mir::Operand<'tcx>,
896 args: &[Spanned<mir::Operand<'tcx>>],
897 destination: mir::Place<'tcx>,
898 target: Option<mir::BasicBlock>,
899 unwind: mir::UnwindAction,
900 fn_span: Span,
901 mergeable_succ: bool,
902 ) -> MergingSucc {
903 let source_info = mir::SourceInfo { span: fn_span, ..terminator.source_info };
904
905 let callee = self.codegen_operand(bx, func);
907
908 let (instance, mut llfn) = match *callee.layout.ty.kind() {
909 ty::FnDef(def_id, generic_args) => {
910 let instance = ty::Instance::expect_resolve(
911 bx.tcx(),
912 bx.typing_env(),
913 def_id,
914 generic_args,
915 fn_span,
916 );
917
918 let instance = match instance.def {
919 ty::InstanceKind::DropGlue(_, None) => {
922 let target = target.unwrap();
924 return helper.funclet_br(self, bx, target, mergeable_succ);
925 }
926 ty::InstanceKind::Intrinsic(def_id) => {
927 let intrinsic = bx.tcx().intrinsic(def_id).unwrap();
928 if let Some(merging_succ) = self.codegen_panic_intrinsic(
929 &helper,
930 bx,
931 intrinsic,
932 instance,
933 source_info,
934 target,
935 unwind,
936 mergeable_succ,
937 ) {
938 return merging_succ;
939 }
940
941 let result_layout =
942 self.cx.layout_of(self.monomorphized_place_ty(destination.as_ref()));
943
944 let (result, store_in_local) = if result_layout.is_zst() {
945 (
946 PlaceRef::new_sized(bx.const_undef(bx.type_ptr()), result_layout),
947 None,
948 )
949 } else if let Some(local) = destination.as_local() {
950 match self.locals[local] {
951 LocalRef::Place(dest) => (dest, None),
952 LocalRef::UnsizedPlace(_) => bug!("return type must be sized"),
953 LocalRef::PendingOperand => {
954 let tmp = PlaceRef::alloca(bx, result_layout);
958 tmp.storage_live(bx);
959 (tmp, Some(local))
960 }
961 LocalRef::Operand(_) => {
962 bug!("place local already assigned to");
963 }
964 }
965 } else {
966 (self.codegen_place(bx, destination.as_ref()), None)
967 };
968
969 if result.val.align < result.layout.align.abi {
970 span_bug!(self.mir.span, "can't directly store to unaligned value");
977 }
978
979 let args: Vec<_> =
980 args.iter().map(|arg| self.codegen_operand(bx, &arg.node)).collect();
981
982 match self.codegen_intrinsic_call(bx, instance, &args, result, source_info)
983 {
984 Ok(()) => {
985 if let Some(local) = store_in_local {
986 let op = bx.load_operand(result);
987 result.storage_dead(bx);
988 self.overwrite_local(local, LocalRef::Operand(op));
989 self.debug_introduce_local(bx, local);
990 }
991
992 return if let Some(target) = target {
993 helper.funclet_br(self, bx, target, mergeable_succ)
994 } else {
995 bx.unreachable();
996 MergingSucc::False
997 };
998 }
999 Err(instance) => {
1000 if intrinsic.must_be_overridden {
1001 span_bug!(
1002 fn_span,
1003 "intrinsic {} must be overridden by codegen backend, but isn't",
1004 intrinsic.name,
1005 );
1006 }
1007 instance
1008 }
1009 }
1010 }
1011 _ => instance,
1012 };
1013
1014 (Some(instance), None)
1015 }
1016 ty::FnPtr(..) => (None, Some(callee.immediate())),
1017 _ => bug!("{} is not callable", callee.layout.ty),
1018 };
1019
1020 let sig = callee.layout.ty.fn_sig(bx.tcx());
1024
1025 let extra_args = &args[sig.inputs().skip_binder().len()..];
1026 let extra_args = bx.tcx().mk_type_list_from_iter(extra_args.iter().map(|op_arg| {
1027 let op_ty = op_arg.node.ty(self.mir, bx.tcx());
1028 self.monomorphize(op_ty)
1029 }));
1030
1031 let fn_abi = match instance {
1032 Some(instance) => bx.fn_abi_of_instance(instance, extra_args),
1033 None => bx.fn_abi_of_fn_ptr(sig, extra_args),
1034 };
1035
1036 let arg_count = fn_abi.args.len() + fn_abi.ret.is_indirect() as usize;
1038
