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Eugene Zelenkofa57bd02017-09-27 23:26:01 +00001//===- StatepointLowering.cpp - SDAGBuilder's statepoint code -------------===//
Philip Reames1a1bdb22014-12-02 18:50:36 +00002//
Chandler Carruth2946cd72019-01-19 08:50:56 +00003// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4// See https://llvm.org/LICENSE.txt for license information.
5// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
Philip Reames1a1bdb22014-12-02 18:50:36 +00006//
7//===----------------------------------------------------------------------===//
8//
9// This file includes support code use by SelectionDAGBuilder when lowering a
10// statepoint sequence in SelectionDAG IR.
11//
12//===----------------------------------------------------------------------===//
13
14#include "StatepointLowering.h"
15#include "SelectionDAGBuilder.h"
Eugene Zelenkofa57bd02017-09-27 23:26:01 +000016#include "llvm/ADT/ArrayRef.h"
17#include "llvm/ADT/DenseMap.h"
18#include "llvm/ADT/None.h"
19#include "llvm/ADT/Optional.h"
20#include "llvm/ADT/STLExtras.h"
21#include "llvm/ADT/SmallVector.h"
Philip Reames1a1bdb22014-12-02 18:50:36 +000022#include "llvm/ADT/Statistic.h"
23#include "llvm/CodeGen/FunctionLoweringInfo.h"
Chandler Carruth71f308a2015-02-13 09:09:03 +000024#include "llvm/CodeGen/GCMetadata.h"
Philip Reames56a03932015-01-26 18:26:35 +000025#include "llvm/CodeGen/GCStrategy.h"
Eugene Zelenkofa57bd02017-09-27 23:26:01 +000026#include "llvm/CodeGen/ISDOpcodes.h"
Chandler Carruth6bda14b2017-06-06 11:49:48 +000027#include "llvm/CodeGen/MachineFrameInfo.h"
Eugene Zelenkofa57bd02017-09-27 23:26:01 +000028#include "llvm/CodeGen/MachineFunction.h"
29#include "llvm/CodeGen/MachineMemOperand.h"
Eugene Zelenkofa57bd02017-09-27 23:26:01 +000030#include "llvm/CodeGen/RuntimeLibcalls.h"
Philip Reames1a1bdb22014-12-02 18:50:36 +000031#include "llvm/CodeGen/SelectionDAG.h"
Eugene Zelenkofa57bd02017-09-27 23:26:01 +000032#include "llvm/CodeGen/SelectionDAGNodes.h"
Philip Reames1a1bdb22014-12-02 18:50:36 +000033#include "llvm/CodeGen/StackMaps.h"
David Blaikieb3bde2e2017-11-17 01:07:10 +000034#include "llvm/CodeGen/TargetLowering.h"
35#include "llvm/CodeGen/TargetOpcodes.h"
Philip Reames1a1bdb22014-12-02 18:50:36 +000036#include "llvm/IR/CallingConv.h"
Eugene Zelenkofa57bd02017-09-27 23:26:01 +000037#include "llvm/IR/DerivedTypes.h"
38#include "llvm/IR/Instruction.h"
Philip Reames1a1bdb22014-12-02 18:50:36 +000039#include "llvm/IR/Instructions.h"
Eugene Zelenkofa57bd02017-09-27 23:26:01 +000040#include "llvm/IR/LLVMContext.h"
Philip Reames1a1bdb22014-12-02 18:50:36 +000041#include "llvm/IR/Statepoint.h"
Eugene Zelenkofa57bd02017-09-27 23:26:01 +000042#include "llvm/IR/Type.h"
43#include "llvm/Support/Casting.h"
David Blaikie13e77db2018-03-23 23:58:25 +000044#include "llvm/Support/MachineValueType.h"
Eugene Zelenkofa57bd02017-09-27 23:26:01 +000045#include "llvm/Target/TargetMachine.h"
Eugene Zelenkofa57bd02017-09-27 23:26:01 +000046#include "llvm/Target/TargetOptions.h"
47#include <cassert>
48#include <cstddef>
49#include <cstdint>
50#include <iterator>
51#include <tuple>
52#include <utility>
53
Philip Reames1a1bdb22014-12-02 18:50:36 +000054using namespace llvm;
55
56#define DEBUG_TYPE "statepoint-lowering"
57
58STATISTIC(NumSlotsAllocatedForStatepoints,
59 "Number of stack slots allocated for statepoints");
60STATISTIC(NumOfStatepoints, "Number of statepoint nodes encountered");
61STATISTIC(StatepointMaxSlotsRequired,
62 "Maximum number of stack slots required for a singe statepoint");
63
Pat Gavlinc7dc6d6ee2015-05-12 19:50:19 +000064static void pushStackMapConstant(SmallVectorImpl<SDValue>& Ops,
65 SelectionDAGBuilder &Builder, uint64_t Value) {
66 SDLoc L = Builder.getCurSDLoc();
67 Ops.push_back(Builder.DAG.getTargetConstant(StackMaps::ConstantOp, L,
68 MVT::i64));
69 Ops.push_back(Builder.DAG.getTargetConstant(Value, L, MVT::i64));
70}
71
Pat Gavlin022c5ac2015-04-29 21:52:45 +000072void StatepointLoweringState::startNewStatepoint(SelectionDAGBuilder &Builder) {
Philip Reames1a1bdb22014-12-02 18:50:36 +000073 // Consistency check
74 assert(PendingGCRelocateCalls.empty() &&
75 "Trying to visit statepoint before finished processing previous one");
76 Locations.clear();
Philip Reames1a1bdb22014-12-02 18:50:36 +000077 NextSlotToAllocate = 0;
Sanjoy Das171313c2016-02-19 17:15:26 +000078 // Need to resize this on each safepoint - we need the two to stay in sync and
79 // the clear patterns of a SelectionDAGBuilder have no relation to
Philip Reames51387a82016-12-13 01:21:15 +000080 // FunctionLoweringInfo. Also need to ensure used bits get cleared.
81 AllocatedStackSlots.clear();
Philip Reames1a1bdb22014-12-02 18:50:36 +000082 AllocatedStackSlots.resize(Builder.FuncInfo.StatepointStackSlots.size());
Philip Reames1a1bdb22014-12-02 18:50:36 +000083}
Igor Laevsky423bc9ec2015-05-20 11:37:25 +000084
Philip Reames1a1bdb22014-12-02 18:50:36 +000085void StatepointLoweringState::clear() {
86 Locations.clear();
Philip Reames1a1bdb22014-12-02 18:50:36 +000087 AllocatedStackSlots.clear();
88 assert(PendingGCRelocateCalls.empty() &&
89 "cleared before statepoint sequence completed");
90}
91
92SDValue
93StatepointLoweringState::allocateStackSlot(EVT ValueType,
94 SelectionDAGBuilder &Builder) {
Philip Reames1a1bdb22014-12-02 18:50:36 +000095 NumSlotsAllocatedForStatepoints++;
Matthias Braun941a7052016-07-28 18:40:00 +000096 MachineFrameInfo &MFI = Builder.DAG.getMachineFunction().getFrameInfo();
Sanjoy Dasd2db73ba2016-02-19 17:15:22 +000097
Jonas Paulssonf0ff20f2017-11-28 14:44:32 +000098 unsigned SpillSize = ValueType.getStoreSize();
Sanjoy Dasd2db73ba2016-02-19 17:15:22 +000099 assert((SpillSize * 8) == ValueType.getSizeInBits() && "Size not in bytes?");
Philip Reames1a1bdb22014-12-02 18:50:36 +0000100
Sanjoy Das7b2e91f2016-02-19 17:15:17 +0000101 // First look for a previously created stack slot which is not in
102 // use (accounting for the fact arbitrary slots may already be
103 // reserved), or to create a new stack slot and use it.
Philip Reames1a1bdb22014-12-02 18:50:36 +0000104
Sanjoy Das7b2e91f2016-02-19 17:15:17 +0000105 const size_t NumSlots = AllocatedStackSlots.size();
106 assert(NextSlotToAllocate <= NumSlots && "Broken invariant");
Philip Reames1a1bdb22014-12-02 18:50:36 +0000107
Philip Reames51387a82016-12-13 01:21:15 +0000108 assert(AllocatedStackSlots.size() ==
109 Builder.FuncInfo.StatepointStackSlots.size() &&
Sanjoy Das171313c2016-02-19 17:15:26 +0000110 "Broken invariant");
111
Sanjoy Das7b2e91f2016-02-19 17:15:17 +0000112 for (; NextSlotToAllocate < NumSlots; NextSlotToAllocate++) {
Sanjoy Dase8019df2016-02-19 18:15:53 +0000113 if (!AllocatedStackSlots.test(NextSlotToAllocate)) {
Philip Reames1a1bdb22014-12-02 18:50:36 +0000114 const int FI = Builder.FuncInfo.StatepointStackSlots[NextSlotToAllocate];
Matthias Braun941a7052016-07-28 18:40:00 +0000115 if (MFI.getObjectSize(FI) == SpillSize) {
Sanjoy Dase8019df2016-02-19 18:15:53 +0000116 AllocatedStackSlots.set(NextSlotToAllocate);
Philip Reames51387a82016-12-13 01:21:15 +0000117 // TODO: Is ValueType the right thing to use here?
