xref: /freebsd/contrib/llvm-project/llvm/lib/Transforms/Utils/LowerMemIntrinsics.cpp (revision f078c492a9b57877c723586db26d789cda1b98ea)
1 //===- LowerMemIntrinsics.cpp ----------------------------------*- C++ -*--===//
2 //
3 // 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
6 //
7 //===----------------------------------------------------------------------===//
8 
9 #include "llvm/Transforms/Utils/LowerMemIntrinsics.h"
10 #include "llvm/Analysis/TargetTransformInfo.h"
11 #include "llvm/IR/IRBuilder.h"
12 #include "llvm/IR/IntrinsicInst.h"
13 #include "llvm/Transforms/Utils/BasicBlockUtils.h"
14 
15 using namespace llvm;
16 
17 void llvm::createMemCpyLoopKnownSize(Instruction *InsertBefore, Value *SrcAddr,
18                                      Value *DstAddr, ConstantInt *CopyLen,
19                                      Align SrcAlign, Align DstAlign,
20                                      bool SrcIsVolatile, bool DstIsVolatile,
21                                      const TargetTransformInfo &TTI) {
22   // No need to expand zero length copies.
23   if (CopyLen->isZero())
24     return;
25 
26   BasicBlock *PreLoopBB = InsertBefore->getParent();
27   BasicBlock *PostLoopBB = nullptr;
28   Function *ParentFunc = PreLoopBB->getParent();
29   LLVMContext &Ctx = PreLoopBB->getContext();
30   const DataLayout &DL = ParentFunc->getParent()->getDataLayout();
31 
32   unsigned SrcAS = cast<PointerType>(SrcAddr->getType())->getAddressSpace();
33   unsigned DstAS = cast<PointerType>(DstAddr->getType())->getAddressSpace();
34 
35   Type *TypeOfCopyLen = CopyLen->getType();
36   Type *LoopOpType = TTI.getMemcpyLoopLoweringType(
37       Ctx, CopyLen, SrcAS, DstAS, SrcAlign.value(), DstAlign.value());
38 
39   unsigned LoopOpSize = DL.getTypeStoreSize(LoopOpType);
40   uint64_t LoopEndCount = CopyLen->getZExtValue() / LoopOpSize;
41 
42   if (LoopEndCount != 0) {
43     // Split
44     PostLoopBB = PreLoopBB->splitBasicBlock(InsertBefore, "memcpy-split");
45     BasicBlock *LoopBB =
46         BasicBlock::Create(Ctx, "load-store-loop", ParentFunc, PostLoopBB);
47     PreLoopBB->getTerminator()->setSuccessor(0, LoopBB);
48 
49     IRBuilder<> PLBuilder(PreLoopBB->getTerminator());
50 
51     // Cast the Src and Dst pointers to pointers to the loop operand type (if
52     // needed).
53     PointerType *SrcOpType = PointerType::get(LoopOpType, SrcAS);
54     PointerType *DstOpType = PointerType::get(LoopOpType, DstAS);
55     if (SrcAddr->getType() != SrcOpType) {
56       SrcAddr = PLBuilder.CreateBitCast(SrcAddr, SrcOpType);
57     }
58     if (DstAddr->getType() != DstOpType) {
59       DstAddr = PLBuilder.CreateBitCast(DstAddr, DstOpType);
60     }
61 
62     Align PartDstAlign(commonAlignment(DstAlign, LoopOpSize));
63     Align PartSrcAlign(commonAlignment(SrcAlign, LoopOpSize));
64 
65     IRBuilder<> LoopBuilder(LoopBB);
66     PHINode *LoopIndex = LoopBuilder.CreatePHI(TypeOfCopyLen, 2, "loop-index");
67     LoopIndex->addIncoming(ConstantInt::get(TypeOfCopyLen, 0U), PreLoopBB);
68     // Loop Body
69     Value *SrcGEP =
70         LoopBuilder.CreateInBoundsGEP(LoopOpType, SrcAddr, LoopIndex);
71     Value *Load = LoopBuilder.CreateAlignedLoad(LoopOpType, SrcGEP,
72                                                 PartSrcAlign, SrcIsVolatile);
73     Value *DstGEP =
74         LoopBuilder.CreateInBoundsGEP(LoopOpType, DstAddr, LoopIndex);
75     LoopBuilder.CreateAlignedStore(Load, DstGEP, PartDstAlign, DstIsVolatile);
76 
77     Value *NewIndex =
78         LoopBuilder.CreateAdd(LoopIndex, ConstantInt::get(TypeOfCopyLen, 1U));
79     LoopIndex->addIncoming(NewIndex, LoopBB);
80 
81     // Create the loop branch condition.