1039 let mut llargs = Vec::with_capacity(arg_count);
1040
1041 let return_dest = self.make_return_dest(bx, destination, &fn_abi.ret, &mut llargs);
1045 let destination = target.map(|target| (return_dest, target));
1046
1047 let (first_args, untuple) = if sig.abi() == ExternAbi::RustCall
1049 && let Some((tup, args)) = args.split_last()
1050 {
1051 (args, Some(tup))
1052 } else {
1053 (args, None)
1054 };
1055
1056 let mut lifetime_ends_after_call: Vec<(Bx::Value, Size)> = Vec::new();
1060 'make_args: for (i, arg) in first_args.iter().enumerate() {
1061 let mut op = self.codegen_operand(bx, &arg.node);
1062
1063 if let (0, Some(ty::InstanceKind::Virtual(_, idx))) = (i, instance.map(|i| i.def)) {
1064 match op.val {
1065 Pair(data_ptr, meta) => {
1066 while !op.layout.ty.is_raw_ptr() && !op.layout.ty.is_ref() {
1076 let (idx, _) = op.layout.non_1zst_field(bx).expect(
1077 "not exactly one non-1-ZST field in a `DispatchFromDyn` type",
1078 );
1079 op = op.extract_field(self, bx, idx.as_usize());
1080 }
1081
1082 llfn = Some(meth::VirtualIndex::from_index(idx).get_fn(
1086 bx,
1087 meta,
1088 op.layout.ty,
1089 fn_abi,
1090 ));
1091 llargs.push(data_ptr);
1092 continue 'make_args;
1093 }
1094 Ref(PlaceValue { llval: data_ptr, llextra: Some(meta), .. }) => {
1095 llfn = Some(meth::VirtualIndex::from_index(idx).get_fn(
1097 bx,
1098 meta,
1099 op.layout.ty,
1100 fn_abi,
1101 ));
1102 llargs.push(data_ptr);
1103 continue;
1104 }
1105 Immediate(_) => {
1106 while !op.layout.ty.is_raw_ptr() && !op.layout.ty.is_ref() {
1108 let (idx, _) = op.layout.non_1zst_field(bx).expect(
1109 "not exactly one non-1-ZST field in a `DispatchFromDyn` type",
1110 );
1111 op = op.extract_field(self, bx, idx.as_usize());
1112 }
1113
1114 if !op.layout.ty.builtin_deref(true).unwrap().is_dyn_star() {
1117 span_bug!(fn_span, "can't codegen a virtual call on {:#?}", op);
1118 }
1119 let place = op.deref(bx.cx());
1120 let data_place = place.project_field(bx, 0);
1121 let meta_place = place.project_field(bx, 1);
1122 let meta = bx.load_operand(meta_place);
1123 llfn = Some(meth::VirtualIndex::from_index(idx).get_fn(
1124 bx,
1125 meta.immediate(),
1126 op.layout.ty,
1127 fn_abi,
1128 ));
1129 llargs.push(data_place.val.llval);
1130 continue;
1131 }
1132 _ => {
1133 span_bug!(fn_span, "can't codegen a virtual call on {:#?}", op);
1134 }
1135 }
1136 }
1137
1138 match (&arg.node, op.val) {
1141 (&mir::Operand::Copy(_), Ref(PlaceValue { llextra: None, .. }))
1142 | (&mir::Operand::Constant(_), Ref(PlaceValue { llextra: None, .. })) => {
1143 let tmp = PlaceRef::alloca(bx, op.layout);
1144 bx.lifetime_start(tmp.val.llval, tmp.layout.size);
1145 op.val.store(bx, tmp);
1146 op.val = Ref(tmp.val);
1147 lifetime_ends_after_call.push((tmp.val.llval, tmp.layout.size));
1148 }
1149 _ => {}
1150 }
1151
1152 self.codegen_argument(
1153 bx,
1154 op,
1155 &mut llargs,
1156 &fn_abi.args[i],
1157 &mut lifetime_ends_after_call,
1158 );
1159 }
1160 let num_untupled = untuple.map(|tup| {
1161 self.codegen_arguments_untupled(
1162 bx,
1163 &tup.node,
1164 &mut llargs,
1165 &fn_abi.args[first_args.len()..],
1166 &mut lifetime_ends_after_call,
1167 )
1168 });
1169
1170 let needs_location =
1171 instance.is_some_and(|i| i.def.requires_caller_location(self.cx.tcx()));
1172 if needs_location {
1173 let mir_args = if let Some(num_untupled) = num_untupled {
1174 first_args.len() + num_untupled
1175 } else {
1176 args.len()
1177 };
1178 assert_eq!(
1179 fn_abi.args.len(),
1180 mir_args + 1,
1181 "#[track_caller] fn's must have 1 more argument in their ABI than in their MIR: {instance:?} {fn_span:?} {fn_abi:?}",
