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1 //===- OpenMPIRBuilder.cpp - Builder for LLVM-IR for OpenMP directives ----===//
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 /// \file
9 ///
10 /// This file implements the OpenMPIRBuilder class, which is used as a
11 /// convenient way to create LLVM instructions for OpenMP directives.
12 ///
13 //===----------------------------------------------------------------------===//
14 
15 #include "llvm/Frontend/OpenMP/OMPIRBuilder.h"
16 
17 #include "llvm/ADT/StringRef.h"
18 #include "llvm/ADT/StringSwitch.h"
19 #include "llvm/ADT/Triple.h"
20 #include "llvm/IR/CFG.h"
21 #include "llvm/IR/DebugInfo.h"
22 #include "llvm/IR/IRBuilder.h"
23 #include "llvm/IR/MDBuilder.h"
24 #include "llvm/Support/CommandLine.h"
25 #include "llvm/Support/Error.h"
26 #include "llvm/Transforms/Utils/BasicBlockUtils.h"
27 #include "llvm/Transforms/Utils/CodeExtractor.h"
28 
29 #include <sstream>
30 
31 #define DEBUG_TYPE "openmp-ir-builder"
32 
33 using namespace llvm;
34 using namespace omp;
35 
36 static cl::opt<bool>
37     OptimisticAttributes("openmp-ir-builder-optimistic-attributes", cl::Hidden,
38                          cl::desc("Use optimistic attributes describing "
39                                   "'as-if' properties of runtime calls."),
40                          cl::init(false));
41 
addAttributes(omp::RuntimeFunction FnID,Function & Fn)42 void OpenMPIRBuilder::addAttributes(omp::RuntimeFunction FnID, Function &Fn) {
43   LLVMContext &Ctx = Fn.getContext();
44 
45 #define OMP_ATTRS_SET(VarName, AttrSet) AttributeSet VarName = AttrSet;
46 #include "llvm/Frontend/OpenMP/OMPKinds.def"
47 
48   // Add attributes to the new declaration.
49   switch (FnID) {
50 #define OMP_RTL_ATTRS(Enum, FnAttrSet, RetAttrSet, ArgAttrSets)                \
51   case Enum:                                                                   \
52     Fn.setAttributes(                                                          \
53         AttributeList::get(Ctx, FnAttrSet, RetAttrSet, ArgAttrSets));          \
54     break;
55 #include "llvm/Frontend/OpenMP/OMPKinds.def"
56   default:
57     // Attributes are optional.
58     break;
59   }
60 }
61 
62 FunctionCallee
getOrCreateRuntimeFunction(Module & M,RuntimeFunction FnID)63 OpenMPIRBuilder::getOrCreateRuntimeFunction(Module &M, RuntimeFunction FnID) {
64   FunctionType *FnTy = nullptr;
65   Function *Fn = nullptr;
66 
67   // Try to find the declation in the module first.
68   switch (FnID) {
69 #define OMP_RTL(Enum, Str, IsVarArg, ReturnType, ...)                          \
70   case Enum:                                                                   \
71     FnTy = FunctionType::get(ReturnType, ArrayRef<Type *>{__VA_ARGS__},        \
72                              IsVarArg);                                        \
73     Fn = M.getFunction(Str);                                                   \
74     break;
75 #include "llvm/Frontend/OpenMP/OMPKinds.def"
76   }
77 
78   if (!Fn) {
79     // Create a new declaration if we need one.
80     switch (FnID) {
81 #define OMP_RTL(Enum, Str, ...)                                                \
82   case Enum:                                                                   \
83     Fn = Function::Create(FnTy, GlobalValue::ExternalLinkage, Str, M);         \
84     break;
85 #include "llvm/Frontend/OpenMP/OMPKinds.def"
86     }
87 
88     // Add information if the runtime function takes a callback function
89     if (FnID == OMPRTL___kmpc_fork_call || FnID == OMPRTL___kmpc_fork_teams) {
90       if (!Fn->hasMetadata(LLVMContext::MD_callback)) {
91         LLVMContext &Ctx = Fn->getContext();
92         MDBuilder MDB(Ctx);
93         // Annotate the callback behavior of the runtime function:
94         //  - The callback callee is argument number 2 (microtask).
95         //  - The first two arguments of the callback callee are unknown (-1).
96         //  - All variadic arguments to the runtime function are passed to the
97         //    callback callee.
98         Fn->addMetadata(
99             LLVMContext::MD_callback,
100             *MDNode::get(Ctx, {MDB.createCallbackEncoding(
101                                   2, {-1, -1}, /* VarArgsArePassed */ true)}));
102       }
103     }
104 
105     LLVM_DEBUG(dbgs() << "Created OpenMP runtime function " << Fn->getName()
106                       << " with type " << *Fn->getFunctionType() << "\n");
107     addAttributes(FnID, *Fn);
108 
109   } else {
110     LLVM_DEBUG(dbgs() << "Found OpenMP runtime function " << Fn->getName()
111                       << " with type " << *Fn->getFunctionType() << "\n");
112   }
113 
114   assert(Fn && "Failed to create OpenMP runtime function");
115 
116   // Cast the function to the expected type if necessary
117   Constant *C = ConstantExpr::getBitCast(Fn, FnTy->getPointerTo());
118   return {FnTy, C};
119 }
120 
getOrCreateRuntimeFunctionPtr(RuntimeFunction FnID)121 Function *OpenMPIRBuilder::getOrCreateRuntimeFunctionPtr(RuntimeFunction FnID) {
122   FunctionCallee RTLFn = getOrCreateRuntimeFunction(M, FnID);
123   auto *Fn = dyn_cast<llvm::Function>(RTLFn.getCallee());
124   assert(Fn && "Failed to create OpenMP runtime function pointer");
125   return Fn;
126 }
127 
initialize()128 void OpenMPIRBuilder::initialize() { initializeTypes(M); }
129 
finalize()130 void OpenMPIRBuilder::finalize() {
131   SmallPtrSet<BasicBlock *, 32> ParallelRegionBlockSet;
132   SmallVector<BasicBlock *, 32> Blocks;
133   for (OutlineInfo &OI : OutlineInfos) {
134     ParallelRegionBlockSet.clear();
135     Blocks.clear();
136     OI.collectBlocks(ParallelRegionBlockSet, Blocks);
137 
138     Function *OuterFn = OI.EntryBB->getParent();
139     CodeExtractorAnalysisCache CEAC(*OuterFn);
140     CodeExtractor Extractor(Blocks, /* DominatorTree */ nullptr,
141                             /* AggregateArgs */ false,
142                             /* BlockFrequencyInfo */ nullptr,
143                             /* BranchProbabilityInfo */ nullptr,
144                             /* AssumptionCache */ nullptr,
145                             /* AllowVarArgs */ true,
146                             /* AllowAlloca */ true,
147                             /* Suffix */ ".omp_par");
148 
149     LLVM_DEBUG(dbgs() << "Before     outlining: " << *OuterFn << "\n");
150     LLVM_DEBUG(dbgs() << "Entry " << OI.EntryBB->getName()
151                       << " Exit: " << OI.ExitBB->getName() << "\n");
152     assert(Extractor.isEligible() &&
153            "Expected OpenMP outlining to be possible!");
154 
155     Function *OutlinedFn = Extractor.extractCodeRegion(CEAC);
156 
157     LLVM_DEBUG(dbgs() << "After      outlining: " << *OuterFn << "\n");
158     LLVM_DEBUG(dbgs() << "   Outlined function: " << *OutlinedFn << "\n");
159     assert(OutlinedFn->getReturnType()->isVoidTy() &&
160            "OpenMP outlined functions should not return a value!");
161 
162     // For compability with the clang CG we move the outlined function after the
163     // one with the parallel region.
164     OutlinedFn->removeFromParent();
165     M.getFunctionList().insertAfter(OuterFn->getIterator(), OutlinedFn);
166 
167     // Remove the artificial entry introduced by the extractor right away, we
168     // made our own entry block after all.
169     {
170       BasicBlock &ArtificialEntry = OutlinedFn->getEntryBlock();
171       assert(ArtificialEntry.getUniqueSuccessor() == OI.EntryBB);
172       assert(OI.EntryBB->getUniquePredecessor() == &ArtificialEntry);
173       OI.EntryBB->moveBefore(&ArtificialEntry);
174       ArtificialEntry.eraseFromParent();
175     }
176     assert(&OutlinedFn->getEntryBlock() == OI.EntryBB);
177     assert(OutlinedFn && OutlinedFn->getNumUses() == 1);
178 
179     // Run a user callback, e.g. to add attributes.
180     if (OI.PostOutlineCB)
181       OI.PostOutlineCB(*OutlinedFn);
182   }
183 
184   // Allow finalize to be called multiple times.
185   OutlineInfos.clear();
186 }
187 
getOrCreateIdent(Constant * SrcLocStr,IdentFlag LocFlags,unsigned Reserve2Flags)188 Value *OpenMPIRBuilder::getOrCreateIdent(Constant *SrcLocStr,
189                                          IdentFlag LocFlags,
190                                          unsigned Reserve2Flags) {
191   // Enable "C-mode".
192   LocFlags |= OMP_IDENT_FLAG_KMPC;
193 
194   Value *&Ident =
195       IdentMap[{SrcLocStr, uint64_t(LocFlags) << 31 | Reserve2Flags}];
196   if (!Ident) {
197     Constant *I32Null = ConstantInt::getNullValue(Int32);
198     Constant *IdentData[] = {
199         I32Null, ConstantInt::get(Int32, uint32_t(LocFlags)),
200         ConstantInt::get(Int32, Reserve2Flags), I32Null, SrcLocStr};
201     Constant *Initializer = ConstantStruct::get(
202         cast<StructType>(IdentPtr->getPointerElementType()), IdentData);
203 
204     // Look for existing encoding of the location + flags, not needed but
205     // minimizes the difference to the existing solution while we transition.