82     Constant *LoopEndCI = ConstantInt::get(TypeOfCopyLen, LoopEndCount);
83     LoopBuilder.CreateCondBr(LoopBuilder.CreateICmpULT(NewIndex, LoopEndCI),
84                              LoopBB, PostLoopBB);
85   }
86 
87   uint64_t BytesCopied = LoopEndCount * LoopOpSize;
88   uint64_t RemainingBytes = CopyLen->getZExtValue() - BytesCopied;
89   if (RemainingBytes) {
90     IRBuilder<> RBuilder(PostLoopBB ? PostLoopBB->getFirstNonPHI()
91                                     : InsertBefore);
92 
93     SmallVector<Type *, 5> RemainingOps;
94     TTI.getMemcpyLoopResidualLoweringType(RemainingOps, Ctx, RemainingBytes,
95                                           SrcAS, DstAS, SrcAlign.value(),
96                                           DstAlign.value());
97 
98     for (auto OpTy : RemainingOps) {
99       Align PartSrcAlign(commonAlignment(SrcAlign, BytesCopied));
100       Align PartDstAlign(commonAlignment(DstAlign, BytesCopied));
101 
102       // Calaculate the new index
103       unsigned OperandSize = DL.getTypeStoreSize(OpTy);
104       uint64_t GepIndex = BytesCopied / OperandSize;
105       assert(GepIndex * OperandSize == BytesCopied &&
106              "Division should have no Remainder!");
107       // Cast source to operand type and load
108       PointerType *SrcPtrType = PointerType::get(OpTy, SrcAS);
109       Value *CastedSrc = SrcAddr->getType() == SrcPtrType
110                              ? SrcAddr
111                              : RBuilder.CreateBitCast(SrcAddr, SrcPtrType);
112       Value *SrcGEP = RBuilder.CreateInBoundsGEP(
113           OpTy, CastedSrc, ConstantInt::get(TypeOfCopyLen, GepIndex));
114       Value *Load =
115           RBuilder.CreateAlignedLoad(OpTy, SrcGEP, PartSrcAlign, SrcIsVolatile);
116 
117       // Cast destination to operand type and store.