Sanjoy Dase8019df2016-02-19 18:15:53 +0000118 return Builder.DAG.getFrameIndex(FI, ValueType);
119 }
Philip Reames1a1bdb22014-12-02 18:50:36 +0000120 }
Philip Reames1a1bdb22014-12-02 18:50:36 +0000121 }
Sanjoy Das7b2e91f2016-02-19 17:15:17 +0000122
123 // Couldn't find a free slot, so create a new one:
124
Sanjoy Das7b2e91f2016-02-19 17:15:17 +0000125 SDValue SpillSlot = Builder.DAG.CreateStackTemporary(ValueType);
126 const unsigned FI = cast<FrameIndexSDNode>(SpillSlot)->getIndex();
Matthias Braun941a7052016-07-28 18:40:00 +0000127 MFI.markAsStatepointSpillSlotObjectIndex(FI);
Sanjoy Das7b2e91f2016-02-19 17:15:17 +0000128
129 Builder.FuncInfo.StatepointStackSlots.push_back(FI);
Philip Reames51387a82016-12-13 01:21:15 +0000130 AllocatedStackSlots.resize(AllocatedStackSlots.size()+1, true);
131 assert(AllocatedStackSlots.size() ==
132 Builder.FuncInfo.StatepointStackSlots.size() &&
133 "Broken invariant");
Sanjoy Dasf6fee292016-02-19 18:15:56 +0000134
Craig Topper8a950272017-05-18 00:51:39 +0000135 StatepointMaxSlotsRequired.updateMax(
136 Builder.FuncInfo.StatepointStackSlots.size());
Sanjoy Dasf6fee292016-02-19 18:15:56 +0000137
Sanjoy Das7b2e91f2016-02-19 17:15:17 +0000138 return SpillSlot;
Philip Reames1a1bdb22014-12-02 18:50:36 +0000139}
140
Igor Laevsky346ff622015-06-10 12:31:53 +0000141/// Utility function for reservePreviousStackSlotForValue. Tries to find
142/// stack slot index to which we have spilled value for previous statepoints.
143/// LookUpDepth specifies maximum DFS depth this function is allowed to look.
144static Optional<int> findPreviousSpillSlot(const Value *Val,
145 SelectionDAGBuilder &Builder,
146 int LookUpDepth) {
Benjamin Kramerdf005cb2015-08-08 18:27:36 +0000147 // Can not look any further - give up now
Igor Laevsky346ff622015-06-10 12:31:53 +0000148 if (LookUpDepth <= 0)
Sanjoy Das86d7d832016-02-05 23:40:04 +0000149 return None;
Igor Laevsky346ff622015-06-10 12:31:53 +0000150
151 // Spill location is known for gc relocates
Manuel Jacob83eefa62016-01-05 04:03:00 +0000152 if (const auto *Relocate = dyn_cast<GCRelocateInst>(Val)) {
Sanjoy Dasffb7bd12016-02-19 19:37:07 +0000153 const auto &SpillMap =
Sanjoy Dasc0c59fe2016-03-24 18:57:39 +0000154 Builder.FuncInfo.StatepointSpillMaps[Relocate->getStatepoint()];
Igor Laevsky346ff622015-06-10 12:31:53 +0000155
Manuel Jacob83eefa62016-01-05 04:03:00 +0000156 auto It = SpillMap.find(Relocate->getDerivedPtr());
Igor Laevsky346ff622015-06-10 12:31:53 +0000157 if (It == SpillMap.end())
Sanjoy Das86d7d832016-02-05 23:40:04 +0000158 return None;
Igor Laevsky346ff622015-06-10 12:31:53 +0000159
160 return It->second;
161 }
162
163 // Look through bitcast instructions.
Sanjoy Dasffb7bd12016-02-19 19:37:07 +0000164 if (const BitCastInst *Cast = dyn_cast<BitCastInst>(Val))
Igor Laevsky346ff622015-06-10 12:31:53 +0000165 return findPreviousSpillSlot(Cast->getOperand(0), Builder, LookUpDepth - 1);
Igor Laevsky346ff622015-06-10 12:31:53 +0000166
167 // Look through phi nodes
168 // All incoming values should have same known stack slot, otherwise result
169 // is unknown.
170 if (const PHINode *Phi = dyn_cast<PHINode>(Val)) {
171 Optional<int> MergedResult = None;
172
173 for (auto &IncomingValue : Phi->incoming_values()) {
174 Optional<int> SpillSlot =
175 findPreviousSpillSlot(IncomingValue, Builder, LookUpDepth - 1);
176 if (!SpillSlot.hasValue())
Sanjoy Das86d7d832016-02-05 23:40:04 +0000177 return None;
Igor Laevsky346ff622015-06-10 12:31:53 +0000178
179 if (MergedResult.hasValue() && *MergedResult != *SpillSlot)
Sanjoy Das86d7d832016-02-05 23:40:04 +0000180 return None;
Igor Laevsky346ff622015-06-10 12:31:53 +0000181
182 MergedResult = SpillSlot;
183 }
184 return MergedResult;
185 }
186
187 // TODO: We can do better for PHI nodes. In cases like this:
188 // ptr = phi(relocated_pointer, not_relocated_pointer)
189 // statepoint(ptr)
190 // We will return that stack slot for ptr is unknown. And later we might
191 // assign different stack slots for ptr and relocated_pointer. This limits
192 // llvm's ability to remove redundant stores.
193 // Unfortunately it's hard to accomplish in current infrastructure.
194 // We use this function to eliminate spill store completely, while
195 // in example we still need to emit store, but instead of any location
196 // we need to use special "preferred" location.
197
198 // TODO: handle simple updates. If a value is modified and the original
199 // value is no longer live, it would be nice to put the modified value in the
200 // same slot. This allows folding of the memory accesses for some
201 // instructions types (like an increment).
202 // statepoint (i)
203 // i1 = i+1
204 // statepoint (i1)
205 // However we need to be careful for cases like this:
206 // statepoint(i)
207 // i1 = i+1
208 // statepoint(i, i1)
209 // Here we want to reserve spill slot for 'i', but not for 'i+1'. If we just
210 // put handling of simple modifications in this function like it's done
211 // for bitcasts we might end up reserving i's slot for 'i+1' because order in
212 // which we visit values is unspecified.
213
214 // Don't know any information about this instruction
Sanjoy Das86d7d832016-02-05 23:40:04 +0000215 return None;
Igor Laevsky346ff622015-06-10 12:31:53 +0000216}
217
Philip Reames1a1bdb22014-12-02 18:50:36 +0000218/// Try to find existing copies of the incoming values in stack slots used for
219/// statepoint spilling. If we can find a spill slot for the incoming value,
220/// mark that slot as allocated, and reuse the same slot for this safepoint.
Benjamin Kramerdf005cb2015-08-08 18:27:36 +0000221/// This helps to avoid series of loads and stores that only serve to reshuffle
Philip Reames1a1bdb22014-12-02 18:50:36 +0000222/// values on the stack between calls.
Igor Laevsky346ff622015-06-10 12:31:53 +0000223static void reservePreviousStackSlotForValue(const Value *IncomingValue,
Philip Reames1a1bdb22014-12-02 18:50:36 +0000224 SelectionDAGBuilder &Builder) {
Igor Laevsky346ff622015-06-10 12:31:53 +0000225 SDValue Incoming = Builder.getValue(IncomingValue);
226
Philip Reames1a1bdb22014-12-02 18:50:36 +0000227 if (isa<ConstantSDNode>(Incoming) || isa<FrameIndexSDNode>(Incoming)) {
228 // We won't need to spill this, so no need to check for previously
229 // allocated stack slots
230 return;
231 }
232
Igor Laevsky346ff622015-06-10 12:31:53 +0000233 SDValue OldLocation = Builder.StatepointLowering.getLocation(Incoming);
234 if (OldLocation.getNode())
Sanjoy Dasffb7bd12016-02-19 19:37:07 +0000235 // Duplicates in input
Philip Reames1a1bdb22014-12-02 18:50:36 +0000236 return;
Igor Laevsky346ff622015-06-10 12:31:53 +0000237
238 const int LookUpDepth = 6;
239 Optional<int> Index =
240 findPreviousSpillSlot(IncomingValue, Builder, LookUpDepth);
241 if (!Index.hasValue())
242 return;
243
Sanjoy Dasffb7bd12016-02-19 19:37:07 +0000244 const auto &StatepointSlots = Builder.FuncInfo.StatepointStackSlots;
245
246 auto SlotIt = find(StatepointSlots, *Index);
247 assert(SlotIt != StatepointSlots.end() &&
248 "Value spilled to the unknown stack slot");
Igor Laevsky346ff622015-06-10 12:31:53 +0000249
250 // This is one of our dedicated lowering slots
Sanjoy Dasffb7bd12016-02-19 19:37:07 +0000251 const int Offset = std::distance(StatepointSlots.begin(), SlotIt);
Igor Laevsky346ff622015-06-10 12:31:53 +0000252 if (Builder.StatepointLowering.isStackSlotAllocated(Offset)) {
253 // stack slot already assigned to someone else, can't use it!
254 // TODO: currently we reserve space for gc arguments after doing
255 // normal allocation for deopt arguments. We should reserve for
256 // _all_ deopt and gc arguments, then start allocating. This
257 // will prevent some moves being inserted when vm state changes,
258 // but gc state doesn't between two calls.
259 return;
Philip Reames1a1bdb22014-12-02 18:50:36 +0000260 }
Igor Laevsky346ff622015-06-10 12:31:53 +0000261 // Reserve this stack slot
262 Builder.StatepointLowering.reserveStackSlot(Offset);
Philip Reames1a1bdb22014-12-02 18:50:36 +0000263
Igor Laevsky346ff622015-06-10 12:31:53 +0000264 // Cache this slot so we find it when going through the normal
265 // assignment loop.