206     for (GlobalVariable &GV : M.getGlobalList())
207       if (GV.getType() == IdentPtr && GV.hasInitializer())
208         if (GV.getInitializer() == Initializer)
209           return Ident = &GV;
210 
211     auto *GV = new GlobalVariable(M, IdentPtr->getPointerElementType(),
212                                   /* isConstant = */ true,
213                                   GlobalValue::PrivateLinkage, Initializer);
214     GV->setUnnamedAddr(GlobalValue::UnnamedAddr::Global);
215     GV->setAlignment(Align(8));
216     Ident = GV;
217   }
218   return Builder.CreatePointerCast(Ident, IdentPtr);
219 }
220 
getLanemaskType()221 Type *OpenMPIRBuilder::getLanemaskType() {
222   LLVMContext &Ctx = M.getContext();
223   Triple triple(M.getTargetTriple());
224 
225   // This test is adequate until deviceRTL has finer grained lane widths
226   return triple.isAMDGCN() ? Type::getInt64Ty(Ctx) : Type::getInt32Ty(Ctx);
227 }
228 
getOrCreateSrcLocStr(StringRef LocStr)229 Constant *OpenMPIRBuilder::getOrCreateSrcLocStr(StringRef LocStr) {
230   Constant *&SrcLocStr = SrcLocStrMap[LocStr];
231   if (!SrcLocStr) {
232     Constant *Initializer =
233         ConstantDataArray::getString(M.getContext(), LocStr);
234 
235     // Look for existing encoding of the location, not needed but minimizes the
236     // difference to the existing solution while we transition.
237     for (GlobalVariable &GV : M.getGlobalList())
238       if (GV.isConstant() && GV.hasInitializer() &&
239           GV.getInitializer() == Initializer)
240         return SrcLocStr = ConstantExpr::getPointerCast(&GV, Int8Ptr);
241 
242     SrcLocStr = Builder.CreateGlobalStringPtr(LocStr, /* Name */ "",
243                                               /* AddressSpace */ 0, &M);
244   }
245   return SrcLocStr;
246 }
247 
getOrCreateSrcLocStr(StringRef FunctionName,StringRef FileName,unsigned Line,unsigned Column)248 Constant *OpenMPIRBuilder::getOrCreateSrcLocStr(StringRef FunctionName,
249                                                 StringRef FileName,
250                                                 unsigned Line,
251                                                 unsigned Column) {
252   SmallString<128> Buffer;
253   Buffer.push_back(';');
254   Buffer.append(FileName);
255   Buffer.push_back(';');
256   Buffer.append(FunctionName);
257   Buffer.push_back(';');
258   Buffer.append(std::to_string(Line));
259   Buffer.push_back(';');
260   Buffer.append(std::to_string(Column));
261   Buffer.push_back(';');
262   Buffer.push_back(';');
263   return getOrCreateSrcLocStr(Buffer.str());
264 }
265 
getOrCreateDefaultSrcLocStr()266 Constant *OpenMPIRBuilder::getOrCreateDefaultSrcLocStr() {
267   return getOrCreateSrcLocStr(";unknown;unknown;0;0;;");
268 }
269 
270 Constant *
getOrCreateSrcLocStr(const LocationDescription & Loc)271 OpenMPIRBuilder::getOrCreateSrcLocStr(const LocationDescription &Loc) {
272   DILocation *DIL = Loc.DL.get();
273   if (!DIL)
274     return getOrCreateDefaultSrcLocStr();
275   StringRef FileName = M.getName();
276   if (DIFile *DIF = DIL->getFile())
277     if (Optional<StringRef> Source = DIF->getSource())
278       FileName = *Source;
279   StringRef Function = DIL->getScope()->getSubprogram()->getName();
280   Function =
281       !Function.empty() ? Function : Loc.IP.getBlock()->getParent()->getName();
282   return getOrCreateSrcLocStr(Function, FileName, DIL->getLine(),
283                               DIL->getColumn());
284 }
285 
getOrCreateThreadID(Value * Ident)286 Value *OpenMPIRBuilder::getOrCreateThreadID(Value *Ident) {
287   return Builder.CreateCall(
288       getOrCreateRuntimeFunctionPtr(OMPRTL___kmpc_global_thread_num), Ident,
289       "omp_global_thread_num");
290 }
291 
292 OpenMPIRBuilder::InsertPointTy
createBarrier(const LocationDescription & Loc,Directive DK,bool ForceSimpleCall,bool CheckCancelFlag)293 OpenMPIRBuilder::createBarrier(const LocationDescription &Loc, Directive DK,
294                                bool ForceSimpleCall, bool CheckCancelFlag) {
295   if (!updateToLocation(Loc))
296     return Loc.IP;
297   return emitBarrierImpl(Loc, DK, ForceSimpleCall, CheckCancelFlag);
298 }
299 
300 OpenMPIRBuilder::InsertPointTy
emitBarrierImpl(const LocationDescription & Loc,Directive Kind,bool ForceSimpleCall,bool CheckCancelFlag)301 OpenMPIRBuilder::emitBarrierImpl(const LocationDescription &Loc, Directive Kind,
302                                  bool ForceSimpleCall, bool CheckCancelFlag) {
303   // Build call __kmpc_cancel_barrier(loc, thread_id) or
304   //            __kmpc_barrier(loc, thread_id);
305 
306   IdentFlag BarrierLocFlags;
307   switch (Kind) {
308   case OMPD_for:
309     BarrierLocFlags = OMP_IDENT_FLAG_BARRIER_IMPL_FOR;
310     break;
311   case OMPD_sections:
312     BarrierLocFlags = OMP_IDENT_FLAG_BARRIER_IMPL_SECTIONS;
313     break;
314   case OMPD_single:
315     BarrierLocFlags = OMP_IDENT_FLAG_BARRIER_IMPL_SINGLE;
316     break;
317   case OMPD_barrier:
318     BarrierLocFlags = OMP_IDENT_FLAG_BARRIER_EXPL;
319     break;
320   default:
321     BarrierLocFlags = OMP_IDENT_FLAG_BARRIER_IMPL;
322     break;
323   }
324 
325   Constant *SrcLocStr = getOrCreateSrcLocStr(Loc);
326   Value *Args[] = {getOrCreateIdent(SrcLocStr, BarrierLocFlags),
327                    getOrCreateThreadID(getOrCreateIdent(SrcLocStr))};
328 
329   // If we are in a cancellable parallel region, barriers are cancellation
330   // points.
331   // TODO: Check why we would force simple calls or to ignore the cancel flag.
332   bool UseCancelBarrier =
333       !ForceSimpleCall && isLastFinalizationInfoCancellable(OMPD_parallel);
334 
335   Value *Result =
336       Builder.CreateCall(getOrCreateRuntimeFunctionPtr(
337                              UseCancelBarrier ? OMPRTL___kmpc_cancel_barrier
338                                               : OMPRTL___kmpc_barrier),
339                          Args);
340 
341   if (UseCancelBarrier && CheckCancelFlag)
342     emitCancelationCheckImpl(Result, OMPD_parallel);
343 
344   return Builder.saveIP();
345 }
346 
347 OpenMPIRBuilder::InsertPointTy
createCancel(const LocationDescription & Loc,Value * IfCondition,omp::Directive CanceledDirective)348 OpenMPIRBuilder::createCancel(const LocationDescription &Loc,
349                               Value *IfCondition,
350                               omp::Directive CanceledDirective) {
351   if (!updateToLocation(Loc))
352     return Loc.IP;
353 
354   // LLVM utilities like blocks with terminators.
355   auto *UI = Builder.CreateUnreachable();
356 
357   Instruction *ThenTI = UI, *ElseTI = nullptr;
358   if (IfCondition)
359     SplitBlockAndInsertIfThenElse(IfCondition, UI, &ThenTI, &ElseTI);
360   Builder.SetInsertPoint(ThenTI);
361 
362   Value *CancelKind = nullptr;
363   switch (CanceledDirective) {
364 #define OMP_CANCEL_KIND(Enum, Str, DirectiveEnum, Value)                       \
365   case DirectiveEnum:                                                          \
366     CancelKind = Builder.getInt32(Value);                                      \
367     break;
368 #include "llvm/Frontend/OpenMP/OMPKinds.def"
369   default:
370     llvm_unreachable("Unknown cancel kind!");
371   }
372 
373   Constant *SrcLocStr = getOrCreateSrcLocStr(Loc);
374   Value *Ident = getOrCreateIdent(SrcLocStr);
375   Value *Args[] = {Ident, getOrCreateThreadID(Ident), CancelKind};
376   Value *Result = Builder.CreateCall(
377       getOrCreateRuntimeFunctionPtr(OMPRTL___kmpc_cancel), Args);
378 
379   // The actual cancel logic is shared with others, e.g., cancel_barriers.
380   emitCancelationCheckImpl(Result, CanceledDirective);
381 
382   // Update the insertion point and remove the terminator we introduced.
383   Builder.SetInsertPoint(UI->getParent());
384   UI->eraseFromParent();
385 
386   return Builder.saveIP();
387 }
388 
emitCancelationCheckImpl(Value * CancelFlag,omp::Directive CanceledDirective)389 void OpenMPIRBuilder::emitCancelationCheckImpl(
390     Value *CancelFlag, omp::Directive CanceledDirective) {
391   assert(isLastFinalizationInfoCancellable(CanceledDirective) &&
392          "Unexpected cancellation!");
393 
394   // For a cancel barrier we create two new blocks.
395   BasicBlock *BB = Builder.GetInsertBlock();
396   BasicBlock *NonCancellationBlock;
397   if (Builder.GetInsertPoint() == BB->end()) {
398     // TODO: This branch will not be needed once we moved to the
399     // OpenMPIRBuilder codegen completely.
400     NonCancellationBlock = BasicBlock::Create(
401         BB->getContext(), BB->getName() + ".cont", BB->getParent());
402   } else {
403     NonCancellationBlock = SplitBlock(BB, &*Builder.GetInsertPoint());
404     BB->getTerminator()->eraseFromParent();
405     Builder.SetInsertPoint(BB);
406   }
407   BasicBlock *CancellationBlock = BasicBlock::Create(
408       BB->getContext(), BB->getName() + ".cncl", BB->getParent());
409 
410   // Jump to them based on the return value.
411   Value *Cmp = Builder.CreateIsNull(CancelFlag);
412   Builder.CreateCondBr(Cmp, NonCancellationBlock, CancellationBlock,
413                        /* TODO weight */ nullptr, nullptr);
414 
415   // From the cancellation block we finalize all variables and go to the
416   // post finalization block that is known to the FiniCB callback.
417   Builder.SetInsertPoint(CancellationBlock);
418   auto &FI = FinalizationStack.back();
419   FI.FiniCB(Builder.saveIP());
420 
421   // The continuation block is where code generation continues.