1182 );
1183 let location = self.get_caller_location(bx, source_info);
1184 debug!(
1185 "codegen_call_terminator({:?}): location={:?} (fn_span {:?})",
1186 terminator, location, fn_span
1187 );
1188
1189 let last_arg = fn_abi.args.last().unwrap();
1190 self.codegen_argument(
1191 bx,
1192 location,
1193 &mut llargs,
1194 last_arg,
1195 &mut lifetime_ends_after_call,
1196 );
1197 }
1198
1199 let fn_ptr = match (instance, llfn) {
1200 (Some(instance), None) => bx.get_fn_addr(instance),
1201 (_, Some(llfn)) => llfn,
1202 _ => span_bug!(fn_span, "no instance or llfn for call"),
1203 };
1204 self.set_debug_loc(bx, source_info);
1205 helper.do_call(
1206 self,
1207 bx,
1208 fn_abi,
1209 fn_ptr,
1210 &llargs,
1211 destination,
1212 unwind,
1213 &lifetime_ends_after_call,
1214 instance,
1215 mergeable_succ,
1216 )
1217 }
1218
1219 fn codegen_asm_terminator(
1220 &mut self,
1221 helper: TerminatorCodegenHelper<'tcx>,
1222 bx: &mut Bx,
1223 asm_macro: InlineAsmMacro,
1224 terminator: &mir::Terminator<'tcx>,
1225 template: &[ast::InlineAsmTemplatePiece],
1226 operands: &[mir::InlineAsmOperand<'tcx>],
1227 options: ast::InlineAsmOptions,
1228 line_spans: &[Span],
1229 targets: &[mir::BasicBlock],
1230 unwind: mir::UnwindAction,
1231 instance: Instance<'_>,
1232 mergeable_succ: bool,
1233 ) -> MergingSucc {
1234 let span = terminator.source_info.span;
1235
1236 let operands: Vec<_> = operands
1237 .iter()
1238 .map(|op| match *op {
1239 mir::InlineAsmOperand::In { reg, ref value } => {
1240 let value = self.codegen_operand(bx, value);
1241 InlineAsmOperandRef::In { reg, value }
1242 }
1243 mir::InlineAsmOperand::Out { reg, late, ref place } => {
1244 let place = place.map(|place| self.codegen_place(bx, place.as_ref()));
1245 InlineAsmOperandRef::Out { reg, late, place }
1246 }
1247 mir::InlineAsmOperand::InOut { reg, late, ref in_value, ref out_place } => {
1248 let in_value = self.codegen_operand(bx, in_value);
1249 let out_place =
1250 out_place.map(|out_place| self.codegen_place(bx, out_place.as_ref()));
1251 InlineAsmOperandRef::InOut { reg, late, in_value, out_place }
1252 }
1253 mir::InlineAsmOperand::Const { ref value } => {
1254 let const_value = self.eval_mir_constant(value);
1255 let string = common::asm_const_to_str(
1256 bx.tcx(),
1257 span,
1258 const_value,
1259 bx.layout_of(value.ty()),
1260 );
1261 InlineAsmOperandRef::Const { string }
1262 }
1263 mir::InlineAsmOperand::SymFn { ref value } => {
1264 let const_ = self.monomorphize(value.const_);
1265 if let ty::FnDef(def_id, args) = *const_.ty().kind() {
1266 let instance = ty::Instance::resolve_for_fn_ptr(
1267 bx.tcx(),
1268 bx.typing_env(),
1269 def_id,
1270 args,
1271 )
1272 .unwrap();
1273 InlineAsmOperandRef::SymFn { instance }
1274 } else {
1275 span_bug!(span, "invalid type for asm sym (fn)");
1276 }
1277 }
1278 mir::InlineAsmOperand::SymStatic { def_id } => {
1279 InlineAsmOperandRef::SymStatic { def_id }
1280 }
1281 mir::InlineAsmOperand::Label { target_index } => {
1282 InlineAsmOperandRef::Label { label: self.llbb(targets[target_index]) }
1283 }
1284 })
1285 .collect();
1286
1287 helper.do_inlineasm(
1288 self,
1289 bx,
1290 template,
1291 &operands,
1292 options,
1293 line_spans,
1294 if asm_macro.diverges(options) { None } else { targets.get(0).copied() },
1295 unwind,
1296 instance,
1297 mergeable_succ,
1298 )
1299 }
1300
1301 pub(crate) fn codegen_block(&mut self, mut bb: mir::BasicBlock) {
1302 let llbb = match self.try_llbb(bb) {
1303 Some(llbb) => llbb,
1304 None => return,
1305 };
1306 let bx = &mut Bx::build(self.cx, llbb);
1307 let mir = self.mir;