118       PointerType *DstPtrType = PointerType::get(OpTy, DstAS);
119       Value *CastedDst = DstAddr->getType() == DstPtrType
120                              ? DstAddr
121                              : RBuilder.CreateBitCast(DstAddr, DstPtrType);
122       Value *DstGEP = RBuilder.CreateInBoundsGEP(
123           OpTy, CastedDst, ConstantInt::get(TypeOfCopyLen, GepIndex));
124       RBuilder.CreateAlignedStore(Load, DstGEP, PartDstAlign, DstIsVolatile);
125 
126       BytesCopied += OperandSize;
127     }
128   }
129   assert(BytesCopied == CopyLen->getZExtValue() &&
130          "Bytes copied should match size in the call!");
131 }
132 
133 void llvm::createMemCpyLoopUnknownSize(Instruction *InsertBefore,
134                                        Value *SrcAddr, Value *DstAddr,
135                                        Value *CopyLen, Align SrcAlign,
136                                        Align DstAlign, bool SrcIsVolatile,
137                                        bool DstIsVolatile,
138                                        const TargetTransformInfo &TTI) {
139   BasicBlock *PreLoopBB = InsertBefore->getParent();
140   BasicBlock *PostLoopBB =
141       PreLoopBB->splitBasicBlock(InsertBefore, "post-loop-memcpy-expansion");
142 
143   Function *ParentFunc = PreLoopBB->getParent();
144   const DataLayout &DL = ParentFunc->getParent()->getDataLayout();
145   LLVMContext &Ctx = PreLoopBB->getContext();
146   unsigned SrcAS = cast<PointerType>(SrcAddr->getType())->getAddressSpace();
147   unsigned DstAS = cast<PointerType>(DstAddr->getType())->getAddressSpace();
148 
149   Type *LoopOpType = TTI.getMemcpyLoopLoweringType(
150       Ctx, CopyLen, SrcAS, DstAS, SrcAlign.value(), DstAlign.value());
151   unsigned LoopOpSize = DL.getTypeStoreSize(LoopOpType);
152 
153   IRBuilder<> PLBuilder(PreLoopBB->getTerminator());
154 
155   PointerType *SrcOpType = PointerType::get(LoopOpType, SrcAS);
156   PointerType *DstOpType = PointerType::get(LoopOpType, DstAS);
157   if (SrcAddr->getType() != SrcOpType) {
158     SrcAddr = PLBuilder.CreateBitCast(SrcAddr, SrcOpType);
159   }
160   if (DstAddr->getType() != DstOpType) {
161     DstAddr = PLBuilder.CreateBitCast(DstAddr, DstOpType);
162   }
163 
164   // Calculate the loop trip count, and remaining bytes to copy after the loop.
165   Type *CopyLenType = CopyLen->getType();
166   IntegerType *ILengthType = dyn_cast<IntegerType>(CopyLenType);
167   assert(ILengthType &&
168          "expected size argument to memcpy to be an integer type!");
169   Type *Int8Type = Type::getInt8Ty(Ctx);
170   bool LoopOpIsInt8 = LoopOpType == Int8Type;
171   ConstantInt *CILoopOpSize = ConstantInt::get(ILengthType, LoopOpSize);
172   Value *RuntimeLoopCount = LoopOpIsInt8 ?
173                             CopyLen :
174                             PLBuilder.CreateUDiv(CopyLen, CILoopOpSize);
175   BasicBlock *LoopBB =
176       BasicBlock::Create(Ctx, "loop-memcpy-expansion", ParentFunc, PostLoopBB);
177   IRBuilder<> LoopBuilder(LoopBB);
178 
179   Align PartSrcAlign(commonAlignment(SrcAlign, LoopOpSize));
180   Align PartDstAlign(commonAlignment(DstAlign, LoopOpSize));
181 
182   PHINode *LoopIndex = LoopBuilder.CreatePHI(CopyLenType, 2, "loop-index");
183   LoopIndex->addIncoming(ConstantInt::get(CopyLenType, 0U), PreLoopBB);
184 
185   Value *SrcGEP = LoopBuilder.CreateInBoundsGEP(LoopOpType, SrcAddr, LoopIndex);
186   Value *Load = LoopBuilder.CreateAlignedLoad(LoopOpType, SrcGEP, PartSrcAlign,
187                                               SrcIsVolatile);
188   Value *DstGEP = LoopBuilder.CreateInBoundsGEP(LoopOpType, DstAddr, LoopIndex);
189   LoopBuilder.CreateAlignedStore(Load, DstGEP, PartDstAlign, DstIsVolatile);
190 
191   Value *NewIndex =
192       LoopBuilder.CreateAdd(LoopIndex, ConstantInt::get(CopyLenType, 1U));
193   LoopIndex->addIncoming(NewIndex, LoopBB);
194 
195   if (!LoopOpIsInt8) {
196    // Add in the
197    Value *RuntimeResidual = PLBuilder.CreateURem(CopyLen, CILoopOpSize);
198    Value *RuntimeBytesCopied = PLBuilder.CreateSub(CopyLen, RuntimeResidual);
199 
200     // Loop body for the residual copy.