422   Builder.SetInsertPoint(NonCancellationBlock, NonCancellationBlock->begin());
423 }
424 
createParallel(const LocationDescription & Loc,InsertPointTy OuterAllocaIP,BodyGenCallbackTy BodyGenCB,PrivatizeCallbackTy PrivCB,FinalizeCallbackTy FiniCB,Value * IfCondition,Value * NumThreads,omp::ProcBindKind ProcBind,bool IsCancellable)425 IRBuilder<>::InsertPoint OpenMPIRBuilder::createParallel(
426     const LocationDescription &Loc, InsertPointTy OuterAllocaIP,
427     BodyGenCallbackTy BodyGenCB, PrivatizeCallbackTy PrivCB,
428     FinalizeCallbackTy FiniCB, Value *IfCondition, Value *NumThreads,
429     omp::ProcBindKind ProcBind, bool IsCancellable) {
430   if (!updateToLocation(Loc))
431     return Loc.IP;
432 
433   Constant *SrcLocStr = getOrCreateSrcLocStr(Loc);
434   Value *Ident = getOrCreateIdent(SrcLocStr);
435   Value *ThreadID = getOrCreateThreadID(Ident);
436 
437   if (NumThreads) {
438     // Build call __kmpc_push_num_threads(&Ident, global_tid, num_threads)
439     Value *Args[] = {
440         Ident, ThreadID,
441         Builder.CreateIntCast(NumThreads, Int32, /*isSigned*/ false)};
442     Builder.CreateCall(
443         getOrCreateRuntimeFunctionPtr(OMPRTL___kmpc_push_num_threads), Args);
444   }
445 
446   if (ProcBind != OMP_PROC_BIND_default) {
447     // Build call __kmpc_push_proc_bind(&Ident, global_tid, proc_bind)
448     Value *Args[] = {
449         Ident, ThreadID,
450         ConstantInt::get(Int32, unsigned(ProcBind), /*isSigned=*/true)};
451     Builder.CreateCall(
452         getOrCreateRuntimeFunctionPtr(OMPRTL___kmpc_push_proc_bind), Args);
453   }
454 
455   BasicBlock *InsertBB = Builder.GetInsertBlock();
456   Function *OuterFn = InsertBB->getParent();
457 
458   // Save the outer alloca block because the insertion iterator may get
459   // invalidated and we still need this later.
460   BasicBlock *OuterAllocaBlock = OuterAllocaIP.getBlock();
461 
462   // Vector to remember instructions we used only during the modeling but which
463   // we want to delete at the end.
464   SmallVector<Instruction *, 4> ToBeDeleted;
465 
466   // Change the location to the outer alloca insertion point to create and
467   // initialize the allocas we pass into the parallel region.
468   Builder.restoreIP(OuterAllocaIP);
469   AllocaInst *TIDAddr = Builder.CreateAlloca(Int32, nullptr, "tid.addr");
470   AllocaInst *ZeroAddr = Builder.CreateAlloca(Int32, nullptr, "zero.addr");
471 
472   // If there is an if condition we actually use the TIDAddr and ZeroAddr in the
473   // program, otherwise we only need them for modeling purposes to get the
474   // associated arguments in the outlined function. In the former case,
475   // initialize the allocas properly, in the latter case, delete them later.
476   if (IfCondition) {
477     Builder.CreateStore(Constant::getNullValue(Int32), TIDAddr);
478     Builder.CreateStore(Constant::getNullValue(Int32), ZeroAddr);
479   } else {
480     ToBeDeleted.push_back(TIDAddr);
481     ToBeDeleted.push_back(ZeroAddr);
482   }
483 
484   // Create an artificial insertion point that will also ensure the blocks we
485   // are about to split are not degenerated.
486   auto *UI = new UnreachableInst(Builder.getContext(), InsertBB);
487 
488   Instruction *ThenTI = UI, *ElseTI = nullptr;
489   if (IfCondition)
490     SplitBlockAndInsertIfThenElse(IfCondition, UI, &ThenTI, &ElseTI);
491 
492   BasicBlock *ThenBB = ThenTI->getParent();
493   BasicBlock *PRegEntryBB = ThenBB->splitBasicBlock(ThenTI, "omp.par.entry");
494   BasicBlock *PRegBodyBB =
495       PRegEntryBB->splitBasicBlock(ThenTI, "omp.par.region");
496   BasicBlock *PRegPreFiniBB =
497       PRegBodyBB->splitBasicBlock(ThenTI, "omp.par.pre_finalize");
498   BasicBlock *PRegExitBB =
499       PRegPreFiniBB->splitBasicBlock(ThenTI, "omp.par.exit");
500 
501   auto FiniCBWrapper = [&](InsertPointTy IP) {
502     // Hide "open-ended" blocks from the given FiniCB by setting the right jump
503     // target to the region exit block.
504     if (IP.getBlock()->end() == IP.getPoint()) {
505       IRBuilder<>::InsertPointGuard IPG(Builder);
506       Builder.restoreIP(IP);
507       Instruction *I = Builder.CreateBr(PRegExitBB);
508       IP = InsertPointTy(I->getParent(), I->getIterator());
509     }
510     assert(IP.getBlock()->getTerminator()->getNumSuccessors() == 1 &&
511            IP.getBlock()->getTerminator()->getSuccessor(0) == PRegExitBB &&
512            "Unexpected insertion point for finalization call!");
513     return FiniCB(IP);
514   };
515 
516   FinalizationStack.push_back({FiniCBWrapper, OMPD_parallel, IsCancellable});
517 
518   // Generate the privatization allocas in the block that will become the entry
519   // of the outlined function.
520   Builder.SetInsertPoint(PRegEntryBB->getTerminator());
521   InsertPointTy InnerAllocaIP = Builder.saveIP();
522 
523   AllocaInst *PrivTIDAddr =
524       Builder.CreateAlloca(Int32, nullptr, "tid.addr.local");
525   Instruction *PrivTID = Builder.CreateLoad(PrivTIDAddr, "tid");
526 
527   // Add some fake uses for OpenMP provided arguments.
528   ToBeDeleted.push_back(Builder.CreateLoad(TIDAddr, "tid.addr.use"));
529   Instruction *ZeroAddrUse = Builder.CreateLoad(ZeroAddr, "zero.addr.use");
530   ToBeDeleted.push_back(ZeroAddrUse);
531 
532   // ThenBB
533   //   |
534   //   V
535   // PRegionEntryBB         <- Privatization allocas are placed here.
536   //   |
537   //   V
538   // PRegionBodyBB          <- BodeGen is invoked here.
539   //   |
540   //   V
541   // PRegPreFiniBB          <- The block we will start finalization from.
542   //   |
543   //   V
544   // PRegionExitBB          <- A common exit to simplify block collection.
545   //
546 
547   LLVM_DEBUG(dbgs() << "Before body codegen: " << *OuterFn << "\n");
548 
549   // Let the caller create the body.
550   assert(BodyGenCB && "Expected body generation callback!");
551   InsertPointTy CodeGenIP(PRegBodyBB, PRegBodyBB->begin());
552   BodyGenCB(InnerAllocaIP, CodeGenIP, *PRegPreFiniBB);
553 
554   LLVM_DEBUG(dbgs() << "After  body codegen: " << *OuterFn << "\n");
555 
556   FunctionCallee RTLFn = getOrCreateRuntimeFunctionPtr(OMPRTL___kmpc_fork_call);
557   if (auto *F = dyn_cast<llvm::Function>(RTLFn.getCallee())) {
558     if (!F->hasMetadata(llvm::LLVMContext::MD_callback)) {
559       llvm::LLVMContext &Ctx = F->getContext();
560       MDBuilder MDB(Ctx);
561       // Annotate the callback behavior of the __kmpc_fork_call:
562       //  - The callback callee is argument number 2 (microtask).
563       //  - The first two arguments of the callback callee are unknown (-1).
564       //  - All variadic arguments to the __kmpc_fork_call are passed to the
565       //    callback callee.
566       F->addMetadata(
567           llvm::LLVMContext::MD_callback,
568           *llvm::MDNode::get(
569               Ctx, {MDB.createCallbackEncoding(2, {-1, -1},
570                                                /* VarArgsArePassed */ true)}));
571     }
572   }
573 
574   OutlineInfo OI;
575   OI.PostOutlineCB = [=](Function &OutlinedFn) {
576     // Add some known attributes.
577     OutlinedFn.addParamAttr(0, Attribute::NoAlias);
578     OutlinedFn.addParamAttr(1, Attribute::NoAlias);
579     OutlinedFn.addFnAttr(Attribute::NoUnwind);
580     OutlinedFn.addFnAttr(Attribute::NoRecurse);
581 
582     assert(OutlinedFn.arg_size() >= 2 &&
583            "Expected at least tid and bounded tid as arguments");
584     unsigned NumCapturedVars =
585         OutlinedFn.arg_size() - /* tid & bounded tid */ 2;
586 
587     CallInst *CI = cast<CallInst>(OutlinedFn.user_back());
588     CI->getParent()->setName("omp_parallel");
589     Builder.SetInsertPoint(CI);
590 
591     // Build call __kmpc_fork_call(Ident, n, microtask, var1, .., varn);
592     Value *ForkCallArgs[] = {
593         Ident, Builder.getInt32(NumCapturedVars),
594         Builder.CreateBitCast(&OutlinedFn, ParallelTaskPtr)};
595 
596     SmallVector<Value *, 16> RealArgs;
597     RealArgs.append(std::begin(ForkCallArgs), std::end(ForkCallArgs));
598     RealArgs.append(CI->arg_begin() + /* tid & bound tid */ 2, CI->arg_end());
599 
600     Builder.CreateCall(RTLFn, RealArgs);
601 
602     LLVM_DEBUG(dbgs() << "With fork_call placed: "
603                       << *Builder.GetInsertBlock()->getParent() << "\n");
604 
605     InsertPointTy ExitIP(PRegExitBB, PRegExitBB->end());
606 
607     // Initialize the local TID stack location with the argument value.
608     Builder.SetInsertPoint(PrivTID);
609     Function::arg_iterator OutlinedAI = OutlinedFn.arg_begin();
610     Builder.CreateStore(Builder.CreateLoad(OutlinedAI), PrivTIDAddr);
611 
612     // If no "if" clause was present we do not need the call created during
613     // outlining, otherwise we reuse it in the serialized parallel region.
614     if (!ElseTI) {
615       CI->eraseFromParent();
616     } else {
617 
618       // If an "if" clause was present we are now generating the serialized
619       // version into the "else" branch.