Sanjoy Das40c32dd2017-04-27 17:17:16 +0000266 SDValue Loc =
267 Builder.DAG.getTargetFrameIndex(*Index, Builder.getFrameIndexTy());
Igor Laevsky346ff622015-06-10 12:31:53 +0000268 Builder.StatepointLowering.setLocation(Incoming, Loc);
Philip Reames1a1bdb22014-12-02 18:50:36 +0000269}
270
Philip Reames1a1bdb22014-12-02 18:50:36 +0000271/// Extract call from statepoint, lower it and return pointer to the
272/// call node. Also update NodeMap so that getValue(statepoint) will
273/// reference lowered call result
Sanjoy Das70697ff2016-03-16 23:08:00 +0000274static std::pair<SDValue, SDNode *> lowerCallFromStatepointLoweringInfo(
275 SelectionDAGBuilder::StatepointLoweringInfo &SI,
276 SelectionDAGBuilder &Builder, SmallVectorImpl<SDValue> &PendingExports) {
Sanjoy Dasc6bf3e92015-05-06 02:36:20 +0000277 SDValue ReturnValue, CallEndVal;
Sanjoy Das70697ff2016-03-16 23:08:00 +0000278 std::tie(ReturnValue, CallEndVal) =
279 Builder.lowerInvokable(SI.CLI, SI.EHPadBB);
Sanjoy Dasc6bf3e92015-05-06 02:36:20 +0000280 SDNode *CallEnd = CallEndVal.getNode();
281
282 // Get a call instruction from the call sequence chain. Tail calls are not
283 // allowed. The following code is essentially reverse engineering X86's
284 // LowerCallTo.
285 //
286 // We are expecting DAG to have the following form:
287 //
288 // ch = eh_label (only in case of invoke statepoint)
289 // ch, glue = callseq_start ch
290 // ch, glue = X86::Call ch, glue
291 // ch, glue = callseq_end ch, glue
292 // get_return_value ch, glue
293 //
Pat Gavlinc8ea1572015-11-17 16:04:21 +0000294 // get_return_value can either be a sequence of CopyFromReg instructions
295 // to grab the return value from the return register(s), or it can be a LOAD
296 // to load a value returned by reference via a stack slot.
Sanjoy Dasc6bf3e92015-05-06 02:36:20 +0000297
Sanjoy Das70697ff2016-03-16 23:08:00 +0000298 bool HasDef = !SI.CLI.RetTy->isVoidTy();
Pat Gavlinc8ea1572015-11-17 16:04:21 +0000299 if (HasDef) {
300 if (CallEnd->getOpcode() == ISD::LOAD)
301 CallEnd = CallEnd->getOperand(0).getNode();
302 else
303 while (CallEnd->getOpcode() == ISD::CopyFromReg)
304 CallEnd = CallEnd->getOperand(0).getNode();
305 }
Sanjoy Dasc6bf3e92015-05-06 02:36:20 +0000306
307 assert(CallEnd->getOpcode() == ISD::CALLSEQ_END && "expected!");
Sanjoy Das70697ff2016-03-16 23:08:00 +0000308 return std::make_pair(ReturnValue, CallEnd->getOperand(0).getNode());
Philip Reames1a1bdb22014-12-02 18:50:36 +0000309}
310
Philip Reames18408d52019-03-12 19:12:33 +0000311static MachineMemOperand* getMachineMemOperand(MachineFunction &MF,
312 FrameIndexSDNode &FI) {
313 auto PtrInfo = MachinePointerInfo::getFixedStack(MF, FI.getIndex());
314 auto MMOFlags = MachineMemOperand::MOStore |
315 MachineMemOperand::MOLoad | MachineMemOperand::MOVolatile;
316 auto &MFI = MF.getFrameInfo();
Guillaume Chateletbdf77202020-03-30 14:45:57 +0000317 return MF.getMachineMemOperand(PtrInfo, MMOFlags,
Philip Reames18408d52019-03-12 19:12:33 +0000318 MFI.getObjectSize(FI.getIndex()),
Guillaume Chateletbdf77202020-03-30 14:45:57 +0000319 MFI.getObjectAlign(FI.getIndex()));
Philip Reames18408d52019-03-12 19:12:33 +0000320}
321
Philip Reames1a1bdb22014-12-02 18:50:36 +0000322/// Spill a value incoming to the statepoint. It might be either part of
323/// vmstate
324/// or gcstate. In both cases unconditionally spill it on the stack unless it
325/// is a null constant. Return pair with first element being frame index
326/// containing saved value and second element with outgoing chain from the
327/// emitted store
Philip Reames18408d52019-03-12 19:12:33 +0000328static std::tuple<SDValue, SDValue, MachineMemOperand*>
Philip Reames1a1bdb22014-12-02 18:50:36 +0000329spillIncomingStatepointValue(SDValue Incoming, SDValue Chain,
330 SelectionDAGBuilder &Builder) {
331 SDValue Loc = Builder.StatepointLowering.getLocation(Incoming);
Philip Reames18408d52019-03-12 19:12:33 +0000332 MachineMemOperand* MMO = nullptr;
Philip Reames1a1bdb22014-12-02 18:50:36 +0000333
334 // Emit new store if we didn't do it for this ptr before
335 if (!Loc.getNode()) {
336 Loc = Builder.StatepointLowering.allocateStackSlot(Incoming.getValueType(),
337 Builder);
Philip Reames1a1bdb22014-12-02 18:50:36 +0000338 int Index = cast<FrameIndexSDNode>(Loc)->getIndex();
339 // We use TargetFrameIndex so that isel will not select it into LEA
Sanjoy Das40c32dd2017-04-27 17:17:16 +0000340 Loc = Builder.DAG.getTargetFrameIndex(Index, Builder.getFrameIndexTy());
Philip Reames1a1bdb22014-12-02 18:50:36 +0000341
Sanjoy Dasd2db73ba2016-02-19 17:15:22 +0000342 // Right now we always allocate spill slots that are of the same
343 // size as the value we're about to spill (the size of spillee can
344 // vary since we spill vectors of pointers too). At some point we
345 // can consider allowing spills of smaller values to larger slots
346 // (i.e. change the '==' in the assert below to a '>=').
Matthias Braun941a7052016-07-28 18:40:00 +0000347 MachineFrameInfo &MFI = Builder.DAG.getMachineFunction().getFrameInfo();
Graham Hunter3f08ad62019-08-14 11:48:39 +0100348 assert((MFI.getObjectSize(Index) * 8) ==
349 (int64_t)Incoming.getValueSizeInBits() &&
Sanjoy Dasd2db73ba2016-02-19 17:15:22 +0000350 "Bad spill: stack slot does not match!");
Sanjoy Dasd2db73ba2016-02-19 17:15:22 +0000351
Philip Reames2f5543a2019-07-22 23:33:18 +0000352 // Note: Using the alignment of the spill slot (rather than the abi or
353 // preferred alignment) is required for correctness when dealing with spill
354 // slots with preferred alignments larger than frame alignment..
Philip Reames18408d52019-03-12 19:12:33 +0000355 auto &MF = Builder.DAG.getMachineFunction();
356 auto PtrInfo = MachinePointerInfo::getFixedStack(MF, Index);
Guillaume Chateletbdf77202020-03-30 14:45:57 +0000357 auto *StoreMMO = MF.getMachineMemOperand(
358 PtrInfo, MachineMemOperand::MOStore, MFI.getObjectSize(Index),
359 MFI.getObjectAlign(Index));
Philip Reames1a1bdb22014-12-02 18:50:36 +0000360 Chain = Builder.DAG.getStore(Chain, Builder.getCurSDLoc(), Incoming, Loc,
Philip Reames2f5543a2019-07-22 23:33:18 +0000361 StoreMMO);
Philip Reames1a1bdb22014-12-02 18:50:36 +0000362
Philip Reames18408d52019-03-12 19:12:33 +0000363 MMO = getMachineMemOperand(MF, *cast<FrameIndexSDNode>(Loc));
364
Philip Reames1a1bdb22014-12-02 18:50:36 +0000365 Builder.StatepointLowering.setLocation(Incoming, Loc);
366 }
367
368 assert(Loc.getNode());
Philip Reames18408d52019-03-12 19:12:33 +0000369 return std::make_tuple(Loc, Chain, MMO);
Philip Reames1a1bdb22014-12-02 18:50:36 +0000370}
371
372/// Lower a single value incoming to a statepoint node. This value can be
373/// either a deopt value or a gc value, the handling is the same. We special
374/// case constants and allocas, then fall back to spilling if required.
Serguei Katkovb7e37592020-04-07 11:04:19 +0700375static void
376lowerIncomingStatepointValue(SDValue Incoming, bool RequireSpillSlot,
377 SmallVectorImpl<SDValue> &Ops,
378 SmallVectorImpl<MachineMemOperand *> &MemRefs,
379 SelectionDAGBuilder &Builder) {
Philip Reamesb6dc6eb2019-02-12 06:25:58 +0000380 // Note: We know all of these spills are independent, but don't bother to
381 // exploit that chain wise. DAGCombine will happily do so as needed, so
382 // doing it here would be a small compile time win at most.
Philip Reames1a1bdb22014-12-02 18:50:36 +0000383 SDValue Chain = Builder.getRoot();
384
385 if (ConstantSDNode *C = dyn_cast<ConstantSDNode>(Incoming)) {
386 // If the original value was a constant, make sure it gets recorded as
387 // such in the stackmap. This is required so that the consumer can
388 // parse any internal format to the deopt state. It also handles null
Philip Reamesafdbcc62016-01-07 04:15:31 +0000389 // pointers and other constant pointers in GC states. Note the constant
390 // vectors do not appear to actually hit this path and that anything larger
391 // than an i64 value (not type!) will fail asserts here.
Pat Gavlinc7dc6d6ee2015-05-12 19:50:19 +0000392 pushStackMapConstant(Ops, Builder, C->getSExtValue());
Philip Reames1a1bdb22014-12-02 18:50:36 +0000393 } else if (FrameIndexSDNode *FI = dyn_cast<FrameIndexSDNode>(Incoming)) {
Philip Reamesf8f09332015-03-27 04:52:48 +0000394 // This handles allocas as arguments to the statepoint (this is only
395 // really meaningful for a deopt value. For GC, we'd be trying to
396 // relocate the address of the alloca itself?)