201     BasicBlock *ResLoopBB = BasicBlock::Create(Ctx, "loop-memcpy-residual",
202                                                PreLoopBB->getParent(),
203                                                PostLoopBB);
204     // Residual loop header.
205     BasicBlock *ResHeaderBB = BasicBlock::Create(
206         Ctx, "loop-memcpy-residual-header", PreLoopBB->getParent(), nullptr);
207 
208     // Need to update the pre-loop basic block to branch to the correct place.
209     // branch to the main loop if the count is non-zero, branch to the residual
210     // loop if the copy size is smaller then 1 iteration of the main loop but
211     // non-zero and finally branch to after the residual loop if the memcpy
212     //  size is zero.
213     ConstantInt *Zero = ConstantInt::get(ILengthType, 0U);
214     PLBuilder.CreateCondBr(PLBuilder.CreateICmpNE(RuntimeLoopCount, Zero),
215                            LoopBB, ResHeaderBB);
216     PreLoopBB->getTerminator()->eraseFromParent();
217 
218     LoopBuilder.CreateCondBr(
219         LoopBuilder.CreateICmpULT(NewIndex, RuntimeLoopCount), LoopBB,
220         ResHeaderBB);
221 
222     // Determine if we need to branch to the residual loop or bypass it.
223     IRBuilder<> RHBuilder(ResHeaderBB);
224     RHBuilder.CreateCondBr(RHBuilder.CreateICmpNE(RuntimeResidual, Zero),
225                            ResLoopBB, PostLoopBB);
226 
227     // Copy the residual with single byte load/store loop.
228     IRBuilder<> ResBuilder(ResLoopBB);
229     PHINode *ResidualIndex =
230         ResBuilder.CreatePHI(CopyLenType, 2, "residual-loop-index");
231     ResidualIndex->addIncoming(Zero, ResHeaderBB);
232 
233     Value *SrcAsInt8 =
234         ResBuilder.CreateBitCast(SrcAddr, PointerType::get(Int8Type, SrcAS));
235     Value *DstAsInt8 =
236         ResBuilder.CreateBitCast(DstAddr, PointerType::get(Int8Type, DstAS));
237     Value *FullOffset = ResBuilder.CreateAdd(RuntimeBytesCopied, ResidualIndex);
238     Value *SrcGEP =
239         ResBuilder.CreateInBoundsGEP(Int8Type, SrcAsInt8, FullOffset);
240     Value *Load = ResBuilder.CreateAlignedLoad(Int8Type, SrcGEP, PartSrcAlign,
241                                                SrcIsVolatile);
242     Value *DstGEP =
243         ResBuilder.CreateInBoundsGEP(Int8Type, DstAsInt8, FullOffset);
244     ResBuilder.CreateAlignedStore(Load, DstGEP, PartDstAlign, DstIsVolatile);
245 
246     Value *ResNewIndex =
247         ResBuilder.CreateAdd(ResidualIndex, ConstantInt::get(CopyLenType, 1U));
248     ResidualIndex->addIncoming(ResNewIndex, ResLoopBB);
249 
250     // Create the loop branch condition.
251     ResBuilder.CreateCondBr(
252         ResBuilder.CreateICmpULT(ResNewIndex, RuntimeResidual), ResLoopBB,
253         PostLoopBB);
254   } else {
255     // In this case the loop operand type was a byte, and there is no need for a
256     // residual loop to copy the remaining memory after the main loop.
257     // We do however need to patch up the control flow by creating the
258     // terminators for the preloop block and the memcpy loop.