620       Builder.SetInsertPoint(ElseTI);
621 
622       // Build calls __kmpc_serialized_parallel(&Ident, GTid);
623       Value *SerializedParallelCallArgs[] = {Ident, ThreadID};
624       Builder.CreateCall(
625           getOrCreateRuntimeFunctionPtr(OMPRTL___kmpc_serialized_parallel),
626           SerializedParallelCallArgs);
627 
628       // OutlinedFn(&GTid, &zero, CapturedStruct);
629       CI->removeFromParent();
630       Builder.Insert(CI);
631 
632       // __kmpc_end_serialized_parallel(&Ident, GTid);
633       Value *EndArgs[] = {Ident, ThreadID};
634       Builder.CreateCall(
635           getOrCreateRuntimeFunctionPtr(OMPRTL___kmpc_end_serialized_parallel),
636           EndArgs);
637 
638       LLVM_DEBUG(dbgs() << "With serialized parallel region: "
639                         << *Builder.GetInsertBlock()->getParent() << "\n");
640     }
641 
642     for (Instruction *I : ToBeDeleted)
643       I->eraseFromParent();
644   };
645 
646   // Adjust the finalization stack, verify the adjustment, and call the
647   // finalize function a last time to finalize values between the pre-fini
648   // block and the exit block if we left the parallel "the normal way".
649   auto FiniInfo = FinalizationStack.pop_back_val();
650   (void)FiniInfo;
651   assert(FiniInfo.DK == OMPD_parallel &&
652          "Unexpected finalization stack state!");
653 
654   Instruction *PRegPreFiniTI = PRegPreFiniBB->getTerminator();
655 
656   InsertPointTy PreFiniIP(PRegPreFiniBB, PRegPreFiniTI->getIterator());
657   FiniCB(PreFiniIP);
658 
659   OI.EntryBB = PRegEntryBB;
660   OI.ExitBB = PRegExitBB;
661 
662   SmallPtrSet<BasicBlock *, 32> ParallelRegionBlockSet;
663   SmallVector<BasicBlock *, 32> Blocks;
664   OI.collectBlocks(ParallelRegionBlockSet, Blocks);
665 
666   // Ensure a single exit node for the outlined region by creating one.
667   // We might have multiple incoming edges to the exit now due to finalizations,
668   // e.g., cancel calls that cause the control flow to leave the region.
669   BasicBlock *PRegOutlinedExitBB = PRegExitBB;
670   PRegExitBB = SplitBlock(PRegExitBB, &*PRegExitBB->getFirstInsertionPt());
671   PRegOutlinedExitBB->setName("omp.par.outlined.exit");
672   Blocks.push_back(PRegOutlinedExitBB);
673 
674   CodeExtractorAnalysisCache CEAC(*OuterFn);
675   CodeExtractor Extractor(Blocks, /* DominatorTree */ nullptr,
676                           /* AggregateArgs */ false,
677                           /* BlockFrequencyInfo */ nullptr,
678                           /* BranchProbabilityInfo */ nullptr,
679                           /* AssumptionCache */ nullptr,
680                           /* AllowVarArgs */ true,
681                           /* AllowAlloca */ true,
682                           /* Suffix */ ".omp_par");
683 
684   // Find inputs to, outputs from the code region.
685   BasicBlock *CommonExit = nullptr;
686   SetVector<Value *> Inputs, Outputs, SinkingCands, HoistingCands;
687   Extractor.findAllocas(CEAC, SinkingCands, HoistingCands, CommonExit);
688   Extractor.findInputsOutputs(Inputs, Outputs, SinkingCands);
689 
690   LLVM_DEBUG(dbgs() << "Before privatization: " << *OuterFn << "\n");
691 
692   FunctionCallee TIDRTLFn =
693       getOrCreateRuntimeFunctionPtr(OMPRTL___kmpc_global_thread_num);
694 
695   auto PrivHelper = [&](Value &V) {
696     if (&V == TIDAddr || &V == ZeroAddr)
697       return;
698 
699     SetVector<Use *> Uses;
700     for (Use &U : V.uses())
701       if (auto *UserI = dyn_cast<Instruction>(U.getUser()))
702         if (ParallelRegionBlockSet.count(UserI->getParent()))
703           Uses.insert(&U);
704 
705     // __kmpc_fork_call expects extra arguments as pointers. If the input
706     // already has a pointer type, everything is fine. Otherwise, store the
707     // value onto stack and load it back inside the to-be-outlined region. This
708     // will ensure only the pointer will be passed to the function.
709     // FIXME: if there are more than 15 trailing arguments, they must be
710     // additionally packed in a struct.
711     Value *Inner = &V;
712     if (!V.getType()->isPointerTy()) {
713       IRBuilder<>::InsertPointGuard Guard(Builder);
714       LLVM_DEBUG(llvm::dbgs() << "Forwarding input as pointer: " << V << "\n");
715 
716       Builder.restoreIP(OuterAllocaIP);
717       Value *Ptr =
718           Builder.CreateAlloca(V.getType(), nullptr, V.getName() + ".reloaded");
719 
720       // Store to stack at end of the block that currently branches to the entry
721       // block of the to-be-outlined region.
722       Builder.SetInsertPoint(InsertBB,
723                              InsertBB->getTerminator()->getIterator());
724       Builder.CreateStore(&V, Ptr);
725 
726       // Load back next to allocations in the to-be-outlined region.
727       Builder.restoreIP(InnerAllocaIP);
728       Inner = Builder.CreateLoad(Ptr);
729     }
730 
731     Value *ReplacementValue = nullptr;
732     CallInst *CI = dyn_cast<CallInst>(&V);
733     if (CI && CI->getCalledFunction() == TIDRTLFn.getCallee()) {
734       ReplacementValue = PrivTID;
735     } else {
736       Builder.restoreIP(
737           PrivCB(InnerAllocaIP, Builder.saveIP(), V, *Inner, ReplacementValue));
738       assert(ReplacementValue &&
739              "Expected copy/create callback to set replacement value!");
740       if (ReplacementValue == &V)
741         return;
742     }
743 
744     for (Use *UPtr : Uses)
745       UPtr->set(ReplacementValue);
746   };
747 
748   // Reset the inner alloca insertion as it will be used for loading the values
749   // wrapped into pointers before passing them into the to-be-outlined region.
750   // Configure it to insert immediately after the fake use of zero address so
751   // that they are available in the generated body and so that the
752   // OpenMP-related values (thread ID and zero address pointers) remain leading
753   // in the argument list.
754   InnerAllocaIP = IRBuilder<>::InsertPoint(
755       ZeroAddrUse->getParent(), ZeroAddrUse->getNextNode()->getIterator());
756 
757   // Reset the outer alloca insertion point to the entry of the relevant block
758   // in case it was invalidated.
759   OuterAllocaIP = IRBuilder<>::InsertPoint(
760       OuterAllocaBlock, OuterAllocaBlock->getFirstInsertionPt());
761 
762   for (Value *Input : Inputs) {
763     LLVM_DEBUG(dbgs() << "Captured input: " << *Input << "\n");
764     PrivHelper(*Input);
765   }
766   LLVM_DEBUG({
767     for (Value *Output : Outputs)
768       LLVM_DEBUG(dbgs() << "Captured output: " << *Output << "\n");
769   });
770   assert(Outputs.empty() &&
771          "OpenMP outlining should not produce live-out values!");
772 
773   LLVM_DEBUG(dbgs() << "After  privatization: " << *OuterFn << "\n");
774   LLVM_DEBUG({
775     for (auto *BB : Blocks)
776       dbgs() << " PBR: " << BB->getName() << "\n";
777   });
778 
779   // Register the outlined info.
780   addOutlineInfo(std::move(OI));
781 
782   InsertPointTy AfterIP(UI->getParent(), UI->getParent()->end());
783   UI->eraseFromParent();
784 
785   return AfterIP;
786 }
787 
emitFlush(const LocationDescription & Loc)788 void OpenMPIRBuilder::emitFlush(const LocationDescription &Loc) {
789   // Build call void __kmpc_flush(ident_t *loc)
790   Constant *SrcLocStr = getOrCreateSrcLocStr(Loc);
791   Value *Args[] = {getOrCreateIdent(SrcLocStr)};
792 
793   Builder.CreateCall(getOrCreateRuntimeFunctionPtr(OMPRTL___kmpc_flush), Args);
794 }
795 
createFlush(const LocationDescription & Loc)796 void OpenMPIRBuilder::createFlush(const LocationDescription &Loc) {
797   if (!updateToLocation(Loc))
798     return;
799   emitFlush(Loc);
800 }
801 
emitTaskwaitImpl(const LocationDescription & Loc)802 void OpenMPIRBuilder::emitTaskwaitImpl(const LocationDescription &Loc) {
803   // Build call kmp_int32 __kmpc_omp_taskwait(ident_t *loc, kmp_int32
804   // global_tid);
805   Constant *SrcLocStr = getOrCreateSrcLocStr(Loc);
806   Value *Ident = getOrCreateIdent(SrcLocStr);
807   Value *Args[] = {Ident, getOrCreateThreadID(Ident)};
808 
809   // Ignore return result until untied tasks are supported.
810   Builder.CreateCall(getOrCreateRuntimeFunctionPtr(OMPRTL___kmpc_omp_taskwait),
811                      Args);
812 }
813 
createTaskwait(const LocationDescription & Loc)814 void OpenMPIRBuilder::createTaskwait(const LocationDescription &Loc) {
815   if (!updateToLocation(Loc))
816     return;
817   emitTaskwaitImpl(Loc);
818 }
819 
emitTaskyieldImpl(const LocationDescription & Loc)820 void OpenMPIRBuilder::emitTaskyieldImpl(const LocationDescription &Loc) {
821   // Build call __kmpc_omp_taskyield(loc, thread_id, 0);
822   Constant *SrcLocStr = getOrCreateSrcLocStr(Loc);
823   Value *Ident = getOrCreateIdent(SrcLocStr);
824   Constant *I32Null = ConstantInt::getNullValue(Int32);
825   Value *Args[] = {Ident, getOrCreateThreadID(Ident), I32Null};
826 
827   Builder.CreateCall(getOrCreateRuntimeFunctionPtr(OMPRTL___kmpc_omp_taskyield),
828                      Args);
829 }
830 
createTaskyield(const LocationDescription & Loc)831 void OpenMPIRBuilder::createTaskyield(const LocationDescription &Loc) {
832   if (!updateToLocation(Loc))
833     return;
834   emitTaskyieldImpl(Loc);
835 }
836 
837 OpenMPIRBuilder::InsertPointTy
createMaster(const LocationDescription & Loc,BodyGenCallbackTy BodyGenCB,FinalizeCallbackTy FiniCB)838 OpenMPIRBuilder::createMaster(const LocationDescription &Loc,
839                               BodyGenCallbackTy BodyGenCB,
840                               FinalizeCallbackTy FiniCB) {
841 
842   if (!updateToLocation(Loc))
843     return Loc.IP;
844 
845   Directive OMPD = Directive::OMPD_master;
846   Constant *SrcLocStr = getOrCreateSrcLocStr(Loc);
847   Value *Ident = getOrCreateIdent(SrcLocStr);
848   Value *ThreadId = getOrCreateThreadID(Ident);
849   Value *Args[] = {Ident, ThreadId};
850 
851   Function *EntryRTLFn = getOrCreateRuntimeFunctionPtr(OMPRTL___kmpc_master);
852   Instruction *EntryCall = Builder.CreateCall(EntryRTLFn, Args);
853 
854   Function *ExitRTLFn = getOrCreateRuntimeFunctionPtr(OMPRTL___kmpc_end_master);
855   Instruction *ExitCall = Builder.CreateCall(ExitRTLFn, Args);
856 
857   return EmitOMPInlinedRegion(OMPD, EntryCall, ExitCall, BodyGenCB, FiniCB,
858                               /*Conditional*/ true, /*hasFinalize*/ true);
859 }
860 
861 CanonicalLoopInfo *
createCanonicalLoop(const LocationDescription & Loc,LoopBodyGenCallbackTy BodyGenCB,Value * TripCount)862 OpenMPIRBuilder::createCanonicalLoop(const LocationDescription &Loc,
863                                      LoopBodyGenCallbackTy BodyGenCB,
864                                      Value *TripCount) {
865   BasicBlock *BB = Loc.IP.getBlock();
866   BasicBlock *NextBB = BB->getNextNode();
867   Function *F = BB->getParent();
868   Type *IndVarTy = TripCount->getType();
869 
870   // Create the basic block structure.