Sanjoy Das40c32dd2017-04-27 17:17:16 +0000397 assert(Incoming.getValueType() == Builder.getFrameIndexTy() &&
398 "Incoming value is a frame index!");
Pat Gavlin022c5ac2015-04-29 21:52:45 +0000399 Ops.push_back(Builder.DAG.getTargetFrameIndex(FI->getIndex(),
Sanjoy Das40c32dd2017-04-27 17:17:16 +0000400 Builder.getFrameIndexTy()));
Philip Reames18408d52019-03-12 19:12:33 +0000401
402 auto &MF = Builder.DAG.getMachineFunction();
403 auto *MMO = getMachineMemOperand(MF, *FI);
404 MemRefs.push_back(MMO);
Serguei Katkovb7e37592020-04-07 11:04:19 +0700405
406 } else if (!RequireSpillSlot) {
Philip Reames2b1084a2016-08-31 15:12:17 +0000407 // If this value is live in (not live-on-return, or live-through), we can
Fangrui Songf78650a2018-07-30 19:41:25 +0000408 // treat it the same way patchpoint treats it's "live in" values. We'll
409 // end up folding some of these into stack references, but they'll be
Philip Reames2b1084a2016-08-31 15:12:17 +0000410 // handled by the register allocator. Note that we do not have the notion
Fangrui Songf78650a2018-07-30 19:41:25 +0000411 // of a late use so these values might be placed in registers which are
Serguei Katkov44f0d7f2020-04-09 18:24:47 +0700412 // clobbered by the call. This is fine for live-in.
Philip Reames2b1084a2016-08-31 15:12:17 +0000413 Ops.push_back(Incoming);
Philip Reames1a1bdb22014-12-02 18:50:36 +0000414 } else {
415 // Otherwise, locate a spill slot and explicitly spill it so it
416 // can be found by the runtime later. We currently do not support
417 // tracking values through callee saved registers to their eventual
418 // spill location. This would be a useful optimization, but would
419 // need to be optional since it requires a lot of complexity on the
420 // runtime side which not all would support.
Sanjoy Dasffb7bd12016-02-19 19:37:07 +0000421 auto Res = spillIncomingStatepointValue(Incoming, Chain, Builder);
Philip Reames18408d52019-03-12 19:12:33 +0000422 Ops.push_back(std::get<0>(Res));
423 if (auto *MMO = std::get<2>(Res))
424 MemRefs.push_back(MMO);
425 Chain = std::get<1>(Res);;
Philip Reames1a1bdb22014-12-02 18:50:36 +0000426 }
427
428 Builder.DAG.setRoot(Chain);
429}
430
431/// Lower deopt state and gc pointer arguments of the statepoint. The actual
432/// lowering is described in lowerIncomingStatepointValue. This function is
433/// responsible for lowering everything in the right position and playing some
434/// tricks to avoid redundant stack manipulation where possible. On
435/// completion, 'Ops' will contain ready to use operands for machine code
436/// statepoint. The chain nodes will have already been created and the DAG root
437/// will be set to the last value spilled (if any were).
Sanjoy Das70697ff2016-03-16 23:08:00 +0000438static void
439lowerStatepointMetaArgs(SmallVectorImpl<SDValue> &Ops,
Philip Reames18408d52019-03-12 19:12:33 +0000440 SmallVectorImpl<MachineMemOperand*> &MemRefs, SelectionDAGBuilder::StatepointLoweringInfo &SI,
Sanjoy Das70697ff2016-03-16 23:08:00 +0000441 SelectionDAGBuilder &Builder) {
Sanjoy Das43e33d62016-03-16 23:11:21 +0000442 // Lower the deopt and gc arguments for this statepoint. Layout will be:
443 // deopt argument length, deopt arguments.., gc arguments...
Philip Reames4ac17a32015-01-07 19:07:50 +0000444#ifndef NDEBUG
Sanjoy Das38bfc222016-03-22 00:59:13 +0000445 if (auto *GFI = Builder.GFI) {
446 // Check that each of the gc pointer and bases we've gotten out of the
447 // safepoint is something the strategy thinks might be a pointer (or vector
448 // of pointers) into the GC heap. This is basically just here to help catch
449 // errors during statepoint insertion. TODO: This should actually be in the
450 // Verifier, but we can't get to the GCStrategy from there (yet).
451 GCStrategy &S = GFI->getStrategy();
452 for (const Value *V : SI.Bases) {
453 auto Opt = S.isGCManagedPointer(V->getType()->getScalarType());
454 if (Opt.hasValue()) {
455 assert(Opt.getValue() &&
456 "non gc managed base pointer found in statepoint");
457 }
Philip Reames4ac17a32015-01-07 19:07:50 +0000458 }
Sanjoy Das38bfc222016-03-22 00:59:13 +0000459 for (const Value *V : SI.Ptrs) {
460 auto Opt = S.isGCManagedPointer(V->getType()->getScalarType());
461 if (Opt.hasValue()) {
462 assert(Opt.getValue() &&
463 "non gc managed derived pointer found in statepoint");
464 }
Philip Reames4ac17a32015-01-07 19:07:50 +0000465 }
Philip Reames2b1084a2016-08-31 15:12:17 +0000466 assert(SI.Bases.size() == SI.Ptrs.size() && "Pointer without base!");
Sanjoy Das38bfc222016-03-22 00:59:13 +0000467 } else {
468 assert(SI.Bases.empty() && "No gc specified, so cannot relocate pointers!");
469 assert(SI.Ptrs.empty() && "No gc specified, so cannot relocate pointers!");
Philip Reamese1bf2702015-03-27 05:09:33 +0000470 }
Philip Reames4ac17a32015-01-07 19:07:50 +0000471#endif
472
Philip Reames2b1084a2016-08-31 15:12:17 +0000473 // Figure out what lowering strategy we're going to use for each part
474 // Note: Is is conservatively correct to lower both "live-in" and "live-out"
475 // as "live-through". A "live-through" variable is one which is "live-in",
476 // "live-out", and live throughout the lifetime of the call (i.e. we can find
477 // it from any PC within the transitive callee of the statepoint). In
478 // particular, if the callee spills callee preserved registers we may not
479 // be able to find a value placed in that register during the call. This is
480 // fine for live-out, but not for live-through. If we were willing to make
481 // assumptions about the code generator producing the callee, we could
482 // potentially allow live-through values in callee saved registers.
483 const bool LiveInDeopt =
484 SI.StatepointFlags & (uint64_t)StatepointFlags::DeoptLiveIn;
485
Serguei Katkovbd1d70b2020-03-31 16:01:28 +0700486 auto isGCValue = [&](const Value *V) {
487 auto *Ty = V->getType();
488 if (!Ty->isPtrOrPtrVectorTy())
489 return false;
490 if (auto *GFI = Builder.GFI)
491 if (auto IsManaged = GFI->getStrategy().isGCManagedPointer(Ty))
492 return *IsManaged;
493 return true; // conservative
Philip Reames2b1084a2016-08-31 15:12:17 +0000494 };
Fangrui Songf78650a2018-07-30 19:41:25 +0000495
Serguei Katkovb7e37592020-04-07 11:04:19 +0700496 auto requireSpillSlot = [&](const Value *V) {
Serguei Katkov44f0d7f2020-04-09 18:24:47 +0700497 return !LiveInDeopt || isGCValue(V);
Serguei Katkovb7e37592020-04-07 11:04:19 +0700498 };
499
Philip Reames1a1bdb22014-12-02 18:50:36 +0000500 // Before we actually start lowering (and allocating spill slots for values),
501 // reserve any stack slots which we judge to be profitable to reuse for a
502 // particular value. This is purely an optimization over the code below and
503 // doesn't change semantics at all. It is important for performance that we
504 // reserve slots for both deopt and gc values before lowering either.
Sanjoy Das70697ff2016-03-16 23:08:00 +0000505 for (const Value *V : SI.DeoptState) {
Serguei Katkovb7e37592020-04-07 11:04:19 +0700506 if (requireSpillSlot(V))
Philip Reames2b1084a2016-08-31 15:12:17 +0000507 reservePreviousStackSlotForValue(V, Builder);
Philip Reames1a1bdb22014-12-02 18:50:36 +0000508 }
Sanjoy Das70697ff2016-03-16 23:08:00 +0000509 for (unsigned i = 0; i < SI.Bases.size(); ++i) {
510 reservePreviousStackSlotForValue(SI.Bases[i], Builder);
511 reservePreviousStackSlotForValue(SI.Ptrs[i], Builder);
Philip Reames1a1bdb22014-12-02 18:50:36 +0000512 }
513
514 // First, prefix the list with the number of unique values to be
515 // lowered. Note that this is the number of *Values* not the
516 // number of SDValues required to lower them.
Sanjoy Das70697ff2016-03-16 23:08:00 +0000517 const int NumVMSArgs = SI.DeoptState.size();
Pat Gavlinc7dc6d6ee2015-05-12 19:50:19 +0000518 pushStackMapConstant(Ops, Builder, NumVMSArgs);
Philip Reames1a1bdb22014-12-02 18:50:36 +0000519
Sanjoy Das70697ff2016-03-16 23:08:00 +0000520 // The vm state arguments are lowered in an opaque manner. We do not know
521 // what type of values are contained within.
522 for (const Value *V : SI.DeoptState) {
Than McIntosh0e0a8a32018-11-30 16:22:41 +0000523 SDValue Incoming;
524 // If this is a function argument at a static frame index, generate it as
525 // the frame index.