259     ConstantInt *Zero = ConstantInt::get(ILengthType, 0U);
260     PLBuilder.CreateCondBr(PLBuilder.CreateICmpNE(RuntimeLoopCount, Zero),
261                            LoopBB, PostLoopBB);
262     PreLoopBB->getTerminator()->eraseFromParent();
263     LoopBuilder.CreateCondBr(
264         LoopBuilder.CreateICmpULT(NewIndex, RuntimeLoopCount), LoopBB,
265         PostLoopBB);
266   }
267 }
268 
269 // Lower memmove to IR. memmove is required to correctly copy overlapping memory
270 // regions; therefore, it has to check the relative positions of the source and
271 // destination pointers and choose the copy direction accordingly.
272 //
273 // The code below is an IR rendition of this C function:
274 //
275 // void* memmove(void* dst, const void* src, size_t n) {
276 //   unsigned char* d = dst;
277 //   const unsigned char* s = src;
278 //   if (s < d) {
279 //     // copy backwards
280 //     while (n--) {
281 //       d[n] = s[n];
282 //     }
283 //   } else {
284 //     // copy forward
285 //     for (size_t i = 0; i < n; ++i) {
286 //       d[i] = s[i];
287 //     }
288 //   }
289 //   return dst;
290 // }
291 static void createMemMoveLoop(Instruction *InsertBefore, Value *SrcAddr,
292                               Value *DstAddr, Value *CopyLen, Align SrcAlign,
293                               Align DstAlign, bool SrcIsVolatile,
294                               bool DstIsVolatile) {
295   Type *TypeOfCopyLen = CopyLen->getType();
296   BasicBlock *OrigBB = InsertBefore->getParent();
297   Function *F = OrigBB->getParent();
298   const DataLayout &DL = F->getParent()->getDataLayout();
299 
300   Type *EltTy = cast<PointerType>(SrcAddr->getType())->getElementType();
301 
302   // Create the a comparison of src and dst, based on which we jump to either
303   // the forward-copy part of the function (if src >= dst) or the backwards-copy
304   // part (if src < dst).
305   // SplitBlockAndInsertIfThenElse conveniently creates the basic if-then-else
306   // structure. Its block terminators (unconditional branches) are replaced by
307   // the appropriate conditional branches when the loop is built.
308   ICmpInst *PtrCompare = new ICmpInst(InsertBefore, ICmpInst::ICMP_ULT,
309                                       SrcAddr, DstAddr, "compare_src_dst");
310   Instruction *ThenTerm, *ElseTerm;
311   SplitBlockAndInsertIfThenElse(PtrCompare, InsertBefore, &ThenTerm,
312                                 &ElseTerm);
313 
314   // Each part of the function consists of two blocks:
315   //   copy_backwards:        used to skip the loop when n == 0
316   //   copy_backwards_loop:   the actual backwards loop BB
317   //   copy_forward:          used to skip the loop when n == 0
318   //   copy_forward_loop:     the actual forward loop BB
319   BasicBlock *CopyBackwardsBB = ThenTerm->getParent();
320   CopyBackwardsBB->setName("copy_backwards");
321   BasicBlock *CopyForwardBB = ElseTerm->getParent();
322   CopyForwardBB->setName("copy_forward");
323   BasicBlock *ExitBB = InsertBefore->getParent();
324   ExitBB->setName("memmove_done");
325 
326   unsigned PartSize = DL.getTypeStoreSize(EltTy);
327   Align PartSrcAlign(commonAlignment(SrcAlign, PartSize));
328   Align PartDstAlign(commonAlignment(DstAlign, PartSize));
329 
330   // Initial comparison of n == 0 that lets us skip the loops altogether. Shared
331   // between both backwards and forward copy clauses.
332   ICmpInst *CompareN =
333       new ICmpInst(OrigBB->getTerminator(), ICmpInst::ICMP_EQ, CopyLen,
334                    ConstantInt::get(TypeOfCopyLen, 0), "compare_n_to_0");
335 
336   // Copying backwards.