1308
1309 loop {
1313 let data = &mir[bb];
1314
1315 debug!("codegen_block({:?}={:?})", bb, data);
1316
1317 for statement in &data.statements {
1318 self.codegen_statement(bx, statement);
1319 }
1320
1321 let merging_succ = self.codegen_terminator(bx, bb, data.terminator());
1322 if let MergingSucc::False = merging_succ {
1323 break;
1324 }
1325
1326 let mut successors = data.terminator().successors();
1334 let succ = successors.next().unwrap();
1335 assert!(matches!(self.cached_llbbs[succ], CachedLlbb::None));
1336 self.cached_llbbs[succ] = CachedLlbb::Skip;
1337 bb = succ;
1338 }
1339 }
1340
1341 pub(crate) fn codegen_block_as_unreachable(&mut self, bb: mir::BasicBlock) {
1342 let llbb = match self.try_llbb(bb) {
1343 Some(llbb) => llbb,
1344 None => return,
1345 };
1346 let bx = &mut Bx::build(self.cx, llbb);
1347 debug!("codegen_block_as_unreachable({:?})", bb);
1348 bx.unreachable();
1349 }
1350
1351 fn codegen_terminator(
1352 &mut self,
1353 bx: &mut Bx,
1354 bb: mir::BasicBlock,
1355 terminator: &'tcx mir::Terminator<'tcx>,
1356 ) -> MergingSucc {
1357 debug!("codegen_terminator: {:?}", terminator);
1358
1359 let helper = TerminatorCodegenHelper { bb, terminator };
1360
1361 let mergeable_succ = || {
1362 let mut successors = terminator.successors();
1365 if let Some(succ) = successors.next()
1366 && successors.next().is_none()
1367 && let &[succ_pred] = self.mir.basic_blocks.predecessors()[succ].as_slice()
1368 {
1369 assert_eq!(succ_pred, bb);
1372 true
1373 } else {
1374 false
1375 }
1376 };
1377
1378 self.set_debug_loc(bx, terminator.source_info);
1379 match terminator.kind {
1380 mir::TerminatorKind::UnwindResume => {
1381 self.codegen_resume_terminator(helper, bx);
1382 MergingSucc::False
1383 }
1384
1385 mir::TerminatorKind::UnwindTerminate(reason) => {
1386 self.codegen_terminate_terminator(helper, bx, terminator, reason);
1387 MergingSucc::False
1388 }
1389
1390 mir::TerminatorKind::Goto { target } => {
1391 helper.funclet_br(self, bx, target, mergeable_succ())
1392 }
1393
1394 mir::TerminatorKind::SwitchInt { ref discr, ref targets } => {
1395 self.codegen_switchint_terminator(helper, bx, discr, targets);
1396 MergingSucc::False
1397 }
1398
1399 mir::TerminatorKind::Return => {
1400 self.codegen_return_terminator(bx);
1401 MergingSucc::False
1402 }
1403
1404 mir::TerminatorKind::Unreachable => {
1405 bx.unreachable();
1406 MergingSucc::False
1407 }
1408
1409 mir::TerminatorKind::Drop { place, target, unwind, replace: _, drop, async_fut } => {
1410 assert!(
1411 async_fut.is_none() && drop.is_none(),
1412 "Async Drop must be expanded or reset to sync before codegen"
1413 );
1414 self.codegen_drop_terminator(
1415 helper,
1416 bx,
1417 &terminator.source_info,
1418 place,
1419 target,
1420 unwind,
1421 mergeable_succ(),
1422 )
1423 }
1424
1425 mir::TerminatorKind::Assert { ref cond, expected, ref msg, target, unwind } => self
1426 .codegen_assert_terminator(
1427 helper,
1428 bx,
1429 terminator,
1430 cond,
1431 expected,
1432 msg,
1433 target,
1434 unwind,
1435 mergeable_succ(),
1436 ),
1437
1438 mir::TerminatorKind::Call {
1439 ref func,
1440 ref args,
1441 destination,
1442 target,
1443 unwind,
1444 call_source: _,
1445 fn_span,
1446 } => self.codegen_call_terminator(
1447 helper,
1448 bx,
1449 terminator,
1450 func,
1451 args,
1452 destination,
1453 target,
1454 unwind,
1455 fn_span,
1456 mergeable_succ(),
1457 ),
1458 mir::TerminatorKind::TailCall { .. } => {
1459 span_bug!(
1461 terminator.source_info.span,
1462 "`TailCall` terminator is not yet supported by `rustc_codegen_ssa`"
1463 )
1464 }