526 if (const Argument *Arg = dyn_cast<Argument>(V)) {
527 int FI = Builder.FuncInfo.getArgumentFrameIndex(Arg);
528 if (FI != INT_MAX)
529 Incoming = Builder.DAG.getFrameIndex(FI, Builder.getFrameIndexTy());
530 }
531 if (!Incoming.getNode())
532 Incoming = Builder.getValue(V);
Serguei Katkovb7e37592020-04-07 11:04:19 +0700533 lowerIncomingStatepointValue(Incoming, requireSpillSlot(V), Ops, MemRefs,
534 Builder);
Philip Reames1a1bdb22014-12-02 18:50:36 +0000535 }
536
537 // Finally, go ahead and lower all the gc arguments. There's no prefixed
538 // length for this one. After lowering, we'll have the base and pointer
539 // arrays interwoven with each (lowered) base pointer immediately followed by
540 // it's (lowered) derived pointer. i.e
541 // (base[0], ptr[0], base[1], ptr[1], ...)
Sanjoy Das70697ff2016-03-16 23:08:00 +0000542 for (unsigned i = 0; i < SI.Bases.size(); ++i) {
543 const Value *Base = SI.Bases[i];
Serguei Katkovb7e37592020-04-07 11:04:19 +0700544 lowerIncomingStatepointValue(Builder.getValue(Base),
545 /*RequireSpillSlot*/ true, Ops, MemRefs,
546 Builder);
Igor Laevsky87ef5ea2015-05-12 13:12:14 +0000547
Sanjoy Das70697ff2016-03-16 23:08:00 +0000548 const Value *Ptr = SI.Ptrs[i];
Serguei Katkovb7e37592020-04-07 11:04:19 +0700549 lowerIncomingStatepointValue(Builder.getValue(Ptr),
550 /*RequireSpillSlot*/ true, Ops, MemRefs,
551 Builder);
Philip Reames1a1bdb22014-12-02 18:50:36 +0000552 }
Philip Reamesf8f09332015-03-27 04:52:48 +0000553
Pat Gavlin022c5ac2015-04-29 21:52:45 +0000554 // If there are any explicit spill slots passed to the statepoint, record
Philip Reamesf8f09332015-03-27 04:52:48 +0000555 // them, but otherwise do not do anything special. These are user provided
Pat Gavlin022c5ac2015-04-29 21:52:45 +0000556 // allocas and give control over placement to the consumer. In this case,
Philip Reamesf8f09332015-03-27 04:52:48 +0000557 // it is the contents of the slot which may get updated, not the pointer to
558 // the alloca
Sanjoy Das70697ff2016-03-16 23:08:00 +0000559 for (Value *V : SI.GCArgs) {
Philip Reamesf8f09332015-03-27 04:52:48 +0000560 SDValue Incoming = Builder.getValue(V);
561 if (FrameIndexSDNode *FI = dyn_cast<FrameIndexSDNode>(Incoming)) {
562 // This handles allocas as arguments to the statepoint
Sanjoy Das40c32dd2017-04-27 17:17:16 +0000563 assert(Incoming.getValueType() == Builder.getFrameIndexTy() &&
564 "Incoming value is a frame index!");
Pat Gavlin022c5ac2015-04-29 21:52:45 +0000565 Ops.push_back(Builder.DAG.getTargetFrameIndex(FI->getIndex(),
Sanjoy Das40c32dd2017-04-27 17:17:16 +0000566 Builder.getFrameIndexTy()));
Philip Reames18408d52019-03-12 19:12:33 +0000567
568 auto &MF = Builder.DAG.getMachineFunction();
569 auto *MMO = getMachineMemOperand(MF, *FI);
570 MemRefs.push_back(MMO);
Philip Reamesf8f09332015-03-27 04:52:48 +0000571 }
572 }
Igor Laevsky423bc9ec2015-05-20 11:37:25 +0000573
574 // Record computed locations for all lowered values.
575 // This can not be embedded in lowering loops as we need to record *all*
576 // values, while previous loops account only values with unique SDValues.
Sanjoy Das70697ff2016-03-16 23:08:00 +0000577 const Instruction *StatepointInstr = SI.StatepointInstr;
Sanjoy Dasc0c59fe2016-03-24 18:57:39 +0000578 auto &SpillMap = Builder.FuncInfo.StatepointSpillMaps[StatepointInstr];
Igor Laevsky423bc9ec2015-05-20 11:37:25 +0000579
Sanjoy Das70697ff2016-03-16 23:08:00 +0000580 for (const GCRelocateInst *Relocate : SI.GCRelocates) {
Manuel Jacob83eefa62016-01-05 04:03:00 +0000581 const Value *V = Relocate->getDerivedPtr();
Igor Laevsky423bc9ec2015-05-20 11:37:25 +0000582 SDValue SDV = Builder.getValue(V);
583 SDValue Loc = Builder.StatepointLowering.getLocation(SDV);
584
585 if (Loc.getNode()) {
Philip Reamese6716412020-03-11 10:01:11 -0700586 SpillMap[V] = cast<FrameIndexSDNode>(Loc)->getIndex();
Igor Laevsky423bc9ec2015-05-20 11:37:25 +0000587 } else {
588 // Record value as visited, but not spilled. This is case for allocas
Benjamin Kramerdf005cb2015-08-08 18:27:36 +0000589 // and constants. For this values we can avoid emitting spill load while
Igor Laevsky423bc9ec2015-05-20 11:37:25 +0000590 // visiting corresponding gc_relocate.
591 // Actually we do not need to record them in this map at all.
Benjamin Kramerdf005cb2015-08-08 18:27:36 +0000592 // We do this only to check that we are not relocating any unvisited
593 // value.
Philip Reamese6716412020-03-11 10:01:11 -0700594 SpillMap[V] = None;
Igor Laevsky423bc9ec2015-05-20 11:37:25 +0000595
596 // Default llvm mechanisms for exporting values which are used in
597 // different basic blocks does not work for gc relocates.
598 // Note that it would be incorrect to teach llvm that all relocates are
Benjamin Kramerdf005cb2015-08-08 18:27:36 +0000599 // uses of the corresponding values so that it would automatically
Igor Laevsky423bc9ec2015-05-20 11:37:25 +0000600 // export them. Relocates of the spilled values does not use original
601 // value.
Manuel Jacob83eefa62016-01-05 04:03:00 +0000602 if (Relocate->getParent() != StatepointInstr->getParent())
Igor Laevsky423bc9ec2015-05-20 11:37:25 +0000603 Builder.ExportFromCurrentBlock(V);
604 }
605 }
Philip Reames1a1bdb22014-12-02 18:50:36 +0000606}
Igor Laevsky7fc58a42015-02-20 15:28:35 +0000607
Sanjoy Das38bfc222016-03-22 00:59:13 +0000608SDValue SelectionDAGBuilder::LowerAsSTATEPOINT(
Sanjoy Das70697ff2016-03-16 23:08:00 +0000609 SelectionDAGBuilder::StatepointLoweringInfo &SI) {
Philip Reames1a1bdb22014-12-02 18:50:36 +0000610 // The basic scheme here is that information about both the original call and
611 // the safepoint is encoded in the CallInst. We create a temporary call and
612 // lower it, then reverse engineer the calling sequence.
613
Philip Reames1a1bdb22014-12-02 18:50:36 +0000614 NumOfStatepoints++;
615 // Clear state
616 StatepointLowering.startNewStatepoint(*this);
Philip Reamese6716412020-03-11 10:01:11 -0700617 assert(SI.Bases.size() == SI.Ptrs.size() &&
Philip Reames8fffa402020-03-11 21:23:56 -0700618 SI.Ptrs.size() <= SI.GCRelocates.size());
Philip Reames1a1bdb22014-12-02 18:50:36 +0000619
620#ifndef NDEBUG
Sanjoy Das70697ff2016-03-16 23:08:00 +0000621 for (auto *Reloc : SI.GCRelocates)
622 if (Reloc->getParent() == SI.StatepointInstr->getParent())
623 StatepointLowering.scheduleRelocCall(*Reloc);
Philip Reames72fbe7a2014-12-02 21:01:48 +0000624#endif
625
Philip Reames1a1bdb22014-12-02 18:50:36 +0000626 // Lower statepoint vmstate and gcstate arguments
Sanjoy Das3fb91c02015-05-05 23:06:49 +0000627 SmallVector<SDValue, 10> LoweredMetaArgs;
Philip Reames18408d52019-03-12 19:12:33 +0000628 SmallVector<MachineMemOperand*, 16> MemRefs;
629 lowerStatepointMetaArgs(LoweredMetaArgs, MemRefs, SI, *this);
Sanjoy Das70697ff2016-03-16 23:08:00 +0000630
631 // Now that we've emitted the spills, we need to update the root so that the
632 // call sequence is ordered correctly.
633 SI.CLI.setChain(getRoot());
Philip Reames1a1bdb22014-12-02 18:50:36 +0000634
635 // Get call node, we will replace it later with statepoint
Sanjoy Das70697ff2016-03-16 23:08:00 +0000636 SDValue ReturnVal;
637 SDNode *CallNode;
638 std::tie(ReturnVal, CallNode) =
639 lowerCallFromStatepointLoweringInfo(SI, *this, PendingExports);
Philip Reames1a1bdb22014-12-02 18:50:36 +0000640
Pat Gavlincc0431d2015-05-08 18:07:42 +0000641 // Construct the actual GC_TRANSITION_START, STATEPOINT, and GC_TRANSITION_END
642 // nodes with all the appropriate arguments and return values.