337   BasicBlock *LoopBB =
338     BasicBlock::Create(F->getContext(), "copy_backwards_loop", F, CopyForwardBB);
339   IRBuilder<> LoopBuilder(LoopBB);
340   PHINode *LoopPhi = LoopBuilder.CreatePHI(TypeOfCopyLen, 0);
341   Value *IndexPtr = LoopBuilder.CreateSub(
342       LoopPhi, ConstantInt::get(TypeOfCopyLen, 1), "index_ptr");
343   Value *Element = LoopBuilder.CreateAlignedLoad(
344       EltTy, LoopBuilder.CreateInBoundsGEP(EltTy, SrcAddr, IndexPtr),
345       PartSrcAlign, "element");
346   LoopBuilder.CreateAlignedStore(
347       Element, LoopBuilder.CreateInBoundsGEP(EltTy, DstAddr, IndexPtr),
348       PartDstAlign);
349   LoopBuilder.CreateCondBr(
350       LoopBuilder.CreateICmpEQ(IndexPtr, ConstantInt::get(TypeOfCopyLen, 0)),
351       ExitBB, LoopBB);
352   LoopPhi->addIncoming(IndexPtr, LoopBB);
353   LoopPhi->addIncoming(CopyLen, CopyBackwardsBB);
354   BranchInst::Create(ExitBB, LoopBB, CompareN, ThenTerm);
355   ThenTerm->eraseFromParent();
356 
357   // Copying forward.
358   BasicBlock *FwdLoopBB =
359     BasicBlock::Create(F->getContext(), "copy_forward_loop", F, ExitBB);
360   IRBuilder<> FwdLoopBuilder(FwdLoopBB);
361   PHINode *FwdCopyPhi = FwdLoopBuilder.CreatePHI(TypeOfCopyLen, 0, "index_ptr");
362   Value *SrcGEP = FwdLoopBuilder.CreateInBoundsGEP(EltTy, SrcAddr, FwdCopyPhi);
363   Value *FwdElement =
364       FwdLoopBuilder.CreateAlignedLoad(EltTy, SrcGEP, PartSrcAlign, "element");
365   Value *DstGEP = FwdLoopBuilder.CreateInBoundsGEP(EltTy, DstAddr, FwdCopyPhi);
366   FwdLoopBuilder.CreateAlignedStore(FwdElement, DstGEP, PartDstAlign);
367   Value *FwdIndexPtr = FwdLoopBuilder.CreateAdd(
368       FwdCopyPhi, ConstantInt::get(TypeOfCopyLen, 1), "index_increment");
369   FwdLoopBuilder.CreateCondBr(FwdLoopBuilder.CreateICmpEQ(FwdIndexPtr, CopyLen),
370                               ExitBB, FwdLoopBB);
371   FwdCopyPhi->addIncoming(FwdIndexPtr, FwdLoopBB);
372   FwdCopyPhi->addIncoming(ConstantInt::get(TypeOfCopyLen, 0), CopyForwardBB);
373 
374   BranchInst::Create(ExitBB, FwdLoopBB, CompareN, ElseTerm);
375   ElseTerm->eraseFromParent();
376 }
377 
378 static void createMemSetLoop(Instruction *InsertBefore, Value *DstAddr,
379                              Value *CopyLen, Value *SetValue, Align DstAlign,
380                              bool IsVolatile) {
381   Type *TypeOfCopyLen = CopyLen->getType();
382   BasicBlock *OrigBB = InsertBefore->getParent();
383   Function *F = OrigBB->getParent();
384   const DataLayout &DL = F->getParent()->getDataLayout();
385   BasicBlock *NewBB =
386       OrigBB->splitBasicBlock(InsertBefore, "split");
387   BasicBlock *LoopBB
388     = BasicBlock::Create(F->getContext(), "loadstoreloop", F, NewBB);
389 
390   IRBuilder<> Builder(OrigBB->getTerminator());
391 
392   // Cast pointer to the type of value getting stored
393   unsigned dstAS = cast<PointerType>(DstAddr->getType())->getAddressSpace();
394   DstAddr = Builder.CreateBitCast(DstAddr,
395                                   PointerType::get(SetValue->getType(), dstAS));
396 
397   Builder.CreateCondBr(
398       Builder.CreateICmpEQ(ConstantInt::get(TypeOfCopyLen, 0), CopyLen), NewBB,