1465 mir::TerminatorKind::CoroutineDrop | mir::TerminatorKind::Yield { .. } => {
1466 bug!("coroutine ops in codegen")
1467 }
1468 mir::TerminatorKind::FalseEdge { .. } | mir::TerminatorKind::FalseUnwind { .. } => {
1469 bug!("borrowck false edges in codegen")
1470 }
1471
1472 mir::TerminatorKind::InlineAsm {
1473 asm_macro,
1474 template,
1475 ref operands,
1476 options,
1477 line_spans,
1478 ref targets,
1479 unwind,
1480 } => self.codegen_asm_terminator(
1481 helper,
1482 bx,
1483 asm_macro,
1484 terminator,
1485 template,
1486 operands,
1487 options,
1488 line_spans,
1489 targets,
1490 unwind,
1491 self.instance,
1492 mergeable_succ(),
1493 ),
1494 }
1495 }
1496
1497 fn codegen_argument(
1498 &mut self,
1499 bx: &mut Bx,
1500 op: OperandRef<'tcx, Bx::Value>,
1501 llargs: &mut Vec<Bx::Value>,
1502 arg: &ArgAbi<'tcx, Ty<'tcx>>,
1503 lifetime_ends_after_call: &mut Vec<(Bx::Value, Size)>,
1504 ) {
1505 match arg.mode {
1506 PassMode::Ignore => return,
1507 PassMode::Cast { pad_i32: true, .. } => {
1508 llargs.push(bx.const_undef(bx.reg_backend_type(&Reg::i32())));
1510 }
1511 PassMode::Pair(..) => match op.val {
1512 Pair(a, b) => {
1513 llargs.push(a);
1514 llargs.push(b);
1515 return;
1516 }
1517 _ => bug!("codegen_argument: {:?} invalid for pair argument", op),
1518 },
1519 PassMode::Indirect { attrs: _, meta_attrs: Some(_), on_stack: _ } => match op.val {
1520 Ref(PlaceValue { llval: a, llextra: Some(b), .. }) => {
1521 llargs.push(a);
1522 llargs.push(b);
1523 return;
1524 }
1525 _ => bug!("codegen_argument: {:?} invalid for unsized indirect argument", op),
1526 },
1527 _ => {}
1528 }
1529
1530 let (mut llval, align, by_ref) = match op.val {
1532 Immediate(_) | Pair(..) => match arg.mode {
1533 PassMode::Indirect { attrs, .. } => {
1534 let required_align = match attrs.pointee_align {
1538 Some(pointee_align) => cmp::max(pointee_align, arg.layout.align.abi),
1539 None => arg.layout.align.abi,
1540 };
1541 let scratch = PlaceValue::alloca(bx, arg.layout.size, required_align);
1542 bx.lifetime_start(scratch.llval, arg.layout.size);
1543 op.val.store(bx, scratch.with_type(arg.layout));
1544 lifetime_ends_after_call.push((scratch.llval, arg.layout.size));
1545 (scratch.llval, scratch.align, true)
1546 }
1547 PassMode::Cast { .. } => {
1548 let scratch = PlaceRef::alloca(bx, arg.layout);
1549 op.val.store(bx, scratch);
1550 (scratch.val.llval, scratch.val.align, true)
1551 }
1552 _ => (op.immediate_or_packed_pair(bx), arg.layout.align.abi, false),
1553 },
1554 Ref(op_place_val) => match arg.mode {
1555 PassMode::Indirect { attrs, .. } => {
1556 let required_align = match attrs.pointee_align {
1557 Some(pointee_align) => cmp::max(pointee_align, arg.layout.align.abi),
1558 None => arg.layout.align.abi,
1559 };
1560 if op_place_val.align < required_align {
1561 let scratch = PlaceValue::alloca(bx, arg.layout.size, required_align);
1565 bx.lifetime_start(scratch.llval, arg.layout.size);
1566 bx.typed_place_copy(scratch, op_place_val, op.layout);
1567 lifetime_ends_after_call.push((scratch.llval, arg.layout.size));
1568 (scratch.llval, scratch.align, true)
1569 } else {
1570 (op_place_val.llval, op_place_val.align, true)
1571 }
1572 }
1573 _ => (op_place_val.llval, op_place_val.align, true),
1574 },
1575 ZeroSized => match arg.mode {
1576 PassMode::Indirect { on_stack, .. } => {
1577 if on_stack {
1578 bug!("ZST {op:?} passed on stack with abi {arg:?}");
1581 }
1582 let scratch = PlaceRef::alloca(bx, arg.layout);
1586 (scratch.val.llval, scratch.val.align, true)
1587 }
1588 _ => bug!("ZST {op:?} wasn't ignored, but was passed with abi {arg:?}"),
1589 },