Philip Reames1a1bdb22014-12-02 18:50:36 +0000643
Philip Reames1a1bdb22014-12-02 18:50:36 +0000644 // Call Node: Chain, Target, {Args}, RegMask, [Glue]
Pat Gavlincc0431d2015-05-08 18:07:42 +0000645 SDValue Chain = CallNode->getOperand(0);
646
Philip Reames1a1bdb22014-12-02 18:50:36 +0000647 SDValue Glue;
Pat Gavlincc0431d2015-05-08 18:07:42 +0000648 bool CallHasIncomingGlue = CallNode->getGluedNode();
649 if (CallHasIncomingGlue) {
Philip Reames1a1bdb22014-12-02 18:50:36 +0000650 // Glue is always last operand
651 Glue = CallNode->getOperand(CallNode->getNumOperands() - 1);
652 }
Pat Gavlincc0431d2015-05-08 18:07:42 +0000653
654 // Build the GC_TRANSITION_START node if necessary.
655 //
656 // The operands to the GC_TRANSITION_{START,END} nodes are laid out in the
657 // order in which they appear in the call to the statepoint intrinsic. If
658 // any of the operands is a pointer-typed, that operand is immediately
659 // followed by a SRCVALUE for the pointer that may be used during lowering
660 // (e.g. to form MachinePointerInfo values for loads/stores).
661 const bool IsGCTransition =
Sanjoy Das70697ff2016-03-16 23:08:00 +0000662 (SI.StatepointFlags & (uint64_t)StatepointFlags::GCTransition) ==
663 (uint64_t)StatepointFlags::GCTransition;
Pat Gavlincc0431d2015-05-08 18:07:42 +0000664 if (IsGCTransition) {
665 SmallVector<SDValue, 8> TSOps;
666
667 // Add chain
668 TSOps.push_back(Chain);
669
670 // Add GC transition arguments
Sanjoy Das70697ff2016-03-16 23:08:00 +0000671 for (const Value *V : SI.GCTransitionArgs) {
Pat Gavlin08d70272015-05-12 21:33:48 +0000672 TSOps.push_back(getValue(V));
673 if (V->getType()->isPointerTy())
674 TSOps.push_back(DAG.getSrcValue(V));
Pat Gavlincc0431d2015-05-08 18:07:42 +0000675 }
676
677 // Add glue if necessary
678 if (CallHasIncomingGlue)
679 TSOps.push_back(Glue);
680
681 SDVTList NodeTys = DAG.getVTList(MVT::Other, MVT::Glue);
682
683 SDValue GCTransitionStart =
684 DAG.getNode(ISD::GC_TRANSITION_START, getCurSDLoc(), NodeTys, TSOps);
685
686 Chain = GCTransitionStart.getValue(0);
687 Glue = GCTransitionStart.getValue(1);
688 }
689
Sanjoy Dasa1d39ba2015-05-12 23:52:24 +0000690 // TODO: Currently, all of these operands are being marked as read/write in
691 // PrologEpilougeInserter.cpp, we should special case the VMState arguments
692 // and flags to be read-only.
693 SmallVector<SDValue, 40> Ops;
694
695 // Add the <id> and <numBytes> constants.
Sanjoy Das70697ff2016-03-16 23:08:00 +0000696 Ops.push_back(DAG.getTargetConstant(SI.ID, getCurSDLoc(), MVT::i64));
Sanjoy Dasa1d39ba2015-05-12 23:52:24 +0000697 Ops.push_back(
Sanjoy Das70697ff2016-03-16 23:08:00 +0000698 DAG.getTargetConstant(SI.NumPatchBytes, getCurSDLoc(), MVT::i32));
Sanjoy Dasa1d39ba2015-05-12 23:52:24 +0000699
Pat Gavlincc0431d2015-05-08 18:07:42 +0000700 // Calculate and push starting position of vmstate arguments
Philip Reames1a1bdb22014-12-02 18:50:36 +0000701 // Get number of arguments incoming directly into call node
702 unsigned NumCallRegArgs =
Pat Gavlincc0431d2015-05-08 18:07:42 +0000703 CallNode->getNumOperands() - (CallHasIncomingGlue ? 4 : 3);
Sergey Dmitrouk842a51b2015-04-28 14:05:47 +0000704 Ops.push_back(DAG.getTargetConstant(NumCallRegArgs, getCurSDLoc(), MVT::i32));
Philip Reames1a1bdb22014-12-02 18:50:36 +0000705
706 // Add call target
707 SDValue CallTarget = SDValue(CallNode->getOperand(1).getNode(), 0);
708 Ops.push_back(CallTarget);
709
710 // Add call arguments
711 // Get position of register mask in the call
712 SDNode::op_iterator RegMaskIt;
Pat Gavlincc0431d2015-05-08 18:07:42 +0000713 if (CallHasIncomingGlue)
Philip Reames1a1bdb22014-12-02 18:50:36 +0000714 RegMaskIt = CallNode->op_end() - 2;
715 else
716 RegMaskIt = CallNode->op_end() - 1;
717 Ops.insert(Ops.end(), CallNode->op_begin() + 2, RegMaskIt);
718
Pat Gavlinc7dc6d6ee2015-05-12 19:50:19 +0000719 // Add a constant argument for the calling convention
Sanjoy Das70697ff2016-03-16 23:08:00 +0000720 pushStackMapConstant(Ops, *this, SI.CLI.CallConv);
Pat Gavlinc7dc6d6ee2015-05-12 19:50:19 +0000721
722 // Add a constant argument for the flags
Sanjoy Das70697ff2016-03-16 23:08:00 +0000723 uint64_t Flags = SI.StatepointFlags;
Sanjoy Dasffb7bd12016-02-19 19:37:07 +0000724 assert(((Flags & ~(uint64_t)StatepointFlags::MaskAll) == 0) &&
725 "Unknown flag used");
Pat Gavlinc7dc6d6ee2015-05-12 19:50:19 +0000726 pushStackMapConstant(Ops, *this, Flags);
Philip Reames1a1bdb22014-12-02 18:50:36 +0000727
728 // Insert all vmstate and gcstate arguments
Sanjoy Das3fb91c02015-05-05 23:06:49 +0000729 Ops.insert(Ops.end(), LoweredMetaArgs.begin(), LoweredMetaArgs.end());
Philip Reames1a1bdb22014-12-02 18:50:36 +0000730
731 // Add register mask from call node
732 Ops.push_back(*RegMaskIt);
733
734 // Add chain
Pat Gavlincc0431d2015-05-08 18:07:42 +0000735 Ops.push_back(Chain);
Philip Reames1a1bdb22014-12-02 18:50:36 +0000736
737 // Same for the glue, but we add it only if original call had it
738 if (Glue.getNode())
739 Ops.push_back(Glue);
740
Benjamin Kramerea68a942015-02-19 15:26:17 +0000741 // Compute return values. Provide a glue output since we consume one as
742 // input. This allows someone else to chain off us as needed.
743 SDVTList NodeTys = DAG.getVTList(MVT::Other, MVT::Glue);
Philip Reames1a1bdb22014-12-02 18:50:36 +0000744
Philip Reames18408d52019-03-12 19:12:33 +0000745 MachineSDNode *StatepointMCNode =
746 DAG.getMachineNode(TargetOpcode::STATEPOINT, getCurSDLoc(), NodeTys, Ops);
747 DAG.setNodeMemRefs(StatepointMCNode, MemRefs);
Philip Reames1a1bdb22014-12-02 18:50:36 +0000748
Pat Gavlincc0431d2015-05-08 18:07:42 +0000749 SDNode *SinkNode = StatepointMCNode;
750
751 // Build the GC_TRANSITION_END node if necessary.
752 //
753 // See the comment above regarding GC_TRANSITION_START for the layout of
754 // the operands to the GC_TRANSITION_END node.
755 if (IsGCTransition) {
756 SmallVector<SDValue, 8> TEOps;
757
758 // Add chain
759 TEOps.push_back(SDValue(StatepointMCNode, 0));
760
761 // Add GC transition arguments
Sanjoy Das70697ff2016-03-16 23:08:00 +0000762 for (const Value *V : SI.GCTransitionArgs) {
Pat Gavlin08d70272015-05-12 21:33:48 +0000763 TEOps.push_back(getValue(V));
764 if (V->getType()->isPointerTy())
765 TEOps.push_back(DAG.getSrcValue(V));
Pat Gavlincc0431d2015-05-08 18:07:42 +0000766 }
767
768 // Add glue
769 TEOps.push_back(SDValue(StatepointMCNode, 1));
770
771 SDVTList NodeTys = DAG.getVTList(MVT::Other, MVT::Glue);
772
773 SDValue GCTransitionStart =
774 DAG.getNode(ISD::GC_TRANSITION_END, getCurSDLoc(), NodeTys, TEOps);
775
776 SinkNode = GCTransitionStart.getNode();
777 }
778
Philip Reames1a1bdb22014-12-02 18:50:36 +0000779 // Replace original call
Pat Gavlincc0431d2015-05-08 18:07:42 +0000780 DAG.ReplaceAllUsesWith(CallNode, SinkNode); // This may update Root
Benjamin Kramerdf005cb2015-08-08 18:27:36 +0000781 // Remove original call node
Philip Reames1a1bdb22014-12-02 18:50:36 +0000782 DAG.DeleteNode(CallNode);
783
784 // DON'T set the root - under the assumption that it's already set past the
785 // inserted node we created.
786
787 // TODO: A better future implementation would be to emit a single variable
788 // argument, variable return value STATEPOINT node here and then hookup the
789 // return value of each gc.relocate to the respective output of the
790 // previously emitted STATEPOINT value. Unfortunately, this doesn't appear
791 // to actually be possible today.
Sanjoy Das70697ff2016-03-16 23:08:00 +0000792
793 return ReturnVal;
794}
795
796void
797SelectionDAGBuilder::LowerStatepoint(ImmutableStatepoint ISP,
798 const BasicBlock *EHPadBB /*= nullptr*/) {
Chandler Carruth31607342019-02-11 07:42:30 +0000799 assert(ISP.getCall()->getCallingConv() != CallingConv::AnyReg &&
Sanjoy Das70697ff2016-03-16 23:08:00 +0000800 "anyregcc is not supported on statepoints!");
801
802#ifndef NDEBUG
803 // If this is a malformed statepoint, report it early to simplify debugging.