399       LoopBB);
400   OrigBB->getTerminator()->eraseFromParent();
401 
402   unsigned PartSize = DL.getTypeStoreSize(SetValue->getType());
403   Align PartAlign(commonAlignment(DstAlign, PartSize));
404 
405   IRBuilder<> LoopBuilder(LoopBB);
406   PHINode *LoopIndex = LoopBuilder.CreatePHI(TypeOfCopyLen, 0);
407   LoopIndex->addIncoming(ConstantInt::get(TypeOfCopyLen, 0), OrigBB);
408 
409   LoopBuilder.CreateAlignedStore(
410       SetValue,
411       LoopBuilder.CreateInBoundsGEP(SetValue->getType(), DstAddr, LoopIndex),
412       PartAlign, IsVolatile);
413 
414   Value *NewIndex =
415       LoopBuilder.CreateAdd(LoopIndex, ConstantInt::get(TypeOfCopyLen, 1));
416   LoopIndex->addIncoming(NewIndex, LoopBB);
417 
418   LoopBuilder.CreateCondBr(LoopBuilder.CreateICmpULT(NewIndex, CopyLen), LoopBB,
419                            NewBB);
420 }
421 
422 void llvm::expandMemCpyAsLoop(MemCpyInst *Memcpy,
423                               const TargetTransformInfo &TTI) {
424   if (ConstantInt *CI = dyn_cast<ConstantInt>(Memcpy->getLength())) {
425     createMemCpyLoopKnownSize(
426         /* InsertBefore */ Memcpy,
427         /* SrcAddr */ Memcpy->getRawSource(),
428         /* DstAddr */ Memcpy->getRawDest(),
429         /* CopyLen */ CI,
430         /* SrcAlign */ Memcpy->getSourceAlign().valueOrOne(),
431         /* DestAlign */ Memcpy->getDestAlign().valueOrOne(),
432         /* SrcIsVolatile */ Memcpy->isVolatile(),
433         /* DstIsVolatile */ Memcpy->isVolatile(),
434         /* TargetTransformInfo */ TTI);
435   } else {
436     createMemCpyLoopUnknownSize(
437         /* InsertBefore */ Memcpy,
438         /* SrcAddr */ Memcpy->getRawSource(),
439         /* DstAddr */ Memcpy->getRawDest(),
440         /* CopyLen */ Memcpy->getLength(),
441         /* SrcAlign */ Memcpy->getSourceAlign().valueOrOne(),
442         /* DestAlign */ Memcpy->getDestAlign().valueOrOne(),
443         /* SrcIsVolatile */ Memcpy->isVolatile(),
444         /* DstIsVolatile */ Memcpy->isVolatile(),
445         /* TargetTransfomrInfo */ TTI);
446   }
447 }
448 
449 void llvm::expandMemMoveAsLoop(MemMoveInst *Memmove) {
450   createMemMoveLoop(/* InsertBefore */ Memmove,
451                     /* SrcAddr */ Memmove->getRawSource(),
452                     /* DstAddr */ Memmove->getRawDest(),
453                     /* CopyLen */ Memmove->getLength(),
454                     /* SrcAlign */ Memmove->getSourceAlign().valueOrOne(),
455                     /* DestAlign */ Memmove->getDestAlign().valueOrOne(),
456                     /* SrcIsVolatile */ Memmove->isVolatile(),
457                     /* DstIsVolatile */ Memmove->isVolatile());
458 }
459 
460 void llvm::expandMemSetAsLoop(MemSetInst *Memset) {
461   createMemSetLoop(/* InsertBefore */ Memset,
462                    /* DstAddr */ Memset->getRawDest(),
463                    /* CopyLen */ Memset->getLength(),
464                    /* SetValue */ Memset->getValue(),
465                    /* Alignment */ Memset->getDestAlign().valueOrOne(),
466                    Memset->isVolatile());
467 }
468