871   BasicBlock *Preheader =
872       BasicBlock::Create(M.getContext(), "omp_for.preheader", F, NextBB);
873   BasicBlock *Header =
874       BasicBlock::Create(M.getContext(), "omp_for.header", F, NextBB);
875   BasicBlock *Cond =
876       BasicBlock::Create(M.getContext(), "omp_for.cond", F, NextBB);
877   BasicBlock *Body =
878       BasicBlock::Create(M.getContext(), "omp_for.body", F, NextBB);
879   BasicBlock *Latch =
880       BasicBlock::Create(M.getContext(), "omp_for.inc", F, NextBB);
881   BasicBlock *Exit =
882       BasicBlock::Create(M.getContext(), "omp_for.exit", F, NextBB);
883   BasicBlock *After =
884       BasicBlock::Create(M.getContext(), "omp_for.after", F, NextBB);
885 
886   updateToLocation(Loc);
887   Builder.CreateBr(Preheader);
888 
889   Builder.SetInsertPoint(Preheader);
890   Builder.CreateBr(Header);
891 
892   Builder.SetInsertPoint(Header);
893   PHINode *IndVarPHI = Builder.CreatePHI(IndVarTy, 2, "omp_for.iv");
894   IndVarPHI->addIncoming(ConstantInt::get(IndVarTy, 0), Preheader);
895   Builder.CreateBr(Cond);
896 
897   Builder.SetInsertPoint(Cond);
898   Value *Cmp = Builder.CreateICmpULT(IndVarPHI, TripCount, "omp_for.cmp");
899   Builder.CreateCondBr(Cmp, Body, Exit);
900 
901   Builder.SetInsertPoint(Body);
902   Builder.CreateBr(Latch);
903 
904   Builder.SetInsertPoint(Latch);
905   Value *Next = Builder.CreateAdd(IndVarPHI, ConstantInt::get(IndVarTy, 1),
906                                   "omp_for.next", /*HasNUW=*/true);
907   Builder.CreateBr(Header);
908   IndVarPHI->addIncoming(Next, Latch);
909 
910   Builder.SetInsertPoint(Exit);
911   Builder.CreateBr(After);
912 
913   // After all control flow has been created, insert the body user code.
914   BodyGenCB(InsertPointTy(Body, Body->begin()), IndVarPHI);
915 
916   // Remember and return the canonical control flow.
917   LoopInfos.emplace_front();
918   CanonicalLoopInfo *CL = &LoopInfos.front();
919 
920   CL->Preheader = Preheader;
921   CL->Header = Header;
922   CL->Cond = Cond;
923   CL->Body = Body;
924   CL->Latch = Latch;
925   CL->Exit = Exit;
926   CL->After = After;
927 
928   CL->IsValid = true;
929 
930 #ifndef NDEBUG
931   CL->assertOK();
932 #endif
933   return CL;
934 }
935 
createCanonicalLoop(const LocationDescription & Loc,LoopBodyGenCallbackTy BodyGenCB,Value * Start,Value * Stop,Value * Step,bool IsSigned,bool InclusiveStop)936 CanonicalLoopInfo *OpenMPIRBuilder::createCanonicalLoop(
937     const LocationDescription &Loc, LoopBodyGenCallbackTy BodyGenCB,
938     Value *Start, Value *Stop, Value *Step, bool IsSigned, bool InclusiveStop) {
939   // Consider the following difficulties (assuming 8-bit signed integers):
940   //  * Adding \p Step to the loop counter which passes \p Stop may overflow:
941   //      DO I = 1, 100, 50
942   ///  * A \p Step of INT_MIN cannot not be normalized to a positive direction:
943   //      DO I = 100, 0, -128
944 
945   // Start, Stop and Step must be of the same integer type.
946   auto *IndVarTy = cast<IntegerType>(Start->getType());
947   assert(IndVarTy == Stop->getType() && "Stop type mismatch");
948   assert(IndVarTy == Step->getType() && "Step type mismatch");
949 
950   updateToLocation(Loc);
951 
952   ConstantInt *Zero = ConstantInt::get(IndVarTy, 0);
953   ConstantInt *One = ConstantInt::get(IndVarTy, 1);
954 
955   // Like Step, but always positive.
956   Value *Incr = Step;
957 
958   // Distance between Start and Stop; always positive.
959   Value *Span;
960 
961   // Condition whether there are no iterations are executed at all, e.g. because
962   // UB < LB.
963   Value *ZeroCmp;
964 
965   if (IsSigned) {
966     // Ensure that increment is positive. If not, negate and invert LB and UB.
967     Value *IsNeg = Builder.CreateICmpSLT(Step, Zero);
968     Incr = Builder.CreateSelect(IsNeg, Builder.CreateNeg(Step), Step);
969     Value *LB = Builder.CreateSelect(IsNeg, Stop, Start);
970     Value *UB = Builder.CreateSelect(IsNeg, Start, Stop);
971     Span = Builder.CreateSub(UB, LB, "", false, true);
972     ZeroCmp = Builder.CreateICmp(
973         InclusiveStop ? CmpInst::ICMP_SLT : CmpInst::ICMP_SLE, UB, LB);
974   } else {
975     Span = Builder.CreateSub(Stop, Start, "", true);
976     ZeroCmp = Builder.CreateICmp(
977         InclusiveStop ? CmpInst::ICMP_ULT : CmpInst::ICMP_ULE, Stop, Start);
978   }
979 
980   Value *CountIfLooping;
981   if (InclusiveStop) {
982     CountIfLooping = Builder.CreateAdd(Builder.CreateUDiv(Span, Incr), One);
983   } else {
984     // Avoid incrementing past stop since it could overflow.
985     Value *CountIfTwo = Builder.CreateAdd(
986         Builder.CreateUDiv(Builder.CreateSub(Span, One), Incr), One);
987     Value *OneCmp = Builder.CreateICmp(
988         InclusiveStop ? CmpInst::ICMP_ULT : CmpInst::ICMP_ULE, Span, Incr);
989     CountIfLooping = Builder.CreateSelect(OneCmp, One, CountIfTwo);
990   }
991   Value *TripCount = Builder.CreateSelect(ZeroCmp, Zero, CountIfLooping);
992 
993   auto BodyGen = [=](InsertPointTy CodeGenIP, Value *IV) {
994     Builder.restoreIP(CodeGenIP);
995     Value *Span = Builder.CreateMul(IV, Step);
996     Value *IndVar = Builder.CreateAdd(Span, Start);
997     BodyGenCB(Builder.saveIP(), IndVar);
998   };
999   return createCanonicalLoop(Builder.saveIP(), BodyGen, TripCount);
1000 }
1001 
1002 // Returns an LLVM function to call for initializing loop bounds using OpenMP
1003 // static scheduling depending on `type`. Only i32 and i64 are supported by the
1004 // runtime. Always interpret integers as unsigned similarly to
1005 // CanonicalLoopInfo.
getKmpcForStaticInitForType(Type * Ty,Module & M,OpenMPIRBuilder & OMPBuilder)1006 static FunctionCallee getKmpcForStaticInitForType(Type *Ty, Module &M,
1007                                                   OpenMPIRBuilder &OMPBuilder) {
1008   unsigned Bitwidth = Ty->getIntegerBitWidth();
1009   if (Bitwidth == 32)
1010     return OMPBuilder.getOrCreateRuntimeFunction(
1011         M, omp::RuntimeFunction::OMPRTL___kmpc_for_static_init_4u);
1012   if (Bitwidth == 64)
1013     return OMPBuilder.getOrCreateRuntimeFunction(
1014         M, omp::RuntimeFunction::OMPRTL___kmpc_for_static_init_8u);
1015   llvm_unreachable("unknown OpenMP loop iterator bitwidth");
1016 }
1017 
1018 // Sets the number of loop iterations to the given value. This value must be
1019 // valid in the condition block (i.e., defined in the preheader) and is
1020 // interpreted as an unsigned integer.
setCanonicalLoopTripCount(CanonicalLoopInfo * CLI,Value * TripCount)1021 void setCanonicalLoopTripCount(CanonicalLoopInfo *CLI, Value *TripCount) {
1022   Instruction *CmpI = &CLI->getCond()->front();
1023   assert(isa<CmpInst>(CmpI) && "First inst must compare IV with TripCount");
1024   CmpI->setOperand(1, TripCount);
1025   CLI->assertOK();
1026 }
1027 
createStaticWorkshareLoop(const LocationDescription & Loc,CanonicalLoopInfo * CLI,InsertPointTy AllocaIP,bool NeedsBarrier,Value * Chunk)1028 CanonicalLoopInfo *OpenMPIRBuilder::createStaticWorkshareLoop(
1029     const LocationDescription &Loc, CanonicalLoopInfo *CLI,
1030     InsertPointTy AllocaIP, bool NeedsBarrier, Value *Chunk) {
1031   // Set up the source location value for OpenMP runtime.
1032   if (!updateToLocation(Loc))
1033     return nullptr;
1034 
1035   Constant *SrcLocStr = getOrCreateSrcLocStr(Loc);
1036   Value *SrcLoc = getOrCreateIdent(SrcLocStr);
1037 
1038   // Declare useful OpenMP runtime functions.