804 // This should catch any IR level mistake that's made when constructing or
805 // transforming statepoints.
806 ISP.verify();
807
808 // Check that the associated GCStrategy expects to encounter statepoints.
809 assert(GFI->getStrategy().useStatepoints() &&
810 "GCStrategy does not expect to encounter statepoints");
811#endif
812
813 SDValue ActualCallee;
Zuojian Lina58c8a72020-04-05 11:21:37 -0400814 SDValue Callee = getValue(ISP.getCalledValue());
Sanjoy Das70697ff2016-03-16 23:08:00 +0000815
816 if (ISP.getNumPatchBytes() > 0) {
817 // If we've been asked to emit a nop sequence instead of a call instruction
818 // for this statepoint then don't lower the call target, but use a constant
Zuojian Lina58c8a72020-04-05 11:21:37 -0400819 // `undef` instead. Not lowering the call target lets statepoint clients
820 // get away without providing a physical address for the symbolic call
821 // target at link time.
822 ActualCallee = DAG.getUNDEF(Callee.getValueType());
Sanjoy Das70697ff2016-03-16 23:08:00 +0000823 } else {
Zuojian Lina58c8a72020-04-05 11:21:37 -0400824 ActualCallee = Callee;
Sanjoy Das70697ff2016-03-16 23:08:00 +0000825 }
826
827 StatepointLoweringInfo SI(DAG);
Chandler Carruth31607342019-02-11 07:42:30 +0000828 populateCallLoweringInfo(SI.CLI, ISP.getCall(),
Sanjoy Das70697ff2016-03-16 23:08:00 +0000829 ImmutableStatepoint::CallArgsBeginPos,
830 ISP.getNumCallArgs(), ActualCallee,
831 ISP.getActualReturnType(), false /* IsPatchPoint */);
832
Philip Reames8fffa402020-03-11 21:23:56 -0700833 // There may be duplication in the gc.relocate list; such as two copies of
834 // each relocation on normal and exceptional path for an invoke. We only
835 // need to spill once and record one copy in the stackmap, but we need to
836 // reload once per gc.relocate. (Dedupping gc.relocates is trickier and best
837 // handled as a CSE problem elsewhere.)
838 // TODO: There a couple of major stackmap size optimizations we could do
839 // here if we wished.
840 // 1) If we've encountered a derived pair {B, D}, we don't need to actually
841 // record {B,B} if it's seen later.
842 // 2) Due to rematerialization, actual derived pointers are somewhat rare;
843 // given that, we could change the format to record base pointer relocations
844 // separately with half the space. This would require a format rev and a
845 // fairly major rework of the STATEPOINT node though.
846 SmallSet<SDValue, 8> Seen;
Sanjoy Das4cd746e2016-03-23 02:24:10 +0000847 for (const GCRelocateInst *Relocate : ISP.getRelocates()) {
848 SI.GCRelocates.push_back(Relocate);
Philip Reames8fffa402020-03-11 21:23:56 -0700849
Philip Reames8fffa402020-03-11 21:23:56 -0700850 SDValue DerivedSD = getValue(Relocate->getDerivedPtr());
851 if (Seen.insert(DerivedSD).second) {
852 SI.Bases.push_back(Relocate->getBasePtr());
853 SI.Ptrs.push_back(Relocate->getDerivedPtr());
854 }
Sanjoy Das4cd746e2016-03-23 02:24:10 +0000855 }
856
Sanjoy Das70697ff2016-03-16 23:08:00 +0000857 SI.GCArgs = ArrayRef<const Use>(ISP.gc_args_begin(), ISP.gc_args_end());
858 SI.StatepointInstr = ISP.getInstruction();
Denis Antrushin47107dc2020-03-30 19:47:56 +0300859 SI.GCTransitionArgs = ArrayRef<const Use>(ISP.gc_transition_args_begin(),
860 ISP.gc_transition_args_end());
Sanjoy Das70697ff2016-03-16 23:08:00 +0000861 SI.ID = ISP.getID();
Philip Reamesb70cecd2017-06-02 23:03:26 +0000862 SI.DeoptState = ArrayRef<const Use>(ISP.deopt_begin(), ISP.deopt_end());
Sanjoy Das70697ff2016-03-16 23:08:00 +0000863 SI.StatepointFlags = ISP.getFlags();
864 SI.NumPatchBytes = ISP.getNumPatchBytes();
865 SI.EHPadBB = EHPadBB;
866
Sanjoy Das38bfc222016-03-22 00:59:13 +0000867 SDValue ReturnValue = LowerAsSTATEPOINT(SI);
Sanjoy Das70697ff2016-03-16 23:08:00 +0000868
869 // Export the result value if needed
Philip Reames92d1f0c2016-04-12 18:05:10 +0000870 const GCResultInst *GCResult = ISP.getGCResult();
Sanjoy Das70697ff2016-03-16 23:08:00 +0000871 Type *RetTy = ISP.getActualReturnType();
872 if (!RetTy->isVoidTy() && GCResult) {
Chandler Carruth31607342019-02-11 07:42:30 +0000873 if (GCResult->getParent() != ISP.getCall()->getParent()) {
Sanjoy Das70697ff2016-03-16 23:08:00 +0000874 // Result value will be used in a different basic block so we need to
875 // export it now. Default exporting mechanism will not work here because
876 // statepoint call has a different type than the actual call. It means
877 // that by default llvm will create export register of the wrong type
878 // (always i32 in our case). So instead we need to create export register
879 // with correct type manually.
880 // TODO: To eliminate this problem we can remove gc.result intrinsics
881 // completely and make statepoint call to return a tuple.
882 unsigned Reg = FuncInfo.CreateRegs(RetTy);
883 RegsForValue RFV(*DAG.getContext(), DAG.getTargetLoweringInfo(),
Matt Arsenault81920b02018-07-28 13:25:19 +0000884 DAG.getDataLayout(), Reg, RetTy,
Chandler Carruth31607342019-02-11 07:42:30 +0000885 ISP.getCall()->getCallingConv());
Sanjoy Das70697ff2016-03-16 23:08:00 +0000886 SDValue Chain = DAG.getEntryNode();
887
888 RFV.getCopyToRegs(ReturnValue, DAG, getCurSDLoc(), Chain, nullptr);
889 PendingExports.push_back(Chain);
890 FuncInfo.ValueMap[ISP.getInstruction()] = Reg;
891 } else {
892 // Result value will be used in a same basic block. Don't export it or
893 // perform any explicit register copies.
894 // We'll replace the actuall call node shortly. gc_result will grab
895 // this value.
896 setValue(ISP.getInstruction(), ReturnValue);
897 }
898 } else {
899 // The token value is never used from here on, just generate a poison value
900 setValue(ISP.getInstruction(), DAG.getIntPtrConstant(-1, getCurSDLoc()));
901 }
Philip Reames1a1bdb22014-12-02 18:50:36 +0000902}
903
Sanjoy Dasfd3eaa82016-03-24 22:51:49 +0000904void SelectionDAGBuilder::LowerCallSiteWithDeoptBundleImpl(
Chandler Carruth31607342019-02-11 07:42:30 +0000905 const CallBase *Call, SDValue Callee, const BasicBlock *EHPadBB,
Sanjoy Das65a60672016-04-06 01:33:49 +0000906 bool VarArgDisallowed, bool ForceVoidReturnTy) {
Sanjoy Das38bfc222016-03-22 00:59:13 +0000907 StatepointLoweringInfo SI(DAG);
Chandler Carruth31607342019-02-11 07:42:30 +0000908 unsigned ArgBeginIndex = Call->arg_begin() - Call->op_begin();
Sanjoy Das65a60672016-04-06 01:33:49 +0000909 populateCallLoweringInfo(
Chandler Carruth31607342019-02-11 07:42:30 +0000910 SI.CLI, Call, ArgBeginIndex, Call->getNumArgOperands(), Callee,
911 ForceVoidReturnTy ? Type::getVoidTy(*DAG.getContext()) : Call->getType(),
Sanjoy Das65a60672016-04-06 01:33:49 +0000912 false);
Sanjoy Dasfd3eaa82016-03-24 22:51:49 +0000913 if (!VarArgDisallowed)
Chandler Carruth31607342019-02-11 07:42:30 +0000914 SI.CLI.IsVarArg = Call->getFunctionType()->isVarArg();
Sanjoy Das38bfc222016-03-22 00:59:13 +0000915
Chandler Carruth31607342019-02-11 07:42:30 +0000916 auto DeoptBundle = *Call->getOperandBundle(LLVMContext::OB_deopt);
Sanjoy Das38bfc222016-03-22 00:59:13 +0000917
918 unsigned DefaultID = StatepointDirectives::DeoptBundleStatepointID;
919
Chandler Carruth31607342019-02-11 07:42:30 +0000920 auto SD = parseStatepointDirectivesFromAttrs(Call->getAttributes());
Sanjoy Das38bfc222016-03-22 00:59:13 +0000921 SI.ID = SD.StatepointID.getValueOr(DefaultID);
922 SI.NumPatchBytes = SD.NumPatchBytes.getValueOr(0);
923
924 SI.DeoptState =
925 ArrayRef<const Use>(DeoptBundle.Inputs.begin(), DeoptBundle.Inputs.end());
926 SI.StatepointFlags = static_cast<uint64_t>(StatepointFlags::None);
927 SI.EHPadBB = EHPadBB;
928
Sanjoy Dasfd3eaa82016-03-24 22:51:49 +0000929 // NB! The GC arguments are deliberately left empty.