1590 };
1591
1592 if by_ref && !arg.is_indirect() {
1593 if let PassMode::Cast { cast, pad_i32: _ } = &arg.mode {
1595 let scratch_size = cast.size(bx);
1599 let scratch_align = cast.align(bx);
1600 let copy_bytes = cmp::min(cast.unaligned_size(bx).bytes(), arg.layout.size.bytes());
1607 let llscratch = bx.alloca(scratch_size, scratch_align);
1609 bx.lifetime_start(llscratch, scratch_size);
1610 bx.memcpy(
1612 llscratch,
1613 scratch_align,
1614 llval,
1615 align,
1616 bx.const_usize(copy_bytes),
1617 MemFlags::empty(),
1618 );
1619 llval = load_cast(bx, cast, llscratch, scratch_align);
1621 bx.lifetime_end(llscratch, scratch_size);
1622 } else {
1623 llval = bx.load(bx.backend_type(arg.layout), llval, align);
1629 if let BackendRepr::Scalar(scalar) = arg.layout.backend_repr {
1630 if scalar.is_bool() {
1631 bx.range_metadata(llval, WrappingRange { start: 0, end: 1 });
1632 }
1633 llval = bx.to_immediate_scalar(llval, scalar);
1635 }
1636 }
1637 }
1638
1639 llargs.push(llval);
1640 }
1641
1642 fn codegen_arguments_untupled(
1643 &mut self,
1644 bx: &mut Bx,
1645 operand: &mir::Operand<'tcx>,
1646 llargs: &mut Vec<Bx::Value>,
1647 args: &[ArgAbi<'tcx, Ty<'tcx>>],
1648 lifetime_ends_after_call: &mut Vec<(Bx::Value, Size)>,
1649 ) -> usize {
1650 let tuple = self.codegen_operand(bx, operand);
1651
1652 if let Ref(place_val) = tuple.val {
1654 if place_val.llextra.is_some() {
1655 bug!("closure arguments must be sized");
1656 }
1657 let tuple_ptr = place_val.with_type(tuple.layout);
1658 for i in 0..tuple.layout.fields.count() {
1659 let field_ptr = tuple_ptr.project_field(bx, i);
1660 let field = bx.load_operand(field_ptr);
1661 self.codegen_argument(bx, field, llargs, &args[i], lifetime_ends_after_call);
1662 }
1663 } else {
1664 for i in 0..tuple.layout.fields.count() {
1666 let op = tuple.extract_field(self, bx, i);
1667 self.codegen_argument(bx, op, llargs, &args[i], lifetime_ends_after_call);
1668 }
1669 }
1670 tuple.layout.fields.count()
1671 }
1672
1673 pub(super) fn get_caller_location(
1674 &mut self,
1675 bx: &mut Bx,
1676 source_info: mir::SourceInfo,
1677 ) -> OperandRef<'tcx, Bx::Value> {
1678 self.mir.caller_location_span(source_info, self.caller_location, bx.tcx(), |span: Span| {
1679 let const_loc = bx.tcx().span_as_caller_location(span);
1680 OperandRef::from_const(bx, const_loc, bx.tcx().caller_location_ty())
1681 })
1682 }
1683
1684 fn get_personality_slot(&mut self, bx: &mut Bx) -> PlaceRef<'tcx, Bx::Value> {
1685 let cx = bx.cx();
1686 if let Some(slot) = self.personality_slot {
1687 slot
1688 } else {
1689 let layout = cx.layout_of(Ty::new_tup(
1690 cx.tcx(),
1691 &[Ty::new_mut_ptr(cx.tcx(), cx.tcx().types.u8), cx.tcx().types.i32],
1692 ));
1693 let slot = PlaceRef::alloca(bx, layout);
1694 self.personality_slot = Some(slot);
1695 slot
1696 }
1697 }
1698
1699 fn landing_pad_for(&mut self, bb: mir::BasicBlock) -> Bx::BasicBlock {
1702 if let Some(landing_pad) = self.landing_pads[bb] {
1703 return landing_pad;
1704 }
1705
1706 let landing_pad = self.landing_pad_for_uncached(bb);
1707 self.landing_pads[bb] = Some(landing_pad);
1708 landing_pad
1709 }
1710
1711 fn landing_pad_for_uncached(&mut self, bb: mir::BasicBlock) -> Bx::BasicBlock {
1713 let llbb = self.llbb(bb);
1714 if base::wants_new_eh_instructions(self.cx.sess()) {
1715 let cleanup_bb = Bx::append_block(self.cx, self.llfn, &format!("funclet_{bb:?}"));
1716 let mut cleanup_bx = Bx::build(self.cx, cleanup_bb);
1717 let funclet = cleanup_bx.cleanup_pad(None, &[]);
1718 cleanup_bx.br(llbb);
1719 self.funclets[bb] = Some(funclet);
1720 cleanup_bb
1721 } else {