1039   Value *IV = CLI->getIndVar();
1040   Type *IVTy = IV->getType();
1041   FunctionCallee StaticInit = getKmpcForStaticInitForType(IVTy, M, *this);
1042   FunctionCallee StaticFini =
1043       getOrCreateRuntimeFunction(M, omp::OMPRTL___kmpc_for_static_fini);
1044 
1045   // Allocate space for computed loop bounds as expected by the "init" function.
1046   Builder.restoreIP(AllocaIP);
1047   Type *I32Type = Type::getInt32Ty(M.getContext());
1048   Value *PLastIter = Builder.CreateAlloca(I32Type, nullptr, "p.lastiter");
1049   Value *PLowerBound = Builder.CreateAlloca(IVTy, nullptr, "p.lowerbound");
1050   Value *PUpperBound = Builder.CreateAlloca(IVTy, nullptr, "p.upperbound");
1051   Value *PStride = Builder.CreateAlloca(IVTy, nullptr, "p.stride");
1052 
1053   // At the end of the preheader, prepare for calling the "init" function by
1054   // storing the current loop bounds into the allocated space. A canonical loop
1055   // always iterates from 0 to trip-count with step 1. Note that "init" expects
1056   // and produces an inclusive upper bound.
1057   Builder.SetInsertPoint(CLI->getPreheader()->getTerminator());
1058   Constant *Zero = ConstantInt::get(IVTy, 0);
1059   Constant *One = ConstantInt::get(IVTy, 1);
1060   Builder.CreateStore(Zero, PLowerBound);
1061   Value *UpperBound = Builder.CreateSub(CLI->getTripCount(), One);
1062   Builder.CreateStore(UpperBound, PUpperBound);
1063   Builder.CreateStore(One, PStride);
1064 
1065   if (!Chunk)
1066     Chunk = One;
1067 
1068   Value *ThreadNum = getOrCreateThreadID(SrcLoc);
1069 
1070   // TODO: extract scheduling type and map it to OMP constant. This is curently
1071   // happening in kmp.h and its ilk and needs to be moved to OpenMP.td first.
1072   constexpr int StaticSchedType = 34;
1073   Constant *SchedulingType = ConstantInt::get(I32Type, StaticSchedType);
1074 
1075   // Call the "init" function and update the trip count of the loop with the
1076   // value it produced.
1077   Builder.CreateCall(StaticInit,
1078                      {SrcLoc, ThreadNum, SchedulingType, PLastIter, PLowerBound,
1079                       PUpperBound, PStride, One, Chunk});
1080   Value *LowerBound = Builder.CreateLoad(PLowerBound);
1081   Value *InclusiveUpperBound = Builder.CreateLoad(PUpperBound);
1082   Value *TripCountMinusOne = Builder.CreateSub(InclusiveUpperBound, LowerBound);
1083   Value *TripCount = Builder.CreateAdd(TripCountMinusOne, One);
1084   setCanonicalLoopTripCount(CLI, TripCount);
1085 
1086   // Update all uses of the induction variable except the one in the condition
1087   // block that compares it with the actual upper bound, and the increment in
1088   // the latch block.
1089   // TODO: this can eventually move to CanonicalLoopInfo or to a new
1090   // CanonicalLoopInfoUpdater interface.
1091   Builder.SetInsertPoint(CLI->getBody(), CLI->getBody()->getFirstInsertionPt());
1092   Value *UpdatedIV = Builder.CreateAdd(IV, LowerBound);
1093   IV->replaceUsesWithIf(UpdatedIV, [&](Use &U) {
1094     auto *Instr = dyn_cast<Instruction>(U.getUser());
1095     return !Instr ||
1096            (Instr->getParent() != CLI->getCond() &&
1097             Instr->getParent() != CLI->getLatch() && Instr != UpdatedIV);
1098   });
1099 
1100   // In the "exit" block, call the "fini" function.
1101   Builder.SetInsertPoint(CLI->getExit(),
1102                          CLI->getExit()->getTerminator()->getIterator());
1103   Builder.CreateCall(StaticFini, {SrcLoc, ThreadNum});
1104 
1105   // Add the barrier if requested.
1106   if (NeedsBarrier)
1107     createBarrier(LocationDescription(Builder.saveIP(), Loc.DL),
1108                   omp::Directive::OMPD_for, /* ForceSimpleCall */ false,
1109                   /* CheckCancelFlag */ false);
1110 
1111   CLI->assertOK();
1112   return CLI;
1113 }
1114 
eraseFromParent()1115 void CanonicalLoopInfo::eraseFromParent() {
1116   assert(IsValid && "can only erase previously valid loop cfg");
1117   IsValid = false;
1118 
1119   SmallVector<BasicBlock *, 5> BBsToRemove{Header, Cond, Latch, Exit};
1120   SmallVector<Instruction *, 16> InstsToRemove;
1121 
1122   // Only remove preheader if not re-purposed somewhere else.
1123   if (Preheader->getNumUses() == 0)
1124     BBsToRemove.push_back(Preheader);
1125 
1126   DeleteDeadBlocks(BBsToRemove);
1127 }
1128 
1129 OpenMPIRBuilder::InsertPointTy
createCopyPrivate(const LocationDescription & Loc,llvm::Value * BufSize,llvm::Value * CpyBuf,llvm::Value * CpyFn,llvm::Value * DidIt)1130 OpenMPIRBuilder::createCopyPrivate(const LocationDescription &Loc,
1131                                    llvm::Value *BufSize, llvm::Value *CpyBuf,
1132                                    llvm::Value *CpyFn, llvm::Value *DidIt) {
1133   if (!updateToLocation(Loc))
1134     return Loc.IP;
1135 
1136   Constant *SrcLocStr = getOrCreateSrcLocStr(Loc);
1137   Value *Ident = getOrCreateIdent(SrcLocStr);
1138   Value *ThreadId = getOrCreateThreadID(Ident);
1139 
1140   llvm::Value *DidItLD = Builder.CreateLoad(DidIt);
1141 
1142   Value *Args[] = {Ident, ThreadId, BufSize, CpyBuf, CpyFn, DidItLD};
1143 
1144   Function *Fn = getOrCreateRuntimeFunctionPtr(OMPRTL___kmpc_copyprivate);
1145   Builder.CreateCall(Fn, Args);
1146 
1147   return Builder.saveIP();
1148 }
1149 
1150 OpenMPIRBuilder::InsertPointTy
createSingle(const LocationDescription & Loc,BodyGenCallbackTy BodyGenCB,FinalizeCallbackTy FiniCB,llvm::Value * DidIt)1151 OpenMPIRBuilder::createSingle(const LocationDescription &Loc,
1152                               BodyGenCallbackTy BodyGenCB,
1153                               FinalizeCallbackTy FiniCB, llvm::Value *DidIt) {
1154 
1155   if (!updateToLocation(Loc))
1156     return Loc.IP;
1157 
1158   // If needed (i.e. not null), initialize `DidIt` with 0
1159   if (DidIt) {
1160     Builder.CreateStore(Builder.getInt32(0), DidIt);
1161   }
1162 
1163   Directive OMPD = Directive::OMPD_single;
1164   Constant *SrcLocStr = getOrCreateSrcLocStr(Loc);
1165   Value *Ident = getOrCreateIdent(SrcLocStr);
1166   Value *ThreadId = getOrCreateThreadID(Ident);
1167   Value *Args[] = {Ident, ThreadId};
1168 
1169   Function *EntryRTLFn = getOrCreateRuntimeFunctionPtr(OMPRTL___kmpc_single);
1170   Instruction *EntryCall = Builder.CreateCall(EntryRTLFn, Args);
1171 
1172   Function *ExitRTLFn = getOrCreateRuntimeFunctionPtr(OMPRTL___kmpc_end_single);
1173   Instruction *ExitCall = Builder.CreateCall(ExitRTLFn, Args);
1174 
1175   // generates the following:
1176   // if (__kmpc_single()) {
1177   //		.... single region ...
1178   // 		__kmpc_end_single
1179   // }
1180 
1181   return EmitOMPInlinedRegion(OMPD, EntryCall, ExitCall, BodyGenCB, FiniCB,
1182                               /*Conditional*/ true, /*hasFinalize*/ true);
1183 }
1184 
createCritical(const LocationDescription & Loc,BodyGenCallbackTy BodyGenCB,FinalizeCallbackTy FiniCB,StringRef CriticalName,Value * HintInst)1185 OpenMPIRBuilder::InsertPointTy OpenMPIRBuilder::createCritical(
1186     const LocationDescription &Loc, BodyGenCallbackTy BodyGenCB,
1187     FinalizeCallbackTy FiniCB, StringRef CriticalName, Value *HintInst) {
1188 
1189   if (!updateToLocation(Loc))
1190     return Loc.IP;
1191 
1192   Directive OMPD = Directive::OMPD_critical;
1193   Constant *SrcLocStr = getOrCreateSrcLocStr(Loc);
1194   Value *Ident = getOrCreateIdent(SrcLocStr);
1195   Value *ThreadId = getOrCreateThreadID(Ident);
1196   Value *LockVar = getOMPCriticalRegionLock(CriticalName);
1197   Value *Args[] = {Ident, ThreadId, LockVar};
1198 
1199   SmallVector<llvm::Value *, 4> EnterArgs(std::begin(Args), std::end(Args));
1200   Function *RTFn = nullptr;
1201   if (HintInst) {
1202     // Add Hint to entry Args and create call
1203     EnterArgs.push_back(HintInst);
1204     RTFn = getOrCreateRuntimeFunctionPtr(OMPRTL___kmpc_critical_with_hint);
1205   } else {
1206     RTFn = getOrCreateRuntimeFunctionPtr(OMPRTL___kmpc_critical);
1207   }
1208   Instruction *EntryCall = Builder.CreateCall(RTFn, EnterArgs);
1209 
1210   Function *ExitRTLFn =
1211       getOrCreateRuntimeFunctionPtr(OMPRTL___kmpc_end_critical);
1212   Instruction *ExitCall = Builder.CreateCall(ExitRTLFn, Args);
1213 
1214   return EmitOMPInlinedRegion(OMPD, EntryCall, ExitCall, BodyGenCB, FiniCB,
1215                               /*Conditional*/ false, /*hasFinalize*/ true);
1216 }
1217 
EmitOMPInlinedRegion(Directive OMPD,Instruction * EntryCall,Instruction * ExitCall,BodyGenCallbackTy BodyGenCB,FinalizeCallbackTy FiniCB,bool Conditional,bool HasFinalize)1218 OpenMPIRBuilder::InsertPointTy OpenMPIRBuilder::EmitOMPInlinedRegion(
1219     Directive OMPD, Instruction *EntryCall, Instruction *ExitCall,
1220     BodyGenCallbackTy BodyGenCB, FinalizeCallbackTy FiniCB, bool Conditional,
1221     bool HasFinalize) {
1222 
1223   if (HasFinalize)
1224     FinalizationStack.push_back({FiniCB, OMPD, /*IsCancellable*/ false});
1225 
1226   // Create inlined region's entry and body blocks, in preparation
1227   // for conditional creation
1228   BasicBlock *EntryBB = Builder.GetInsertBlock();
1229   Instruction *SplitPos = EntryBB->getTerminator();
1230   if (!isa_and_nonnull<BranchInst>(SplitPos))
1231     SplitPos = new UnreachableInst(Builder.getContext(), EntryBB);
1232   BasicBlock *ExitBB = EntryBB->splitBasicBlock(SplitPos, "omp_region.end");
1233   BasicBlock *FiniBB =
1234       EntryBB->splitBasicBlock(EntryBB->getTerminator(), "omp_region.finalize");
1235 
1236   Builder.SetInsertPoint(EntryBB->getTerminator());
1237   emitCommonDirectiveEntry(OMPD, EntryCall, ExitBB, Conditional);
1238 
1239   // generate body
1240   BodyGenCB(/* AllocaIP */ InsertPointTy(),
1241             /* CodeGenIP */ Builder.saveIP(), *FiniBB);
1242 
1243   // If we didn't emit a branch to FiniBB during body generation, it means
1244   // FiniBB is unreachable (e.g. while(1);). stop generating all the
1245   // unreachable blocks, and remove anything we are not going to use.