930
Sanjoy Das38bfc222016-03-22 00:59:13 +0000931 if (SDValue ReturnVal = LowerAsSTATEPOINT(SI)) {
Chandler Carruth31607342019-02-11 07:42:30 +0000932 ReturnVal = lowerRangeToAssertZExt(DAG, *Call, ReturnVal);
933 setValue(Call, ReturnVal);
Sanjoy Das38bfc222016-03-22 00:59:13 +0000934 }
935}
936
Sanjoy Dasfd3eaa82016-03-24 22:51:49 +0000937void SelectionDAGBuilder::LowerCallSiteWithDeoptBundle(
Chandler Carruth31607342019-02-11 07:42:30 +0000938 const CallBase *Call, SDValue Callee, const BasicBlock *EHPadBB) {
939 LowerCallSiteWithDeoptBundleImpl(Call, Callee, EHPadBB,
Sanjoy Das65a60672016-04-06 01:33:49 +0000940 /* VarArgDisallowed = */ false,
941 /* ForceVoidReturnTy = */ false);
Sanjoy Dasfd3eaa82016-03-24 22:51:49 +0000942}
943
Philip Reames92d1f0c2016-04-12 18:05:10 +0000944void SelectionDAGBuilder::visitGCResult(const GCResultInst &CI) {
Philip Reames1a1bdb22014-12-02 18:50:36 +0000945 // The result value of the gc_result is simply the result of the actual
946 // call. We've already emitted this, so just grab the value.
Philip Reames92d1f0c2016-04-12 18:05:10 +0000947 const Instruction *I = CI.getStatepoint();
Philip Reames1a1bdb22014-12-02 18:50:36 +0000948
Igor Laevsky35fe6922015-11-04 01:16:10 +0000949 if (I->getParent() != CI.getParent()) {
950 // Statepoint is in different basic block so we should have stored call
951 // result in a virtual register.
Igor Laevsky85f7f722015-03-10 16:26:48 +0000952 // We can not use default getValue() functionality to copy value from this
Philip Reames92d1f0c2016-04-12 18:05:10 +0000953 // register because statepoint and actual call return types can be
Igor Laevsky85f7f722015-03-10 16:26:48 +0000954 // different, and getValue() will use CopyFromReg of the wrong type,
955 // which is always i32 in our case.
Sanjoy Dasbbb2e822015-07-02 02:53:45 +0000956 PointerType *CalleeType = cast<PointerType>(
957 ImmutableStatepoint(I).getCalledValue()->getType());
Pat Gavlin022c5ac2015-04-29 21:52:45 +0000958 Type *RetTy =
959 cast<FunctionType>(CalleeType->getElementType())->getReturnType();
Igor Laevsky85f7f722015-03-10 16:26:48 +0000960 SDValue CopyFromReg = getCopyFromRegs(I, RetTy);
961
962 assert(CopyFromReg.getNode());
963 setValue(&CI, CopyFromReg);
Pat Gavlin022c5ac2015-04-29 21:52:45 +0000964 } else {
Igor Laevsky85f7f722015-03-10 16:26:48 +0000965 setValue(&CI, getValue(I));
966 }
Philip Reames1a1bdb22014-12-02 18:50:36 +0000967}
968
Manuel Jacob83eefa62016-01-05 04:03:00 +0000969void SelectionDAGBuilder::visitGCRelocate(const GCRelocateInst &Relocate) {
Philip Reames1a1bdb22014-12-02 18:50:36 +0000970#ifndef NDEBUG
971 // Consistency check
Simon Pilgrim7a6b6d52016-11-20 13:14:57 +0000972 // We skip this check for relocates not in the same basic block as their
Igor Laevsky35fe6922015-11-04 01:16:10 +0000973 // statepoint. It would be too expensive to preserve validation info through
974 // different basic blocks.
Sanjoy Dasffb7bd12016-02-19 19:37:07 +0000975 if (Relocate.getStatepoint()->getParent() == Relocate.getParent())
Manuel Jacob83eefa62016-01-05 04:03:00 +0000976 StatepointLowering.relocCallVisited(Relocate);
Sanjoy Dasc11460e2016-03-15 01:16:31 +0000977
978 auto *Ty = Relocate.getType()->getScalarType();
979 if (auto IsManaged = GFI->getStrategy().isGCManagedPointer(Ty))
980 assert(*IsManaged && "Non gc managed pointer relocated!");
Philip Reames1a1bdb22014-12-02 18:50:36 +0000981#endif
982
Manuel Jacob83eefa62016-01-05 04:03:00 +0000983 const Value *DerivedPtr = Relocate.getDerivedPtr();
Igor Laevsky423bc9ec2015-05-20 11:37:25 +0000984 SDValue SD = getValue(DerivedPtr);
Philip Reames1a1bdb22014-12-02 18:50:36 +0000985
Sanjoy Dasc0c59fe2016-03-24 18:57:39 +0000986 auto &SpillMap = FuncInfo.StatepointSpillMaps[Relocate.getStatepoint()];
987 auto SlotIt = SpillMap.find(DerivedPtr);
988 assert(SlotIt != SpillMap.end() && "Relocating not lowered gc value");
989 Optional<int> DerivedPtrLocation = SlotIt->second;
Igor Laevsky423bc9ec2015-05-20 11:37:25 +0000990
991 // We didn't need to spill these special cases (constants and allocas).
992 // See the handling in spillIncomingValueForStatepoint for detail.
993 if (!DerivedPtrLocation) {
Manuel Jacob83eefa62016-01-05 04:03:00 +0000994 setValue(&Relocate, SD);
Philip Reames1a1bdb22014-12-02 18:50:36 +0000995 return;
996 }
997
Philip Reames511be2a12019-08-02 20:17:37 +0000998 unsigned Index = *DerivedPtrLocation;
999 SDValue SpillSlot = DAG.getTargetFrameIndex(Index, getFrameIndexTy());
Philip Reames1a1bdb22014-12-02 18:50:36 +00001000
Philip Reames8f997b42020-03-11 11:12:28 -07001001 // All the reloads are independent and are reading memory only modified by
1002 // statepoints (i.e. no other aliasing stores); informing SelectionDAG of
1003 // this this let's CSE kick in for free and allows reordering of instructions
1004 // if possible. The lowering for statepoint sets the root, so this is
1005 // ordering all reloads with the either a) the statepoint node itself, or b)
1006 // the entry of the current block for an invoke statepoint.
1007 const SDValue Chain = DAG.getRoot(); // != Builder.getRoot()
Philip Reames1a1bdb22014-12-02 18:50:36 +00001008
Philip Reames511be2a12019-08-02 20:17:37 +00001009 auto &MF = DAG.getMachineFunction();
1010 auto &MFI = MF.getFrameInfo();
1011 auto PtrInfo = MachinePointerInfo::getFixedStack(MF, Index);
Guillaume Chateletbdf77202020-03-30 14:45:57 +00001012 auto *LoadMMO = MF.getMachineMemOperand(PtrInfo, MachineMemOperand::MOLoad,
1013 MFI.getObjectSize(Index),
1014 MFI.getObjectAlign(Index));
Philip Reames511be2a12019-08-02 20:17:37 +00001015
1016 auto LoadVT = DAG.getTargetLoweringInfo().getValueType(DAG.getDataLayout(),
1017 Relocate.getType());
1018
1019 SDValue SpillLoad = DAG.getLoad(LoadVT, getCurSDLoc(), Chain,
1020 SpillSlot, LoadMMO);
Philip Reames8f997b42020-03-11 11:12:28 -07001021 PendingLoads.push_back(SpillLoad.getValue(1));
Philip Reames1a1bdb22014-12-02 18:50:36 +00001022
Igor Laevsky423bc9ec2015-05-20 11:37:25 +00001023 assert(SpillLoad.getNode());
Manuel Jacob83eefa62016-01-05 04:03:00 +00001024 setValue(&Relocate, SpillLoad);
Philip Reames1a1bdb22014-12-02 18:50:36 +00001025}
Sanjoy Dasdf9ae702016-03-24 20:23:29 +00001026
1027void SelectionDAGBuilder::LowerDeoptimizeCall(const CallInst *CI) {
1028 const auto &TLI = DAG.getTargetLoweringInfo();
Sanjoy Dasdf9ae702016-03-24 20:23:29 +00001029 SDValue Callee = DAG.getExternalSymbol(TLI.getLibcallName(RTLIB::DEOPTIMIZE),
1030 TLI.getPointerTy(DAG.getDataLayout()));
Sanjoy Dasdf9ae702016-03-24 20:23:29 +00001031
Sanjoy Dasfd3eaa82016-03-24 22:51:49 +00001032 // We don't lower calls to __llvm_deoptimize as varargs, but as a regular
Sanjoy Das65a60672016-04-06 01:33:49 +00001033 // call. We also do not lower the return value to any virtual register, and
1034 // change the immediately following return to a trap instruction.
Sanjoy Dasfd3eaa82016-03-24 22:51:49 +00001035 LowerCallSiteWithDeoptBundleImpl(CI, Callee, /* EHPadBB = */ nullptr,
Sanjoy Das65a60672016-04-06 01:33:49 +00001036 /* VarArgDisallowed = */ true,
1037 /* ForceVoidReturnTy = */ true);
1038}
1039
1040void SelectionDAGBuilder::LowerDeoptimizingReturn() {
1041 // We do not lower the return value from llvm.deoptimize to any virtual
1042 // register, and change the immediately following return to a trap
1043 // instruction.
1044 if (DAG.getTarget().Options.TrapUnreachable)
1045 DAG.setRoot(
1046 DAG.getNode(ISD::TRAP, getCurSDLoc(), MVT::Other, DAG.getRoot()));
Sanjoy Dasdf9ae702016-03-24 20:23:29 +00001047}