1722 let cleanup_llbb = Bx::append_block(self.cx, self.llfn, "cleanup");
1723 let mut cleanup_bx = Bx::build(self.cx, cleanup_llbb);
1724
1725 let llpersonality = self.cx.eh_personality();
1726 let (exn0, exn1) = cleanup_bx.cleanup_landing_pad(llpersonality);
1727
1728 let slot = self.get_personality_slot(&mut cleanup_bx);
1729 slot.storage_live(&mut cleanup_bx);
1730 Pair(exn0, exn1).store(&mut cleanup_bx, slot);
1731
1732 cleanup_bx.br(llbb);
1733 cleanup_llbb
1734 }
1735 }
1736
1737 fn unreachable_block(&mut self) -> Bx::BasicBlock {
1738 self.unreachable_block.unwrap_or_else(|| {
1739 let llbb = Bx::append_block(self.cx, self.llfn, "unreachable");
1740 let mut bx = Bx::build(self.cx, llbb);
1741 bx.unreachable();
1742 self.unreachable_block = Some(llbb);
1743 llbb
1744 })
1745 }
1746
1747 fn terminate_block(&mut self, reason: UnwindTerminateReason) -> Bx::BasicBlock {
1748 if let Some((cached_bb, cached_reason)) = self.terminate_block
1749 && reason == cached_reason
1750 {
1751 return cached_bb;
1752 }
1753
1754 let funclet;
1755 let llbb;
1756 let mut bx;
1757 if base::wants_new_eh_instructions(self.cx.sess()) {
1758 llbb = Bx::append_block(self.cx, self.llfn, "cs_terminate");
1788 let cp_llbb = Bx::append_block(self.cx, self.llfn, "cp_terminate");
1789
1790 let mut cs_bx = Bx::build(self.cx, llbb);
1791 let cs = cs_bx.catch_switch(None, None, &[cp_llbb]);
1792
1793 bx = Bx::build(self.cx, cp_llbb);
1794 let null =
1795 bx.const_null(bx.type_ptr_ext(bx.cx().data_layout().instruction_address_space));
1796
1797 let args = if base::wants_msvc_seh(self.cx.sess()) {
1801 let adjectives = bx.const_i32(0x40);
1808 &[null, adjectives, null] as &[_]
1809 } else {
1810 &[null] as &[_]
1816 };
1817
1818 funclet = Some(bx.catch_pad(cs, args));
1819 } else {
1820 llbb = Bx::append_block(self.cx, self.llfn, "terminate");
1821 bx = Bx::build(self.cx, llbb);
1822
1823 let llpersonality = self.cx.eh_personality();
1824 bx.filter_landing_pad(llpersonality);
1825
1826 funclet = None;
1827 }
1828
1829 self.set_debug_loc(&mut bx, mir::SourceInfo::outermost(self.mir.span));
1830
1831 let (fn_abi, fn_ptr, instance) =
1832 common::build_langcall(&bx, self.mir.span, reason.lang_item());
1833 if is_call_from_compiler_builtins_to_upstream_monomorphization(bx.tcx(), instance) {
1834 bx.abort();
1835 } else {
1836 let fn_ty = bx.fn_decl_backend_type(fn_abi);
1837
1838 let llret = bx.call(fn_ty, None, Some(fn_abi), fn_ptr, &[], funclet.as_ref(), None);
1839 bx.apply_attrs_to_cleanup_callsite(llret);
1840 }
1841
1842 bx.unreachable();
1843
1844 self.terminate_block = Some((llbb, reason));
1845 llbb
1846 }
1847
1848 pub fn llbb(&mut self, bb: mir::BasicBlock) -> Bx::BasicBlock {
1853 self.try_llbb(bb).unwrap()
1854 }
1855
1856 pub(crate) fn try_llbb(&mut self, bb: mir::BasicBlock) -> Option<Bx::BasicBlock> {
1858 match self.cached_llbbs[bb] {
1859 CachedLlbb::None => {
1860 let llbb = Bx::append_block(self.cx, self.llfn, &format!("{bb:?}"));
1861 self.cached_llbbs[bb] = CachedLlbb::Some(llbb);
1862 Some(llbb)
1863 }
1864 CachedLlbb::Some(llbb) => Some(llbb),
1865 CachedLlbb::Skip => None,
1866 }
1867 }
1868
1869 fn make_return_dest(
1870 &mut self,
1871 bx: &mut Bx,
1872 dest: mir::Place<'tcx>,
1873 fn_ret: &ArgAbi<'tcx, Ty<'tcx>>,
1874 llargs: &mut Vec<Bx::Value>,
1875 ) -> ReturnDest<'tcx, Bx::Value> {
1876 if fn_ret.is_ignore() {
1878 return ReturnDest::Nothing;
1879 }
1880 let dest = if let Some(index) = dest.as_local() {
1881 match self.locals[index] {
1882 LocalRef::Place(dest) => dest,
1883 LocalRef::UnsizedPlace(_) => bug!("return type must be sized"),