1246   auto SkipEmittingRegion = FiniBB->hasNPredecessors(0);
1247   if (SkipEmittingRegion) {
1248     FiniBB->eraseFromParent();
1249     ExitCall->eraseFromParent();
1250     // Discard finalization if we have it.
1251     if (HasFinalize) {
1252       assert(!FinalizationStack.empty() &&
1253              "Unexpected finalization stack state!");
1254       FinalizationStack.pop_back();
1255     }
1256   } else {
1257     // emit exit call and do any needed finalization.
1258     auto FinIP = InsertPointTy(FiniBB, FiniBB->getFirstInsertionPt());
1259     assert(FiniBB->getTerminator()->getNumSuccessors() == 1 &&
1260            FiniBB->getTerminator()->getSuccessor(0) == ExitBB &&
1261            "Unexpected control flow graph state!!");
1262     emitCommonDirectiveExit(OMPD, FinIP, ExitCall, HasFinalize);
1263     assert(FiniBB->getUniquePredecessor()->getUniqueSuccessor() == FiniBB &&
1264            "Unexpected Control Flow State!");
1265     MergeBlockIntoPredecessor(FiniBB);
1266   }
1267 
1268   // If we are skipping the region of a non conditional, remove the exit
1269   // block, and clear the builder's insertion point.
1270   assert(SplitPos->getParent() == ExitBB &&
1271          "Unexpected Insertion point location!");
1272   if (!Conditional && SkipEmittingRegion) {
1273     ExitBB->eraseFromParent();
1274     Builder.ClearInsertionPoint();
1275   } else {
1276     auto merged = MergeBlockIntoPredecessor(ExitBB);
1277     BasicBlock *ExitPredBB = SplitPos->getParent();
1278     auto InsertBB = merged ? ExitPredBB : ExitBB;
1279     if (!isa_and_nonnull<BranchInst>(SplitPos))
1280       SplitPos->eraseFromParent();
1281     Builder.SetInsertPoint(InsertBB);
1282   }
1283 
1284   return Builder.saveIP();
1285 }
1286 
emitCommonDirectiveEntry(Directive OMPD,Value * EntryCall,BasicBlock * ExitBB,bool Conditional)1287 OpenMPIRBuilder::InsertPointTy OpenMPIRBuilder::emitCommonDirectiveEntry(
1288     Directive OMPD, Value *EntryCall, BasicBlock *ExitBB, bool Conditional) {
1289 
1290   // if nothing to do, Return current insertion point.
1291   if (!Conditional)
1292     return Builder.saveIP();
1293 
1294   BasicBlock *EntryBB = Builder.GetInsertBlock();
1295   Value *CallBool = Builder.CreateIsNotNull(EntryCall);
1296   auto *ThenBB = BasicBlock::Create(M.getContext(), "omp_region.body");
1297   auto *UI = new UnreachableInst(Builder.getContext(), ThenBB);
1298 
1299   // Emit thenBB and set the Builder's insertion point there for
1300   // body generation next. Place the block after the current block.
1301   Function *CurFn = EntryBB->getParent();
1302   CurFn->getBasicBlockList().insertAfter(EntryBB->getIterator(), ThenBB);
1303 
1304   // Move Entry branch to end of ThenBB, and replace with conditional
1305   // branch (If-stmt)
1306   Instruction *EntryBBTI = EntryBB->getTerminator();
1307   Builder.CreateCondBr(CallBool, ThenBB, ExitBB);
1308   EntryBBTI->removeFromParent();
1309   Builder.SetInsertPoint(UI);
1310   Builder.Insert(EntryBBTI);
1311   UI->eraseFromParent();
1312   Builder.SetInsertPoint(ThenBB->getTerminator());
1313 
1314   // return an insertion point to ExitBB.
1315   return IRBuilder<>::InsertPoint(ExitBB, ExitBB->getFirstInsertionPt());
1316 }
1317 
emitCommonDirectiveExit(omp::Directive OMPD,InsertPointTy FinIP,Instruction * ExitCall,bool HasFinalize)1318 OpenMPIRBuilder::InsertPointTy OpenMPIRBuilder::emitCommonDirectiveExit(
1319     omp::Directive OMPD, InsertPointTy FinIP, Instruction *ExitCall,
1320     bool HasFinalize) {
1321 
1322   Builder.restoreIP(FinIP);
1323 
1324   // If there is finalization to do, emit it before the exit call
1325   if (HasFinalize) {
1326     assert(!FinalizationStack.empty() &&
1327            "Unexpected finalization stack state!");
1328 
1329     FinalizationInfo Fi = FinalizationStack.pop_back_val();
1330     assert(Fi.DK == OMPD && "Unexpected Directive for Finalization call!");
1331 
1332     Fi.FiniCB(FinIP);
1333 
1334     BasicBlock *FiniBB = FinIP.getBlock();
1335     Instruction *FiniBBTI = FiniBB->getTerminator();
1336 
1337     // set Builder IP for call creation
1338     Builder.SetInsertPoint(FiniBBTI);
1339   }
1340 
1341   // place the Exitcall as last instruction before Finalization block terminator
1342   ExitCall->removeFromParent();
1343   Builder.Insert(ExitCall);
1344 
1345   return IRBuilder<>::InsertPoint(ExitCall->getParent(),
1346                                   ExitCall->getIterator());
1347 }
1348 
createCopyinClauseBlocks(InsertPointTy IP,Value * MasterAddr,Value * PrivateAddr,llvm::IntegerType * IntPtrTy,bool BranchtoEnd)1349 OpenMPIRBuilder::InsertPointTy OpenMPIRBuilder::createCopyinClauseBlocks(
1350     InsertPointTy IP, Value *MasterAddr, Value *PrivateAddr,
1351     llvm::IntegerType *IntPtrTy, bool BranchtoEnd) {
1352   if (!IP.isSet())
1353     return IP;
1354 
1355   IRBuilder<>::InsertPointGuard IPG(Builder);
1356 
1357   // creates the following CFG structure
1358   //	   OMP_Entry : (MasterAddr != PrivateAddr)?
1359   //       F     T
1360   //       |      \
1361   //       |     copin.not.master
1362   //       |      /
1363   //       v     /
1364   //   copyin.not.master.end
1365   //		     |
1366   //         v
1367   //   OMP.Entry.Next
1368 
1369   BasicBlock *OMP_Entry = IP.getBlock();
1370   Function *CurFn = OMP_Entry->getParent();
1371   BasicBlock *CopyBegin =
1372       BasicBlock::Create(M.getContext(), "copyin.not.master", CurFn);
1373   BasicBlock *CopyEnd = nullptr;
1374 
1375   // If entry block is terminated, split to preserve the branch to following
1376   // basic block (i.e. OMP.Entry.Next), otherwise, leave everything as is.