1884 LocalRef::PendingOperand => {
1885 return if fn_ret.is_indirect() {
1888 let tmp = PlaceRef::alloca(bx, fn_ret.layout);
1891 tmp.storage_live(bx);
1892 llargs.push(tmp.val.llval);
1893 ReturnDest::IndirectOperand(tmp, index)
1894 } else {
1895 ReturnDest::DirectOperand(index)
1896 };
1897 }
1898 LocalRef::Operand(_) => {
1899 bug!("place local already assigned to");
1900 }
1901 }
1902 } else {
1903 self.codegen_place(bx, dest.as_ref())
1904 };
1905 if fn_ret.is_indirect() {
1906 if dest.val.align < dest.layout.align.abi {
1907 span_bug!(self.mir.span, "can't directly store to unaligned value");
1914 }
1915 llargs.push(dest.val.llval);
1916 ReturnDest::Nothing
1917 } else {
1918 ReturnDest::Store(dest)
1919 }
1920 }
1921
1922 fn store_return(
1924 &mut self,
1925 bx: &mut Bx,
1926 dest: ReturnDest<'tcx, Bx::Value>,
1927 ret_abi: &ArgAbi<'tcx, Ty<'tcx>>,
1928 llval: Bx::Value,
1929 ) {
1930 use self::ReturnDest::*;
1931
1932 match dest {
1933 Nothing => (),
1934 Store(dst) => bx.store_arg(ret_abi, llval, dst),
1935 IndirectOperand(tmp, index) => {
1936 let op = bx.load_operand(tmp);
1937 tmp.storage_dead(bx);
1938 self.overwrite_local(index, LocalRef::Operand(op));
1939 self.debug_introduce_local(bx, index);
1940 }
1941 DirectOperand(index) => {
1942 let op = if let PassMode::Cast { .. } = ret_abi.mode {
1944 let tmp = PlaceRef::alloca(bx, ret_abi.layout);
1945 tmp.storage_live(bx);
1946 bx.store_arg(ret_abi, llval, tmp);
1947 let op = bx.load_operand(tmp);
1948 tmp.storage_dead(bx);
1949 op
1950 } else {
1951 OperandRef::from_immediate_or_packed_pair(bx, llval, ret_abi.layout)
1952 };
1953 self.overwrite_local(index, LocalRef::Operand(op));
1954 self.debug_introduce_local(bx, index);
1955 }
1956 }
1957 }
1958}
1959
1960enum ReturnDest<'tcx, V> {
1961 Nothing,
1963 Store(PlaceRef<'tcx, V>),
1965 IndirectOperand(PlaceRef<'tcx, V>, mir::Local),
1967 DirectOperand(mir::Local),
1969}
1970
1971fn load_cast<'a, 'tcx, Bx: BuilderMethods<'a, 'tcx>>(
1972 bx: &mut Bx,
1973 cast: &CastTarget,
1974 ptr: Bx::Value,
1975 align: Align,
1976) -> Bx::Value {
1977 let cast_ty = bx.cast_backend_type(cast);
1978 if let Some(offset_from_start) = cast.rest_offset {
1979 assert!(cast.prefix[1..].iter().all(|p| p.is_none()));
1980 assert_eq!(cast.rest.unit.size, cast.rest.total);
1981 let first_ty = bx.reg_backend_type(&cast.prefix[0].unwrap());
1982 let second_ty = bx.reg_backend_type(&cast.rest.unit);
1983 let first = bx.load(first_ty, ptr, align);
1984 let second_ptr = bx.inbounds_ptradd(ptr, bx.const_usize(offset_from_start.bytes()));
1985 let second = bx.load(second_ty, second_ptr, align.restrict_for_offset(offset_from_start));
1986 let res = bx.cx().const_poison(cast_ty);
1987 let res = bx.insert_value(res, first, 0);
1988 bx.insert_value(res, second, 1)
1989 } else {
1990 bx.load(cast_ty, ptr, align)
1991 }
1992}
1993
1994pub fn store_cast<'a, 'tcx, Bx: BuilderMethods<'a, 'tcx>>(
1995 bx: &mut Bx,
1996 cast: &CastTarget,
1997 value: Bx::Value,
1998 ptr: Bx::Value,
1999 align: Align,
2000) {
2001 if let Some(offset_from_start) = cast.rest_offset {
2002 assert!(cast.prefix[1..].iter().all(|p| p.is_none()));
2003 assert_eq!(cast.rest.unit.size, cast.rest.total);
2004 assert!(cast.prefix[0].is_some());
2005 let first = bx.extract_value(value, 0);
2006 let second = bx.extract_value(value, 1);
2007 bx.store(first, ptr, align);
2008 let second_ptr = bx.inbounds_ptradd(ptr, bx.const_usize(offset_from_start.bytes()));
2009 bx.store(second, second_ptr, align.restrict_for_offset(offset_from_start));
2010 } else {
2011 bx.store(value, ptr, align);
2012 };
2013}