1377   if (isa_and_nonnull<BranchInst>(OMP_Entry->getTerminator())) {
1378     CopyEnd = OMP_Entry->splitBasicBlock(OMP_Entry->getTerminator(),
1379                                          "copyin.not.master.end");
1380     OMP_Entry->getTerminator()->eraseFromParent();
1381   } else {
1382     CopyEnd =
1383         BasicBlock::Create(M.getContext(), "copyin.not.master.end", CurFn);
1384   }
1385 
1386   Builder.SetInsertPoint(OMP_Entry);
1387   Value *MasterPtr = Builder.CreatePtrToInt(MasterAddr, IntPtrTy);
1388   Value *PrivatePtr = Builder.CreatePtrToInt(PrivateAddr, IntPtrTy);
1389   Value *cmp = Builder.CreateICmpNE(MasterPtr, PrivatePtr);
1390   Builder.CreateCondBr(cmp, CopyBegin, CopyEnd);
1391 
1392   Builder.SetInsertPoint(CopyBegin);
1393   if (BranchtoEnd)
1394     Builder.SetInsertPoint(Builder.CreateBr(CopyEnd));
1395 
1396   return Builder.saveIP();
1397 }
1398 
createOMPAlloc(const LocationDescription & Loc,Value * Size,Value * Allocator,std::string Name)1399 CallInst *OpenMPIRBuilder::createOMPAlloc(const LocationDescription &Loc,
1400                                           Value *Size, Value *Allocator,
1401                                           std::string Name) {
1402   IRBuilder<>::InsertPointGuard IPG(Builder);
1403   Builder.restoreIP(Loc.IP);
1404 
1405   Constant *SrcLocStr = getOrCreateSrcLocStr(Loc);
1406   Value *Ident = getOrCreateIdent(SrcLocStr);
1407   Value *ThreadId = getOrCreateThreadID(Ident);
1408   Value *Args[] = {ThreadId, Size, Allocator};
1409 
1410   Function *Fn = getOrCreateRuntimeFunctionPtr(OMPRTL___kmpc_alloc);
1411 
1412   return Builder.CreateCall(Fn, Args, Name);
1413 }
1414 
createOMPFree(const LocationDescription & Loc,Value * Addr,Value * Allocator,std::string Name)1415 CallInst *OpenMPIRBuilder::createOMPFree(const LocationDescription &Loc,
1416                                          Value *Addr, Value *Allocator,
1417                                          std::string Name) {
1418   IRBuilder<>::InsertPointGuard IPG(Builder);
1419   Builder.restoreIP(Loc.IP);
1420 
1421   Constant *SrcLocStr = getOrCreateSrcLocStr(Loc);
1422   Value *Ident = getOrCreateIdent(SrcLocStr);
1423   Value *ThreadId = getOrCreateThreadID(Ident);
1424   Value *Args[] = {ThreadId, Addr, Allocator};
1425   Function *Fn = getOrCreateRuntimeFunctionPtr(OMPRTL___kmpc_free);
1426   return Builder.CreateCall(Fn, Args, Name);
1427 }
1428 
createCachedThreadPrivate(const LocationDescription & Loc,llvm::Value * Pointer,llvm::ConstantInt * Size,const llvm::Twine & Name)1429 CallInst *OpenMPIRBuilder::createCachedThreadPrivate(
1430     const LocationDescription &Loc, llvm::Value *Pointer,
1431     llvm::ConstantInt *Size, const llvm::Twine &Name) {
1432   IRBuilder<>::InsertPointGuard IPG(Builder);
1433   Builder.restoreIP(Loc.IP);
1434 
1435   Constant *SrcLocStr = getOrCreateSrcLocStr(Loc);
1436   Value *Ident = getOrCreateIdent(SrcLocStr);
1437   Value *ThreadId = getOrCreateThreadID(Ident);
1438   Constant *ThreadPrivateCache =
1439       getOrCreateOMPInternalVariable(Int8PtrPtr, Name);
1440   llvm::Value *Args[] = {Ident, ThreadId, Pointer, Size, ThreadPrivateCache};
1441 
1442   Function *Fn =
1443   		getOrCreateRuntimeFunctionPtr(OMPRTL___kmpc_threadprivate_cached);
1444 
1445   return Builder.CreateCall(Fn, Args);
1446 }
1447 
getNameWithSeparators(ArrayRef<StringRef> Parts,StringRef FirstSeparator,StringRef Separator)1448 std::string OpenMPIRBuilder::getNameWithSeparators(ArrayRef<StringRef> Parts,
1449                                                    StringRef FirstSeparator,
1450                                                    StringRef Separator) {
1451   SmallString<128> Buffer;
1452   llvm::raw_svector_ostream OS(Buffer);
1453   StringRef Sep = FirstSeparator;
1454   for (StringRef Part : Parts) {
1455     OS << Sep << Part;
1456     Sep = Separator;
1457   }
1458   return OS.str().str();
1459 }
1460 
getOrCreateOMPInternalVariable(llvm::Type * Ty,const llvm::Twine & Name,unsigned AddressSpace)1461 Constant *OpenMPIRBuilder::getOrCreateOMPInternalVariable(
1462     llvm::Type *Ty, const llvm::Twine &Name, unsigned AddressSpace) {
1463   // TODO: Replace the twine arg with stringref to get rid of the conversion
1464   // logic. However This is taken from current implementation in clang as is.
1465   // Since this method is used in many places exclusively for OMP internal use
1466   // we will keep it as is for temporarily until we move all users to the
1467   // builder and then, if possible, fix it everywhere in one go.
1468   SmallString<256> Buffer;
1469   llvm::raw_svector_ostream Out(Buffer);
1470   Out << Name;
1471   StringRef RuntimeName = Out.str();
1472   auto &Elem = *InternalVars.try_emplace(RuntimeName, nullptr).first;
1473   if (Elem.second) {
1474     assert(Elem.second->getType()->getPointerElementType() == Ty &&
1475            "OMP internal variable has different type than requested");
1476   } else {
1477     // TODO: investigate the appropriate linkage type used for the global
1478     // variable for possibly changing that to internal or private, or maybe
1479     // create different versions of the function for different OMP internal
1480     // variables.
1481     Elem.second = new llvm::GlobalVariable(
1482         M, Ty, /*IsConstant*/ false, llvm::GlobalValue::CommonLinkage,
1483         llvm::Constant::getNullValue(Ty), Elem.first(),
1484         /*InsertBefore=*/nullptr, llvm::GlobalValue::NotThreadLocal,
1485         AddressSpace);
1486   }
1487 
1488   return Elem.second;
1489 }
1490 
getOMPCriticalRegionLock(StringRef CriticalName)1491 Value *OpenMPIRBuilder::getOMPCriticalRegionLock(StringRef CriticalName) {
1492   std::string Prefix = Twine("gomp_critical_user_", CriticalName).str();
1493   std::string Name = getNameWithSeparators({Prefix, "var"}, ".", ".");
1494   return getOrCreateOMPInternalVariable(KmpCriticalNameTy, Name);
1495 }
1496 
1497 // Create all simple and struct types exposed by the runtime and remember
1498 // the llvm::PointerTypes of them for easy access later.
initializeTypes(Module & M)1499 void OpenMPIRBuilder::initializeTypes(Module &M) {
1500   LLVMContext &Ctx = M.getContext();
1501   StructType *T;
1502 #define OMP_TYPE(VarName, InitValue) VarName = InitValue;
1503 #define OMP_ARRAY_TYPE(VarName, ElemTy, ArraySize)                             \
1504   VarName##Ty = ArrayType::get(ElemTy, ArraySize);                             \
1505   VarName##PtrTy = PointerType::getUnqual(VarName##Ty);
1506 #define OMP_FUNCTION_TYPE(VarName, IsVarArg, ReturnType, ...)                  \
1507   VarName = FunctionType::get(ReturnType, {__VA_ARGS__}, IsVarArg);            \
1508   VarName##Ptr = PointerType::getUnqual(VarName);
1509 #define OMP_STRUCT_TYPE(VarName, StructName, ...)                              \
1510   T = StructType::getTypeByName(Ctx, StructName);                              \
1511   if (!T)                                                                      \
1512     T = StructType::create(Ctx, {__VA_ARGS__}, StructName);                    \
1513   VarName = T;                                                                 \
1514   VarName##Ptr = PointerType::getUnqual(T);
1515 #include "llvm/Frontend/OpenMP/OMPKinds.def"
1516 }
1517 
collectBlocks(SmallPtrSetImpl<BasicBlock * > & BlockSet,SmallVectorImpl<BasicBlock * > & BlockVector)1518 void OpenMPIRBuilder::OutlineInfo::collectBlocks(
1519     SmallPtrSetImpl<BasicBlock *> &BlockSet,
1520     SmallVectorImpl<BasicBlock *> &BlockVector) {
1521   SmallVector<BasicBlock *, 32> Worklist;
1522   BlockSet.insert(EntryBB);
1523   BlockSet.insert(ExitBB);
1524 
1525   Worklist.push_back(EntryBB);
1526   while (!Worklist.empty()) {
1527     BasicBlock *BB = Worklist.pop_back_val();
1528     BlockVector.push_back(BB);
1529     for (BasicBlock *SuccBB : successors(BB))
1530       if (BlockSet.insert(SuccBB).second)
1531         Worklist.push_back(SuccBB);
1532   }
1533 }
1534 
assertOK() const1535 void CanonicalLoopInfo::assertOK() const {
1536 #ifndef NDEBUG
1537   if (!IsValid)
1538     return;
1539 
1540   // Verify standard control-flow we use for OpenMP loops.
1541   assert(Preheader);
1542   assert(isa<BranchInst>(Preheader->getTerminator()) &&
1543          "Preheader must terminate with unconditional branch");
1544   assert(Preheader->getSingleSuccessor() == Header &&
1545          "Preheader must jump to header");
1546 
1547   assert(Header);
1548   assert(isa<BranchInst>(Header->getTerminator()) &&
1549          "Header must terminate with unconditional branch");
1550   assert(Header->getSingleSuccessor() == Cond &&
1551          "Header must jump to exiting block");
1552 
1553   assert(Cond);
1554   assert(Cond->getSinglePredecessor() == Header &&
1555          "Exiting block only reachable from header");
1556 
1557   assert(isa<BranchInst>(Cond->getTerminator()) &&
1558          "Exiting block must terminate with conditional branch");
1559   assert(size(successors(Cond)) == 2 &&
1560          "Exiting block must have two successors");
1561   assert(cast<BranchInst>(Cond->getTerminator())->getSuccessor(0) == Body &&
1562          "Exiting block's first successor jump to the body");
1563   assert(cast<BranchInst>(Cond->getTerminator())->getSuccessor(1) == Exit &&
1564          "Exiting block's second successor must exit the loop");
1565 
1566   assert(Body);
1567   assert(Body->getSinglePredecessor() == Cond &&
1568          "Body only reachable from exiting block");
1569 
1570   assert(Latch);
1571   assert(isa<BranchInst>(Latch->getTerminator()) &&
1572          "Latch must terminate with unconditional branch");
1573   assert(Latch->getSingleSuccessor() == Header && "Latch must jump to header");
1574 
1575   assert(Exit);
1576   assert(isa<BranchInst>(Exit->getTerminator()) &&
1577          "Exit block must terminate with unconditional branch");
1578   assert(Exit->getSingleSuccessor() == After &&
1579          "Exit block must jump to after block");
1580 
1581   assert(After);
1582   assert(After->getSinglePredecessor() == Exit &&
1583          "After block only reachable from exit block");
1584 
1585   Instruction *IndVar = getIndVar();
1586   assert(IndVar && "Canonical induction variable not found?");
1587   assert(isa<IntegerType>(IndVar->getType()) &&
1588          "Induction variable must be an integer");
1589   assert(cast<PHINode>(IndVar)->getParent() == Header &&
1590          "Induction variable must be a PHI in the loop header");
1591 
1592   Value *TripCount = getTripCount();
1593   assert(TripCount && "Loop trip count not found?");
1594   assert(IndVar->getType() == TripCount->getType() &&
1595          "Trip count and induction variable must have the same type");
1596 
1597   auto *CmpI = cast<CmpInst>(&Cond->front());
1598   assert(CmpI->getPredicate() == CmpInst::ICMP_ULT &&
1599          "Exit condition must be a signed less-than comparison");
1600   assert(CmpI->getOperand(0) == IndVar &&
1601          "Exit condition must compare the induction variable");
1602   assert(CmpI->getOperand(1) == TripCount &&
1603          "Exit condition must compare with the trip count");
1604 #endif
1605 }
1606